JP7216439B2 - game machine - Google Patents

Description

The present invention relates to a gaming machine capable of executing a game based on the establishment of a predetermined condition.

A gaming machine is known that executes a game based on the establishment of a predetermined condition and can generate a special game state in which a game value is awarded to a player when the result of the game is a special result. Among such gaming machines, there is known a gaming machine having a function of selecting a probability set value for a special result.

JP 2017-121381 A

An object of the present invention is to prevent an unintended state due to initialization.

In order to solve the above problems, the invention according to claim 1,
In a gaming machine that can execute a game based on the establishment of a predetermined condition,
A game control means for controlling a game;
Based on the information from the game control means, production control means for controlling the game production,
setting means for enabling setting of setting values related to the game by operating an operation unit;
The game control means is
a storage means capable of retaining stored information even when power is cut off;
a validity determination means for determining whether the information stored in the storage means is valid when the power is turned on,
The storage means includes a first work area and a first stack area related to game control, and a second work area and a second stack area related to display regarding the performance of the gaming machine,
performing the validity determination by a checksum targeting the first work area and excluding the first stack area, the second work area, and the second stack area;
reading the state of the operation unit before performing the validity determination;
When the result of the legitimacy determination is not valid, the specific information is transmitted to the performance control means, the game is stopped until the power is cut off, and the set value can be set. If the condition is satisfied and the power is not turned on again, the game will be stopped again even if the power is turned on again.
In the game stop state, waiting for power cutoff without updating random numbers generated by software,
It is possible to output information to the outside of the game machine and to initialize information stored in the storage means in response to the establishment of the settable state . Characterized by
In addition, the invention according to claim 2,
In a gaming machine that can execute a game based on the establishment of a predetermined condition,
A game control means for controlling a game;
Based on the information from the game control means, production control means for controlling the game production,
setting means for enabling setting of setting values related to the game by operating an operation unit;
The game control means is
a storage means capable of retaining stored information even when power is cut off;
a validity determination means for determining whether the information stored in the storage means is valid when the power is turned on,
The storage means includes a first work area and a first stack area related to game control, and a second work area and a second stack area related to display regarding the performance of the gaming machine,
performing the validity determination by a checksum targeting the first work area and the first stack area and excluding the second work area and the second stack area;
reading the state of the operation unit before performing the validity determination;
When the result of the legitimacy determination is not valid, the specific information is transmitted to the performance control means, the game is stopped until the power is cut off, and the set value can be set. If the condition is satisfied and the power is not turned on again, the game will be stopped again even if the power is turned on again.
In the game stop state, waiting for power cutoff without updating random numbers generated by software,
It is possible to output information to the outside of the game machine and to initialize information stored in the storage means in response to the establishment of the settable state . Characterized by

According to the present invention, it is possible to prevent an unintended state due to initialization.

BRIEF DESCRIPTION OF THE DRAWINGS It is the perspective view which looked at the gaming machine of one Embodiment of this invention from the front side. It is a front view of a game board. It is a block diagram which shows the structural example of the control system of a game machine. It is a block diagram which shows the structural example of the control system of a game machine. 4 is a flowchart for explaining main processing; 4 is a flowchart for explaining main processing; 4 is a flowchart for explaining timer interrupt processing; 4 is a flowchart for explaining output processing; FIG. 10 is a flowchart for explaining payout command transmission processing; FIG. It is a flow chart for explaining a winning opening switch/state monitoring process. 9 is a flowchart for explaining probability setting value change processing; 9 is a flowchart for explaining probability setting value confirmation processing; It is a flow chart explaining special figure game processing. It is a flow chart explaining a start opening switch monitoring process. 10 is a flowchart for explaining hard random number acquisition processing; It is a flow chart for explaining a special figure starting mouth switch common processing. It is a flowchart explaining a special figure reservation information determination process. It is a flow chart for explaining the special figure usual processing. (a) is a flowchart for explaining the special figure 1 fluctuation start process, (b) is a flowchart for explaining the special figure 2 fluctuation start process. It is a flowchart explaining big-hit determination processing. It is a flowchart explaining small hit determination processing. It is a flow chart explaining processing during special figure fluctuation. It is a flowchart explaining processing during special figure display. It is a flowchart explaining processing during special figure display. It is a flow chart explaining normal figure game processing. It is a flow chart explaining normal figure usual processing. It is a flowchart explaining processing during normal figure fluctuation. It is a flow chart explaining processing during normal figure display. It is a flowchart explaining processing during a normal figure hit. 10 is a flowchart for explaining external information editing processing; 10 is a flowchart for explaining external information editing processing; It is a flow chart explaining the main processing in the production control device. 9 is a flowchart for explaining received command check processing; 9 is a flowchart for explaining received command analysis processing; It is a figure explaining another example of setting of a probability set value. FIG. 11 is a flowchart for explaining main processing in the first modified example; FIG. FIG. 11 is a flowchart for explaining probability setting value change processing in a second modified example; FIG. FIG. 13 is a flowchart for explaining determination condition monitoring processing in a second modified example; FIG. FIG. 11 is a flowchart for explaining main processing in a third modified example; FIG. FIG. 11 is a flowchart for explaining transition determination processing in a third modified example; FIG. FIG. 14 is a diagram for explaining states of switches corresponding to probability set values in a fourth modified example; FIG. 14 is a flowchart for explaining probability setting value change processing in a fourth modification; FIG. It is a figure explaining the schematic structure of the setting means in a 5th modification, and a game control apparatus.

<First embodiment>
Preferred embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory diagram of a gaming machine according to one embodiment of the present invention.

The game machine 10 of this embodiment has a front frame 12, and the front frame 12 is attached to an outer frame (support frame) 11 so as to be openable and rotatable. A game board 30 (see FIG. 2) is housed in a housing (not shown) formed on the front side of the front frame 12 . A glass frame 15 (transparent plate holding frame) having a cover glass (transparent member) 14 covering the front surface of the game board 30 is attached to the front frame (body frame) 12 .

In addition, lamps, LEDs, etc. are built in the left and right of the glass frame 15 to decorate and produce, and to notify when an abnormality occurs (for example, when a dispensing abnormality occurs, the lamp, LED, etc. is changed to an abnormality notification color (for example, red). ), and a speaker (upper speaker) 19a for emitting sound (for example, sound effects). Further, a speaker (lower speaker) 19b is also provided on the lower portion of the front frame 12. As shown in FIG. Further, when an abnormality occurs, the content of the abnormality is notified by voice from the speaker (upper speaker) 19a and the speaker (lower speaker) 19b. It should be noted that a lamp may be provided at a predetermined portion of the glass frame 15 for announcing abnormal dispensing.

Further, in the lower part of the front frame 12, an upper tray 21 (storage tray) for supplying game balls to a batted ball shooting device (not shown), and game balls paid out from a payout unit provided on the back side of the gaming machine 10 are stored. An upper tray ball outlet 22 for flowing out, a lower tray (receiving tray) 23 for storing game balls dispensed when the upper tray 21 is full, and an operation handle 24 for a ball shooting device are provided. Further, the upper edge of the upper plate 21 is provided with a performance button 25 incorporating a performance button switch 25a for receiving a pressing operation input from the player. Further, a touch panel 29 is provided on the upper surface (pressing surface) of the effect button 25 for receiving contact operation input from the player. Further, a keyhole 26 for inserting a key for opening or locking the front frame 12 and the glass frame 15 is provided on the lower right side of the front frame 12 .
In this embodiment, the touch panel 29 is provided integrally with the effect button 25, but the touch panel 29 may be separate from the effect button 25. For example, a sub display device is provided near the effect button 25, A touch panel 29 may be provided on the display surface of the sub display device.

Also, on the right side of the effect button 25, there is a ball lending button 27 operated by the player when receiving a ball lending from an adjacent ball lending machine, and an ejection button operated to eject a prepaid card from the card unit of the ball lending machine. 28, a balance display unit (not shown) for displaying the balance of the prepaid card, etc. are provided. In the gaming machine 10 of this embodiment, when the player rotates the operation handle 24, the batted ball shooting device shoots the game ball supplied from the upper tray 21 toward the game area 32 on the front side of the game board 30. fire. In addition, by operating the effect button 25 or the touch panel 29 by the player, in the variable display game (decorative special figure variable display game) on the display device 41 (see FIG. 2), the effect etc. that intervened the operation of the player are performed. It can be carried out.

Next, an example of the game board 30 will be described with reference to FIG. FIG. 2 is a front view of the game board 30 of this embodiment.

A substantially circular game area 32 surrounded by guide rails 31 is formed on the surface of the game board 30 . The game area 32 is surrounded by resin side cases 33 and guide rails 31 provided at the four corners of the game board 30 . In the game area 32, a center case (game effect structure) 40 having a display device 41 is arranged substantially in the center. The display device 41 is attached to a recess provided in the center case 40 at a position recessed from the front surface of the center case 40 . That is, the center case 40 surrounds the display area of the display device 41 and protrudes forward from the display surface of the display device 41 to prevent game balls from jumping into the surrounding game area 32 .

The display device 41 (variable display device) is composed of a device having a display screen such as an LCD (liquid crystal display) or a CRT (cathode-ray tube). In the area where the image of the display screen can be displayed (display area), information related to the game such as multiple identification information (special symbols), characters that direct the special symbol fluctuation display game, and background images that enhance the performance effect are displayed. . On the display screen of the display device 41, a plurality of special symbols assigned as identification information are variably displayed (variably displayed), and a decoration special figure variation display game corresponding to the special figure variation display game is performed. The display screen also displays images for effects based on the progress of the game (for example, a big win display image, a fanfare display image, an ending display image, etc.).
Further, the left and right parts of the center case 40 are provided with a board effect device 44 which serves as a movable effect device for effecting a game including a special figure variation display game by operating movable effect members. This board effect device 44 can operate toward the center of the display device 41 from the state shown in FIG.

In addition, in the lower left part of the center case 40, a sub for displaying the fourth symbol for executing the decoration special figure variation display game separately from the decoration special figure variation display game displayed on the display device 41 and the number of starting memories is displayed. An information display device 90 is provided.

This sub-information display device 90 is composed of a single light-emitting section serving as a sub-game display section for displaying a fourth symbol for executing a decoration special-figure variation display game corresponding to the first special-figure variation display game. A second sub game display section 91 and a single light emitting section forming a sub game display section for displaying a fourth symbol for executing a decoration special figure variation display game corresponding to the second special figure variation display game. A game display unit 92 is provided. Furthermore, a first sub-display unit 93 indicating the number of first starting memories that is the right to execute the first special figure variation display game by two light emitting units, and a second special figure variation display game by two light emitting units and a second sub-display 94 that indicates the number of second starting memories that you are entitled to.

In the first sub-game display section 91 and the second sub-game display section 92, a display indicating that the corresponding special figure variation display game is being displayed in a variation display and a display indicating the result are displayed. can be displayed by In addition, the first sub-display unit 93 and the second sub-display unit 94 display the number of the first starting memory (special figure 1 pending) and the second starting memory (special figure 2 pending), respectively, turning off the two light emitting units, It can be displayed by flashing or lighting.

By providing the sub-information display device 90 separately from the display device 41, the display region of the display device 41 is not occupied by displaying the fourth pattern on the display device 41, and the display region is effectively utilized. be able to. The sub-information display device 90 is provided outside the operation range of the board presentation device 44, so that the sub-information display device 90 is not covered during the operation of the board presentation device 44. .

On the lower right side of the center case 40 in the game area 32, there is provided a normal symbol start gate 34 (normal pattern start gate, start area, inflow area) that provides a starting condition for the normal pattern fluctuation display game. A game ball that has won the normal figure starting gate 34 is detected by a gate switch 34a (see FIG. 3).
In addition, three general winning openings 35 are arranged on the lower left side of the center case 40 in the game area 32, and one general winning opening is arranged on the lower right side of the center case 40 and below the normal figure start gate 34. A mouth 35 is arranged. The game balls that have entered these general winning holes 35 are detected by a winning hole switch 35a (see FIG. 3).

In addition, below the center case 40 in the game area 32, there is provided a starting prize winning opening 36 (first starting winning opening, starting area, inflow area) that provides conditions for starting the first special figure variation display game. A game ball that has entered the starting winning opening 36 is detected by the starting opening 1 switch 36a (see FIG. 3).

In addition, immediately below the starting winning opening 36, there is provided a normal variable winning device 37 (second starting winning opening, starting area, inflow area) that gives a condition for starting the second special figure fluctuation display game.
The normal variable winning device 37 is provided with a movable member 37b that can be converted into a state in which the upper end side is turned in a direction in which it falls down to the front side to open and allow game balls to easily flow in. This movable member 37b is always It maintains a closed closed state (a state disadvantageous to the player) in which game balls cannot flow in. Then, when the result of the normal pattern fluctuation display game becomes a predetermined stop display mode, the general electric solenoid 37c (see FIG. 3) as a driving device opens the game ball to easily flow into the normal fluctuation winning device 37. It can be changed to a state (a state advantageous to the player). A game ball that has won the normal variable winning device 37 is detected by the starting port 2 switch 37a (see FIG. 3). In addition, it is also possible to make it possible to win prizes even when the normal variable prize winning device 37 is closed, and to win prizes in the closed state rather than in the open state.
In addition, below the normal variable prize winning device 37, an out port 30a for recovering game balls that did not win a prize such as a prize winning port is provided.

Furthermore, below the center case 40 in the game area 32 and on the right side of the start winning opening 36, a special variation that can be converted into a state in which the game ball is not accepted and a state in which it is easy to accept the game ball depending on the result of the special figure variation display game A prize winning device (large prize winning opening) 38 is provided.
The special variable winning device 38 has an attacker-type open/close door 38c that can be opened by rotating in a direction in which the upper end side falls to the front side. The closed state (disadvantageous closed state for the player) of the big winning port is changed to the open state (advantageous state for the player). That is, the special variable winning device 38 includes, for example, a large winning opening that is opened and closed by an open/close door 38c driven by a large winning opening solenoid 38b (see FIG. 3) as a driving device. During the state, the closed state of the large winning opening is changed to the open state, thereby facilitating the inflow of game balls into the large winning opening, and providing a predetermined game value (prize balls) to the player. It's becoming Inside the big winning hole (winning area), a big winning hole switch (count switch) 38a (see FIG. 3) is arranged as a detecting means for detecting a game ball that has entered the big winning hole. . In the gaming machine of this embodiment, two large winning hole switches 38a are provided, and a game ball that has flowed into the large winning hole is detected by one of the large winning hole switches 38a. By providing a plurality of the large winning opening switches 38a in this way, it is possible to quickly detect the game ball that has flowed into the large winning opening.

In the gaming machine 10 of the present embodiment, of the game area 32 in which game balls flow down, the area to the left of the center case 40 is defined as the left area, and the area to the right of the center case 40 is defined as the right area. ing. Then, the player can aim to win a prize in the starting prize-winning opening 36 by adjusting the shooting force and shooting a game ball to the left game area (so-called left-handed hitting), and shooting a game ball to the right-side game area (so-called By hitting to the right, it is possible to aim for winning the normal figure start gate 34, the normal variable winning device 37, or the special variable winning device 38.
Here, in the gaming machine 10 of the present embodiment, a flow path forming member 42 attached to the right end of the center case 40 is arranged at a position corresponding to the right game area, and discharges to the right game area. The played game ball is configured to pass through the channel formed by the channel forming member 42 . At least the front surface of the flow path forming member 42 is made of a material that allows a game ball passing through the flow path formed by the flow path forming member 42 to be visible from the outside. A game ball passing through the flow path formed by the forming member 42 (that is, a game ball flowing down the right game area) can be visually recognized from the front of the flow path forming member 42 through the flow path forming member 42. .

In addition, outside the game area 32 (here, the lower right part of the game board 30), there are the first special figure fluctuation display game and the second special figure fluctuation display game that form the special figure fluctuation display game, and the normal figure start gate 34. A collective display device 50 is provided for displaying a general pattern variation display game triggered by winning a prize and for displaying various types of information.

The collective display device 50 includes a first special figure variation display unit (special figure 1 indicator) 51 and a second special figure for the first special figure variation display game, which is composed of a 7-segment display (LED lamp) or the like. A second special figure variation display unit (special figure 2 indicator) 52 for the variation display game, a variation display unit (normal figure display device) 53 for the general figure variation display game composed of LED lamps, and LED lamps and memory display units 54, 55 and 56 for notifying the start memory number of each variable display game.
In addition, the collective display device 50 includes a first game state display unit (first game state display, right-handed informing unit) 57 for notifying that the game state is more advantageous for right-handed players than left-handed players. A second game state display unit (second game state display, time saving state notification unit) 58 that lights up when a state occurs to notify the occurrence of a time saving state, and a high probability state of a big hit when the game machine 10 is turned on. Third game state display unit (third game state display device, probability state display unit) 59 for displaying what is happening, round display unit 60 for displaying the number of rounds at the time of the big hit (the number of opening and closing times of the special variable winning device 38) is provided.
In addition, the collective display device 50 may further include a display section (display) or the like that lights up when a big win occurs to notify the occurrence of the big win.

The special figure variation display game on the special figure 1 display device 51 and the special figure 2 display device 52 is, for example, during the execution of the variation display game, that is, while the decoration special figure variation display game is being performed on the display device 41, The segment is driven to blink to indicate that it is changing. The flashing period is set to 100 ms, for example. In the case of this embodiment, in the special figure variation display game in the special figure 1 indicator 51, in addition to the central segment, the 8th segment provided on the lower right side of the 7 segments is also blinked and varied. It is configured to indicate that it is inside.
When the result of the game is "losing", for example, the center segment is turned on as the mode of the result of losing. The game results are displayed with the result modes (for example, numbers and symbols) other than the result modes lit up.

The normal figure indicator 53 flashes a lamp during the fluctuation to indicate that the fluctuation is in progress, and after a predetermined time, displays the game result as a lighting mode or lighting color according to the game result. In addition, the general pattern holding indicator 56 displays the start memory number (= number of reservations) of the general pattern starting gate 34, which is the condition for starting the fluctuation of the general pattern display 53, by extinguishing, blinking, and lighting a plurality of LEDs. The special figure 1 pending display 54 displays the number of undigested balls (starting memory number = pending number) out of the number of winning balls to the start winning opening 36 which is the condition for starting the variation of the special figure 1 display 51, by displaying a plurality of LEDs. is displayed by turning off, blinking, or lighting up. Special figure 2 hold indicator 55 is the second start winning opening (normal variation winning device 37) starting memory number (= number of reservations), which is the condition for starting fluctuation of special figure 2 indicator 52, turning off a plurality of LEDs, Displayed by flashing or lighting.

The first game state display unit (right-handed informing unit) 57 is composed of an LED lamp or the like, and turns off the lamp when the game state is such that left-handed hitting is more advantageous for the player than right-handed hitting (during normal hitting). When the game state is such that right-handed hitting is more advantageous for the player than left-handed hitting (during right-handed hitting), the lamp is turned on.

The second game state display unit (time saving state notification unit) 58 is composed of an LED lamp or the like, and in the normal game state where the time saving state does not occur (when the variable time reduction function is not activated), the lamp is turned off. When the time saving state is generated (when the variable time reduction function is activated), the lamp is turned on.

The third game state display section (probability state display section) 59 is composed of an LED lamp or the like, and when the jackpot probability state is a low probability state (normal probability state) when the game machine 10 is turned on, the lamp is turned off. When the power of the game machine 10 is turned on, the lamp is turned on when the probability state of the big win is a high probability state (probability variable state).

The round display unit 60 is composed of an LED lamp or the like. For example, when the special game state is not in progress, the lamp is turned off. turn it on. It should be noted that the round display section may be composed of a 7-segment type display.

FIG. 3 is a block diagram of the control system of the pachinko gaming machine 10 of this embodiment.
The game machine 10 includes a game control device 100. The game control device 100 is a main control device (main board) for overall control of the game. an input unit 120 having an input port; an output unit 130 having an output port and a driver; and a data bus 140 connecting between the CPU unit 110, the input unit 120, and the output unit .

The CPU unit 110 includes a game microcomputer (CPU) 111 called an amusement chip (IC) and an oscillator such as a crystal oscillator, and generates a CPU operation clock, a timer interrupt, and a reference clock for a random number generation circuit. It has an oscillation circuit (crystal oscillator) 113 for generation and the like. The game control device 100 and electronic components such as solenoids and motors driven by the game control device 100 are supplied with a DC voltage of a predetermined level such as DC32V, DC12V, and DC5V generated by the power supply device 400 to enable operation. be done.

The power supply device 400 is a normal power supply having an AC-DC converter that generates the DC32V DC voltage from a 24V AC power supply, a DC-DC converter that generates a lower level DC voltage such as DC12V or DC5V from the DC32V voltage, and the like. 410, a backup power supply unit 420 that supplies power supply voltage to the internal RAM of the game microcomputer 111 at the time of power failure, and a power failure monitoring circuit, and a power failure monitoring signal that notifies the game control device 100 of the occurrence and recovery of power failure. and a control signal generator 430 for generating and outputting a control signal such as a reset signal.

In this embodiment, the power supply device 400 is configured separately from the game control device 100, but the backup power supply unit 420 and the control signal generation unit 430 are integrated on a separate board or with the game control device 100, that is, the main It may be configured to be provided on the substrate. Since the game board 30 and the game control device 100 are to be replaced when the model is changed, the backup power supply section 420 and the control signal generation section 430 are installed on a board different from the power supply device 400 or the main board as in the present embodiment. By providing the , it is possible to remove it from the object of replacement and to reduce the cost.

The backup power supply unit 420 can be composed of one large-capacity capacitor such as an electrolytic capacitor. Backup power is supplied to the game microcomputer 111 (especially built-in RAM) of the game control device 100 so that the data stored in the RAM is retained even during a power outage or after the power is cut off. In other words, the game control device 100 serves as backup storage means capable of retaining stored data even when the power is cut off. When the power supply is restored, the control can be restarted based on the data held by the backup storage means. The control signal generation unit 430 monitors the voltage of 32 V generated by the normal power supply unit 410, for example, and when it drops below 17 V, for example, detects the occurrence of a power failure, changes the power failure monitoring signal, and changes the power failure monitoring signal after a predetermined time. to output Also, when the power is turned on or when the power is restored, the reset signal is output after a predetermined time has elapsed from that time. The power outage monitoring signal is read repeatedly in the main loop of the main program executed by the game microcomputer 111 . A reset signal is a kind of forced interrupt signal and resets the entire control system.

The game microcomputer 111 includes a CPU (central processing unit: microprocessor) 111A, a read-only ROM (read only memory) 111B, and a RAM (random access memory) 111C that can be read and written at any time.

The ROM 111B nonvolatilely stores immutable information (programs, fixed data, various random number determination values, etc.) for game control, and the RAM 111C is a work area for the CPU 111A during game control, and a storage area for various signals and random values. used as An electrically rewritable nonvolatile memory such as an EEPROM may be used as the ROM 111B or the RAM 111C.

Further, the ROM 111B stores a variation pattern table for determining a variation pattern (variation mode) that defines, for example, the execution time of the special figure variation display game, the content of the effect, the presence or absence of the occurrence of the ready-to-win state, and the like. The fluctuation pattern table is a table for the CPU 111A to refer to the fluctuation pattern random numbers 1 to 3 stored as the starting memory to determine the fluctuation pattern. In addition, the variation pattern table includes a winning variation pattern table selected when the result is a loss, a big hit variation pattern table selected when the result is a big hit, and the like. Furthermore, these pattern tables include tables for determining the second half fluctuation pattern, which is the fluctuation pattern after reaching the reach state (second half fluctuation group table, second half fluctuation pattern selection table, etc.), fluctuation before reaching the reach state Tables for determining the first half variation pattern (first half variation group table, first half variation pattern selection table, etc.) are included.

Here, reach (reach state) means that the display device has a display device whose display state can be changed, the display device derives and displays a plurality of display results at different times, and the plurality of display results are determined in advance. In the gaming machine 10 in which the game state becomes a game state (special game state) advantageous to the player when the special result mode is set, a part of a plurality of display results has not yet been derived and displayed. A display state in which the displayed display result satisfies the conditions for the special result mode. In other words, the ready-to-reach state means that even when the variable display control of the display device progresses and reaches the stage before the display result is derived and displayed, the display conditions for the special result mode are not met. It refers to a display mode that does not exist. And, for example, a state in which variable display is performed using a plurality of variable display areas while maintaining a state in which the special result modes are uniform (so-called full rotation reach) is also included in the reach state. In addition, the reach state is a display state at the time when the display control of the display device progresses and reaches the stage before the display result is derived and displayed, and is determined before the display result is derived and displayed. It means a display state when at least some of the display results of a plurality of variable display areas that are present satisfy the conditions for the special result mode.

Therefore, for example, the decoration special figure variation display game displayed on the display device corresponding to the special figure variation display game changes the plurality of identification information for a predetermined time in each of the left, middle, and right variation display areas on the display device. After displaying, when the variable display is stopped in the order of left, right, and middle to display the result mode, the condition for the special result mode is satisfied in the left and right variable display areas (for example, The state in which the variable display is stopped with the same identification information) is the reach state. In addition to this, when the variable display of all the variable display areas is temporarily stopped, any two of the left, middle, and right variable display areas satisfy the condition for the special result mode (for example, the same The state of the identification information (excluding the special result mode) may be set as the ready-to-win state, and the remaining one variable display area may be variably displayed from this ready-to-win state.

This ready-to-reach state includes a plurality of ready-to-reach effects, and as ready-to-win effects with different possibilities of deriving special result modes (different expected values), normal reach (N reach), special 1 reach (SP1 reach), Special 2 reach (SP2 reach), special 3 reach (SP3 reach), and premier reach are set. The expected value is higher in the order of no reach<normal reach<special 1 reach<special 2 reach<special 3 reach<premier reach. Further, this ready-to-win state is included in the variable display mode at least when the special result mode is derived in the special figure variable display game (when a big hit is achieved). That is, it may be included in the variation display mode when it is determined that the special result mode is not derived in the special figure variation display game (when it becomes a loss). Therefore, the state in which the ready-to-win state occurs is a state with a higher possibility of winning a big hit than the case in which the ready-to-win state does not occur.

The CPU 111A executes a game control program in the ROM 111B to generate control signals (commands) for the payout control device 200 and the effect control device 300, or to generate and output drive signals for solenoids and display devices, and output them to the game machine. 10 overall control. In addition, although not shown, the gaming microcomputer 111 generates a jackpot random number for determining a hit in the special figure variation display game, a jackpot pattern random number for determining the jackpot pattern, and a variation pattern (various types) in the special figure variation display game. Random number generation circuit for generating variation pattern random numbers for determining reach and execution time of variation display game in variation display without reach, hit random numbers for determining hit of normal figure variation display game, etc. and a clock generator that generates a timer interrupt signal with a predetermined period (for example, 4 milliseconds) for the CPU 111A based on the oscillation signal (original clock signal) from the oscillation circuit 113 and a clock that gives the update timing of the random number generation circuit. there is

In addition, the CPU 111A acquires any one variation pattern table from among the plurality of variation pattern tables stored in the ROM 111B in the processing relating to the special figure variation display game. Specifically, the CPU 111A determines the game result of the special figure variation display game (hit (big hit or small win) or loss), the probability state of the special figure variation display game as the current game state (normal probability state or high probability state), the operating state (time-saving operating state) of the normal variable winning device 37 as the current gaming state, the number of starting memories, etc., from among a plurality of variation pattern tables, any one variation pattern table is selected. to get. Here, the CPU 111A serves as variation distribution information acquisition means for acquiring any one variation pattern table out of a plurality of variation pattern tables stored in the ROM 111B when executing the special figure variation display game.

The payout control device 200 includes a CPU, a ROM, a RAM, an input interface, an output interface, and the like, and drives the payout motor of the payout unit according to a prize ball payout command (command or data) from the game control device 100, thereby releasing the prize balls. Perform control for paying out. Further, the payout control device 200 drives the payout motor of the payout unit based on the ball rental request signal from the card unit, and performs control for paying out the rental balls.

The input unit 120 of the game microcomputer 111 includes a board radio wave sensor 62 for detecting the emission of radio waves to the game machine, a starting opening 1 switch 36a in the starting winning opening 36, a starting opening 2 switch 37a in the normal variable winning apparatus 37, It is connected to the gate switch 34a, the winning opening switch 35a in the normal starting gate 34, the winning opening switch 38a of the special variable winning device 38, and the high level supplied from these switches is 11V and the low level is negative such as 7V. An interface chip (proximity I/F) 121 is provided which receives a logic signal and converts it to a positive logic signal of 0V-5V. The proximity I/F 121 has an input range of 7V to 11V, so the lead wire of the sensor or proximity switch may be illegally shorted, the sensor or switch may be disconnected from the connector, or the lead wire may be cut and floating. It is configured to be able to detect an abnormal state such as an abnormal condition, and to output an abnormality detection signal.

The output of the proximity I/F 121 is supplied to the second input port 123 or the third input port 124 and read into the gaming microcomputer 111 via the data bus 140 . Among the outputs of the proximity I/F 121, the detection signals of the starting port 1 switch 36a, the starting port 2 switch 37a, the gate switch 34a, the prize winning port switch 35a and the big winning port switch 38a are input to the second input port 123. . Among the outputs of the proximity I/F 121 , the detection signal of the board radio wave sensor 62 and the abnormality detection signal output when an abnormality of the sensor or switch is detected are input to the third input port 124 .

Further, the third input port 124 receives the detection signal of the fraud detection magnetic sensor 61 provided on the front frame 12 of the game machine 10 or the like, or the glass frame open detection signal provided on the glass frame 15 of the game machine 10 or the like. A detection signal from the switch 63 and a detection signal from a body frame open detection switch 64 provided on the front frame (body frame) 12 of the game machine 10 are also input. A vibration sensor switch for detecting vibration may be provided in the gaming machine so that a detection signal may be input to the third input port 124 .

Further, the third input port 124 is provided with a set value change detecting means for detecting an operation in the operating section for selecting from a plurality of set probability values to which a probability value for a special result in the special figure variation display game is assigned. Signals from the switch 151 and the setting key switch 152 are input.

The setting key switch 152 detects the operation of the setting key operating section forming the first operating section of the operating sections. The setting key operation unit has a keyhole into which a setting key is inserted, and is configured so that the setting key can be turned from the first position to the second position only when the corresponding setting key is inserted. The setting key switch 152 is a sensor that can detect that it has been turned to the second position. In some cases, it is turned off.

The set value change switch 151 detects operation of a set value change button forming a second operation section of the operation section. The set value change button is a push button, and the set value change switch 151 is turned on when the set value change button is pressed, and turned off when not pressed.

By operating these operation units, it is possible to select a probability setting value to which a special result probability value is assigned in the special figure fluctuation display game, and the probability value corresponding to the selected probability setting value is in the game. It's meant to be used. Here, six settings 1 to 6 are prepared as probability setting values. The probability value assigned to each probability setting is 1/320 for setting 1, 1/310 for setting 2, 1/300 for setting 3, 1/290 for setting 4, 1/280 for setting 5, and 1/280 for setting 6. It is supposed to be 1/270. This probability value is the probability value in the normal probability state, and the probability value in the high probability state is ten times the probability value in the normal probability state.

When selecting the probability setting value, first, the front frame 12 is opened, and the game machine is turned on with the setting key of the setting key operation unit turned to the second position, thereby setting the probability setting value. can be changed, and by pressing a set value change button in this probability set value change state, the probability set value can be changed. The selected probability setting value is displayed on the probability setting value display device 153 .

In addition, when the power is turned on with the setting key of the setting key operation unit turned to the second position with the front frame 12 closed, or when the setting key of the setting key operation unit is turned on after the power of the game machine is turned on. When it is turned to the second position, the probability setting value currently selected is displayed on the probability setting value display device 153, but the probability setting value confirmation mode in which the probability setting value cannot be changed is entered.

The probability set value display device 153 is a 7-segment display, and displays the probability set values in numerals 1-6. Of course, the display mode is not limited to this, and any display mode may be used as long as the probability setting value can be recognized. Further, a display device of another type such as a liquid crystal display device may be used, or a set probability value may be indicated by the lighting mode or emission color of one or a plurality of LEDs. Alternatively, the probability set value display device 153 may not be provided, and the probability set value information may be displayed using the state display device 160 for displaying the calculated base value and character ratio. In this case, while operating on the probability setting value (probability setting value change state, probability setting value confirmation mode, etc.), information on the probability setting value is displayed, otherwise the calculated base value and role ratio Give priority to display.

In addition, in the present embodiment, the game control device 100 is provided with a set value change button, a set key operation unit, a probability set value display device 153, and the like, and the game control device 100 uses the probability value for the lottery of the special figure fluctuation display game. can be selected from a plurality of types of probability setting values by operating the operation unit. The function of this setting means may be provided in the sub board for setting and connected to the game control device 100 . That is, the setting means may be provided separately from the game control device 100 . In this case, the operation signal of the set value change switch 151 or the set key switch 152 may be input to the game control device 100 to change the probability set value in the game control device 100, or the setting sub board side Based on the operation of the set value change switch 151 or the set key switch 152, the probability set value may be changed and determined, and the determination result may be transmitted to the game control device 100. FIG.

In addition, among the outputs of the proximity I/F 121, the output to the second input port 123 is also supplied from the main board 100 through the relay board 70 to a test fire test apparatus (not shown). Furthermore, the detection signals of the starting port 1 switch 36a and the starting port 2 switch 37a among the outputs of the proximity I/F 121 are configured to be input to the game microcomputer 111 in addition to the second input port 123.

As described above, the proximity I/F 121 has a signal level conversion function. In order to enable such a level conversion function, the proximity I/F 121 is supplied with a voltage of 12 V in addition to a voltage of 5 V required for normal IC operation from the power supply device 400. It's becoming

The data held by the second input port 123 is read by asserting the enable signal CE2 (changing to a valid level) by decoding the address assigned to the second input port 123 by the gaming microcomputer 111. be able to. The same applies to the third input port 124 and the first input port 122 described later.

The input unit 120 also receives a frame radio wave illegal signal from the payout control device 200 (a signal output based on the detection of radio waves by a frame radio wave sensor provided on the front frame 12), a payout busy signal (payout control device 200 is ready to accept commands), abnormal payout status signal (status signal indicating abnormal payout), shot ball out switch signal (signal indicating shortage of game balls before payout), overflow switch signal (signal output when it is detected that a predetermined amount or more of game balls are stored in the lower tray 23 (filled)), touch switch signal (input of the touch switch provided on the operation handle 24) based signal), and an out-ball detection switch signal (a signal based on the detection of the out-switch for detecting all the game balls that have been shot into the game area 32 and have finished playing), and through the data bus 140, the game microcomputer 111 A first input port 122 is provided that feeds into the .

Further, the input unit 120 is provided with a Schmidt buffer 125 for inputting signals such as a power failure monitoring signal and a reset signal from the power supply device 400 to the game microcomputer 111 and the like. It has the function of removing noise from A power failure monitoring signal from the power supply device 400 is once input to the first input port 122 and taken into the gaming microcomputer 111 via the data bus 140 . That is, they are treated as signals equivalent to the signals from the various switches described above. This is because the number of terminals for receiving signals from the outside provided in the gaming microcomputer 111 is limited.

On the other hand, the reset signal RESET from which noise has been removed by the Schmitt buffer 125 is directly input to the reset terminal provided in the game microcomputer 111 and is also supplied to each port of the output section 130 . In addition, by outputting the reset signal RESET directly to the relay board 70 without going through the output unit 130, the test-firing test signal held in the port (not shown) of the relay board 70 for output to the test-firing test apparatus is turned off. is configured as Also, the reset signal RESET may be configured to be output to the test-firing test apparatus via the relay board 70 . Note that the reset signal RESET is not supplied to each port 122 , 123 , 124 of the input section 120 . The data set in each port of the output section 130 by the game microcomputer 111 immediately before the reset signal RESET is input must be reset to prevent malfunction of the system. This is because the data read by the game microcomputer 111 from the port is discarded when the game microcomputer 111 is reset.

The output unit 130 is provided with a Schmidt buffer 132 arranged on a communication path from the game microcomputer 111 to the effect control device 300 and a communication path from the game microcomputer 111 to the payout control device 200 . Data is transmitted from the game control device 100 to the effect control device 300 and the payout control device 200 by serial communication. In addition, it is made into the one-way communication which made it impossible to input a signal to the game control apparatus 100 from the production control apparatus 300 side.

In addition, the output unit 130 is connected to the data bus 140 and transmits data for notifying the special symbol pattern information of the variable display game to a test firing test device of an accredited organization (not shown), a signal indicating the probability state of the big hit, and the like via the relay board 70. A buffer 133 for output is configured to be mountable. This buffer 133 is a component that is not mounted on a game control device (main board) of a pachinko game machine as an actual machine (mass-produced product) installed in amusement arcades. A detection signal of a switch that does not need to be processed, such as a starting switch, output from the proximity I/F 121 is supplied to the test firing test apparatus via the relay board 70 without passing through the buffer 133 .

On the other hand, detection signals such as those from the magnetic sensor 61 and board radio wave sensor 62, which cannot be directly supplied to the test-firing test device, are temporarily taken into the gaming microcomputer 111 and processed into other signals or information. The data bus 140 is supplied to the test-firing test apparatus via the buffer 133 and the relay board 70 as an error signal indicating that it is not possible. The relay board 70 is provided with a port for taking in the signal output from the buffer 133 and supplying it to the test firing test apparatus, a connector for relaying the signal line of the detection signal of the switch not via the buffer, and the like. ing. A chip enable signal CE output from the game microcomputer 111 is also supplied to the port on the relay board 70, and the signal of the port selected and controlled by the signal CE is supplied to the test firing test apparatus.

The output unit 130 also has a solenoid (large winning opening solenoid) 38b connected to the data bus 140 for opening the special variable winning device 38 and a solenoid (universal electrical solenoid) 37c for opening the movable member 37b of the normal variable winning device 37. A second output port 134 is provided for outputting the open/close data of the. Also, the second output port 134 outputs the display data of the state display device 160 for displaying the calculated base value and character product ratio.

The output unit 130 also includes a third output port 135 for outputting ON/OFF data of the segment line to which the anode terminals of the LEDs are connected in accordance with the content to be displayed on the collective display device 50 , and the collective display device 50 . A fourth output port 136 is provided for outputting on/off data for the digit line to which the cathode terminal of the LED is connected.

The output unit 130 is also provided with a fifth output port 137 for outputting information about the gaming machine 10 such as big win information to the external information terminal board 71 . The external information terminal board 71 is provided with a photorelay, and can be connected to, for example, an external device (information collection terminal, game hall internal management device (hall computer), etc.) installed in the game arcade, and information on the game machine 10 is transmitted. It can be supplied to an external device. Also, a firing permission signal is output from the fifth output port 137 to the payout control device 200 via the Schmitt buffer 132 . The output unit 130 is also provided with a sixth output port 170 for outputting display data of the probability setting value display device 153 that displays the selected probability setting value.

Further, the output unit 130 is provided with a first driver (driving circuit) 138a that receives opening/closing data signals of the big winning opening solenoid 38b and the general electric solenoid 37c output from the second output port 134, and generates and outputs a solenoid driving signal. , a second driver 138b that outputs an ON/OFF drive signal for the segment line on the current supply side of the collective display device 50 that is output from the third output port 135, and the current of the collective display device 50 that is output from the fourth output port 136. A third driver 138c for outputting an ON/OFF drive signal for the lead-in side digit line, and a fourth driver 138d for outputting to the external information terminal board 71 an external information signal to be supplied from the fifth output port 137 to an external device such as a management device. , and a fifth driver 138e for receiving display data output from the second output port 134 and causing the status display device 160 to display the data.

DC 32V is supplied from the power supply device 400 as a power supply voltage to the first driver 138a so as to drive a solenoid that operates at 32V. Also, the second driver 138b that drives the segment lines of the collective display device 50 is supplied with DC 12V. The third driver 138c, which drives the digit lines, draws current from the digit lines according to display data, so the power supply voltage may be either 12V or 5V.

A second driver 138b that outputs 12 V supplies a current to the anode terminal of the LED through a segment line, and a third driver 138c that outputs a ground potential draws current from the cathode terminal through the segment line. A power supply voltage flows to the LEDs sequentially selected in , and the LEDs are lit. The fourth driver 138d that outputs the external information signal to the external information terminal board 71 is supplied with DC 12V in order to give the external information signal a level of 12V. The buffer 133, the second output port 134, the first driver 138a, etc. may be provided on the output section 130 of the game control device 100, that is, not on the main board but on the relay board 70 side.

Further, the output unit 130 is provided with a photocoupler 139 for transmitting information such as the identification code and program of each gaming machine to the external inspection device 500 . The photocoupler 139 is configured to enable two-way communication so that the game microcomputer 111 can transmit and receive data to and from the inspection device 500 by serial communication. It should be noted that since the transmission and reception of such data is performed using a serial communication terminal of the game microcomputer 111 as in a normal general-purpose microprocessor, ports such as the input ports 122, 123, and 124 are not provided.

Next, the configuration of the effect control device 300 will be described with reference to FIG.
The effect control device 300 includes a main control microcomputer (CPU) 311 composed of an amusement chip (IC) similar to the game microcomputer 111, and a command and data from the main control microcomputer 311 for displaying images on the display device 41. A VDP (Video Display Processor) 312 as a graphic processor for performing image processing, and a sound source LSI 314 for controlling sound output for reproducing various melodies and sound effects from the speakers 19a and 19b.

The main control microcomputer 311 includes a program ROM 321 consisting of a PROM (programmable read only memory) that stores programs executed by the CPU and various data, a RAM 322 that provides a work area, and a memory content that can be stored even if power is not supplied at the time of a power failure. An FeRAM 323 capable of holding data and an RTC (Real Time Clock) 338, which constitutes timekeeping means for generating information indicating the current date and time (year, month, day of the week, time, etc.) are connected. A RAM that provides a work area is also provided inside the main control microcomputer 311 . A WDT (watchdog timer) circuit 324 is connected to the main control microcomputer 311 . The main control microcomputer 311 analyzes the command from the game microcomputer 111, determines the content of the effect, instructs the content of the output video to the VDP 312, instructs the sound source LSI 314 to reproduce sound, lights the decoration lamp, and controls the motor. , solenoid drive control, performance time management, etc.

The VDP 312 is provided with a RAM 312a that provides a work area, and a scaler 312b that enlarges and reduces images. The VDP 312 also includes an image ROM 325 storing character images and video data, and an ultra-high-speed VRAM (video RAM) used to develop and process image data such as characters read from the image ROM 325. ) 326 are connected.

Although not particularly limited, the main control microcomputer 311 and the VDP 312 are configured to transmit and receive data in parallel. By transmitting and receiving data in parallel, commands and data can be transmitted in a shorter time than in the case of serial transmission.

From the VDP 312 to the main control microcomputer 311, a vertical synchronization signal VSYNC for synchronizing the image of the display device 41 with lighting of the decorative lamps provided on the glass frame 15 and the game board 30, and a synchronization signal for giving data transmission timing. STS is entered. The VDP 312 notifies the main control microcomputer 311 that it is waiting for reception of interrupt signals INT0 to n and commands and data from the main control microcomputer 311 in order to inform the processing status such as the completion of drawing to the VRAM. A wait signal WAIT or the like for the purpose is also input.

The effect control device 300 is provided with a signal conversion circuit 313 that generates a video signal to be transmitted to the display device 41 by the LVDS (small amplitude signal transmission) method. Video data, a horizontal synchronization signal HSYNC and a vertical synchronization signal VSYNC are input from the VDP 312 to the signal conversion circuit 313 , and the video generated by the VDP 312 is sent to the display device 41 via the signal conversion circuit 313 . Is displayed.

An audio ROM 327 storing audio data is connected to the sound source LSI 314 . The main control microcomputer 311 and the tone generator LSI 314 are connected via an address/data bus 340 . An interrupt signal INT is input from the sound source LSI 314 to the main control microcomputer 311 . The effect control device 300 is provided with an amplifier circuit 337 including an audio power amplifier for driving the upper speaker 19 a provided on the glass frame 15 and the lower speaker 19 b provided on the front frame 12 . The generated sound is output from the upper speaker 19a and the lower speaker 19b through the amplifier circuit 337. FIG.

Also, the effect control device 300 is provided with an interface chip (command I/F) 331 for receiving commands transmitted from the game control device 100 . Via this command I / F 331, the decoration special figure pending number command, decoration special figure command, variation command, stop information command, etc. transmitted from the game control device 100 to the production control device 300 are transmitted to the production control command signal (production command ). Since the game microcomputer 111 of the game control device 100 operates at DC5V and the main control microcomputer 311 of the effect control device 300 operates at DC3.3V, the command I/F 331 is provided with a signal level conversion function. there is

In addition, the effect control device 300 includes a board decoration LED control circuit that drives and controls the board decoration device 46 having LEDs (light emitting diodes) provided on the game board 30 (including the center case 40) and the sub information display device 90. 332, a frame decoration LED control circuit 333 for driving and controlling a frame decoration device (for example, the frame decoration device 18) having an LED (light emitting diode) provided on the glass frame 15; A board effect movable body control circuit 334 is provided for driving and controlling the provided board effect device 44 (for example, a movable accessory or the like that enhances the effect in cooperation with the effect display on the display device 41). These control circuits 332 to 334 that drive and control lamps, motors, solenoids, etc. are connected to the main control microcomputer 311 via an address/data bus 340 . In addition, the glass frame 15 is provided with a drive source such as a motor (for example, a motor for operating a device for performance), and the moving movable performance member performs a game performance including a special figure fluctuation display game. A production device may be provided, and a frame production movable body control circuit for driving and controlling the frame production device may be provided.

Furthermore, the production control device 300 includes a production button switch 25a built in the production button 25 provided on the glass frame 15, a touch panel 29 provided on the glass frame 15, an initial position of the motor in the board production device 44, etc. The function of detecting the on / off state of the production accessory switch 47 (production motor switch) that detects the and inputting the detection signal to the main control microcomputer 311, and the state of the volume control switch 335 provided in the production control device 300 A switch input circuit 336 is provided for detecting and inputting a detection signal to the main control microcomputer 311 .

The normal power supply unit 410 of the power supply device 400 supplies a desired level of DC voltage to the production control device 300 having the above configuration and the electronic components controlled by it, and drives a motor and a solenoid. DC 32 V, display device 41 consisting of a liquid crystal panel, DC 12 V for driving motors and LEDs, DC 5 V as power supply voltage for command I/F 331, and DC 15 V for driving motors, LEDs, and speakers. is configured to Furthermore, when using an LSI that operates at a low voltage such as 3.3V or 1.2V as the main control microcomputer 311, a DC- A DC converter is provided in the performance control device 300 . Note that the DC-DC converter may be provided in the normal power supply section 410 .

The reset signal generated by the control signal generator 430 of the power supply device 400 is supplied to the main control microcomputer 311 to reset the device. In addition, in the form output from the main control microcomputer 311, the VDP 312 (VDRESET signal), the sound source LSI 314, the amplifier circuit 337 (SNDRESET signal) that drives the speaker, and the control circuits 332 to 334 (IORESET signal) that drive and control lamps, motors, etc. signal) to put them in the reset state. A cooling FAN 45 for cooling various parts of the game machine 10 is connected to the performance control device 300, and the cooling FAN 45 is driven when the performance control device 300 is powered on.

In the gaming machine 10 of the present embodiment, a game is played by shooting game balls (pachinko balls) toward the game area 32 from a shooting device (not shown). The launched game ball flows down the game area 32 while changing the rolling direction by direction changing members such as obstacle nails and windmills placed in various places in the game area 32, and the normal figure start gate 34 and the general winning opening 35 , the start winning port 36, the normal variable winning device 37 or the special variable winning device 38, or flows into the out port 30a provided at the bottom of the game area 32 and is discharged from the game area 32. Then, when the game ball wins the general winning hole 35, the starting winning hole 36, the normal variable winning device 37 or the special variable winning device 38, the number of prize balls corresponding to the type of the winning winning port is distributed to the payout control device 200 ( 3) into the upper tray 21 or the lower tray 23 of the glass frame 15 .

In the normal pattern starting gate 34, a gate switch 34a (see FIG. 3) consisting of a non-contact switch or the like for detecting a game ball that has passed through the normal pattern starting gate 34 is provided. When the game ball hit inside passes through the normal figure starting gate 34, it is detected by the gate switch 34a. In the CPU 111A of the game microcomputer 111 of the game control device 100, based on the input of the game ball detection signal from the gate switch 34a provided in the normal pattern start gate 34, the normal pattern start memory number is the upper limit number (for example, 4 ) If it is less than the normal pattern start memory number is added (+1) and one normal pattern start memory is stored in the ROM 111B. The number of memory of this normal figure start winning prize is displayed on the normal figure reservation indicator 56 of the collective display device 50. - 特許庁In addition, the normal pattern start memory stores a hit judgment random value (hit random value) for determining the result of the normal pattern variation display game extracted based on the input of the game ball detection signal from the gate switch 34a. It is designed to be

Then, when there is a normal pattern start memory and the normal pattern fluctuation display game can be started, that is, when the normal pattern fluctuation display game is not being executed, the normal pattern fluctuation display game wins and the normal fluctuation prize winning device 37 is converted to the open state. If it is not in a winning state, the random value for winning determination stored in the first stored normal pattern start memory is compared with the determination value stored in the ROM 111B to determine the hit or miss of the normal pattern fluctuation display game. Then, processing for starting the normal pattern fluctuation display game is performed. When the hit determination random number matches the determination value, the normal pattern variation display game becomes a hit and a specific result mode (normal pattern specific result) is derived.

In addition, the game control device 100 predetermines a plurality of predetermined lighting patterns over a predetermined fluctuation time on the general pattern indicator 53 provided in the collective display device 50 as processing for executing the general pattern variation display game. After performing the normal pattern fluctuation display that is repeatedly displayed in the order given, the process of displaying the normal pattern fluctuation display game that stops and displays the lighting pattern (result mode) according to the result is performed. In addition, the normal figure display 53 is composed of the display device 41, and for example, numbers, symbols, character patterns, etc. are used as the normal identification information. may be configured.

When the result of the normal pattern variation display game is a hit, the normal pattern display device 53 displays a lighting pattern of any one of the first winning stop pattern to the third winning stop pattern, which form a special result mode, corresponding to the type of the win. Along with the stop display, the general electric solenoid 37c is operated and the movable member 37b of the ordinary variable winning device 37 is controlled to be opened for a predetermined time (for example, 0.5 seconds or 1.7 seconds) as described above. That is, the game control device 100 serves as conversion control execution means for performing conversion control of the conversion member (movable member 37b). In addition, when the result of the normal pattern variation display game is a loss, the normal pattern display 53 is controlled to display a lighting pattern as a result of the loss.

Winning balls to the starting winning opening 36 and winning balls to the normal variable winning device 37 are detected by a starting opening 1 switch 36a and a starting opening 2 switch 37a, respectively. In the CPU 111A of the game microcomputer 111 of the game control device 100, the first start memory forming the start memory (special figure start memory) based on the winning to the start winning opening 36 is limited to a predetermined upper limit number (for example, 4 pieces) Along with storing, a second starting memory forming a starting memory (special figure starting memory) based on the winning to the normal variable winning device 37 is stored up to a predetermined upper limit number (for example, 4 pieces). Based on winnings to the starting prize winning port 36 and the normal fluctuation prize winning device 37, a jackpot random number value, a jackpot pattern random number value, and each fluctuation pattern random number value are extracted as starting memory information, respectively. Numerical values are stored in the RAM 111B as first start memory and second start memory. And, the memory number of this start memory is displayed on the special figure 1 reservation display 54 and the special figure 2 reservation display 55 of the collective display device 50, and also on the display device 41 of the center case 40, the decoration special figure start memory displayed as a display. It is also displayed on the first sub-display section 91 and the second sub-display section 92 of the sub-information display device 90 .

Then, when the first special figure variation display game or the second special figure variation display game can be started, the CPU 111A of the game control device 100 stores in the earliest start memory corresponding to the special figure variation display game to be started. The random number for judging the big hit is compared with the judging value stored in the ROM 111B and set according to the probability setting value, and the process of judging the hit or miss of the special figure variation display game is performed. Furthermore, the CPU 111A of the game control device 100 outputs to the effect control device 300 a control signal (effect control command) including the determination result of the special figure variation display game to be executed.

When executing the first special figure variation display game, a plurality of lighting patterns predetermined by the special figure 1 indicator 51 (variation display device) are repeatedly displayed in a predetermined order over a predetermined variation time. After performing the display during the special figure 1 fluctuation, the process of displaying the first special figure fluctuation display game for stopping and displaying the lighting pattern (result mode) according to the result is performed. Also, when executing the second special figure variation display game, a plurality of lighting patterns predetermined by the special figure 2 indicator 52 (variation display device) are repeatedly displayed in a predetermined order over a predetermined variation time. After performing the display during the special figure 2 fluctuation, the process of displaying the second special figure fluctuation display game for stopping and displaying the lighting pattern (result mode) according to the result is performed.

In addition, in the effect control device 300, based on the control signal from the game control device 100, the display device 41 (variation display device) displays a plurality of types of identification information (for example, numbers, symbols, characters, etc.) corresponding to the special figure variation display game. (symbols, etc.) is displayed in a variable display game. In addition, the sub game display section of the sub information display device 90 performs processing for displaying a decoration special figure variation display game in which the light emission mode of the light emitting section is changed corresponding to the special figure variation display game. Furthermore, in the production control device 300, based on the control signal from the game control device 100, the setting of the production state, the sound output from the speakers 19a and 19b, the processing of controlling the light emission of various LEDs, and the like are performed. In other words, the effect control device 300 serves as effect control means for controlling effects related to games (such as variable display games).

The decoration special symbol variation display game in the display device 41 is, for example, the decoration special symbol (identification information) composed of the above-described numbers etc. in the display device 41 in the left variation display area (first special symbol), the right variation display area ( 2nd special symbol), in each of medium fluctuation display area (3rd special symbol), each symbol is variably displayed (high-speed variability) at a speed at which identification is difficult. After a predetermined time, the changing symbols are sequentially stopped in the left fluctuation display area, the right fluctuation display area, and the middle fluctuation display area, and stopped in each of the left fluctuation display area, the right fluctuation display area, and the middle fluctuation display area. It is performed by displaying the result of the special figure variation display game according to the result mode configured by the displayed identification information. In addition, the display device 41 performs various presentation displays such as the appearance of a character to enhance interest.

Then, when the result of the special figure variation display game is a big hit or a small hit, the CPU 111A of the game control device 100 makes the special figure 1 display device 51 or the special figure 2 display device 52 a special result mode or a small win result mode. A lighting pattern is displayed, and processing for generating a special game state or a small winning game state is performed. Also, the result mode of the decoration special figure variation display game displayed on the display device 41 corresponding to this is also the special result mode or the small hit result mode.

In the process of generating the special game state and the small winning game state, the CPU 111A of the game control device 100, for example, opens the opening/closing door 38c of the special variable winning device 38 by the big winning opening solenoid 38b, and the game enters the big winning opening. Perform control to enable the influx of spheres. Then, until a predetermined number (for example, 10) of game balls enter the big winning opening or a predetermined openable time elapses after the opening of the big winning opening is achieved. is set as one round, and control (cycle game) is performed to continue (repeated) this for a predetermined number of rounds. That is, the game control device 100 serves as a large winning opening opening/closing control means for controlling opening and closing of the large winning opening when the stop result mode becomes the special result mode. In addition, when the result of the special figure fluctuation display game is lost, the special figure 1 display device 51 or the special figure 2 display device 52 is controlled to display the result mode of the loss.

In addition, the game control device 100 can generate a high probability state as a game state after the special game state ends based on the result mode of the special figure variation display game. This high probability state is a state in which the probability of winning results in the special figure variation display game is higher than in the normal probability state. In addition, even if the high probability state is reached based on the result mode of either the first special figure variation display game or the second special figure variation display game, the first special figure variation display game and the second special figure Both of the variable display games are in a high probability state.

In addition, the game control device 100 can generate a time-saving state (specific game state, general pattern high probability state, second operation state) as a game state after the special game state is finished based on the result mode of the special figure variation display game. It has become. In this time-saving state, the probability of winning the normal pattern fluctuation display game (normal pattern probability) is set to a high probability (normal pattern high probability state) higher than 0, which is the normal probability (normal pattern low probability state). is possible. As a result, the opening time of the normal variable prize winning device 37 per unit time is increased more than when the normal variable prize winning device 37 is in the normal low probability state. Here, in the normal variable winning device 37 in this embodiment, the normal pattern probability is set to 0 so as not to open the movable member 37b in the normal game state. That is, the operating state of the normal variable prize winning device 37 is controlled in either a first operating state or a second operating state in which winning is easier than in the first operating state. .

In addition, in the time saving state, the execution time of the normal pattern fluctuation display game (normal pattern fluctuation time) is, for example, 500 ms, and the normal pattern stop time for displaying the result of the normal pattern fluctuation display game is, for example, 600 ms, When the normal fluctuation display game results in a winning result and the normal fluctuation prize winning device 37 is opened, the opening time (normal electric open time) and the number of times of opening (for example, 500 ms × 1 time) of the first winning stop pattern, The opening time of the second per stop pattern (general electric open time) and the number of times of opening (e.g., 1700 ms x 2 times), the opening time of the third per stop design (electrical open time) and the number of times of opening (e.g., 1700 m seconds x 3 times).

In addition, the execution time of the normal pattern fluctuation display game, the normal pattern stop time, the number of times the normal pattern is opened, and the normal pattern open time are set appropriately so as to control the normal pattern fluctuation display game and the normal fluctuation prize winning device 37 to the time saving operation state. For example, in the time saving state, it is possible to control the execution time (ordinary figure fluctuation time) of the above-mentioned normal figure fluctuation display game to be the second fluctuation time shorter than the first fluctuation time (eg 10000ms is 1000ms). In addition, in the time saving state, it is possible to control the normal pattern stop time for displaying the result of the normal pattern fluctuation display game to be a second stop time shorter than the first stop time (for example, 1604 ms 704 ms). In addition, in the time saving state, when the normal fluctuation display game results in a winning result and the normal fluctuation winning device 37 is opened, the opening time (general electric open time) is set to the normal state (normal low probability state). It is possible to control the second opening time to be longer than one opening time (eg 100 ms to 1352 ms). In addition, in the time-saving state, the number of openings of the normal fluctuation winning device 37 (the number of openings of the general electric power) is greater than the first number of openings (for example, 2 times) for one winning result of the normal figure fluctuation display game. It is possible to set the second opening number of times (eg, four times). In addition, in the time-saving state, the probability of winning the normal pattern fluctuation display game (normal pattern probability) is higher than the normal probability (normal pattern low probability state, for example, 1/251) in the case of the normal operation state. It can be a probability (universal pattern high probability state, eg, 250/251).

In the time saving state, by changing one or more of the normal pattern fluctuation time, the normal pattern stop time, the normal pattern open number of times, the normal pattern open time, and the normal pattern probability, the normal fluctuation winning device 37 is in the open state. Make the conversion time longer than usual. It is also possible to set a plurality of types of time-saving states with different things to be changed. In addition, it is also possible to select either the first opening mode or the second opening mode when the win is achieved. In this case, the selection probabilities of the first open mode and the second open mode may be different. Also, the high probability state and the time saving state can be generated independently of each other, both can be generated at the same time, or only one of them can be generated.

In addition, the special figure 1 indicator 51 and the special figure 2 indicator 52 may be separate indicators or the same indicator, but each special figure fluctuation display so as not to be executed at the same time. A game is displayed. Also, the display device 41 may use separate display devices and separate display areas for the first special figure variation display game and the second special figure variation display game, or the same display device and display area may be used. However, the decorative special figure variation display games are displayed independently and not simultaneously. Also, the game machine 10 may not be provided with the special figure 1 display device 51 and the special figure 2 display device 52, and the special figure variation display game may be executed only by the display device 41. - 特許庁Also, the second special figure variation display game is to be executed with priority over the first special figure variation display game. That is, when there is a start memory of the first special figure variation display game and the second special figure variation display game, and when the execution of the special figure variation display game becomes possible, the second special figure variation display game is performed. It is designed to be executed (executed with priority). Further, in the description of the present embodiment, when the first special figure variation display game and the second special figure variation display game are not distinguished, they are simply referred to as special figure variation display games.

In addition, although not particularly limited, the starting opening 1 switch 36a in the starting winning opening 36, the starting opening 2 switch 37a in the normal variable winning apparatus 37, the gate switch 34a, the winning opening switch 35a, and the big winning opening switch 38a, the out switch for detecting all the game balls that have been shot into the game area 32 and have finished playing is equipped with a coil for magnetic detection, and the game ball is detected by utilizing the phenomenon that the magnetic field changes when metal comes close to the coil. A non-contact magnetic proximity sensor (hereinafter referred to as a proximity switch) is used to detect . In addition, the glass frame open detection switch 63 provided on the glass frame 15 or the like of the game machine 10 and the body frame open detection switch 64 provided on the front frame (main body frame) 12 or the like of the game machine 10 are microswitches having mechanical contacts. can be used.

The control of the gaming machine that performs such games will be described below. First, the control executed by the game microcomputer (game microcomputer) 111 of the game control device 100 will be described. The control processing by the gaming microcomputer 111 mainly consists of main processing shown in FIGS. 5 and 6 and timer interrupt processing shown in FIG.

[Main processing]
First, the main processing will be explained. Main processing is started when the power is turned on. In this main processing, as shown in FIGS. 5 and 6, first, processing for prohibiting interrupts (step S1) is performed, and then, when an interrupt occurs, the start address of the area where the values of registers and the like are saved is A stack pointer setting process (step S2) for setting a certain stack pointer is performed. Next, register bank 0 is specified (step S3), and the upper address of the RAM head address is set in a predetermined register (for example, D register) (step S4). In the case of this embodiment, the range of RAM addresses is 0000h to 01FFh, with 00h or 01h being the higher order, and 00h at the beginning is set in step S4. Next, a firing stop signal is output and the firing permission signal is set to a prohibited state (step S5). The launch permission signal is set to a prohibited state when at least one of the game control device 100 and the payout control device 200 is outputting a launch stop signal, and the launch of the game ball is prohibited.

After that, the state of the input port 3 (the third input port 124) is read (step S6), and processing for setting the power-on delay timer is performed (step S7). In this process, by setting a predetermined initial value, the program of the subordinate control means (for example, the payout control device 200 and the performance control device 300) that performs various controls according to the instructions from the game control device 100 that constitutes the main control means. A waiting time (for example, 3 seconds) is set for waiting for normal startup. As a result, when the power is turned on, if the game control device 100 starts up first and the command is sent to the slave control device before the slave control device (for example, the payout control device 200 or the effect control device 300) starts up, and the slave control device can avoid missing commands. That is, the game control device 100 delays the start of the main control means (game control device 100) when the power is turned on, and waits for the start of the sub-control device (payout control device 200, effect control device 300, etc.). It constitutes waiting means for setting a waiting time.

In addition, the power-on delay timer clocks time using a storage area that is not subject to RAM validity determination (checksum calculation) (RAM area not subject to validity determination, registers, or the like). As a result, when calculating check data such as a checksum of the RAM area, there is no need to exclude a part of the RAM area from the calculation, so control at power-on can be prevented from becoming complicated.

The third input port 124 receives signals from the setting value change switch 151 and the setting key switch 152 and signals from the body frame open detection switch. By reading the state of the input port 124, it is possible to grasp the state of the setting value change switch 151 and the setting key switch 152 when the power is turned on, and the open state of the front frame 12 (body frame). As described above, when the power is turned on with the front frame 12 opened and the setting key of the setting key operating section turned to the second position, the probability setting value change state in which the probability setting value can be changed is entered. becomes. In addition, when the power is turned on with the setting key of the setting key operation section not turned to the second position, and the setting value change button is pressed, the RAM 111C is cleared (initialized). ing.

By reading the state of the third input port 124 before the standby time starts, the operation of the set value change button can be reliably detected. That is, if the state of the set value change switch 151 is read after the standby time has elapsed, it is necessary to continue operating the set value change button from power-on until the standby time has elapsed. However, by reading the status before the start of the standby time, such troublesome operations are not required, and a situation in which the initialization operation performed when the power is turned on can be prevented from being accepted.

After performing the process of setting the power-on delay timer (step S7), the process of measuring the standby time and monitoring the occurrence of a power failure during the standby time (steps S8 to S12) is performed. First, the power failure monitoring signal input from the power supply device 400 is read through the port and data bus and the number of times (for example, two times) to be checked is set (step S8), and it is determined whether the power failure monitoring signal is on. (step S9).

If the power failure monitor signal is on (step S9; Y), it is determined whether the power failure monitor signal has been on for the number of checks set in step S8 (step S10). If the ON state of the power failure monitoring signal has not continued for the number of checks (step S10; N), the process returns to the determination of whether the power failure monitoring signal is ON (step S9). Also, if the power failure monitor signal has been turned on for the number of checks (step S10; Y), ie, if it is determined that a power failure has occurred, it waits until the game machine is powered off. In this way, by determining that a power failure has occurred when a power failure monitoring signal is continuously received for a predetermined period of time, it is possible to prevent erroneous detection of a power failure due to noise, etc., and appropriately handle problems that occur when the power is turned on. can do.

That is, the game control device 100 serves as power failure monitoring means for monitoring the occurrence of power failure during a predetermined waiting time. As a result, it is possible to cope with a power failure that occurs during the period in which the activation of the game control device 100, which constitutes the main control means, is delayed, and it is possible to appropriately deal with problems that occur when the power is turned on. Note that access to the RAM is not permitted until the standby time is over, and the memory contents of the previous power shutdown are still retained, so backup processing, etc. will be performed when a power failure occurs here. No need. Therefore, even if a power failure occurs during the standby time, there is no need to back up the RAM, and the burden of control can be reduced.

On the other hand, if the power failure monitoring signal is not on (step S9; N), that is, if no power failure has occurred, the power-on delay timer is updated by -1 (step S11), and whether the value of the timer is 0 is determined (step S12). If the timer value is not 0 (step S12; N), that is, if the waiting time has not ended, the process returns to the process of setting the number of checks of the power failure monitoring signal (step S8). If the timer value is 0 (step S12; Y), that is, if the standby time has expired, access to a readable and writable RWM (read/write memory) such as RAM or EEPROM is permitted (step S13). ), output OFF data to all output ports (set to no output state) (step S14).

Next, a serial port (a port pre-installed in the game microcomputer 111 and used for communication with the effect control device 300 and the payout control device 200 in this embodiment) is set (step S15).
Next, it is determined whether the value of the power failure inspection area 1 in the RWM is normal power failure inspection area check data 1 (for example, 5Ah) (step S16), and if normal (step S16; Y), the power failure in the RWM It is determined whether the value of inspection area 2 is normal power failure inspection area check data 2 (for example, A5h) (step S17). If the value of the power failure inspection area 2 is normal (step S17; Y), checksum calculation processing is performed to calculate the checksum of the predetermined area in the RWM (step S18). match the checksum (step S19). That is, the game control device 100 serves as validity determination means for determining whether the information stored in the storage means is valid when the power is turned on. If the checksums match (step S19; Y), the RAM clear start address 2 is set (step S20), and it is determined whether the probability set value is changed (step S21). When the probability setting value is being changed, it can be determined from the fact that the probability setting value changing flag is set.

If it is in this probability setting value change state (step S21; Y), the process proceeds to step S35 to perform RAM initialization processing and processing to make the probability setting value change state in which the probability setting value can be changed. Here, it is determined that the probability setting value is being changed when the power supply is cut off while the probability setting value is being changed and the data in the RAM is normally backed up. It is designed to be in a value change state. If the probability setting value is not changed (step S21; N), it is determined whether the body frame (front frame 12) is open based on the previously read state of the third input port 124 (step S22).

In the storage area of the RAM 111C, a probability setting value area, an initial value random number area, a variation pattern random number area, a game control area, and a state display area are set in order from the top. In the probability setting value area, a probability setting value area for storing information on the currently set probability setting value and a work area for temporarily storing various information in the process of changing or confirming the probability setting value are set. be done. This work area includes a working probability setting value area for storing information on the probability setting value selected in the probability setting value change state, and an area for storing various flags. In addition, the area for the initial value random number stores the jackpot design initial value random number, the small winning design initial value random number, the winning initial value random number, and the winning design initial value random number which are updated at any time. In addition, fluctuation pattern random numbers 1 to 3, which are updated as needed, are stored in the fluctuation pattern random number area. In the area for game control, a work area and a stack area are set in which information (various data and programs) necessary for game control is stored. In addition, in the work area for status display, a work area for storing information necessary for displaying the base value, the character ratio, and the like, and a stack area are set.

The base value is calculated from the number of game balls detected by the out switch that detects all game balls (safe balls and out balls) that have been shot into the game area 32 and finished playing, and the number of payouts based on winnings in the winning area. The information necessary for displaying the base value includes, for example, information on the number of game balls detected in the out switch and information on the number of payouts based on winnings in the winning area. In addition, the role ratio is the total number of prize balls (total number of prize balls) obtained by entering the prize opening from the power-on of the gaming machine 10 to the present, during the big hit state (that is, fanfare and ending It is the ratio of the number of prize balls (number of winning balls by role) obtained by winning the big prize gate (excluding middle ones) (so-called continuous role ratio), information necessary to display the role ratio includes, for example, information on the total number of prize balls (total number of prize balls) and information on the number of prize balls (number of winning balls for each role).

The RAM clear head address 2 is the head address of the area for the initial value random numbers, and by performing the process of clearing the RAM with this address set, the area for the initial value random numbers, the area for the variation pattern random numbers, and the The area for game control is cleared. Note that the area for the initial value random number and the area for the variation pattern random number may not be included in the clear target. A RAM clear start address 1, which will be described later, is the start address of the probability setting value area. Area for, area for variation pattern random numbers and area for game control (work area and stack area) will be cleared. Furthermore, the RAM clear top address 3, which will be described later, is the top address of the area for game control, and by performing the process of clearing the RAM with this address set, the area for game control is cleared. Become.

Regarding the status display area, the legitimacy of the status display edit output process in the timer interrupt process, which will be described later, is determined, and if there is an abnormality, the area is initialized, but the backed up information is not normal. The state display area may also be initialized in the process of clearing the RAM in the state where the RAM clear start address 1 set in the case is set. That is, in the process of clearing the RAM with the RAM clear start address 1 set, all areas of the RAM 111C may be initialized.

In the checksum calculation process of step S18 and step S57 described later, the checksum is calculated only for the work area for game control. In addition, one or more of the area for the probability setting value, the area for the initial value random number, the area for the variation pattern random number, the area for the game control and the area for the state display may be targeted. When multiple areas are targeted, the checksum of each area may be calculated individually and the validity may be determined individually. You may make it determine collectively.

If the body frame is open (step S22; Y), it is determined whether the setting key switch is on based on the previously read state of the third input port 124 (step S23). If the setting key switch is in the ON state (step S23; Y), the process proceeds to step S35 to perform RAM initialization processing and processing to change the probability setting value change state in which the probability setting value can be changed. If the setting key switch is not in the ON state (step S23; N) or if the body frame is not in the open state (step S22; N), the process proceeds to step S24, and the state of the previously read third input port 124 is checked. (step S24).

If the set value change switch is not in the ON state (step S24; N), the process proceeds to step S30, and the process for normal recovery from the power failure is performed. In addition, if the set value change switch is in the ON state (step S24; Y), the process proceeds to step S41, the initialization of the area for the initial value random number, the area for the variation pattern random number and the RAM area for game control. process. That is, the setting value change switch 151 also has a function as an initialization operation section that can be operated from the outside, and the game control device 100 is operated by the initialization operation section. Initialization means for initializing the

On the other hand, if it is determined that the value of the power failure inspection area is not normal check data (step S16; N or step S17; N), if it is determined that the checksum does not match (step S19; N), step S25 to initialize all RAM areas. That is, the RAM area for probability setting values and the RAM area for status display are initialized only when a RAM abnormality occurs. In addition, the initial value random number area, the variation pattern random number area and the RAM area for game control are not only when the set value change switch 151 is turned on as described above, but also when a RAM abnormality occurs. is also initialized.

First, the RAM clear head address 1 is set (step S25), and it is determined whether the body frame (front frame 12) is open based on the state of the third input port 124 read earlier (step S26). If the body frame is open (step S26; Y), it is determined whether the setting key switch is on based on the previously read state of the third input port 124 (step S27). If the setting key switch is on (step S27; Y), the process proceeds to step S35 to initialize the RAM and to change the probability set value changeable state. As will be described later, in steps S35 and S36, the RAM is initialized. In this case, since the RAM clear start address 1 is set, the probability setting value area and the initial value random number area , the area for variation pattern random numbers and the area for game control (work area and stack area) are cleared and the initial values are saved. Note that the state display area may also be initialized here.

Also, if the setting key switch is not in the ON state (step S27; N) or if the main body frame is not in the open state (step S26; N), the command (specific information) for setting change instruction is sent to the effect control board (effect control device). 300) (step S28), prohibits access to the RAM (step S29), stops control, and waits for power off of the gaming machine. In the production control device 300, based on the reception of the setting change instruction command, the display of the display device 41 and the sub-information display device 90, the light emission of the LEDs of the frame decoration device 18 and the board decoration device 46, and the operation of the board production device 44. , the speaker 19a, 19b output voice or the like to prompt the user to change the probability set value. This notification continues until the game machine is powered off.

In this case, after turning off the power of the game machine, if the power is turned on again with the front frame 12 opened and the setting key of the setting key operation section turned to the second position, the setting key is turned on in the process of step S27. It is determined that the switch is on (step S27; Y), and the process proceeds to step S35, where the RAM is initialized and the probability set value changeable state is performed. In addition, when the control is stopped after moving to step S29, without opening the front frame 12 after shutting off the power of the game machine, or without turning the setting key of the setting key operation section to the second position. When the power is turned on again, the data in the RAM remains abnormal and it is not possible to shift to the probability set value change state, so the processing of steps S28 and S29 is reached again.

In addition, although he is trying to perform notification by transmitting a setting change instruction command to the effect control device 300 in step S28, the game control device 100 may perform notification. For example, the game control device 100 may be notified in the batch display device 50 controlled, in the special figure 1 indicator 51 and the special figure 2 indicator 52, so as to perform a display that is not used as identification information Alternatively, an indicator for announcing an abnormality may be provided.

In step S30 of FIG. 6, the initial values at the time of power failure recovery are saved in the area to be initialized (step S30). The areas to be initialized here are the blackout inspection area, the checksum area, and the area related to error monitoring. The busy signal status area for storing the state of the payout busy signal, which is a signal indicating whether or not the payout control device 200 can accept commands, is also cleared, indicating that the state of the payout busy signal has not been determined. It is in an indeterminate state. Similarly, the touch switch signal state monitoring area for storing the state of the touch switch signal is also cleared and set to an indeterminate state indicating that the state of the touch switch signal has not been determined. After that, the area for storing the game state in the RWM is examined to determine whether or not the probability state of the special figure variation display game is a high probability state (step S31).

Here, if the special figure is not in the high probability (step S31; N), skip steps S32 and S33 and proceed to step S34. In addition, when the special figure is in the high probability (step S31; Y), the ON information is saved in the high probability notification flag area (step S32), and the high probability notification LED (error indicator) provided on the game board 30 is saved in the segment area (step S33).

Then, the command at the time of power failure recovery corresponding to the processing number prepared for rationally executing the special game processing described later is transmitted to the production control board (production control device 300) (step S34), and step S45. proceed to In the case of this embodiment, in step S34, model designation command, special figure 1 reservation number command, special figure 2 reservation number command, probability information command, probability setting value information which is information of the selected probability setting value, screen designation A plurality of commands such as a command (for example, a customer waiting demo command in the case of a customer waiting state, and a recovery screen command in other cases) are transmitted. Depending on the model, in addition to these commands, a number-of-effects information command or a high-probability number-of-times information command is also transmitted. In particular, by transmitting the probability set value information, which is the information of the probability set value selected to the effect control device 300, it is possible to perform the effect according to the probability set value, and the effect of the game according to the probability set value. It is possible to execute an effect of suggesting or notifying a set probability value such as different selection probabilities.

The screen designation command transmits a command corresponding to the state of the resumed game. When resuming the special figure variation display game that was interrupted by the power cutoff with the resumption of control, a recovery screen command that constitutes recovery information is transmitted as a screen designation command. Furthermore, in this case, information regarding the result of the restarted special figure variation display game is also transmitted. Also, when the power supply is interrupted during the customer waiting state and the control is resumed in the customer waiting state due to the restoration of the power supply, a customer waiting demo command is transmitted as a screen designation command. Also, when resuming the special game state that was interrupted by the power shutdown along with resuming the control, a special game state resuming command is transmitted as a screen designation command.

In step S35 of FIG. 6, the RAM area to be cleared is cleared to zero (step S35) as a process of initializing the RAM and setting the probability setting value to a changeable state in which the probability setting value can be changed. The initial value at the time of RAM initialization is saved in the area (step S36). Here, when the backed-up information is normal and the process proceeds from step S21 or S23, since the RAM clear top address 2 is set, the area for the initial value random number, the area for the variation pattern random number and the area for game control , the RAM area (work area and stack area) is cleared to 0 and the initial value is saved. That is, the probability setting value area and the state display area are not initialized. However, it is not necessary to clear the area for initial value random numbers and the area for variation pattern random numbers.

On the other hand, if the backed-up information is abnormal and the process proceeds from step S27, since the RAM clear head address 1 is set, the area for the probability setting value, the area for the initial value random number, and the area for the variation pattern random number. And the area for game control (work area and stack area) is cleared and the initial value is saved. That is, the game control device 100 serves as initialization means capable of initializing the storage means based on the operation of the operation section (here, the setting key operation section). Note that the state display area may also be initialized here.

The area to be initialized is an area to be set to a value other than 0 among the areas cleared to 0, for example, an area related to the setting of the customer waiting demonstration area and the production mode. When all RAM areas are cleared to 0, the probability setting value is set to 1 by setting 0 to the probability setting value area. By setting the probability setting value with the lowest probability, damage to the gaming parlor can be minimized even when the RAM is cleared due to an abnormality or fraudulent act. By setting a value other than 0 as the initial value, it is possible to set a specific probability setting value (for example, setting 3) when the entire RAM area is initialized.

After that, a probability setting value changing flag is set as a process of setting the probability setting value changing state in which the probability setting value can be changed (step S37). As a result, the probability setting value change state is entered. Next, the probability setting value display data corresponding to the probability setting value is saved in the probability setting value display data area (step S38). As a result, it becomes possible to display information on the probability setting value currently set on the probability setting value display device 153 .

Then, the value of the probability setting value area is loaded, saved in the working probability setting value area (step S39), and the command for changing the probability setting is transmitted to the production control board (production control device 300) (step S40). , the process proceeds to step S45. In the production control device 300, based on the reception of the command for changing the probability setting, the display of the display device 41 and the sub-information display device 90, the LED emission of the frame decoration device 18 and the board decoration device 46, the board production device 44 The fact that the probability set value is being changed is notified by operation, sound output from the speakers 19a and 19b, and the like. In addition, although RAM is initialized, the command at the time of RAM initialization is not transmitted to the production|presentation control apparatus 300 here. A setting for outputting a security signal is also performed. In this case, a timer may be set so that the security signal is output only for a predetermined period of time, or the security signal may be continuously output during the period of the probability setting value change state. Also, since the RAM has not yet been initialized here, the setting for outputting the security signal may not be performed.

In addition, in step S41 of FIG. 6 as a process of initializing the RAM area for game control, the RAM clear head address 2 is set (step S41), the RAM area to be cleared is cleared to 0 (step S42), and the initialization is performed. The initial value at the time of RAM initialization is saved in the target area (step S43). As a result, the area for initial value random numbers, the area for variation pattern random numbers and the RAM area for game control (work area and stack area) are cleared to 0 and the initial values are saved. A timer is also set for outputting the security signal. That is, the game control device 100 serves as initialization means capable of initializing the storage means based on the operation of the operation section (set value change button in this case).

And the command at the time of RAM initialization is transmitted to the production|presentation control board (production|presentation control apparatus 300) (step S44), and it progresses to step S45. In the case of this embodiment, in step S44, model designation command, special figure 1 reservation number command, special figure 2 reservation number command, probability information command, probability setting value information which is information of the selected probability setting value, RAM initial A plurality of commands such as an initialization command (a command to display a customer waiting demo screen and notify RAM initialization with light and sound for a predetermined time (for example, 30 seconds)). Depending on the model, in addition to these commands, a number-of-effects information command or a high-probability number-of-times information command is also transmitted. In particular, by transmitting the probability set value information, which is the information of the probability set value selected to the effect control device 300, it is possible to perform the effect according to the probability set value, and the effect of the game according to the probability set value. It is possible to execute an effect of suggesting or notifying a set probability value such as different selection probabilities.

In step S45, a process of activating a CTC (Counter/Timer Circuit) circuit for generating a timer interrupt signal and a random number update trigger signal (CTC) in the gaming microcomputer 111 (clock generator) is performed. Incidentally, the CTC circuit is provided in the clock generator in the gaming microcomputer 111 . The clock generator includes a frequency dividing circuit that divides the oscillation signal (original clock signal) from the oscillation circuit 113, and a timer interrupt signal with a predetermined period (for example, 4 milliseconds) to the CPU 111A based on the frequency-divided signal. and a CTC circuit for generating a signal CTC for triggering random number update to be supplied to the random number generation circuit.

After the CTC start-up process of step S45, a process of starting and setting the random number generation circuit is performed (step S46). Specifically, the CPU 111A sets a code (specified value) for activating the random number generation circuit in a predetermined register (CTC update permission register) in the random number generation circuit. Also, the bit permutation pattern of the hard random number (here, the jackpot random number) generated by the hardware of the random number generating circuit is set. A bit permutation pattern is a method of permuting the extracted random number bit arrangement (the arrangement before bit transposition in the upper row) in a predetermined order and storing it as a different bit arrangement (arrangement after bit transposition in the lower row). is a pattern that defines By replacing the bits of the random number according to this bit permutation pattern, it is possible to break the regularity of the random number and improve the secrecy of the random number. The bit transposition pattern may be a single fixed pattern, or may be selected from a plurality of prepared patterns. In addition, the user may be allowed to arbitrarily set.

After that, the value of a predetermined register (soft random number registers 1 to n) in the random number generation circuit when the power is turned on is extracted, and the corresponding initial value random number (in the case of this embodiment, the random number that determines the winning pattern of the special figure (Big hit pattern random number, small hit pattern random number), random number to determine the hit of the normal pattern (hit random number), random number to determine the hit pattern of the normal pattern (hit pattern random number)) as the initial value (start value) of RWM After saving in the area (step S47), interrupt is permitted (step S48). Since the random number generation circuit in the CPU 111A used in this embodiment is configured so that the initial value of the soft random number register changes each time power is turned on, this value is used as the initial value (start value) of various initial random numbers. By doing so, the regularity of the random numbers generated by the software can be broken, making it difficult for the player to acquire illegal random numbers.

Subsequently, an initial value random number update process (step S49) is performed to update the values of various initial value random numbers and break the regularity of the random numbers. In the present embodiment, in the initial value random number update process, the jackpot design initial value random number, the small winning design initial value random number, the winning initial value random number, and the winning design initial value random number are updated (for example, +1 update). Here, the "jackpot design initial value random number" is a random number that is the initial value of the random number that determines the jackpot stop pattern of the special figure fluctuation display game, and the "small hit design initial value random number" is the special figure fluctuation display. It is a random number that is the initial value of the random number that determines the small winning stop symbol of the game. In addition, the "hit initial value random number" is a random number that is the initial value of the random number that determines the winning of the normal pattern variation display game, and the "hit symbol initial value random number" is the winning stop symbol of the normal pattern variation display game. A random number that is the initial value for determining In this way, by continuing to increment the initial value random number as long as time permits in the main processing, the randomness of the random number can be enhanced. It should be noted that the small hit symbol random number does not naturally exist in machines without a small hit. In addition, depending on the model, there are game machines that do not have winning symbol initial value random numbers.

Although not particularly limited, in the present embodiment, the jackpot random number, the jackpot pattern random number, the small hit pattern random number, the hit random number, and the hit pattern random number are generated using random numbers generated in the random number generation circuit. is configured as However, the jackpot random number is a so-called "high-speed counter" that is updated based on a clock that is faster than the operating clock of the CPU. It is a "low-speed counter" that is updated based on the CTC output (CTC (CTC2) different from the CTC (CTC0) of the timer interrupt process) that has the same period as the timer interrupt process, which is a unit. In addition, in the jackpot pattern random number, the small hit pattern random number, the hit random number, and the hit pattern random number, each time the random number goes around, the initial value random number (generated by software) is used to change the start value. ” is adopted. Each of the random numbers may be updated by a counter with +1 or -1, or may be updated by a random method in which all values within the range appear separately without duplication until one cycle is completed. That is, the jackpot random number is a random number updated only by hardware, and the jackpot pattern random number, small hit pattern random number, hit random number, and hit pattern random number are random numbers updated by hardware and software.

After the initial value random number update process in step S49, the number of times (for example, 2 times) to read and check the power failure monitoring signal input from the power supply 400 via the port and data bus is set (step S50), and the power failure is performed. It is determined whether or not the monitor signal is on (step S51). If the power failure monitoring signal is not ON (step S51; N), the process returns to the initial value random number update process (step S49). That is, when a power failure has not occurred, the initial value random number updating process and the power failure monitoring signal check (loop process) are repeated. By enabling the interrupt (step S48) before the initial value random number update process (step S49), if a timer interrupt occurs during the initial value random number update process, the interrupt process is preferentially executed. It is possible to avoid pressure on the interrupt processing due to the waiting by the initial value random number update processing.

Note that the initial value random number updating process in step S49 can be performed not only in the main process but also in the timer interrupt process. In order to avoid executing the value random number update process, when performing the initial value random number update process in the main process, it is necessary to disable interrupts and then update to cancel the interrupts. In addition, if the initial value random number update processing is not performed in the timer interrupt processing, and it is only in the main processing, there is no problem even if the interrupt is canceled before the initial value random number update processing. It has the advantage of being simplified.

If the power failure monitor signal is on (step S51; Y), it is determined whether the power failure monitor signal has been on for the number of checks set in step S50 (step S52). If the ON state of the power failure monitoring signal has not continued for the number of checks (step S52; N), the process returns to the determination of whether the power failure monitoring signal is ON (step S51). If the power failure monitoring signal continues to be turned on for the number of checks (step S52; Y), that is, if it is determined that a power failure has occurred, the interrupt is temporarily prohibited (step S53), and all A process of outputting OFF data to the output port (step S54) is performed.

After that, the power failure inspection area check data 1 is saved in the power failure inspection area 1 (step S55), and the power failure inspection area check data 2 is saved in the power failure inspection area 2 (step S56). Furthermore, after performing a checksum calculation process (step S57) for calculating a checksum when the RWM is powered off and a process (step S58) for saving the calculated checksum, a process for prohibiting access to the RWM (step S59) is performed. ), and then wait until the gaming machine is turned off. In this way, by saving the check data in the power failure inspection area and calculating the checksum when the power is shut off, it is possible to check whether the information stored in the RWM before the power shutoff has been correctly backed up. A decision can be made at the time of re-insertion.

From the above, the main control means (game control device 100) that controls the game overall, and the sub-control means (payout control device 200, effect control device 300, etc.) that perform various controls according to the instructions from the main control means ), the main control means delays the activation of the main control means and sets a predetermined standby time for waiting for the activation of the slave control device when the power is turned on (game control device 100) and power failure monitoring means (game control device 100) for monitoring the occurrence of power failure during the predetermined waiting time.

Also, a power supply device 400 that supplies power to various devices is provided, and the power supply device 400 is configured to output a power failure monitoring signal when the occurrence of a power failure is detected, power failure monitoring means (game control device 100) , it is determined that a power failure has occurred when the power failure monitoring signal continues to be received for a predetermined period of time.

In addition, the main control means (game control device 100) includes a RAM 111C capable of storing data, an initialization operation section (set value change button, setting key operation section) that can be operated from the outside, and an initialization operation section. An initialization means (game control device 100) for initializing data stored in the RAM 111C based on the operation, and the operation state of the initialization means is read before the start of the waiting time. becomes.

Also, the main control means (game control device 100) permits access to the RAM 111C after the waiting time has elapsed.

In the above main processing, after performing the processing of step S28, the processing of step S26 may be returned to, and the processing of steps S26 to S28 may be repeatedly performed until the setting key switch is turned on. . That is, the game control may be stopped to wait until the setting key switch is turned on. In this case, in steps S26 and S27, the determination is made based on the current state of the third input port 124 rather than the state of the third input port 124 read in step S6. Furthermore, if the state of repeating the processes of steps S26 to S28 continues for a certain period of time, the process may proceed to step S29 and wait for the power to be cut off.

Also, here, the condition for shifting to the probability setting value change state in which the probability setting value can be changed is that the body frame (front frame 12) is in the open state and the setting key switch is in the ON state. The open state of the frame 12 may not be a condition. Moreover, both the opening of the front frame 12 and the opening of the glass frame 15 may be set as the condition, or only the opening of the glass frame 15 may be set as the condition.

Alternatively, the setting key switch may not be provided, and the setting value change state may be shifted to the probability setting value change state only on the condition that the setting value change switch is in the ON state. That is, if the set value change switch is in the ON state in step S24 (step S24; Y), the process may proceed to step S35 of FIG. 6 without performing steps S22 and S23. In this case, steps S41 to S44 in FIG. 6 for initializing the area for the initial value random number, the area for the variation pattern random number and the area for the game control are not performed, but the setting is changed in the probability setting value change state. It is possible to initialize only the area for the initial value random number, the area for the variation pattern random number and the area for the game control by ending without setting or ending after setting the same probability setting value. In this way, if the set value change switch is ON only as a condition to shift to the probability set value change state, the structure of the RAM clear switch in the conventional pachinko game machine can be diverted.

From the above, it can be concluded that in a gaming machine capable of executing a game based on the establishment of a predetermined condition and generating a special game state in which a game value is awarded to a player when the result of the game is a special result, A control means (game control device 100) that performs control and probability setting values to which probability values used for lottery of the game are assigned are set by an operation unit (setting key operation unit (setting key switch 152), a setting value change button (setting value A setting means (game control device 100) that enables selection from a plurality of types of probability setting values by operating the change switch 151)), and the control means is a storage means (RAM 111C ), validity determination means (game control device 100) for determining whether the information stored in the storage means is valid when the power is turned on, and operation of the operation unit for selecting the probability set value. An initialization means (game control device 100) capable of initializing the storage means based on the probability setting when the validity determination means determines that the information stored in the storage means is not valid. This means that the notification prompting the selection of the value is performed. Therefore, it is possible to encourage recovery to a normal state. In addition, by initializing the RAM 111C, the information of the probability setting value set in the game arcade is also lost and the initial value is set. Therefore, it is possible to prevent a state in which a probability setting value unintended by the game parlor remains set.

Further, the control means is configured to be in a state in which the probability setting value can be selected when the operation unit is operated when the power is turned on, and the information stored in the storage means is checked by the validity determination means. If it is determined that the setting is not legitimate, the notification prompting the user to select the probability set value is continued until the power is turned off. Therefore, it is possible to prompt a return to a normal state and to prevent a state in which a probability setting value unintended by the game parlor remains set due to initialization.

Further, the control means stops the control of the game and waits for the selection of the probability set value when the information stored in the storage means is judged to be invalid by the validity judgment means. It will happen. Therefore, it is possible to prompt a return to a normal state and to prevent a state in which a probability setting value unintended by the game parlor remains set due to initialization.

In addition, the game control means (game control device 100) for controlling the game, and the effect control means (effect control device 300) for controlling the effect based on the information from the game control means, the game control means, When the legitimacy determination means determines that the information stored in the storage means is not valid, the specific information is transmitted to the production control means to stop the control of the game, and the production control means receives the specific information. is received, the notification prompting the selection of the probability set value is made. Therefore, it is possible to prompt a return to a normal state and to prevent a state in which a probability setting value unintended by the game parlor remains set due to initialization.

Further, when the specific information is received, the effect control means continues the notification prompting the selection of the probability set value until the power is cut off. Therefore, it is possible to prompt a return to a normal state and to prevent a state in which a probability setting value unintended by the game parlor remains set due to initialization.

Also, a game is controlled in a gaming machine capable of generating a special game state in which a game is executed based on the establishment of a predetermined condition and the result of the game is a special result, in which a game value is awarded to the player. The control means (game control device 100) and the probability setting value to which the probability value used for the lottery of the game is assigned are set to the first operating section (setting key operating section (setting key switch 152)) and the second operating section (setting value A setting means (game control device 100) that enables selection from a plurality of types of probability setting values by operating a change button (set value change switch 151), and the control means can retain stored contents even in a power-off state. storage means (RAM 111C), when the power is turned on, if the first operation unit and the second operation unit are not operated, restoration is performed based on the information stored in the storage means, and when the power is turned on, the second operation unit is restored. When the first operation unit is operated, the changeable state is set so that the probability setting value can be changed by the setting means, and when only the second operation unit is operated when the power is turned on, the storage means is initialized. This means that the Therefore, the work of changing the probability setting value and clearing the RAM can be selectively performed using a minimum number of operation units, and the work efficiency at the game parlor can be improved. Further, it is not necessary to provide an excessive number of operation units, and the manufacturing cost of the game machine can be reduced.

Further, the setting means can change the probability set value by operating the second operation unit in the changeable state. Therefore, the operation of selecting the probability setting value and the operation of selecting the initialization can be performed using the same operation unit, and the work efficiency at the game parlor can be improved. Further, it is not necessary to provide an excessive number of operation units, and the manufacturing cost of the game machine can be reduced.

In addition, the control means includes legitimacy determination means (game control device 100) for determining whether the information stored in the storage means is valid when the power is turned on, and the legitimacy determination means stores information in the storage means. When it is determined that the received information is not valid and the first operation unit is not operated, a notification prompting the initialization of the storage means is made. Therefore, it is possible to encourage recovery to a normal state.

Further, the control means is configured to enter a changeable state in which the probability setting value can be changed by the setting means and to initialize the storage means when the first operation unit is operated when the power is turned on. If the validity determination means determines that the information stored in the storage means is not valid and the first operation section is not operated, the first operation section is operated. This means that the notification prompting to turn on the power is performed. Therefore, it is possible to encourage recovery to a normal state.

[Timer interrupt processing]
Next, timer interrupt processing will be described. As shown in FIG. 7, timer interrupt processing is started when a periodic timer interrupt signal generated by the CTC circuit in the clock generator is input to the CPU 111A. When a timer interrupt occurs in the gaming microcomputer 111, the interrupt is automatically disabled, and the timer interrupt process of FIG. 7 is started.

When timer interrupt processing is started, first, register bank 1 is specified (step S101). By switching to register bank 1, it is equivalent to performing a register saving process to move the value held in a predetermined register (for example, the register used in the main process) to the RWM. Next, the upper address of the RAM head address is set in a predetermined register (for example, D register) (step S102). In step S102, the same processing as step S4 in the main processing is performed, but the register bank is different. Next, an input process (step S103) for reading inputs and signals from various sensors and switches, that is, reading the state of each input port is performed. Then, output processing (step S104) for driving control of actuators such as solenoids (large winning opening solenoid 38b, general electric solenoid 37c) and the like is performed based on output data set in various processes. When the firing stop signal is output in step S5 in the main processing, the firing permission signal is output by performing this output processing, and the firing permission signal can be set to the permission state. This launch permission signal is output to the launch control device via the payout control device. At that time, signal processing and the like are not performed. In addition, the launch permission signal is the first signal indicating the state of launch permission viewed from the game control device, and the second signal (fire permission signal) indicating the state of firing permission viewed from the payout control device is also payout control. It is generated within the device and output to the launch control device. In other words, two launch permission signals are output to the launch control device, and when both are permitted to launch, the game ball can be launched.

Next, random number update processing 1 (step S105) for updating the initial value (start value) of the jackpot pattern random number, the small hit pattern random number, the hit random number, and the hit pattern random number that are the targets of the initial value random number update process (step S105), the special figure 1. Random number update process 2 (step S106) is performed to update the variation pattern random number for determining the variation pattern in the variation display game of special figure 2. After that, it monitors whether there is a normal signal input from the starting port 1 switch 36a, the starting port 2 switch 37a, the normal gate switch 34a, the winning port switch 35a, and the big winning port switch 38a, and monitors errors ( Winning hole switch/state monitoring processing (step S107) is performed to check whether the front frame or glass frame is open.

Next, a probability setting value change process (step S108) is performed to change or confirm the probability setting value, and it is determined whether or not the probability setting value is changed (step S109). When the probability setting value is being changed, it can be determined from the fact that the probability setting value changing flag is set. If it is not in the probability set value change state (step S109; N), it is determined whether it is in the probability set value confirmation mode (step S110). In the probability setting value confirmation mode, the probability setting value cannot be changed, but the currently set probability setting value can be confirmed.

If it is not in the probability setting value confirmation mode (step S110; N), as processing related to the progress of the game, payout command transmission processing (step S111) for outputting commands set in the transmission buffer in various processes to the payout control device 200, A special figure game process (step S112) for performing processing relating to the figure variation display game, and a normal figure game processing (step S113) for performing processing relating to the normal figure variation display game are performed. On the other hand, if it is in the probability set value change state (step S109; Y) or if it is in the probability set value confirmation mode (step S110; Y), the process proceeds to step S114 without performing the above-described game-related processing. That is, in the probability set value change state or the probability set value confirmation mode, the game cannot be progressed.

It should be noted that, if the probability setting value change state or the probability setting value confirmation mode, payout command transmission processing (step S111), special figure game processing (step S112), normal figure game processing (step S113) so as not to be performed However, one or more of these may be performed. For example, the payout command transmission process (step S111) may be performed and the prize balls may be paid out. Further, processing other than the above-described processing may be included as processing that is not performed in the probability setting value change state or the probability setting value confirmation mode. For example, random number update processing 1 (step S105) and random number update processing 2 (step S106) are not performed in the probability set value change state, and random number update is not performed in the probability set value change state or the probability set value confirmation mode. You can do it. Also, the type of processing that is not to be executed in the probability setting value change state and the probability setting value confirmation mode may be different.

Next, a segment LED editing process (step S114) for driving the segment LED provided in the gaming machine 10 to display the special figure variation display game and various information related to the game so as to display desired content (step S114), the magnetic sensor 61 Magnet fraud monitoring processing (step S115) for checking the detection signal from the board to determine whether there is an abnormality, board radio fraud monitoring processing (step S115) for checking the detection signal from the board radio wave sensor 62 and determining whether there is an abnormality Monitoring processing (step S116) is performed. Then, an external information editing process (step S117) is performed to set signals to be output to various external devices in an output buffer, and a base value is calculated from the number of game balls detected by the out switch and the number of payouts based on winnings in the winning area. is performed (step S118), and the timer interrupt process is terminated.

Here, in this embodiment, the process of restoring the interrupt disabled state (that is, the process of enabling interrupts) and the process of restoring the specification of the register bank (that is, the process of specifying register bank 0) automatically (at the end of timer interrupt processing). It should be noted that depending on the CPU used, there are game machines that require an instruction to execute a process for restoring the interrupt disabled state or a process for restoring the designation of the register bank.

[Output processing]
Next, details of the output process (step S104) in the timer interrupt process described above will be described. As shown in FIG. 8, in the output process, first, OFF data is output (reset) to the output port 135 for outputting segment data of the collective display device (LED) 50 (step S141). Next, data to be output to the output port 134 for outputting the data of the big winning opening solenoid 38b and the general electric solenoid 37c are synthesized and output (step S142).

Then, the value of the digit counter for sequentially scanning the digit lines of the collective display device (LED) 50 is updated (step S143), and the output data of the digit line of the LED corresponding to the value of the digit counter is obtained (step S144). In this embodiment, the value of the digit counter is updated by +1 within the range of 0 to 3. Next, the acquired data and the external information data are combined (step S145), and the combined data (eg, "door/frame open" data, "security signal" data) is sent to the output port for digit/external information output. 136 (step S146).

After that, the segment line output data is loaded from the segment area in the RWM corresponding to the value of the digit counter (step S147), and the loaded data is output to the output port 135 for segment output (step S148). As a result, the plurality of light-emitting display units provided in the collective display device 50 are controlled by dynamic control.

Subsequently, the various output data of the external information are synthesized (step S149), and the synthesized data (for example, "jackpot signal 1" data, "jackpot signal 2" data, "jackpot signal 3" data, "jackpot signal 4" data, "symbol determination number signal" data, "start signal" data, "main prize ball signal" data) and the output data of launch permission are combined (step S150), and the combined data is It outputs to the output port 137 for outputting the external information/launch permission signal (step S151).

Next, off output data for the probability setting value display is set as the display content in the probability setting value display device 153 (step S152), and it is determined whether the probability setting value display permission flag is set (step S153). The probability set value display permission flag is a flag that is set when the probability set value display device 153 is permitted to display the probability set value.

If the probability setting value display permission flag is set (step S153; Y), the probability setting value display data is loaded from the probability setting value display data area (step S154), and the display data is output as the probability setting value display. Output to the port 134 (step S155). As a result, the probability setting value is displayed on the probability setting value display device 153 . On the other hand, if the probability set value display permission flag is not set (step S153; N), the display data is output to the probability set value display output port 134 (step S155). In this case, the OFF output data set in step S152 is set, and nothing is displayed on the probability set value display device 153 .

Next, the data to be output to the test terminal output port 1 on the relay board 70 for outputting the test signal to the test firing test apparatus is loaded and synthesized, and the synthesized data is output to the test terminal output port 1 on the relay board 70. (step S156). After that, the data to be output to the test terminal output port 2 on the relay board 70 for outputting the test signal to the test-firing test apparatus is loaded and synthesized, and the synthesized data is output to the test terminal output port 2 on the relay board 70. (Step S157).

Next, the data to be output to the test terminal output port 3 on the relay board 70 for outputting the test signal to the test firing test apparatus is loaded and synthesized, and the synthesized data is output to the test terminal output port 3 on the relay board 70. (step S158). Further, it loads and synthesizes data to be output to the test terminal output port 4 on the relay board 70 that outputs the test signal to the test firing test apparatus, and outputs the synthesized data to the test terminal output port 4 on the relay board 70. (Step S159). Then, it loads and synthesizes the data to be output to the test terminal output port 5 on the relay board 70 that outputs the test signal to the test firing test apparatus, and outputs the synthesized data to the test terminal output port 5 on the relay board 70. (Step S160).

Next, the test signal output data of the probability setting values are loaded (step S161). Here, the probability setting value display data is loaded from the probability setting value display data area as the test signal output data. That is, the data for display of the probability setting value display device 153 is used as it is for the information about the probability setting value in the test signal to the test firing apparatus. This simplifies the processing, and enables accurate information to be output without changing the information of the probability setting value. Of course, display data may be converted into value information and output.

Then, it is determined whether the setting key switch is on (step S162), and if it is not on (step S162; N), the process proceeds to step S184. If it is ON (step S162; Y), the loaded data and setting key switch ON information are combined (step S163), and the process proceeds to step S184. After that, the synthesized data is output to the test terminal output port 6 on the relay board 70 for outputting the test signal to the test-firing test apparatus (step S164), and the output process is completed.

[Payout command transmission process]
Next, the details of the payout command transmission process (step S111) in the timer interrupt process described above will be described. As shown in FIG. 9, in the payout command transmission process, first, it is checked whether there is a count in the winning number counter area 2 (step S181).

The winning number counter area is provided in the RAM 111C of the game control device 100, and a winning number counter area 1 and a winning number counter area 2 are provided. The winning number counter area 1 is an area used for transmitting a payout command (prize ball command) for instructing the payout control device 200 to pay out prize balls. Winning data corresponding to the ball is stored. That is, the prize number counter area 1 forms a prize ball command counter capable of storing information relating to the prize ball command.

The winning number counter area 2 is used to transmit a main winning ball signal to be output to an external device each time the number of winning balls generated by winning a prize in the winning opening (scheduled number of payouts) reaches a predetermined number (here, 10). This is an area to be used, and stores prize winning data corresponding to prize balls for which main prize ball signal generation processing has not been performed. That is, the prize number counter area 2 forms a main prize ball signal counter capable of storing information on the main prize ball signal. In addition to this main prize ball signal, the payout control device 200 also outputs a payout prize ball signal to the external device each time the number of prize balls actually paid out reaches a predetermined number (here, 10). By comparing these two signals, it is possible to monitor fraudulent payouts.

Each of these winning number counter areas has a winning number counter area according to the number of winning balls set for each winning opening (in the case of this embodiment, 3 winning balls, 10 winning balls, and 14 winning balls). is provided, and the count number of the corresponding winning number counter area is incremented by 1 based on the winning to the winning opening. That is, it is possible to store the information of the winning in units of one winning in the winning area. The winning number counter area 1 is allocated with a larger area than the winning number counter area 2 so that more winning data can be stored. This is because while the main prize ball signal can be transmitted regardless of the state of the destination, the payout command may be suspended depending on the state of the payout control device 200 to which it is sent. This is because data may be accumulated.
Specifically, in the case of this embodiment, up to 65,535 prizes can be stored in each of the 3 prize ball counter area, the 10 prize ball counter area, and the 14 prize ball counter area of the prize number counter area 1. , the winning ball counter area 2, the winning ball counter area 2, the winning ball counter area 10, and the winning ball counter area 14 are configured to be able to store up to 255 winnings, respectively.

In the process of checking whether there is a count in the winning number counter area 2 (step S181), the winning number counter area to be checked among the plurality of winning number counter areas provided for each number of winning balls is "0". Determine if there is a count number that is not If there is no count (step S181; N), the address of the winning number counter area 2 to be checked is updated (step S182), and it is checked whether the count number of all winning number counter areas has been checked. Determine (step S183). If it is determined that all checks have been completed (step S183; Y), the process proceeds to step S192. On the other hand, if it is determined that all checks have not been completed (step S183; N), the process returns to step S181 and the above processing is repeated. In the case of this embodiment, the address of the winning number counter area 2 to be checked is updated in the order of 3 prize ball counter area→10 prize ball counter area→14 prize ball counter area.

Also, in step S181, when it is determined that there is a count (step S181; Y), the count of the target winning number counter area is updated by -1 (step S184), and the target winning number counter area 2 The number of payouts corresponding to the address of is obtained (step S185). Then, the value of the remaining number of prize balls area and the acquired number of payouts are added (step S186), and the addition result is saved in the remaining number of prize balls area (step S187). As the value of the remaining number of prize balls area before this processing, a fractional number that is less than the predetermined number that is the reference for the output of the main prize ball signal is stored.

After that, 10 is subtracted from the addition result (step S188), and it is determined whether the subtraction result is 0 or more (step S189). Also, if it is 0 or more (step S189; Y), the value of the main prize ball signal output frequency area is updated by +1 (step S190). That is, every time the remaining number of prize balls reaches 10, the number of output times of the main prize ball signal is updated by +1.
Then, the subtraction result is saved in the prize ball remaining number area (step S191), and the process returns to step S188. As a result, the main prize ball signal is output to an external device such as a hall computer. That is, the game control device 100 serves as an external information output means for outputting to the outside of the gaming machine a main prize ball signal including information regarding the number of prize balls determined to be paid out as the game balls enter a predetermined prize area. . By outputting the main prize ball signal, when the payout of game balls is concentrated during a big win, the output of the prize ball signal is delayed along with the payout of the game balls, and the accuracy of the prize ball signal generated during the big win is delayed. It is possible to prevent the problem that the number of winning balls cannot be counted.
Here, the process of steps S181 to S191 is a process of updating (increasing) the number of output times of the main prize ball signal, and the process of steps S192 to S201 is a process of transmitting a payout command.

In step S192, if the payout command transmission timer is not "0", it is updated by -1 (step S192), and it is determined whether the payout command transmission timer has reached "0" (step S193). If the payout command transmission timer is not "0" (step S193; N), the payout command transmission process is terminated. If the payout command transmission timer is "0" (step S193; Y), the payout busy signal flag is checked to determine whether the payout busy signal is in a busy state (step S194).

The payout busy signal is a signal indicating whether or not the payout control device 200 can start the payout control immediately, and when the payout control cannot be started immediately, the payout busy signal is on (busy state). be done. That is, the payout busy signal can also be said to be a signal indicating whether or not the payout command (prize ball command) can be received. That is, the payout busy signal serves as a state signal indicating whether or not the payout control means (payout control device 200) can start payout control.

When this payout busy signal indicates a busy state (step S194; Y), the payout command transmission process is terminated. That is, in the present embodiment, instead of transmitting a payout command for each timer interrupt, a predetermined time elapses (the value of the payout command transmission timer becomes 0), and the payout control device 200 can pay out prize balls. It is configured to transmit a payout command when it is in the state. In this way, when the payout control device 200 cannot immediately start the payout control and does not transmit the payout command, the subsequent processing related to the transmission of the payout command is not performed, thereby avoiding unnecessary processing. It is designed to prevent and reduce the burden of control.

Conditions for the payout busy signal to turn on (busy state) are, for example, during payout operation, during ball lending operation, during shot ball running out error, during overflow error, during frame radio wave fraud, payout ball detection switch (distributed ball detection switch) during abnormal payout error, during overpayment error, during payout control device 200, the number of prize balls to be paid out is counted in the memory of payout control device 200 (the number of prize balls that have not been paid out = the number of acquired game balls remaining). ) (when not = 0).

If the payout busy signal is not in a busy state (step S194; N), it is checked whether there is a count in the win number counter area 1 (step S195). In the process of checking whether there is a count in the winning number counter area 1 (step S195), the winning number counter area to be checked among the plurality of winning number counter areas provided for each number of winning balls is "0". Determine if there is a count number that is not

If there is no count (step S195; N), the address of the winning number counter area 1 to be checked is updated (step S196), and it is determined whether the check of the count number of all winning number counter areas has been completed. Determine (step S197). When it is determined that all checks have been completed (step S197; Y), the payout command transmission process is terminated. On the other hand, if it is determined that all the checks have not been completed (step S197; N), the process returns to step S195 and the above processing is repeated. In the case of this embodiment, the address of the winning number counter area 1 to be checked is updated in the order of 3 prize ball counter area→10 prize ball counter area→14 prize ball counter area.

Also, in step S195, when it is determined that there is a count (step S195; Y), the count of the target winning number counter area is updated by -1 (step S198), and the target winning number counter area 1 acquires the number-of-payouts command corresponding to the address of (step S199). Then, the acquired payout number command is written in the payout serial transmission buffer (step S200), the initial value is saved in the payout command transmission timer area (step S201), and the payout command transmission process is terminated. The payout command transmission timer is for managing transmission intervals, and is set to 200 milliseconds as an initial value, for example.

As a result, a payout command (prize ball command) is generated in units of winning one prize in the prize winning area, and is transmitted to the payout control device 200 . The payout control device 200 performs control to pay out a predetermined number of prize balls based on this payout command. That is, the game control device 100 indicates that a state signal indicating whether or not the payout control means can start payout control output from the payout control means (payout control device 200) can start payout control. It constitutes a prize ball command transmission means for transmitting a prize ball command to the payout control means when it is.

In this way, the game control device 100 performs the control of transmitting the prize ball command based on the state signal output from the payout control device 200, so the prize is awarded only when the payout control device 200 can immediately execute the payout control. A ball command will be sent. As a result, the data corresponding to winning prizes that have not yet been paid out are held on the game control device 100 side, so that they are backed up by the game control device 100 when a power failure occurs, and backed up by the payout control device 200.例文帳に追加Accurate payout control can be realized without having a function for doing so.

In a conventional game machine (for example, the game machine disclosed in Japanese Patent Application Laid-Open No. 2000-312759), when a power cutoff state occurs for some reason, the payout control device 200 backs up data in its own storage means and immediately before the power cutoff. data to maintain the payout control state. However, the conventional game machine requires a backup function, which leads to an increase in cost. According to the present invention, accurate payout control can be realized even if the payout control device 200 does not have a backup function.

In addition, since the main prize ball signal transmitted to the external device is output regardless of the state of the payout busy signal, the main prize ball signal can be output without delay, and the payout of prize balls can be performed by an external device such as a hall computer. It will be possible to accurately grasp the timing, for example, to accurately grasp the base value. In addition, since a prize ball command counter capable of storing information on the prize ball command and a main prize ball signal counter capable of storing information on the main prize ball signal are separately provided, the prize ball command and the main prize ball have different transmission timings. Signal information can be managed separately, and information can be reliably managed.

From the above, the game control is performed comprehensively, and the game ball to the winning area provided in the game area 32 (starting winning opening 36, normal fluctuation winning device 37, general winning opening 35, special fluctuation winning device 38) A game control means (game control device 100) that transmits a prize ball command based on the winning of the game control means (game control device 100), and a payout control means (payout control device 200), and the game control means controls the payout of prize ball commands based on a state signal (busy signal) indicating whether or not the payout control means can start payout control output from the payout control means. When a power failure occurs and recovers from the power failure, even if a state signal indicating that the payout control can be started is output from the payout control means, the prize ball command is immediately issued. A prize ball command is transmitted to the payout control means in response to the state signal indicating that the payout control can be started from the payout control means without being sent to the payout control means and continuously outputting for a predetermined period. It means that you are trying to do it.

In addition, a plurality of winning regions (starting winning port 36, normal variable winning device 37, general winning port 35, special variable winning device 38) with different numbers of winning balls are provided in the game region 32, and the game control means (game control device 100) , a prize ball command counter (game control device 100) capable of specifying whether or not a prize ball command for instructing game ball payout control has not been transmitted for each number of prize balls, and a state signal can start payout control. When there is an unsent prize ball command in each prize ball command counter, the prize ball command is transmitted to the payout control means (payout control device 200), and the state signal indicates that the payout control means Whether or not the payout control can be started is specified prior to specifying whether or not there is an unsent prize ball command in each prize ball command counter.

In addition, overall game control is performed, and a prize ball command is issued based on the winning of a game ball to a predetermined winning area (starting winning port 36, normal variable winning device 37, general winning port 35, special variable winning device 38) and a payout control means (payout control device 200) for controlling the payout of game balls based on a prize ball command transmitted from the game control means. When the state signal output from the payout control means indicating whether or not the payout control means can start payout control indicates that the payout control can be started, the control means controls the payout of the prize ball command. A prize ball command transmitting means (game control device 100) that transmits to the means, and a prize ball signal (main prize ball signal) including information on the number of prize balls determined to be paid out according to the winning of game balls in a predetermined prize area. external information output means (game control device 100) for outputting to the outside of the game machine, and the external information output means receives a state signal output from the payout control means, and the payout control means can start payout control. It means that the prize ball signal is output regardless of whether or not there is a prize ball.

In addition, the prize ball command transmission means (game control device 100), when a power failure occurs and recovers from the power failure, even if the state signal indicates that the payout control can be started, the prize ball command transmission means immediately is not transmitted to the payout control means (payout control device 200), and the state signal indicates that the payout control can be started continues for a predetermined period. It means that it is transmitted to the payout control means.

In addition, the game control means (game control device 100) includes a prize ball command counter (game control device 100) capable of storing information regarding prize ball commands, and a prize ball command counter (game control device 100) capable of storing information regarding prize ball signals (main prize ball signals). A ball signal counter (game control device 100) is provided, and the prize ball command transmission means (game control device 100) is a predetermined winning area (starting winning opening 36, normal fluctuation winning device 37, general winning opening 35, special fluctuation A prize ball command is generated in units of one winning to the prize winning device 38), and when the state signal indicates that the payout control can be started, the payout control means (payout control device 200) issues the prize ball command. ), the prize ball command counter (game control device 100) can store the information of the prize in units of one prize to a predetermined prize area, and the game to the predetermined prize area The number of prize ball commands that have not been transmitted can be stored by updating when the ball wins and by updating in correspondence with the transmission of the prize ball command to the payout control means, and the external information output means: The number of prize balls determined to be paid out is accumulated according to the winning of game balls in a predetermined prize winning area, and a prize ball signal is output to the outside of the game machine each time the accumulated value reaches a predetermined number. The ball signal counter is capable of storing winning information in units of one winning in a predetermined winning area, updating when a game ball wins in the predetermined winning area, and receiving a winning ball from the external information output means. By performing updating corresponding to the accumulation processing of the number, it is possible to store the number of prize balls that have not yet been subjected to the accumulation processing.

Further, in this embodiment, the game control device 100 outputs a main prize ball signal each time the number of game balls scheduled to be paid out reaches 10, and the payout control device 200 outputs the game ball payout number of 10. It is configured such that the main prize ball signal is output each time the
Specifically, the game control device 100 updates the main prize number signal output count by +1 (subroutine in the payout command transmission process) every 10 scheduled payouts (each time a payout command is sent), and updates ( Output the main prize ball signal for the number of output times set).
Since a prize ball signal is transmitted from the payout control device 200 every time 10 balls are actually paid out in response to the main prize ball signal output for each schedule, the schedule and result can be matched, Ability to deal with fraudulent payouts. In addition, even if you win during the jackpot period, the payout is delayed due to running out of balls, etc., and even if the payout is made after the jackpot ends, the main prize ball signal output at the time of winning will ensure that the hall controller (hall computer) is accurate. Can collect (judge) information.

[Winning gate switch/state monitoring process]
FIG. 10 shows the winning opening switch/state monitoring process (step S107) in the timer interrupt process. In this winning hole switch/state monitoring process, first, it is determined whether or not the probability setting value is changed (step S299). When the probability setting value is being changed, it can be determined from the fact that the probability setting value changing flag is set. If it is not in the probability set value change state (step S299; N), it is determined whether it is in the probability set value confirmation mode (step S300). In the probability setting value confirmation mode, the probability setting value cannot be changed, but the currently set probability setting value can be confirmed.

If the probability setting value confirmation mode is not set (step S300; N), the processing from step S301 onward is performed as the processing relating to the progress of the game. On the other hand, if it is in the probability setting value change state (step S299; Y) or if it is in the probability setting value confirmation mode (step S300; Y), the process proceeds to step S309. That is, in the probability set value change state and the probability set value confirmation mode, the processing relating to winning is not performed and the game cannot proceed.

In addition, in the probability set value change state or the probability set value confirmation mode, the special variable winning device 38 is monitored for cheating and winning, the normal dynamic winning device 37 is monitored for cheating and winning, and the winning opening is always available for winning. However, one or more of them may be monitored. For example, the special variable winning device 38 and the normal variable winning device 37 may be monitored for fraud. Further, processing other than the above-described processing may be included as processing that is not performed in the probability setting value change state or the probability setting value confirmation mode. For example, the processing after step S309 may not be performed. Also, the type of processing that is not to be executed in the probability setting value change state and the probability setting value confirmation mode may be different.

In step S301, a winning opening monitoring table 1 corresponding to one of the big winning opening switches 38a in the big winning opening (special variable winning device 38) is prepared (step S301). A fraudulent & winning monitoring process (step S302) is executed to monitor whether there is an illegal winning in the winning opening and to detect a normal winning.

The winning opening monitoring table contains a monitoring switch bit that indicates the position of data for determining whether there is an input to the target switch, the lower address of fraud monitoring information, the lower address of the fraudulent winning number area, the fraudulent winning error notification command, and the fraudulent winning The upper limit of the number (the number of judging irregularities), the address of the prize winning slot switch table, and the information of the notification timer update information (permission/update) are defined. In addition to the number of times of monitoring repetition (the number of switches), the winning table of the winning opening monitoring table contains, for each switch, a monitoring switch bit, a lower address of the winning number counter area 1, and a winning number counter area 2. information of the lower address of is defined. The winning hole monitor table is prepared for each switch to be monitored.

After that, a winning opening monitoring table 2 corresponding to the other big winning opening switch 38a in the big winning opening (special variable winning device 38) is prepared (step S303), and the big winning opening is won even though the big winning opening is not open. A fraudulent and winning monitoring process (step S304) is executed to monitor whether there is an illegal winning or not and to detect a normal winning.

Next, a winning opening monitoring table for the winning opening switch (starting opening 2 switch 37a) in the general electric is prepared (step S305), and even though the general electric is not open, the public electric is monitored for illegal winning. At the same time, a fraudulent and winning monitoring process (step S306) for detecting normal winning is executed. Then, a winning opening monitoring table for the winning opening switches (for example, the starting opening 1 switch 36a and the winning opening switch 35a of the general winning opening 35) is prepared (step S307), and the winning number counter is updated to update the winning number. Processing (step S308) is performed.

Next, a state scan counter for sequentially designating which of the plurality of switches and signals whose states are to be monitored and which switch or signal is to be monitored this time is updated (step S309). In this embodiment, the state scan counter is updated from 0 to 3. After that, the gaming machine state monitoring table 1 for setting the state to be monitored is prepared according to the value of the state scan counter (step S310). Then, a gaming machine state check process (step S311) is performed to determine the state such as whether an error has occurred.

In the case of this embodiment, by referring to the game machine state monitoring table 1 for the value of the state scan counter, if the value of the state scan counter is "0", the switch abnormality output due to the occurrence of disconnection of the switch connector, etc. State monitoring based on the 1 signal is set, and when the value of the state scan counter is "1", state monitoring based on the shot ball cut switch signal from the payout control device 200 is set. When the value of the state scan counter is "2", the state monitoring based on the overflow switch signal is set, and when the value of the state scan counter is "3", the state monitoring based on the payout abnormality status signal is set. be.

Next, the gaming machine state monitoring table 2 for setting the state to be monitored is prepared according to the value of the state scan counter (step S312). Then, a gaming machine state check process (step S313) is performed to determine the state such as whether an error has occurred.

In the case of this embodiment, by referring to the game machine state monitoring table 2 for the value of the state scan counter, if the value of the state scan counter is "0", it is based on the signal output from the glass frame open detection switch 63. When the state monitoring is set and the value of the state scan counter is "1", the state monitoring based on the signal output from the body frame open detection switch 64 is set. Further, when the value of the state scan counter is "2", state monitoring based on the frame radio wave fraud signal is set, and when the value of the state scan counter is "3", state monitoring based on the touch switch signal is set. set.

Next, it is determined whether the value of the state scan counter is "0" (step S314), and if the value of the error scan counter is not "0" (step S314; N), the winning opening switch/state monitoring process is executed. finish. In this case, there is no state to be monitored in the gaming machine state monitoring table 3 to be referred to next. If the value of the error scan counter is "0" (step S314; Y), the gaming machine state monitoring table 3 is prepared (step S315), and the gaming machine determines whether an error has occurred or not. A state check process (step S316) is performed.

In the case of this embodiment, by referring to the game machine state monitoring table 3 for the value of the state scan counter, if the value of the state scan counter is "0", the switch abnormality output due to the occurrence of disconnection of the switch connector, etc. Two-signal based condition monitoring is set up. It should be noted that the gaming machine state monitoring table 3 does not define the state scan counter from "1" to "3".

Thereafter, a payout busy signal check process (step S317) for checking a payout busy signal indicating whether the payout control device 200 can start payout control is performed, and the winning opening switch/state monitoring process is terminated. Note that the processing of steps S315 to S317 is executed only when the value of the state scan counter, which is updated for each timer interrupt, is "0", so that it is executed once every four timer interrupts. Become. That is, when the timer interrupt is performed every 4 milliseconds, the processing of steps S315 to S317 is performed every 16 milliseconds.

[Probability setting value change processing]
FIG. 11 shows the probability set value changing process (step S108) in the timer interrupt process. In this probability setting value change process, first, it is determined whether or not the probability setting value is being changed (step S401). is performed (step S422), and the probability setting value changing process is terminated.

If the probability setting value is changed (step S401; Y), if the probability setting value turning off timer is not 0, it is updated by -1 (step S402), and it is determined whether the probability setting value turning off timer is 0. . When the probability set value turn-off timer is 0 (step S403; Y), the probability set value display permission flag is set (step S404), and the process proceeds to step S405. In this case, the probability setting value information is displayed on the probability setting value display device 153 by the above-described output processing (see FIG. 8). If the probability setting value turn-off timer is not 0 (step S403; N), the process proceeds to step S405. In this case, the probability set value display permission flag is not set, and nothing is displayed on the probability set value display device 153 by the output process described above.

After that, it is determined whether or not the probability setting value has been changed (step S405). Probability setting value changed is a state in which a confirmation operation described later is performed and a probability setting value used in a game is newly set. In this case, the probability setting value changed flag is set. If the probability set value has been changed (step S405; Y), the process proceeds to step S416. If the probability set value has not been changed (step S405; N), it is determined whether there is an input from the set value change switch (step S406).

Then, in determining whether there is an input from the set value change switch (step S406), it is determined whether the input state from the set value change switch has changed to the ON state. That is, it is determined whether the probability set value change button has been pressed. If there is no input from the set value change switch (step S406; N), the process proceeds to step S411.

Also, if there is an input from the set value change switch (step S406; Y), the value in the work probability set value area is updated by +1 within the range of 0-5. The values 0 to 5 in the working probability setting value area correspond to setting 1 to setting 6, respectively. , the probability setting values to be selected are sequentially changed. It should be noted that, when the value of the work probability setting value area is updated by +1 in the state of 5, it returns to 0. Also, at this stage, only the values in the working probability setting value area are changed, and the values in the probability setting value area storing the probability setting values used in the game are not changed. A set probability value selected based on a confirmation operation, which will be described later, is saved in the probability set value area. Also, although the number of probability setting values is six here, it is also possible to use a number other than this.

Next, the probability setting value display data corresponding to the working probability setting value is saved in the probability setting value display data area (step S408). As a result, the data displayed on the probability setting value display device 153 becomes information on the newly selected probability setting value. Then, the initial value (for example, 100 ms) is saved in the probability set value turn-off timer area (step S409), and the probability set value display permission flag is cleared (step S410). As a result, the display of the probability setting value display device 153 is extinguished as a specific display for a predetermined time (for example, 100 ms) from the operation of the setting value change button to perform a blank display in which nothing is displayed, and then new probability setting value information is displayed. will be displayed. By doing so, it is possible to make it easy to understand that the display has been updated.

Here, a blank display in which nothing is displayed is set as the specific display, but other displays may be used. For example, when the set probability values are displayed using numbers 1 to 6, display other than these numbers may be used as the specific display. That is, the specific display may be a display that is not used as the display of the probability set value. Further, when displaying the probability setting value in a continuous lighting state, the display of the updated probability setting value may blink as a specific display. That is, the specific display may be in a different display mode from the display mode after the specific display. The display mode used as the specific display includes a display mode that blinks, a display mode that has a different blinking cycle than when it is not a specific display, and a display mode that has a different display color than when it is not a specific display. .

In addition, information is transmitted to the production control device 300 based on the operation of the set value change button, the display of the display device 41 and the sub information display device 90, the LED emission of the frame decoration device 18 and the board decoration device 46, the board production device 44 , output of voice from the speakers 19a and 19b, or the like may be used to give a specific notification that the selected probability set value has been changed. That is, the specific notification may be performed together with the specific display or instead of the specific display. Further, the same display as the probability setting value display device 153 may be performed on the display device 41, the special figure 1 indicator 51, and the special figure 2 indicator.

Next, it is determined whether there is an input from the touch switch provided on the operating handle 24 (step S411). The touch switch is a sensor capable of detecting contact of the human body with the operating handle 24, and outputs a signal when there is contact. If there is no input from this touch switch (step S411; N), the probability set value change process is terminated. If there is an input from the touch switch (step S411; Y), the value in the work probability setting value area is loaded and saved in the probability setting value area (step S412). As a result, the selected probability setting value is set as the probability setting value used in the game. In other words, touching the operating handle 24 is a confirming operation for confirming the selected probability set value. Of course, an operation other than this operation may be used as the confirmation operation, and an operation unit for the confirmation operation may be provided in the setting means.

After that, the probability setting value display data corresponding to the probability setting value is saved in the probability setting value display data area (step S413). Next, the probability setting value changed flag is set (step S415), a command for changing the probability setting value is transmitted to the production control board (production control device 300) (step S416), and the probability setting value changing process is terminated. . In the production control device 300, based on the reception of the probability setting value change command, the display of the display device 41 and the sub information display device 90, the LED light emission of the frame decoration device 18 and the board decoration device 46, the board production device 44 The fact that the probability setting value has been changed is notified by the operation, the output of sound from the speakers 19a and 19b, or the like.

On the other hand, if the probability setting value has been changed (step S405; Y), it is determined whether the setting key switch is off (step S416). If the setting key switch is not off (step S416; N), that is, if the setting key of the setting key operating section is in the second position, the probability set value changing process is terminated. If the setting key switch is off (step S416; Y), that is, if the setting key of the setting key operating section is not at the second position, the RAM clear head address 3 is set (step S417), and RAM area is cleared to 0 (step S418), and the initial value at the time of RAM initialization is saved in the area to be initialized (step S419).

As a result, the game control RAM area (work area and stack area) is cleared to 0 and the initial value is saved. A timer is also set for outputting the security signal. That is, the probability setting value area, the initial value random number area, the variation pattern random number area, and the state display area are not initialized. However, the area for initial value random numbers and the area for variation pattern random numbers may be cleared. In addition, among the probability setting value areas, the area related to the change work, such as the working probability setting value area that temporarily stores the information of the probability setting value selected in the probability setting value change state and various flags, is cleared. be. Therefore, the probability set value display permission flag is cleared, and the display on the probability set value display device 153 is terminated. In addition, since the probability set value change flag is cleared, the probability set value change state ends.

Next, the probability setting value display data corresponding to the probability setting value is saved in the probability setting value display data area (step S420), and a command for ending the probability setting change is transmitted to the production control board (production control device 300) ( Step S421), the process proceeds to step S48 of the main process shown in FIG. In the production control device 300, based on the reception of the probability setting value change command, the display of the display device 41 and the sub information display device 90, the LED light emission of the frame decoration device 18 and the board decoration device 46, the board production device 44 The completion of the change of the probability set value is notified by the operation, output of sound from the speakers 19a and 19b, or the like. This notification also serves as notification that the RAM has been initialized.

In the case of this embodiment, in step S421, model designation command, special figure 1 reservation number command, special figure 2 reservation number command, probability information command, probability setting value information which is information of the selected probability setting value, probability setting A plurality of commands such as a change end command (a command to display a customer waiting demo screen and notify RAM initialization with light and sound for a predetermined time (for example, 30 seconds)) are transmitted. The command for ending the probability setting change may be a RAM initialization command. Depending on the model, in addition to these commands, a number-of-effects information command or a high-probability number-of-times information command is also transmitted. In particular, by transmitting the probability set value information, which is the information of the probability set value selected to the effect control device 300, it is possible to perform the effect according to the probability set value, and the effect of the game according to the probability set value. It is possible to execute an effect of suggesting or notifying a set probability value such as different selection probabilities.

Based on the above, in a gaming machine capable of executing a game based on the establishment of a predetermined condition and generating a special game state in which a game value is awarded to a player when the result of the game is a special result, The probability setting values to which the probability values used for the lottery are assigned are set to a plurality of types of probability setting values based on the operation of the operation unit (setting key operation unit (setting key switch 152), setting value change button (setting value change switch 151)). A setting means (game control device 100) that can be selected from is provided, and the setting means includes a display unit (probability setting value display device 153) that displays information on the selected probability setting value, based on the operation of the operation unit When the display on the display unit is updated in accordance with the selection operation of the probability set value, the specific display is performed for a certain period from the update. Therefore, it is possible to make it easy to understand that the display has been updated, and it is possible to clearly grasp the selected probability set value.

Also, the setting means displays, as the specific display, a display that is not used as the display of the probability set value information. Therefore, it is possible to make it easy to understand that the display has been updated, and it is possible to clearly grasp the selected probability set value.

Further, the setting means displays updated information as the specific display over a certain period of time in a manner different from that after the certain period of time has elapsed. Therefore, it is possible to make it easy to understand that the display has been updated, and it is possible to clearly grasp the selected probability set value.

[Probability setting value confirmation process]
FIG. 12 shows the probability set value confirmation process (step S422) in the probability set value change process. In this probability setting value confirmation process, first, it is determined whether or not the probability setting value confirmation mode is in progress (step S431). In the probability setting value confirmation mode, the probability setting value cannot be changed, but the currently set probability setting value can be confirmed. If the probability setting value confirmation mode is set, it can be determined from the fact that the probability setting value confirmation mode flag is set.

If the probability setting value confirmation mode is not set (step S431; N), the probability setting value display permission flag is cleared (step S432). As a result, the display of the probability set value display device 153 is set to a state in which nothing is displayed. After that, it is determined whether or not the game is being played (step S433).

Playing means that a special figure variation display game is being executed, a normal figure variation display game is being executed, a special game state or a winning state of a normal figure is being executed. If the game is being played (step S433; Y), the set probability confirmation process is terminated. That is, when the game is in progress, the probability setting value confirmation mode is not entered. In this case, information to the effect that it is not possible to shift to the probability setting value confirmation mode because the game is being played to the effect control device 300 may be transmitted to notify that effect.

In addition, the conditions for determining that the game is in progress are not limited to those described above. During the execution of the special figure fluctuation display game, during the execution of the normal figure fluctuation display game, during the special game state, one or more states selected from among the winning state of the general figure may be set as conditions, for example, the special figure It may be determined that the game is being played when the variable display game is being executed or the game is in the special game state. Further, conditions other than the above may be added, for example, if the operation handle 24 is being operated and there is an input from the touch switch, it may be determined that the game is in progress and the probability set value confirmation mode may not be entered.

If the game is not being played (step S433; N), it is determined whether the setting key switch is on (step S434). If the setting key switch is not in the ON state (step S434; N), the set probability confirmation process is terminated. If the setting key switch is on (step S434; Y), the probability set value confirmation mode flag is set (step S435), and the probability set value display permission flag is set (step S436). As a result, the probability set value confirmation mode is started, and the information of the currently set probability set value is displayed as the display of the probability set value display device 153 .

After that, the initial value is saved in the security signal control timer area (step S437), and the probability setting value confirmation command is transmitted to the production control board (production control device 300) (step S438), and the probability setting value confirmation process is executed. finish. When the probability set value confirmation mode is started, a security signal is output as external information for a predetermined period of time. In addition, in the effect control device 300, based on the reception of the command for confirming the probability setting value, the display of the display device 41 and the sub information display device 90, the LED emission of the frame decoration device 18 and the board decoration device 46, the board effect The operation of the device 44, the output of sound from the speakers 19a and 19b, and the like notify that the probability set value is being checked.

On the other hand, if the probability setting value confirmation mode is in progress (step S431; Y), it is determined whether the setting key switch is on (step S439). If the setting key switch is in the ON state (step S439; Y), the probability set value confirmation process is terminated. In this case, the probability set value confirmation mode continues.

If the setting key switch is not on (step S439; N), the probability set value confirmation mode flag is cleared (step S440), and the probability set value display permission flag is cleared (step S441). As a result, the probability set value confirmation mode is terminated, and the state in which nothing is displayed as the display of the probability set value display device 153 is set. And, the command of the probability setting value confirmation end is transmitted to the production control board (production control device 300) (step S442), and the probability setting value confirmation processing is ended. In the effect control device 300, based on the reception of the probability set value confirmation end command, the notification that the probability set value is being confirmed is terminated.

That is, the probability setting value confirmation mode is started by turning the setting key of the setting key operation unit to the second position while the power is turned on, and ends by returning it from the second position. When the power is turned on with the setting key of the setting key operating section turned to the second position, the probability set value change state is entered.

[Special game processing]
Next, the details of the special figure game process (step S112) in the timer interrupt process described above will be described. In the special figure game processing, monitoring of the input of the starting port 1 switch 36a and the starting port 2 switch 37a, control of the entire processing relating to the special figure variation display game, and setting of the display of the special figure are performed.

As shown in FIG. 13, in the special game process, first, a start switch monitoring process (step A1) for monitoring the winning of the start 1 switch 36a and the start 2 switch 37a is performed. In the starting opening switch monitoring process, when there is a game ball winning in the starting winning opening 36 and the normal variable winning device 37 forming the second starting winning opening, various random numbers (such as big hit random numbers) are extracted, and a special feature based on the winning is performed. A game result pre-determination is carried out to determine in advance the game result based on the prize winning at the stage before the start of the figure fluctuation display game.

Next, a special winning opening switch monitoring process (step A2) is performed. In this big winning opening switch monitoring process, a process of monitoring the detection of a game ball by the big winning opening switch 38a provided in the special variable winning device 38 is performed.

Next, if the special game processing timer is not "0", it is updated by -1 (step A3). In addition, the minimum value of the special figure game processing timer is set to "0". Then, it is determined whether the value of the special game processing timer is "0" (step A4). If the value of the special game processing timer is "0" (step A4; Y), that is, if the time is up or has already timed up, refer to branch to the processing corresponding to the special game processing number A special figure game sequence branch table is set in a register (step A5), and the branch destination address of the process corresponding to the special figure game process number is acquired using the table (step A6). Then, a subroutine call is made according to the special game processing number (step A7).

In step A7, if the special figure game processing number is "0", the start of variation of the special figure variation display game is monitored, the setting of the variation start of the special figure variation display game, the setting of the effect, and the special figure variation A special figure normal process (step A8) for setting information necessary for processing is performed.
At step A7, if the special figure game processing number is "1", the setting of the special figure stop display time, the setting of the information necessary for performing the special figure display processing, etc. (Step A9) is performed.

At step A7, if the special figure game processing number is "2", if the game result of the special figure variation display game is a big win, fanfare commands are set according to the kind of big win, and a big winning opening for each big win is made. Processing during special figure display (step A10) for setting fanfare time according to the opening pattern, setting information necessary for performing processing during fanfare/interval, etc. is performed.

At step A7, if the special game processing number is "3", the setting of the opening time of the big winning gate, the update of the number of times of opening, the setting of information necessary for performing the processing during opening of the big winning gate, etc. are performed. A fanfare/interval process (step A11) is performed.
At step A7, if the special game processing number is "4", if the jackpot round is not the final round, an interval command is set, and if it is the final round, an ending command is set; A large winning opening opening process (step A12) for setting information necessary for ball processing is performed.

At step A7, if the special game process number is "5", if the big win round is the last round, the process of setting the time for the remaining balls in the big winning opening to be discharged and the big win end process are performed. A large winning hole remaining ball processing (step A13) is performed for setting information necessary for performing the processing.
At step A7, if the special figure game processing number is "6", a jackpot end process (step A14) for setting information necessary for carrying out the special figure normal processing is performed.

At step A7, if the special game processing number is "7", the opening time and opening pattern of the big winning opening when a small win occurs are set, the fanfare command is set, and processing during the small win is performed. Processing (step A15) during a small winning fanfare for setting necessary information and the like is performed.
At step A7, if the special game processing number is "8", small hit middle processing (step A16) for setting information necessary for setting the ending command and performing small hit remaining ball processing is performed. .
In step A7, if the special game processing number is "9", processing for setting the time for discharging the remaining balls that have won the prize in the big winning opening during processing during the small winning, and processing for ending the small winning. A small hit remaining ball process (step A17) for setting information necessary for performing is performed.
At step A7, if the special figure game processing number is "10", small winning end processing (step A18) for setting information necessary for carrying out special figure normal processing, etc. is performed.

Thereafter, after preparing a table for controlling the variation of the special figure 1 indicator 51 (step A19), the symbol variation control process (step A20) relating to the control of the special symbol variation by the special figure 1 indicator 51 is performed. . Then, after preparing a table for controlling the variation of the special figure 2 indicator 52 (step A21), the symbol variation control process (step A22) is performed regarding the control of the variation of the special symbol by the special figure 2 indicator 52. , ends the special game process. On the other hand, in step A4, if the value of the special game processing timer is not "0" (step A4; N), that is, if the time has not expired, the process proceeds to step A19, and the subsequent processes are executed. conduct.

Incidentally, a small hit is a result mode that does not involve the operation of a conditional device, and a big win is a special result that accompanies the operation of a conditional device. The condition device operates when a big hit occurs in the special figure fluctuation display game (stop display of the big hit pattern). It means that a specific flag for continuously operating the variable prize winning device 38 is set (the character product continuous operating device is operated). The fact that the conditional device does not operate means that the aforementioned flag is not set as in the case of winning a small prize lottery, for example. The "condition device" may be software means such as a flag that is turned on and off by software as described above, or hardware means such as a switch that is electrically turned on and off. In addition, "conditional device" is a term commonly used in the field of pachinko machines as a device whose operation is a necessary condition for continuous operation of electric accessories, and the same applies in this specification. It is used as a term with a meaning.

[Starting port switch monitoring process]
Next, the details of the startup switch monitoring process (step A1) in the special game process described above will be described. As shown in FIG. 14, in the starting opening switch monitoring process, first, a first starting opening (starting winning opening 36) winning monitoring table is prepared (step A101), hardware random number acquisition processing (step A102) is performed, It is determined whether or not there is a prize to the 1 start opening (step A103).
At step A103, when it is determined that there is no winning to the first start opening (step A103; N), the process proceeds to step A109 and the subsequent processes are performed.
On the other hand, in step A103, if it is determined that there is a winning prize to the first start port (step A103; Y), it is determined whether or not during special figure time saving (during general electricity support) (step A104 ).

At step A104, when it is determined that it is not in the special figure time saving (step A104; N), the process proceeds to step A107 and the subsequent processes are performed.
On the other hand, in step A104, when it is determined that it is in the special figure time saving (step A104; Y), prepare a right-handed instruction notification command (step A105), and transmit the command to the effect control device 300 Effect command setting processing (step A106) is performed. That is, if it is a time-saving state, regardless of the probability state of the special figure variation display game, a right-handed instruction notification command is prepared (step A105), and effect command setting processing (step A106) is performed. In the case of the gaming machine 10 of the present embodiment, a prize is not won unless the first starting port (starting prize port 36) is hit to the left, and a prize is not won to the normal variable prize winning device 37 unless the ball is hit to the right. Therefore, the time-saving state is a game state in which right-handed hitting is more advantageous than left-handed hitting, but when there is a first start opening winning during the time-saving state (that is, when left-handed during the time-saving state) , a right-handed instruction notification command is transmitted to the production control device 300, and the production control device 300 performs notification (warning) instructing to hit to the right.
Next, after preparing a table for setting information on hold by the first starting port (starting winning port 36) (step A107), special figure starting port switch common processing (step A108) is performed.

Next, prepare a winning monitoring table for the second starting port (normal variable winning device 37) (step A109), perform hardware random number acquisition processing (step A110), and check whether or not there is a winning to the second starting port. Determine (step A111).
When it is determined in step A111 that there is no winning to the second start opening (step A111; N), the start opening switch monitoring process is terminated.
On the other hand, in step A111, when it is determined that there is a prize to the second start port (step A111; Y), the normal electric accessory (normal fluctuation winning device 37) is in operation, that is, normal fluctuation It is determined whether or not the prize winning device 37 is in an open state in which the game ball can win a prize (step A112). It shifts to the processing of A114 and performs the subsequent processing. On the other hand, in step A112, when it is determined that the normal electric accessory is not in operation (step A112; N), it is determined whether or not normal electric fraud is occurring (step A113).

In determining whether or not fraud is occurring, it is determined that fraud is occurring when the number of fraudulent winnings to the normal variable winning device 37 is equal to or greater than the number of fraudulent occurrence determinations (for example, 5). The normal variable winning device 37 cannot win a game ball when it is closed, and can win a game ball only when it is open. Therefore, if a game ball wins in the closed state, it means that some kind of abnormality or dishonesty has occurred, and if there is a game ball won in such a closed state, the number is counted as the number of fraudulent wins. Then, when the number of fraudulent prizes thus counted is equal to or greater than a predetermined number (upper limit value) for determination of fraud occurrence, it is determined that fraud is occurring.

At step A113, if it is determined that the general electric fraud is not occurring (step A113; N), after preparing a table for setting information on suspension by the second start port (normal variable winning device 37) (step A114), special The starting port switch common processing (step A115) is performed, and the starting port switch monitoring processing ends. Further, when it is determined in step A113 that the electric power irregularity is occurring (step A113; Y), the starting port switch monitoring process is terminated. That is, the second starting memory is prevented from being generated any more.

[Hard random number acquisition process]
Next, the details of the hard random number acquisition process (steps A102 and A110) in the above-described starting port switch monitoring process will be described. As shown in FIG. 15, in the hardware random number acquisition process, first, out of the first starting gate (starting winning gate 36) and the second starting gate (ordinary variable winning gate 37), no winning information for the starting gate to be monitored is obtained. After setting (step A121), it is determined whether or not there is an input to the monitored starting switch of the starting port 1 switch 36a and the starting port 2 switch 37a (step A122). If there is no input to the starting switch to be monitored (step A122; N), the hard random number acquisition process is terminated. On the other hand, if there is an input to the starting switch to be monitored (step A122; Y), the random number latch register status is read (step A123), and it is determined whether there is latch data in the random number latch register to be monitored (step A124). .

If there is no latch data in the target random number latch register (step A124; N), that is, if no random number has been extracted, the hard random number acquisition process is terminated. If there is latch data in the target random number latch register (step A124; Y), the extracted jackpot random number is loaded into the monitored hard random number latch register and prepared (step A125). Then, out of the first starting opening (starting winning opening 36) and the second starting opening (ordinary variable winning device 37), set the winning information of the starting opening to be monitored (step A126), and execute the hardware random number acquisition process. finish.

[Common process for special figure start switch]
Next, the details of the special figure starting opening switch common processing (steps A108 and A115) in the starting opening switch monitoring processing described above will be described. Special figure starting opening switch common processing, when there is an input of starting opening 1 switch 36a or starting opening 2 switch 37a, is processing that is performed in common for each input.

As shown in FIG. 16, in the special figure start switch common processing, first, of the start 1 switch 36a and the start 2 switch 37a, information on the number of winnings to the start switch to be monitored is sent to the game machine 10. Load the start signal output count, which is the number of outputs to an external management device (step A131), update the loaded value by +1 (step A132), and determine whether the output count overflows (step A133). ). If the output count does not overflow (step A133; N), the updated value is saved in the RWM starting signal output count area (step A134), and the process proceeds to step A135. On the other hand, if the number of outputs overflows (step A133; Y), the process proceeds to step A135. In this embodiment, a value from "0" to "255" can be stored in the starting signal output frequency area. Then, when the loaded value is "255", the updated value becomes "0" by +1 update, and it is determined that the number of outputs overflows.

Next, it is determined whether or not the update target special figure holding (start memory) number corresponding to the monitoring target starting port switch 36a and the starting port 2 switch 37a is less than the upper limit value (step A135). When the special figure reservation number to be updated is not less than the upper limit (step A135; N), the special figure start opening switch common processing is terminated.

Also, if the number of special figures pending to be updated is less than the upper limit (step A135; Y), the number of special figures pending to be updated (the number of special figures 1 pending or the number of special figures 2 pending) is updated by +1 ( Step A136), and save the target start-up winning flag (step A137). Subsequently, the address of the random number storage area corresponding to the starting switch to be monitored and the special figure reservation number is calculated (step A138), and the jackpot random number prepared in step A125 of the hardware random number acquisition process is stored as the RWM jackpot random number. Save in the area (step A139). Next, the jackpot symbol random number of the starting switch to be monitored is extracted and prepared (step A140), and saved in the jackpot symbol random number storage area of the RWM (step A141).

Next, it is determined whether or not the first starting opening (starting winning opening 36) is won (step A142).
If it is determined in step A142 that the first start opening has not been won (step A142; N), the process proceeds to step A145.
On the other hand, in step A142, when it is determined that the first starting port is won (step A142; Y), a small hit pattern random number is extracted and prepared (step A143), and a small hit pattern of RWM is prepared. Save in the random number storage area (step A144).

Then, the variation pattern random numbers 1 to 3 are saved in the corresponding RWM variation pattern random number storage area (step A145), and the special figure reservation information determination process (step A146) is performed.
Next, prepare a decoration special figure reservation number command corresponding to the number of start opening switches and special figure reservations to be monitored (step A147), perform production command setting processing (step A148), and perform special figure start opening switch common processing finish.

Here, the game control device 100 (RAM 111C) extracts a predetermined random number based on the detection of a game ball in the starting area of the starting prize winning port 36 or the normal variable prize winning device 37, and starts the execution right of the variable display game. It constitutes a starting memory means for storing a predetermined number as an upper limit as a memory. In addition, the starting memory means (game control device 100) stores various random values extracted based on the winning of the game ball into the first starting winning port (starting winning port 36) as the first starting memory up to a predetermined number. Various random numbers extracted based on the winning of the game ball into the second starting winning port (normal variable winning device 37) are stored as the second starting memory up to a predetermined number as the upper limit.

[Special Figure Reservation Information Judgment Process]
Next, the details of the special figure reservation information determination process (step A146) in the above-described starting opening switch common process will be described. The special figure reservation information determination process is a look-ahead process that determines the result related information corresponding to the start memory before the start timing of the special figure variation display game based on the corresponding start memory.

As shown in FIG. 17, first, check the starting opening winning flag saved in step A137 of the special starting opening switch common processing, and determine whether it is winning to the first starting opening (start winning opening 36) (step A151).
If it is determined in step A151 that the first start opening is not won (step A151; N), the process proceeds to step A154.
On the other hand, in step A151, when it is determined that it is the winning prize to the first starting port (step A151; Y), it is determined whether it is during special figure time reduction (step A152).

In step A152, when it determines with it being in special figure time saving (step A152; Y), it complete|finishes special figure reservation information determination processing.
On the other hand, at step A152, when it is determined that it is not during the special figure time saving (step A152; N), it is determined whether it is during the big hit or the small hit (step A153).
In step A153, when it determines with it being during a big hit or a small hit (step A153; Y), it complete|finishes special figure reservation information determination processing.
On the other hand, when it is determined in step A153 that the big hit is not in progress or the small hit is not in progress (step A153; N), it is determined whether or not the big hit is a big hit based on whether or not the big hit random number value matches the big hit determination value. Big hit determination processing (step A154) is performed. Then, if the determination result is a big hit (step A155; Y), a big hit pattern random number check table corresponding to the target starter switch is set (step A156), and in step A140 of the special figure starter switch common processing. Stop symbol information corresponding to the prepared jackpot symbol random number is acquired (step A157), and the process proceeds to step A164.

On the other hand, if the determination result is not a big hit (step A155; N), it is determined whether or not the winning is to the first starting opening (starting winning opening 36) (step A158).
At step A158, when it is determined that the first start opening is not won (step A158; N), stop symbol information for losing is set (step A163), and the process proceeds to step A164.
On the other hand, in step A158, when it is determined that the first starting port is won (step A158; Y), whether or not the big hit random number matches the small hit determination value. A small hit determination process (step A159) for determining whether is performed. Then, when the judgment result is not a small hit (step A160; N), stop symbol information of losing is set (step A163), and the process proceeds to step A164.
On the other hand, when the determination result is a small hit (step A160; Y), a small hit design random number check table is set (step A161), and a small hit design prepared in step A143 of the special figure start opening switch common processing. Stop symbol information corresponding to the random number is acquired (step A162), and the process proceeds to step A164.

Then, a look-ahead stop symbol command corresponding to the target start switch and stop symbol information is prepared (step A164), and effect command setting processing is performed (step A165). Next, a special figure information setting process (step A166) for setting special figure information, which is a parameter for setting a variation pattern, is performed, and a variation pattern setting process for setting the variation mode of the special figure variation display game is performed (step A167).

After that, prepare a look-ahead variation pattern command corresponding to the first half variation number indicating the first half variation pattern and the second half variation number indicating the second half variation pattern in the variation mode of the special figure variation display game (step A168), and perform the production command setting process. (Step A169), end the special figure reservation information determination process.

Incidentally, the big hit determination process in step A157 and the small hit determination process in step A159 are the same as the processes shown in FIGS. That is, determination is made according to the set probability setting value. Also, the special figure information setting process in step A166 and the variation pattern setting process in step A167 are the same as the processes executed at the start of the special figure variation display game in the special figure normal process.

By the above processing, the look-ahead pattern command including the result of the special figure variation display game based on the start memory of the look-ahead object and the look-ahead variation pattern command including the information of the variation pattern in the special figure variation display game based on the start memory are prepared. and transmitted to the effect control device 300 . As a result, the judgment result (read-ahead result) of the result-related information (whether it is a big hit or the type of variation pattern) corresponding to the start memory is produced before the start timing of the special figure variation display game based on the corresponding start memory. It is possible to inform the device 300, especially by changing the decorative special figure start memory display displayed on the display device 41, etc., to the player before the start timing of the special figure fluctuation display game. It is possible to notify.

That is, the game control device 100 determines the random number stored as the starting memory in the starting winning memory means (game control device 100) before executing the variable display game based on the starting memory (for example, whether or not a special result will be obtained). determination of whether or not) constitutes a prior determination means. The timing for determining the random value stored corresponding to the starting memory in advance is not limited to the time when the starting memory is generated, but any time before the variable display game based on the starting memory is played. good.

[Special normal processing]
Next, the details of the special figure normal processing (step A8) in the special figure game processing described above will be described. As shown in FIG. 18, in the special figure normal processing, first, it is determined whether the special figure 2 reservation number (second start memory number) is "0" (step A301). When it is determined that the special figure 2 reservation number is "0" (step A301; Y), it is determined whether the special figure 1 reservation number (first start memory number) is "0" (step A305). Then, when it is determined that the special figure 1 pending number is "0" (step A305; Y), it is determined whether the customer waiting demonstration has started (step A309), and if the customer waiting demonstration has not started (step A309; N) sets a customer waiting demonstration flag in the customer waiting demonstration flag area (step A310).

Subsequently, a customer waiting demo command is prepared (step A311), and effect command setting processing (step A312) is performed. Next, "0" relating to special figure normal processing is set as the processing number (step A313), and the processing number is saved in the special figure game processing number area (step A314). Then, the fluctuating design determination flag area is cleared (step A315), the fraud monitoring period flag is saved in the big winning opening fraud monitoring period flag area (step A316), and the special symbol normal processing is terminated. That is, when the starting condition is not established although the special figure fluctuation display game can be started, a customer waiting demonstration command forming standby information is transmitted to the effect control device 300.例文帳に追加
On the other hand, at step A309, if the customer waiting demonstration has already started (step A309; Y), the process proceeds to step A313 without performing steps A310 to A312.

Also, in step A301, if the special figure 2 reservation number is not "0" (step A301; N), prepare a decorative special figure reservation number command corresponding to the special figure 2 reservation number (step A302). Then, effect command setting processing (step A303) is performed, special figure 2 fluctuation start processing (step A304) is performed, and special figure normal processing is ended.
Also, in step A305, if the special figure 1 reservation number is not "0" (step A305; N), prepare a decoration special figure reservation number command corresponding to the special figure 1 reservation number (step A306). Then, effect command setting processing (step A307) is performed, special figure 1 fluctuation start processing (step A308) is performed, and special figure normal processing is ended.

In this way, by performing the check of the special figure 2 reservation number before the check of the special figure 1 reservation number, when the special figure 2 reservation number is not "0" special figure 2 fluctuation start processing (step A304) will be executed. That is, the second special figure variation display game is preferentially executed over the first special figure variation display game. That is, when the second start memory means (game control device 100) has the second start memory, the game control device 100 changes the variable display game based on the second start memory to the variable display based on the first start memory. It constitutes a priority control means for executing with priority over the game.

[Special figure 1 fluctuation start process]
Next, the details of the special figure 1 fluctuation start processing (step A308) in the special figure normal processing described above will be described. The special figure 1 fluctuation start process is a process performed at the start of the first special figure fluctuation display game. As shown in FIG. 19(a), first, the special figure 1 fluctuation flag indicating the type of the special figure fluctuation display game to be executed (here special figure 1) is saved in the fluctuation pattern discrimination area (step A321), and the first To determine whether or not the first special figure fluctuation display game is a small hit or not, while setting deviation information and big win information in the big win flag 1 for deciding whether or not the special figure fluctuation display game is a big hit. Big hit flag 1 setting processing (step A322) for setting deviation information and small hit information to the small hit flag is performed.

Next, after performing the special figure 1 stop symbol setting process (step A323) related to the setting of the special figure 1 stop symbol (symbol information), the special figure to set the special figure information which is the parameter for setting the variation pattern Information setting processing (step A324) is performed to prepare a special figure 1 variation pattern setting information table, which is a table in which information for referring to various information regarding the setting of the variation pattern of the first special figure variation display game is set. (Step A325). Thereafter, a variation pattern setting process (step A326) for setting a variation pattern which is a variation mode in the first special figure variation display game is performed, and a variation start information setting process for setting information on the start of variation of the first special figure variation display game. (Step A327) is performed.

Next, set "1" for special figure fluctuation processing as the processing number (step A328), and save the processing number in the special figure game processing number area (step A329).
Then, the customer waiting demonstration flag area is cleared (step A330), and a signal relating to the start of fluctuation of special symbol 1 (for example, a signal during special symbol 1 fluctuation is ON) is saved in the test signal output data area (step A331). After that, save the fluctuating flag in the special figure 1 fluctuation control flag area (step A332), and the initial value ( Here, 100 ms) is set (step A333). Then, the initial value ("0" in this case) is saved in the special figure 1 fluctuation pattern number area (step A334), and the special figure 1 fluctuation start process is ended.

[Special figure 2 fluctuation start process]
Next, the details of the special figure 2 fluctuation start processing (step A304) in the above-mentioned special figure usual processing will be described. The special figure 2 fluctuation start process is a process performed at the start of the second special figure fluctuation display game, and the same process as the special figure 1 fluctuation start process shown in FIG. This is done with memory as the object.

As shown in FIG. 19(b), first, the special figure 2 fluctuation flag indicating the type of the special figure fluctuation display game to be executed (here, special figure 2) is saved in the fluctuation pattern discrimination area (step A341), and the second A jackpot flag 2 setting process (step A342) is performed for setting deviation information and jackpot information to the jackpot flag 2 for determining whether or not the special figure variation display game is a jackpot.

Next, after performing the special figure 2 stop symbol setting process (step A343) related to the setting of the special figure 2 stop symbol (symbol information), the special figure to set the special figure information which is the parameter for setting the variation pattern Information setting processing (step A344) is performed to prepare a special figure 2 variation pattern setting information table, which is a table in which information for referring to various information regarding the setting of the variation pattern of the second special figure variation display game is set. (Step A345). Thereafter, a variation pattern setting process (step A346) for setting a variation pattern which is a variation mode in the second special figure variation display game is performed, and a variation start information setting process for setting information on the start of variation of the second special figure variation display game. (Step A347) is performed.

Next, set "1" for special figure fluctuation processing as the processing number (step A348), and save the processing number in the special figure game processing number area (step A349).
Then, the customer waiting demonstration flag area is cleared (step A350), and a signal relating to the start of fluctuation of the special symbol 2 (for example, the signal during special symbol 2 fluctuation is ON) is saved in the test signal output data area (step A351). After that, save the fluctuating flag in the special figure 2 fluctuation control flag area (step A352), and the initial value ( Here, 100 ms) is set (step A353). Then, the initial value (here "0") is saved in the special figure 2 fluctuation pattern number area (step A354), and the special figure 2 fluctuation start processing is ended.

In addition, when selecting the variation pattern of the special figure variation display game in the special figure 1 variation start process and the special figure 2 variation start process described above, the information of the set probability setting value may be referred to. As a result, it is possible to execute an effect of suggesting or notifying the probability setting value, such as selecting a variation pattern according to the probability setting value or changing the selection probability of the variation pattern according to the probability setting value.

[Jackpot determination process]
Next, the details of the big hit determination process performed in the big hit flag 1 setting process (step A322) in the special figure 1 fluctuation start process and the big hit flag 2 setting process (step A342) in the special figure 2 fluctuation start process will be described.

As shown in FIG. 20, in this big hit determination process, first, an upper limit determination value table corresponding to the set probability values is set (step A381). The upper limit decision value table is provided for each set probability value, and defines an upper limit decision value in a high probability state and an upper limit decision value in a low probability state (normal probability state). Here, a corresponding table is set according to the currently set probability setting value. A big hit means that the big hit random number matches the big hit determination value. The jackpot judgment value is a series of multiple values, and when the jackpot random number is equal to or greater than the lower limit judgment value, which is the lower limit value of the jackpot judgment value, and below the upper limit judgment value, which is the upper limit value of the jackpot judgment value , is determined to be a jackpot. By setting the upper limit judgment value table corresponding to the probability setting value, the big hit judgment is performed with the probability value corresponding to the probability setting value.

Next, the lower limit judgment value of the big hit judgment value is set (step A382), and it is judged whether the value of the target big hit random number is less than the lower limit judgment value (step A383). Here, the value of the lower limit judgment value is the same value regardless of the probability setting value or probability state (high probability state or normal probability state), but the lower limit judgment value can be changed according to the probability setting value or probability state. Also good. In this case, as with the upper limit judgment value, the lower limit judgment value table in which the lower limit judgment value is specified for each probability setting value is selected according to the probability setting value, and the lower judgment value to be used is selected according to the probability state. to set. Of course, the upper limit judgment value table and the lower limit judgment value table may be collectively used as a judgment value table.

If the value of the jackpot random number is less than the lower limit judgment value (step A383; Y), set a loss as the judgment result (step A389), and end the jackpot judgment processing. It should be noted that the failure in step A389 means that it is not a big hit, and there is a possibility that it will be determined as a small hit in the subsequent small hit determination processing. Also, if the value of the jackpot random number is not less than the lower limit judgment value (step A383; N), it is judged whether or not it is in a high probability state (step A384). And, if the high probability state (step A384; Y), to obtain the upper limit judgment value in the high probability (step A385), it is determined whether the value of the target jackpot random number is greater than the upper limit judgment value (step A387 ). Also, if it is not a high probability state (step A384; N), set the upper limit judgment value in the low probability (step A386), and determine whether the value of the target jackpot random number is greater than the upper limit judgment value (step A387) . The upper limit judgment value acquired here is obtained by referring to the upper limit judgment value table set in step A381 described above.

If the value of the jackpot random number is greater than the upper limit judgment value (step A387; Y), the judgment result is set to be lost (step A358), and the jackpot judgment processing is terminated. If the value of the jackpot random number is not greater than the upper limit judgment value (step A387; N), that is, if the game is a jackpot, a jackpot is set as the judgment result (step A389), and the jackpot judgment process ends.

[Small hit determination process]
Next, the details of the small hit determination process performed in the big hit flag 1 setting process (step A322) in the special figure 1 fluctuation start process and the big hit flag 2 setting process (step A342) in the special figure 2 fluctuation start process will be described. .

As shown in FIG. 21, in this small hit determination process, first, a small hit upper limit determination value corresponding to the probability set value is set (step A401). A small hit upper limit judgment value is provided for each probability setting value. Also, the small hit probability is constant regardless of whether it is in a high probability state. Further, the range of the big hit determination value and the range of the small hit determination value for the same probability set value are arranged so as not to overlap each other. The range of the big-hit determination value and the range of the small-hit determination value for different probability setting values may overlap, but may not overlap.

It should be noted that the small hit means that the big hit random number matches the small hit determination value. The small hit judgment value is a plurality of continuous values, and the jackpot random number is equal to or greater than the small hit lower limit judgment value, which is the lower limit value of the small hit judgment value, and the small hit upper limit, which is the upper limit value of the small hit judgment value. If it is equal to or less than the judgment value, it is judged to be a small hit. By setting the small hit upper limit judgment value corresponding to the probability set value, the small hit judgment is performed with the probability value corresponding to the probability set value.

Next, it is determined whether the target jackpot random number value is less than the small hit lower limit judgment value (step A402). Here, the value of the small hit lower limit judgment value is the same even if it is a different probability setting value. If the value of the big hit random number is less than the small hit lower limit judgment value (step A402; Y), set a loss as the judgment result (step A404), and finish the big hit judgment process. Also, if the value of the jackpot random number is not less than the small hit lower limit judgment value (step A402; N), it is determined whether the value of the target jackpot random number is greater than the small hit upper limit judgment value (step A403).

When the value of the big hit random number is larger than the small hit upper limit judgment value (step A403; Y), the deviation is set as the judgment result (step A404), and the small hit judgment processing ends. Also, if the value of the big hit random number is not greater than the small hit upper limit judgment value (step A403; N), that is, if it is a small hit, set the small hit as the judgment result (step A405), and finish the small hit judgment process. do.

In addition, as in the case of the big hit determination, the small hit upper limit judgment value table corresponding to the probability setting value may be set first, and the small hit upper limit judgment value may be acquired from the set upper limit judgment value table. The upper limit judgment value in the big hit judgment and the small hit upper limit judgment value in the small hit judgment may be collectively defined in a judgment value table provided for each probability setting value. Furthermore, the value of the small hit lower limit judgment value is the same even if the probability setting value is different, but the small hit lower limit judgment value may be different depending on the probability setting value, in this case, according to the probability setting value to select the small hit lower limit judgment value.

In addition, the process of setting the upper limit setting table corresponding to the probability setting value (step A381) and the process of setting the small hit upper limit judgment value corresponding to the probability setting value (step A401) indicates the referred probability setting value If the value is an abnormal value such as not corresponding to any probability set value, the setting may be performed assuming that it is a predetermined probability set value (for example, setting 1), or assuming that an abnormality has occurred. The game may be stopped and error notification may be performed. In addition, although the probability setting value is referred to for each judgment of the big hit and each judgment of the small hit, when the probability setting value is set in the probability setting value change state, the upper limit setting table corresponding to the set probability setting value Alternatively, processing for setting a small hit upper limit judgment value may be performed, and only this may be referred to when judging a big hit or judging a small hit.

[Processing during special figure fluctuation]
Next, the details of the special figure changing process (step A9) in the special figure game process described above will be described. As shown in FIG. 22, in the special figure fluctuation process, first, prepare a symbol stop command corresponding to the fluctuation pattern determination flag (special figure 1 fluctuation flag or special figure 2 fluctuation flag) (step A601), and set the effect command Processing is performed (step A602). That is, the symbol stop command forming the stop information is transmitted to the effect control device 300 as the result is derived and displayed after the fluctuation time of the special figure fluctuation display game being executed ends. Upon receipt of the symbol stop command, the effect control device 300 stops the variable display of the decorative special figure variable display game corresponding to the special figure variable display game and stops and displays the result.

Thereafter, the display time corresponding to the stop symbol pattern is set (step A603), and the set display time is saved in the special figure game processing timer area (step A604). In the case of this embodiment, the display time is set to 600 milliseconds regardless of whether the stop symbol pattern is a winning symbol pattern, a big win symbol pattern or a small winning symbol pattern, but the display time may be varied depending on the stop symbol pattern. . That is, the game control device 100 serves as stop time setting means for setting the stop time for displaying the stop result mode of the variable display game.

Next, the processing number "2" relating to the special figure displaying process is set as the processing number (step A605), and the processing number is saved in the special figure game processing number area (step A606).

Next, the signal related to the end of the variation of the special figure 1 (for example, the signal during the special symbol 1 variation is turned OFF) is saved in the test signal output data area (step A607), and the signal related to the end of the variation of the special figure 2 (for example, the special symbol 2 during fluctuation signal OFF) is saved in the test signal output data area (step A608), and the control timer is initialized in the pattern determination number signal control timer area related to the number of executions of the special figure fluctuation display game for output to the external information terminal Save the value (for example, 256 ms) (step A609). After that, as information for controlling the special figure 1 fluctuation display game in the special figure 1 indicator 51, the stop flag related to the fluctuation stop in the special figure 1 indicator 51 is saved in the special figure 1 variation control flag area (step A610 ), as information for controlling the special figure 2 fluctuation display game in the special figure 2 indicator 52, save the stop flag related to the fluctuation stop in the special figure 2 indicator 52 in the special figure 2 fluctuation control flag area (step A611), end the processing during special figure fluctuation.

[Processing during special figure display]
Next, the details of the special figure displaying process (step A10) in the special figure game process described above will be described. As shown in FIGS. 23 and 24, in the special figure displaying process, first, the small hit flag set in the big hit flag 1 setting process in the special figure 1 fluctuation start process is loaded (step A701), and the RWM Processing (step A702) for clearing the small hit flag area is performed.
Then, the jackpot flag 1 set in the jackpot flag 1 setting process in the special figure 1 fluctuation start process and the jackpot flag 2 set in the jackpot flag 2 setting process in the special figure 2 fluctuation start process are loaded. (Step A703), processing (step A704) of clearing the RWM jackpot flag 1 area and jackpot flag 2 area. Then, it is determined whether the loaded jackpot flag 2 is a jackpot (step A705), and when it is determined to be a jackpot (step A705; Y), the jackpot (special figure 2 jackpot) of the second special figure variation display game is started. Related test signals (for example, condition device operating signal ON, character continuous operating device operating signal ON, special symbol 2 winning signal ON) are saved in the test signal output data area of RWM (step A708), A round number upper limit table is set (step A709).

On the other hand, in step A705, as a result of checking the big hit flag 2, if it is determined that it is not a big hit (step A705; N), it is determined whether the loaded big hit flag 1 is a big hit (step A706), and it is a big hit (step A706). If determined as A706; Y), a test signal related to the start of the first special figure fluctuation display game jackpot (special figure 1 jackpot) (for example, the condition device operating signal is turned on, the character continuous operation device operating signal is turned on, Special symbol 1 per signal ON) is saved in the test signal output data area of RWM (step A707), and the process of setting the round number upper limit table (step A709) is performed.

After performing the process of setting the round number upper limit table (step A709), the round number upper limit value ("16" or "4" in the case of this embodiment) corresponding to the round number upper limit information is acquired, and the RWM is saved in the round number upper limit area (step A710). Subsequently, a round LED pointer corresponding to the round number upper limit information is acquired and saved in the round LED pointer area of the RWM (step A711).

Next, the decoration special figure command corresponding to the stop symbol pattern is loaded from the decoration special figure command area of RWM, prepared (step A712), and effect command setting processing (step A713) is performed. After that, prepare a probability information command related to the information to set the probability of a hit result in the normal figure variation display game and the special figure variation display game to the normal probability state (low probability state) (step A714), production command setting processing (Step A715) is performed. Subsequently, a fanfare command corresponding to the symbol information (stop symbol number or stop symbol pattern) set in the special figure 1 or special figure 2 stop symbol setting process is prepared (step A716), and the effect command setting process (step A717). This fanfare command constitutes special game state start information transmitted to the effect control device 300 at the start of the special game state.

Next, the big winning hole opening information and the signal corresponding to the state of the probability of winning results in the normal figure variation display game and the special figure variation display game are saved in the external information output data area of the RWM (step A718). In the case of this embodiment, in step A718, the big win 2 signal and the big win 3 signal are saved as signals corresponding to the big winning opening opening information and the state of the probability. It should be noted that each ON/OFF is determined by the big winning opening opening information and the state of the probability. For example, the jackpot 2 signal is ON when there is a jackpot with a ball (the jackpot opening information is other than the jackpot opening information 1), and a jackpot without a jackpot (so-called definite jackpot, etc.). When the information is the big winning opening opening information 1), it is ON at the time of the big hit in the time saving state, and is OFF otherwise. In addition, the big win 3 signal is ON when the big win with the paid out balls is made, and is turned OFF when the big win is made without the paid out balls.

After that, the big winning opening opening information and the jackpot fanfare time (for example, 5000 ms, 4700 ms, 7700 ms or 300 ms) corresponding to the state of the probability of winning results in the normal figure fluctuation display game and the special figure fluctuation display game Set (step A719), and save the set jackpot fanfare time in the special game processing timer area (step A720). Then, the special game mode flag is loaded, and the loaded flag is saved in the special game mode flag save area (step A721). This stores the information of the probability state of the special figure and the time saving state when the special result occurs. Then, based on the information stored later, the effect mode after the end of the special game state is determined.

Then, the large winning slot fraudulent winning number area of the big winning slot (special variable winning device 38) corresponding to the big winning slot opening information is cleared (step A722), and the big winning slot corresponding to the big winning slot opening information is cleared. A fraud monitoring period outside flag is saved in the fraud monitoring period flag area (step A723). Thereafter, the fanfare/interval processing transition setting processing 1 (step A724) for shifting to the fanfare/interval processing is performed, and the special figure display processing is terminated. That is, the game control device 100 converts the special variable prize winning device 38 to the open state based on the result being a special result in either the first special figure variation display game or the second special figure variation display game. It constitutes special game state generating means for generating a state.

On the other hand, at step A706, when the big hit flag 1 is not a big hit (step A706; N), it is determined whether the loaded small hit flag is a small hit or not (step A725).
In step A725, when it is determined that the small hit flag is a small hit (step A725; Y), a high probability fluctuation frequency region for managing the number of special figure fluctuation display games that can be executed in a high probability state High probability fluctuation count update processing (step A726) to update the value (high probability fluctuation count), production mode information check processing (step A727) regarding the setting of the production mode is performed, and the probability state of the special figure fluctuation display game is high. It is determined whether it is in a probability state (step A728).

At step A728, when it is determined that the special figure is not in the high probability (step A728; N), the decoration special figure command is loaded from the decoration special figure command area, prepared (step A729), and the effect command setting Processing (step A730) is performed. Next, a small winning fanfare command is prepared (step A731), effect command setting processing (step A732) is performed, and the process proceeds to step A733. This small winning fanfare command also constitutes special game state start information transmitted to the effect control device 300 at the start of the special game state.

Moreover, in step A728, when it determines with it being in the high probability of a special figure (step A728; Y), it transfers to the process of step A733. As described above, in the gaming machine 10 of the present embodiment, when the probability state of the special figure variation display game is a high probability state, the occurrence of a small win opens the big winning opening, but the occurrence of a small win is not allowed in the game. The screen displayed on the display device 41 is not changed so as not to make the person aware of it.
Then, the special game mode flag is loaded, and the loaded flag is saved in the special game mode flag save area (step A733). Next, set "7" for processing during small winning fanfare as the processing number (step A734), and save the processing number in the special figure game processing number area (step A735).

Next, a small hit fanfare time (for example, 0.3 seconds) is saved in the special game processing timer area (step A736), and a signal related to the start of the small hit game (for example, a big win 1 signal is turned ON (output with big win + small win) )) is saved in the external information output data area (step A737), and a signal relating to the start of the small winning game (for example, a special symbol 1 small winning signal is ON) is saved in the test signal output data area (step A738).

Next, the area for the number of fraudulent prize winnings is cleared (step A739), and the flag outside the fraud monitoring period is saved in the flag area for fraudulent monitoring period for major winning openings (step A740).
Next, a signal related to the right-handed instruction (turning on the firing position designation signal 1) is saved in the test signal output data area (step A741), and the right-handed display LED (eg, the first game state display section 57) is lit. Therefore, the number in the right hitting state is saved in the game state display number 2 area (step A742), and the processing during special figure display is completed.

On the other hand, in step A725, when it is determined that the small hit flag is not a small hit (step A725; N), the number of high probability fluctuations for managing the number of special figure fluctuation display games that can be executed in a high probability state High probability fluctuation count update processing (step A743) for updating the value of the area (high probability fluctuation count), production mode information check processing (step A744) regarding the setting of the production mode, and switching preparation remaining rotation corresponding to the production mode number A number is set (step A745), and it is determined whether or not the number of rotations remaining for effect and the number of rotations remaining for switching preparation match (step A746). In addition, the switching preparation remaining number of rotations may be a different value (number of rotations) in all of the plurality of presentation modes, or may be the same value in any one of the plurality of presentation modes. (number of rotations), or may be the same value (number of rotations) in all of the plurality of presentation modes.
At step A746, if it is determined that the number of rotations remaining for production and the number of rotations remaining for switching preparation do not match (step A746; N), set "0" relating to special figure normal processing as the processing number (step A749 ), save the processing number in the special game processing number area (step A750), and clear the variable symbol discrimination flag area (step A751). Then, the fraud monitoring period flag is saved in the big winning opening fraud monitoring period flag area (step A752), and the processing during special figure display is completed.

On the other hand, in step A746, when it is determined that the number of rotations remaining in the production and the number of rotations in preparation for switching match (step A746; Y), the production mode switching preparation command is prepared (step A747), and the production command is set. After performing the process (step A748), the process proceeds to step A749. The production mode switching preparation command is a command for not performing a look-ahead production from several rotations before the production mode switches, and by transmitting the production mode switching preparation command to the production control device 300, the production is performed across the modes. It is possible to prevent contradiction etc. from occurring in

[General map game processing]
Next, the details of the general-purpose game process (step S113) in the timer interrupt process described above will be described. In the general-purpose game processing, the input of the gate switch 34a is monitored, the overall processing related to the general-purpose variation display game is controlled, and the display of the general-purpose pattern is set.

As shown in FIG. 25, in the normal game process, first, a gate switch monitoring process (step B1) for monitoring the input from the gate switch 34a is performed, and the normal electric winning switch for monitoring the input from the start port 2 switch 37a is performed. A monitoring process (step B2) is performed. Next, if the general pattern game processing timer is not "0", it is updated by -1 (step B3). In addition, the minimum value of the general-purpose game processing timer is set to "0". Then, it is determined whether or not the value of the general-purpose game processing timer has become "0" (step B4).

When the value of the normal game processing timer is "0" (step B4; Y), that is, when it is determined that the time has expired or has already timed up, reference is made to branch to the process corresponding to the normal game process number. A process of setting a general-purpose game sequence branch table in a register (step B5) is performed, and a process of acquiring a branch destination address of a process corresponding to the general-purpose game processing number using the table (step B6) is performed. Then, a subroutine call is made in accordance with the general-purpose game processing number (step B7).

At step B7, if the normal pattern game processing number is "0", the start of fluctuation of the normal pattern fluctuation display game is monitored, and the setting of the start of fluctuation of the normal pattern fluctuation display game, the setting of the effect, and the normal pattern fluctuation are performed. Normal figure normal processing (step B8) for setting information necessary for processing is performed.
Further, in step B7, when the general pattern game processing number is "1", a general pattern variation process (step B9) for setting information necessary for performing the normal pattern display process is performed.

Further, in step B7, if the general pattern game processing number is "2", if the result of the general pattern variation display game is a hit, the normal pattern opening time is set according to whether or not it is in the time saving state. Or, during the normal map display process (step B10) for setting the information necessary for performing the normal pattern per process.
Further, in step B7, if the normal game processing number is "3", the processing during the normal game is continued, or the information necessary for performing the normal electric remaining ball processing is set during the normal game. Processing (step B11) is performed.

Further, in step B7, when the normal game processing number is "4", the normal electric remaining ball processing (step B12) for setting information necessary for performing the normal game per end processing is performed.
Also, in step B7, if the general pattern game processing number is "5", general pattern per end processing (step B13) for setting information necessary for performing general pattern normal processing is performed.

After that, after preparing the normal pattern fluctuation control table for controlling the normal pattern fluctuation by the normal pattern display device (step B14), the pattern fluctuation control process (step B15) is performed, and the general-purpose game process is terminated.
On the other hand, in step B4, when the value of the general-purpose game processing timer is not "0" (step B4; N), that is, when it is determined that the time has not expired, the process proceeds to step B14, and the subsequent processes are executed. conduct.

[Usually normal processing]
Next, the details of the general-purpose normal processing (step B8) in the above-described general-purpose game processing will be described. As shown in FIG. 26, in the general pattern normal processing, first, it is determined whether the general pattern reservation number is "0" (step B301), and if the general pattern reservation number is "0" (step B301; Y ) sets "0" for the normal game process as the process number (step B322), and saves the process number in the normal game process number area (step B323). After that, the during fraud monitoring period flag is saved in the general and electric fraud monitoring period flag area (step B324), and the normal processing for general and public diagrams is terminated.

Also, if the normal pattern reservation number is not "0" (step B301; N), the random number is loaded from the RWM hit random number storage area (for the reservation number 1) and the hit pattern random number storage area (for the reservation number 1), The loaded area, that is, the winning random number storage area (for the reserved number 1) and the winning pattern random number storage area (for the reserved number 1) are cleared to 0 (step B302), and the probability of a winning result in the normal pattern fluctuation display game is increased. It is determined whether it is in the normal pattern high probability made higher than the normal probability (ie, normal pattern low probability), that is, whether it is in the time saving state (step B303).

If it is not in the normal pattern high probability (step B303; N), set the lower limit judgment value (low probability lower limit judgment value) at the normal pattern low probability (step B304), If it is in the normal pattern high probability (step B303 ; Y) sets the lower limit judgment value (high probability lower limit judgment value) at the time of normal pattern high probability (step B305).
After that, it is determined whether the value of the winning random number is equal to or higher than the upper limit judgment value (step B306). is less than the lower limit judgment value set in (step B307).

If the value of the winning random number is equal to or greater than the upper limit judgment value (step B306; Y), or if the value of the winning random number is less than the lower limit judgment value set in step B304 or B305 (step B307; Y), the winning flag Save the lost pattern information in the area (step B308), set the lost stop pattern number (step B309), save the lost pattern information in the normal pattern stop pattern information region (step B310), set the stop pattern number to the normal pattern stop Save in the pattern area (step B314).
On the other hand, if the value of the winning random number is not less than the lower limit judgment value set in step B304 or B305 (step B307; N), the winning information is saved in the winning flag area (step B311), and the winning information loaded in step B302 A winning stop pattern number corresponding to the pattern random number is set (step B312), the stop pattern information corresponding to the stop pattern number is saved in the general pattern stop pattern information area (step B313), and the stop pattern number is set to the normal pattern stop pattern. Save in the area (step B314).

In the case of this embodiment, the probability of hitting at the time of normal pattern low probability is 0/251, the probability of hitting at the time of normal pattern high probability is 250/251, the upper limit judgment value is "251", and the low probability lower limit judgment value is "251", and the high probability lower limit judgment value is "1". Therefore, when the normal pattern is low probability, the value of the hit random number is "0" to "250". In addition, at the time of normal pattern high probability, the case where the value of the random number is any one of "1" to "250" is hit, and the case where the value of the random number is "0" is lost.
In addition, in the case of this embodiment, there are two types of winning symbols.

After saving the stop design number in the normal design stop design area (step B314), the stop design number is saved in the test signal output data area (step B315).
After that, the hit random number storage area is shifted (step B316), the empty area after the shift is cleared to 0 (step B317), and the normal figure reservation number is updated by -1 (step B318). That is, with the execution of the normal pattern fluctuation display game related to the oldest normal pattern reservation number 1, the process of advancing the order of the normal pattern reservation numbers 2 to 4 that are reserved after the normal pattern reservation number 1 by one I do. By this process, the values for the general pattern holding number 2 to the general pattern holding number 4 in the general pattern random number storage area are moved from the general pattern holding number 1 to the general pattern holding number 3 in the general pattern random number storage area. It will be done. Then, the value for the normal pattern reservation number 4 in the normal pattern random number storage area is cleared, and the normal pattern reservation number is decremented by 1.

Next, the variation pattern random number 3 is extracted (step B319), the variation time corresponding to the variation pattern random number 3 is set, and saved in the general pattern game processing timer area (step B320). Then, the process transition setting process (step B321) during normal pattern fluctuation for shifting to the normal pattern fluctuation process is performed, and the normal pattern normal process is ended. That is, the game control device 100 executes a normal pattern variation display game as a variation display game (based on the normal pattern start memory) based on the detection of the game ball at the normal pattern start gate 34 (inflow area). form.
In this embodiment, in step B320, the variable time is set to 500 ms with a probability of 200/256, 1500 ms with a probability of 40/256, and 3000 ms with a probability of 16/256. .

[Normal map fluctuation process]
Next, the details of the process during normal game fluctuation (step B9) in the normal game process described above will be described. As shown in FIG. 27, in the normal pattern fluctuation process, first, the process number is set to "2" for the normal pattern display process (step B401), and the process number is saved in the normal pattern game process number area. (Step B402). After that, the general pattern display time (for example, 600 msec), which is the display time of the result of the general pattern fluctuation display game on the general pattern display device 53, is saved in the general pattern game processing timer area (step B403). Save the signal (for example, turn off the normal pattern 1 fluctuation signal) in the test signal output data area (step B404), and save the stop flag indicating that the normal pattern fluctuation display game is stopped in the normal pattern fluctuation control flag area. Save (step B405), and end the process during normal figure fluctuation.

[Processing during normal map display]
Next, the details of the general-purpose map displaying process (step B10) in the above-described general-purpose map game processing will be described. As shown in FIG. 28, in the normal pattern display process, first, the hit flag (hit information or loss information) set in the normal pattern normal process is loaded (step B501), and the RWM hit flag area is cleared. (step B502), it is determined whether the loaded winning flag is winning information (step B503).

If the hit flag is not hit information (step B503; N), set "0" for normal game processing as the processing number (step B515), and save the processing number in the normal game processing number area (step B516). After that, the during fraud monitoring period flag is saved in the general/universal electric fraud monitoring period flag area (step B517), and the general/universal map displaying process is terminated.

On the other hand, if the hit flag is the hit information (step B503; Y), set the process setting table during the hit (step B504), and the value of the hit start pointer corresponding to the normal pattern stop symbol information (for example, "0 ' or '5') and saves it in the control pointer area during normal per figure (step B505). Next, the value of the hit end pointer corresponding to the normal pattern stop symbol information (for example, "4" or "7") is acquired and saved in the normal pattern per end pointer area (step B506). Next, the general electric open time (for example, 1700 ms or 2600 ms) corresponding to the general pattern stop symbol information is acquired and saved in the general pattern game processing timer area (step B507).

Next, "3" is set as the process number for shifting to the normal game per process (step B508), and the process number is saved in the normal game process number area (step B509). After that, the signal related to the start of the normal pattern fluctuation display game (for example, the normal pattern 1 hit signal is ON) and the signal related to the normal electric operation start (for example, the normal electric accessory 1 is in operation signal is turned ON) are test signals It is saved in the output data area (step B510), and in order to output a signal for driving (turning on) the general electric solenoid, the ON data is saved in the general electric solenoid output data area (step B511).

Furthermore, the information in the electric power count area that stores the number of winnings to the ordinary variable winning device 37 is cleared (step B512), and the electric power that stores the number of winnings to the ordinary variable winning device 37 during the ordinary electric fraud monitoring period The information in the fraudulent winning number area is cleared (step B513). Then, the flag for defining outside the fraud monitoring period of the normal fluctuation prize winning device 37 (fraud monitoring period flag) is saved in the general/electric fraud monitoring period flag area (step B514), and the process during normal diagram display is completed.

[Medium processing per normal figure]
Next, the details of the processing (step B11) during the normal pattern hit in the normal pattern game processing described above will be described. As shown in FIG. 29, in the normal per pattern process, first, the control pointer during normal per pattern is loaded and prepared (step B601), and the value of the loaded normal per pattern control pointer is greater than or equal to the upper limit value. (step B602).

Then, if the value of the control pointer during the normal pattern is not equal to or greater than the upper limit (step B602; N), the control pointer during the normal pattern is updated by +1 (step B603), and the value of the control pointer during the normal pattern (step (value before being updated by +1 in B603) is performed (step B604).
Also, if the value of the control pointer during the normal pattern is equal to or higher than the upper limit (step B602; Y), without performing the process of updating the processing control pointer area during the normal pattern in step B603 by +1, during the normal pattern Branch processing according to the value of the control pointer is performed (step B604).

If the value of the control pointer is "0", "2" or "5", the process proceeds to step B605 to control closing of the normal variable winning device 37, so that the normal variable winning device corresponding to the control pointer 37 is saved in the general game processing timer area (step B605), and in order to turn off the general electric solenoid 37c, the off data is saved in the general electric solenoid output data area (step B606), and the general electric solenoid 37c is turned off. End the drawing hit process.

Also, if the value of the control pointer is "1" or "3", the process proceeds to step B607, and in order to control the opening of the normal variable winning device 37, the normal variable winning device 37 corresponding to the control pointer Save the general electric open time, which is the open time, in the general electric game processing timer area (step B607), save the ON data in the general electric solenoid output data area in order to turn on the general electric solenoid 37c (step B608), End the process during normal per figure.

Also, if the value of the control pointer is "6", the process proceeds to step B609 to control the opening of the normal variable prize winning device 37. Therefore, the opening time of the normal variable prize winning device 37 corresponding to the control pointer is The general electric open time is saved in the general electric game processing timer area (step B609), and the ON data is saved in the general electric solenoid output data area in order to turn on the general electric solenoid 37c (step B610). End the process.

Also, if the value of the control pointer is "4" or "7", the process proceeds to step B611, where the opening control of the normal variable winning device 37 is terminated and the normal electric remaining ball process is performed. is set to "4" (step B611). Then, this process number is saved in the normal game process number area (step B612), and the normal electric remaining ball processing time is saved in the normal game process timer area (step B613). After that, in order to turn off the general electric solenoid 37c, the OFF data is saved in the general electric solenoid output data area (step B614), and the processing during the general drawing is completed.

Here, in this embodiment, for example, in step B605, the wait time is set to 300 msec, in step B607, the normal power disconnect time is set to 1700 msec, in step B609, the normal power disconnect time is set to 2600 msec, and in step B613. saves 600 ms as normal electric residual ball processing time.
Furthermore, when the normal pattern stop pattern is "hit pattern 1", in step B505 of the normal pattern display process shown in FIG. In step B506, "4" is obtained as the value of the winning end pointer, and in step B507 of the general/universal diagram display process, "1700 msec" is obtained as the general/universal power open time. Therefore, after the display time of 600 msec has elapsed, the normal power is opened for 1700 msec because the normal power open time is "1700 msec". The time is set, and then the general electric power is opened for 1700 msec because the control pointer during the normal pattern is updated to "1", and then the control pointer during the normal pattern is updated to "2" for 300 msec. The wait time is set, then the normal control pointer is updated to "3", so the power is opened for 1700 msec, and then the normal control pointer is updated to "4", so it is 600 msec. is set.

Further, when the normal pattern stop pattern is "hit pattern 2", in step B505 of the normal pattern display process shown in FIG. In step B506, "7" is obtained as the value of the winning end pointer, and in step B507 of the process during normal diagram display, "2600 msec" is obtained as the normal open time. Therefore, after the display time of 600 msec has elapsed, the normal power is opened for 2600 msec because the normal power open time is "2600 msec". The time is set, then the normal control pointer is updated to "6", so the power is opened for 2600 msec, and then the normal control pointer is updated to "7", so it is 600 msec. Normal electric remaining bulb processing time is set.

[External information editing process]
Next, details of the external information editing process (step S117) in the timer interrupt process described above will be described. In the external information editing process, payout command transmission process (step S111), winning opening switch/state monitoring process (step S107), magnet fraud monitoring process (step S115), board radio fraud monitoring process (step S116) Based on this information, information to be output to an external device such as an information collection terminal, a game hall internal management device, or a test firing test device is created and processed to be set in an output buffer.

As shown in FIGS. 30 and 31, in the external information editing process, first, if neither a glass frame open error has occurred (step S801; N) nor a body frame open error has occurred (step S802; N), , the door/frame open signal OFF data is saved in the external information output data area (step S803), the security signal OFF data is saved in the external information output data area (step S804), and the process proceeds to step S807. .
On the other hand, if a glass frame open error is occurring (step S801; Y) or if a body frame open error is occurring (step S802; Y), the ON data of the door/frame open signal is sent to the external device. The data is saved in the information output data area (step S805), the ON data of the game machine error state signal is saved in the test signal output data area (step S806), and the process proceeds to step S807.

Then, if the security signal control timer, which counts a predetermined time (for example, 256 milliseconds) from the time when the data stored in the RAM is initialized by operating the initialization switch or the like, is not "0", it is updated by -1 ( step S807). The initial value of the security signal control timer is set when the RAM initial value is set when starting with RAM clear in the main process, and the minimum value of the security signal control timer is set to "0". Then, it is determined whether the value of the security signal control timer is "0" (step S808).
If the value of the security signal control timer is not "0" (step S808; N), that is, if the time has not expired, the security signal ON data is saved in the external information output data area (step S809), and step S810. to process. If the value of the security signal control timer is "0" (step S808; Y), that is, if the time has expired or has already expired, the process proceeds to step S810 without performing the process of step S809. Transition.

Then, if magnet fraud is occurring (step S810; Y), if board radio fraud is occurring (step S811; Y), if frame radio fraud is occurring (step S812; Y), normal If an electronic fraud is occurring (step S813; Y), or if a big winning slot fraud is occurring (step S814; Y), the security signal ON data is saved in the external information output data area ( Step S817), the ON data of the gaming machine error state signal is saved in the test signal output data area (step S818), and the process proceeds to step S819. That is, the occurrence of an error is output as external information.

On the other hand, no magnet fraud has occurred (step S810; N), no board radio fraud has occurred (step S811; N), no frame radio fraud has occurred (step S812; N), and no electricity fraud has occurred. (Step S813; N) If there is no big winning slot fraud (Step S814; N), it is determined whether a switch abnormality is occurring (Step S815).
If the switch abnormality is occurring (step S815; Y), the ON data of the gaming machine error state signal is saved in the test signal output data area (step S818), and the process proceeds to step S819. If the switch abnormality is not occurring (step S815; N), the OFF data of the gaming machine error state signal is saved in the test signal output data area (step S816), and the process proceeds to step S819.

Then, main prize ball signal editing processing (step S819) for setting information about the number of prize balls to be paid out is performed, and starting signal editing processing (step S820) for editing the winning signal of the starting port is performed.
Next, if the pattern determination count control timer for controlling the output time of the information relating to the execution count of the special figure variation display game is not "0", it is updated by -1 (step S821). In addition, the minimum value of the pattern determination count control timer is set to "0". Then, it is determined whether or not the value of the pattern determination count control timer is "0" (step S822).

When the value of the pattern confirmation count control timer is "0" (step S822; Y), that is, when the time has expired or has already expired, the OFF data of the pattern confirmation count signal is saved in the external information output data area. (step S823) to end the external information editing process.
Also, if the value of the design determination count control timer is not "0" (step S822; N), that is, if the time has not expired, the ON data of the design determination count signal is saved in the external information output data area (step S824), the external information editing process is terminated.

Next, control by the production control device 300 will be described. The main control microcomputer (CPU) 311 of the effect control device 300 performs main processing shown in FIG. 32 and timer interrupt processing (not shown).

[Main processing]
As shown in FIG. 32, in the main process, first, the process at the start of the program is performed. In this process at the start of the program, first, interrupts are prohibited (step C1), and the CPU is initialized (step C2). Next, the VDP 312 is initialized (step C3), and interrupts are permitted (step C4). Next, the generation of display data is permitted (step C5), the random number seed is set (step C6), and the initial value at power-on is saved in the area to be initialized (step C7). As a result, the power failure occurrence detected flag and the like are cleared.

After the program start processing from steps C1 to C7 is performed, loop processing is performed as the main loop processing. In this loop processing, first, WDT (watchdog timer) is cleared (step C8). Next, a performance button input process (step C9) for creating input information from an input signal (rising edge) based on the operation of the performance button 25 or the touch panel 29 is performed. Inputs from the performance button 25 and the touch panel 29 are read in timer interrupt processing, and in this performance button input processing, when there is an input from the performance button 25 or the touch panel 29, processing for changing performance contents, etc. is performed.

Then, hall/player setting mode processing is performed for setting the changeable range of the brightness of the LEDs and liquid crystals, volume, etc., and receiving operations by the player to change the brightness of the LEDs and liquid crystals, volume, etc. (step C10). Next, a random number update process (step C11) is performed to update the random number that determines the details of the variation mode of the decoration special figure variation display game.

Next, a reception command check process (step C12) for analyzing and responding to commands from the game control device 100 is performed, and an effect display editing process (step C13) is performed for editing settings and drawing commands for controlling the progress of the effect. ) to set the completion of drawing command preparation (step C14). In these processes, various data are updated in accordance with the content to be drawn, and the drawing data is finally set in the frame buffer. If the drawing data for the screen to be drawn within 1/30 second (approximately 33.3 milliseconds) is prepared, the image can be updated without any problem.

Then, it is determined whether or not it is time to switch frames (step C15). In this embodiment, in order to create a system period (1 frame 1/30 second), it is determined that it is time to switch frames when a V blank interrupt (1/60 second) is input twice. Note that the frame switching timing can be changed arbitrarily. For example, image updating (frame switching) may be performed at 1/60 second, or image updating (frame switching) may be performed at a timing later than 1/60 second. switching) may be performed. If it is determined in step C15 that it is not the frame switching timing (step C15; N), the process of step C15 is repeated. On the other hand, if it is determined at step C15 that it is time to switch frames (step C15; Y), screen drawing is instructed (step C16).

After that, sound control processing (step C17) for controlling the output of sound from the speakers (upper speaker 19a, lower speaker 19b), LED control of the board decoration device 46, the frame decoration device 18, the sub-information display device 90, etc. Decoration control processing (step C18) to be performed, movable body control processing (step C19) for controlling the motor and solenoid of the board effect device 44 are performed, and the processing returns to the processing for clearing the WDT (step C8).

[Receive command check processing]
FIG. 33 shows received command check processing in the main processing described above. In this received command check processing, first, the value of a command reception counter that counts how many commands have been received in one frame (1/30 second) is loaded as the command reception count (step C201). It is determined whether or not the number is 0 (step C202). If it is determined that the number of received commands is 0 (step C202; N), the received command check process is terminated. If it is determined that the number of received commands is not 0 (step C202; Y), the contents of the command reception counter area are subtracted by the number of received commands (step C203).

Next, the contents of the received command buffer are copied to the command area (step C204), the command read index is updated by +1 within the range of 0 to 31 (step C205), and whether or not the command copying for the number of commands received has been completed. (step C206). Thus, in this embodiment, the command is not directly analyzed in the received command buffer, but the content of the received command buffer is copied to the command area (RAM area for analysis), and the command is analyzed in the command area. is configured as follows. Thereby, in preparation for a case where a command is transmitted from the game control device 100 during command analysis, commands (data) can be moved to make space. In addition, command analysis can be collectively performed for each round of main processing.

If it is determined in step C206 that copying of the commands corresponding to the number of commands received has not been completed (step C206; N), the process returns to step C204. If it is determined that copying of commands for the number of commands received has been completed (step C206; Y), the contents of the command area are loaded (step C207), and received command analysis processing (step C208) is performed.

Next, the address of the command area is updated (step C209), and it is determined whether or not the analysis of commands corresponding to the number of commands received has been completed (step C210). If it is determined that the analysis of commands corresponding to the number of commands received has not been completed (step C210; N), the process returns to step C207. Also, when it is determined that the analysis of the commands corresponding to the number of commands received has been completed (step C210; Y), the received command check processing is terminated. In this way, in the received command check process, commands received during one frame (1/30 second) are collectively analyzed. In this embodiment, up to 32 commands can be saved.

[Receive command analysis processing]
FIG. 34 shows received command analysis processing in the received command check processing described above. In this received command analysis processing, first, the upper byte of the command is separated as MODE and the lower byte as ACT (ACTION) (step C231), and it is determined whether or not MODE and ACT are within the normal range (steps C232 and C233). ). When it is determined that MODE and ACT are within the normal range (step C232; Y, step C233; Y), it is determined whether or not ACT for MODE is a correct combination (step C234).

If it is determined in steps C232 and C233 that MODE or ACT is not within the normal range (step C232; N, step C233; N), or if it is determined in step C234 that ACT for MODE is not a correct combination (step At C234; N), the received command analysis process is terminated.

If it is determined in step C234 that the ACT for MODE is a correct combination (step C234; Y), it is determined whether or not MODE is within the range of the variable command (step C235). Variation system command is a command to command the variation pattern of special figure. When it is determined that the MODE is within the range of the variable command (step C235; Y), the variable command process (step C236) is performed, and the received command analysis process is terminated.

Also, in step C235, when it is determined that MODE is not within the range of variation commands (step C235; N), it is determined whether or not MODE is within the range of jackpot commands (step C237). The big hit system command is a command for commanding an operation (display of a fanfare screen, a round screen, etc.) during the big win, or a command for commanding an operation (display of a fanfare screen, end screen, etc.) during the small win. Then, when it is determined that the MODE is within the range of the jackpot command (step C237; Y), the jackpot command processing (step C238) is performed, and the received command analysis processing is terminated.

If it is determined at step C237 that the MODE is not within the range of the jackpot commands (step C237; N), it is determined whether or not the MODE is within the range of the symbol commands (step C239). The symbol system command is a command for instructing information on the symbol of the special figure (for example, what to do with the stop symbol of the special figure). When it is determined that the MODE is within the range of the symbolic command (step C239; Y), symbolic command processing (step C240) is performed, and the received command analysis processing is terminated.

Also, in step C239, if it is determined that MODE is not within the range of symbol commands (step C239; N), it is determined whether or not MODE is within the range of single-shot commands such as pending number commands and error commands. (Step C241). A single command is a command that stands alone, unlike a command that makes sense in combination, such as a symbol command and a variable command. The single-shot commands include a customer waiting demo command, a pending number command, a symbol stop command, a probability information command, an error/illegal command, and a model designation command. If it is determined that the MODE is within the range of single-shot commands (step C241; Y), single-shot command processing (step C242) is performed, and the received command analysis processing ends.

If it is determined in step C241 that MODE is not within the range of single-shot commands (step C241; N), it is determined whether or not MODE is within the range of look-ahead symbol commands (step C243). When it is determined that the MODE is within the range of the look-ahead symbol system command (step C243; Y), the look-ahead symbol system command process (step C244) is performed, and the received command analysis process ends.

Also, when it is determined in step C243 that MODE is not within the range of the look-ahead symbol system command (step C243; N), it is determined whether or not MODE is within the range of the look-ahead variation system command (step C245). When it is determined that the MODE is within the range of the prefetch variation command (step C245; Y), prefetch variation command processing (step C246) is performed, and the received command analysis processing is terminated. If it is determined in step C245 that the MODE is not within the range of the prefetch variation command (step C245; N), the received command analysis process is terminated.

In addition, the look-ahead variation system command and the look-ahead symbol system command are commands including information necessary for executing the look-ahead effect. Pre-reading effect (also called pre-reading notice or pre-reading notice effect) is whether the special figure fluctuation display game will be a big hit when the special figure fluctuation display game corresponding to the unexecuted start memory (hold) is executed after that. (or what kind of variation pattern it will be), in order to notify the player in advance with a predetermined reliability, display the decoration special figure start memory display etc. displayed on the display device 41 in a manner different from usual, It is a production such as performing a production display on The look-ahead system command (a look-ahead variation system command and a look-ahead pattern system command) is a command to inform in advance of the variation pattern and the stop design corresponding to the start memory to be the target of the look-ahead effect, and is sent from the game control device 100 at the time of start winning. It is transmitted to the production control device 300 . It should be noted that normal variation-based commands and symbol-based commands that are not look-ahead are transmitted from the game control device 100 to the effect control device 300 at the start of the variable display.

In addition, a command related to power-on and a command related to a probability setting value are processed in one-shot command processing. Commands related to power-on include a command for recovery from power failure and a command for RAM initialization. The commands related to the probability setting values include the following commands: changing probability setting, changing probability setting value, ending probability setting change, confirming probability setting value, and ending probability setting value confirmation.

In the above-described first embodiment, when the setting key switch 152 is turned on after the power is turned on, the mode shifts to the probability set value confirmation mode. Even in such a case, the state may be shifted to the probability set value change state. However, since the RAM is initialized at the end of the probability set value change state, during the execution of the special figure fluctuation display game, during the execution of the normal figure fluctuation display game, during the special game state, or during the winning state of the normal figure It may be a condition that it does not correspond to Moreover, it is good also as conditions that it is in a customer waiting state. Further, when the operation handle 24 is being operated and there is an input from the touch switch, it may not be possible to shift to the probability set value change state.

Also, although the RAM 111C is initialized when the probability set value change state ends, the RAM 111C may not be initialized unless it is determined that there is an abnormality in the data in the RAM 111C.

Also, although the probability values corresponding to the respective probability setting values are different, the same probability value may be assigned to different probability setting values. FIG. 35(a) shows probability setting values in this embodiment. The value of the probability setting value area of the RAM 111C takes values from 0 to 5. The working probability setting value area is the same. Setting 1 to setting 6 are assigned as probability setting values corresponding to the values in the probability setting value area. The probability setting value display device 153 displays 1 to 6 corresponding to the probability setting values. Different probability values are assigned to settings 1 to 6, respectively.

FIG. 35(b) shows an example in which probability values are assigned differently. In this example, the probability values of setting 1 to setting 3 are assigned as setting 4 to setting 6. FIG. Therefore, it is practically possible to switch between three levels of probability values. The rest is the same as in FIG. 35(a). By doing so, when six levels of probability values are unnecessary, only the probability values need to be changed, and the design can be easily changed.

Which probability value is assigned to which probability setting value is arbitrary. For example, setting 1 and setting 6, setting 2 and setting 5, and setting 3 and setting 4 may be assigned the same probability value. Since the value of the probability setting value area (probability setting value area for work) is updated by +1 when the setting value change button is operated, the order of the probability values that change when the setting value change button is operated differs by changing the assignment. order. Further, for example, if two probability setting values are assigned the same probability values as other probability setting values, the number of stages of change can be set to 4 stages, and any stage from 1 stage to 6 stages can be set.

FIG. 35(c) also shows an example in which probability values are assigned differently. In this example, the settings 4 to 6 in FIG. 35(b) are changed to settings 1 to 3, and the display on the probability setting value display device 153 is also changed to 1 to 3 correspondingly. As a result, the display of the probability set value display device 153 and the probability value correspond to each other, and it is possible to make it easier for the person in charge to grasp the probability value.

FIG. 35(d) also shows an example in which probability values are assigned differently. In this example, the setting is all 1, the display of the probability setting value display device 153 is all 1, and the probability values are all the same. That is, substantially only one probability value can be set, and even if the function of changing the probability value is not required, it is possible to cope with the setting of the value without changing the configuration of the game control device 100.例文帳に追加In this case, even if the set value change button is operated, the probability set value display device 153 displays the same display. It becomes easier for the worker to grasp that the order has been accepted.

Although the number of values in the probability setting value area is six, other numbers may be used. For example, in the case of FIGS. 35(b) and (c), the number of values in the probability setting value area may also be three. Also, in the case of FIG. 35(d), the number of values in the probability setting value area may be one. In addition, the number of values in the probability setting value area may be set to 7 or more in order to enable setting of more stages. Moreover, although the probability setting value to which the probability value is assigned is selected, the probability value may be selected. In this case, the probability setting value display device 153 displays the selected probability value.

In addition, although the probability value of the big hit is assigned according to the probability setting value, the probability value of the small hit is also assigned, and the probability value of the small hit is also changed according to the change of the probability setting value. ing. The probability value of the big hit and the probability value of the small hit corresponding to each probability set value can be determined independently. However, if only the big win and the small win are the result of the special figure variation display game, it is necessary to set the probability value of the small win according to the probability value of the big win. Also, the set probability value for setting the probability value of the big hit and the set probability value for setting the probability value of the small hit may be set separately. Also, the probability value of the small hit may be a constant value regardless of the probability setting value. Furthermore, the probability of winning results in the normal pattern variation display game may also be set according to the probability setting value that defines the probability value of hitting a big hit, or may be set independently.

In addition, when the setting value change button, the setting key operation unit, the probability setting value display device 153, etc. are provided on the setting sub-board and connected to the game control device 100, the function of changing the probability value is unnecessary. , the setting sub-board may be removed, and the connecting portion of the game control device 100 with the setting sub-board may be connected to a sub-board or the like that has undergone termination processing such as GND connection. By doing so, only the function of changing the probability value can be eliminated without changing the configuration of the game control device 100, and the cost can be reduced. Also, in a gaming machine that does not have a probability variation function, an activation probability M may be provided for each probability setting value.

[First modification]
Next, a first modification of the gaming machine of the first embodiment described above will be described. It should be noted that, basically, it has the same configuration as the gaming machine of the above-described embodiment. explain. In the gaming machine of this modification, the game control device 100 transmits a payout instruction command to the payout control device 200 when the power is turned on.

The payout control device 200 in this modified example includes storage means capable of retaining stored contents even in a power-off state. This storage means stores the information of the payout command received from the game control device 100, and the payout is carried out based on the information stored here. Thus, since the storage means of the payout control device 200 can hold the stored contents in the power-off state, the game control device 100 sequentially transmits payout commands regardless of the state of the payout busy signal. . Therefore, the information of the payout command that has not yet been paid out is accumulated in the storage means of the payout control device 200 .

[Main processing]
In the gaming machine of this modified example, main processing shown in FIG. 36 is performed instead of the main processing shown in FIG. In this process, when the command (specific information) of setting change instruction is transmitted to the effect control board (effect control device 300) (step S28), the command (specific information) of the payout instruction is transmitted to the payout control device 200. (Step S51). Upon receipt of this payout instruction command, the payout control device 200 starts the payout based on the information backed up in its own storage means. By doing so, even if the backup data of the game control device 100 is damaged, the payout can be performed based on the information stored in the payout control device 200, and the profit of the player is prevented from being damaged. can.

In addition, in the effect control device 300, based on the reception of the setting change instruction command, in addition to performing notification to prompt the change of the probability set value, it is also configured to perform notification that there is a possibility that a payout will be performed. can be Also, the command (specific information) of the payout instruction is sent to the payout control device 200 is not limited to the above case. For example, in FIG. S40), or when a command for RAM initialization is transmitted to the effect control device 300 (step S44), a payout instruction command (specific information) may be transmitted to the payout control device 200.

From the above, it can be concluded that in a gaming machine capable of executing a game based on the establishment of a predetermined condition and generating a special game state in which a game value is awarded to a player when the result of the game is a special result, Based on the game control means (game control device 100) for controlling, the production control means (production control device 300) for controlling the production of the game based on the information from the game control means, and the probability value used for the lottery of the game is allocated. A setting means ( A game control device 100) and payout control means (payout control device 200) for controlling payout of game media based on payout information from the game control means, and the game control means can control stored content even in a power-off state. storage means (RAM 111C) capable of holding , validity determination means (game control device 100) for determining whether the information stored in the storage means is valid when the power is turned on, and a probability setting value is selected and an initialization means (game control device 100) capable of initializing the storage means based on the operation of the operation unit for performing the game. When it is determined, the specific information is transmitted to the performance control means and the payout control means to stop the control of the game, and the performance control means makes a notification prompting the selection of the probability set value based on the reception of the specific information. The payout control means is capable of holding stored contents even in a power-off state, and has payout information storage means capable of storing payout information received from the game control means. Based on the payout information, the payout control of the game media is performed. Therefore, it is possible to encourage the player to return to the normal state and not to impair the profits obtained by the player. In addition, by initializing the RAM 111C, the information of the probability setting value set in the game arcade is also lost and the initial value is set. Therefore, it is possible to prevent a state in which a probability setting value unintended by the game parlor remains set.

[Second modification]
Next, a second modification of the gaming machine of the first embodiment described above will be described. It should be noted that, basically, it has the same configuration as the gaming machine of the above-described embodiment. explain. In the gaming machine of this modified example, a plurality of determination conditions for the selected probability setting value are prepared.

[Probability setting value change processing]
In the gaming machine of this modified example, instead of the probability setting value changing process shown in FIG. 11, the probability setting value changing process shown in FIG. 37 is performed. In this probability set value change process, a determination condition monitoring process (step S450) is performed to monitor whether or not the conditions for determining the selected probability set value are established.

[Confirmation condition monitoring process]
As shown in FIG. 38, in the confirmation condition monitoring process, first, it is determined whether or not there is an input from the touch switch provided on the operating handle 24 (step S411), and if there is an input from the touch switch (step S411; ) clears the completion waiting flag (step S457), performs the processing of steps S412 to S415, and terminates the confirmation condition monitoring processing.

In other words, when the worker performs the first operation of touching the operating handle 24, the first determination condition is established with the input from the touch switch as a condition, and the selected probability set value is set. The end standby flag is a flag used for monitoring the establishment of the second confirmation condition, as will be described later. Since there is no longer a need to monitor , the completion wait flag is cleared.

On the other hand, if there is no input from the touch switch (step S411; N), that is, if the first confirmation condition is not satisfied, it is determined whether there is an end waiting flag (step S451). If there is an end waiting flag (step S451; Y), the process proceeds to step S455. In this case, monitoring of the second definite condition has already started. If there is no end standby flag (step S451; N), it is determined whether the setting key switch is off (step S452).

If the setting key switch is not in the OFF state (step S452; N), the confirmation condition monitoring process is terminated. In this case, the probability setting value change state continues. If the setting key switch is off (step S452; Y), an initial value (for example, 3 seconds) is saved in the change end timer area (step S453), and an end standby flag is set (step S454).

After that, if the change end timer is not 0, it is updated by -1 (step S455), and it is determined whether the change end timer is 0 (step S456). If the change end timer is not 0 (step S456; N), the confirmation condition monitoring process is terminated. If the change end timer is 0 (step S456; Y), the process from step S457 onwards is performed, and the confirmed condition monitoring process ends. That is, when a predetermined period of time (for example, 3 seconds) elapses after the operation of turning off the setting key switch, which constitutes the second operation, the second confirmation condition is established, and the selected probability setting value is set. It has become so.

As described above, in this modified example, the set probability value selected by satisfying either the first confirmation condition or the second confirmation condition is set as the probability setting value to be used in the game. Until these definite conditions are established, the selected probability setting value is stored in the working probability setting value area, and the information in the probability setting value area storing the probability setting value used in the game is not changed. do not have. Therefore, if the power is cut off before the confirmation condition is satisfied, the selected probability setting value is discarded and the original probability setting value is set.

In addition, in the probability set value change state, by touching the operation handle 24, it may be notified that the selected probability set value is set. This notification may be always performed in the probability setting value change state, or may be performed only in the state where the completion standby flag is set. Moreover, the first confirmation condition and the second confirmation condition are not limited to the conditions described above and can be set arbitrarily. For example, the second confirmation condition may be only that the setting key switch is turned off. Alternatively, three or more determination conditions may be prepared, and a probability set value selected when any one of them is established may be set.

Further, although the original probability setting value is set when the power supply is cut off before the confirmation condition is established, a predetermined probability setting value may be set. For example, when the probability setting value change state is started, the information in the probability setting value area is set to an initial value (for example, setting 1). may be set. In this case, any probability setting value can be set in advance as the initial value. It may be set as a set value.

From the above, it can be concluded that in a gaming machine capable of executing a game based on the establishment of a predetermined condition and generating a special game state in which a game value is awarded to a player when the result of the game is a special result, A control means (game control device 100) that performs control and probability setting values to which probability values used for lottery of the game are assigned are set by an operation unit (setting key operation unit (setting key switch 152), a setting value change button (setting value A setting means (game control device 100) that enables selection from a plurality of types of probability setting values by operating a change switch 151)), and the setting means is determined when one of a plurality of confirmation conditions is established. This means that the probability setting value selected based on is set. Therefore, it is possible to reliably change the probability set value. In addition, by providing a plurality of definite conditions, the degree of freedom of work is increased, and the work efficiency at the amusement arcade can be improved.

Further, the setting means does not set the selected probability set value when the power supply is cut off before any of the plurality of determination conditions is satisfied. Therefore, it is possible to prevent the probability setting value from being changed unintentionally.

Further, the plurality of confirmation conditions include a first confirmation condition and a second confirmation condition, the first confirmation condition being that a predetermined first operation has been performed, and the second confirmation condition being the first operation. is that a predetermined time elapses after a different predetermined second operation is performed. Therefore, it is possible to reliably change the probability set value.

[Third modification]
Next, a description will be given of a third modification of the gaming machine of the above-described first embodiment. It should be noted that, basically, it has the same configuration as the gaming machine of the above-described embodiment. explain. The game machine of this modified example does not have a setting key operating section in the setting means and does not have the setting key switch 152 . Also, the conditions for transition to the changeable state in which the probability set value can be changed are different.

[Main processing]
In the gaming machine of this modified example, instead of the main process shown in FIG. 5, the main process shown in FIG. 39 is performed. In this process, if the backed-up information is normal and the set value change state is not set (step S21; N), it is determined whether the set value change switch is in the ON state from the previously read state of the third input port 124. is determined (step S61).

If the set value change switch is not in the ON state (step S61; N), the process proceeds to step S30 in FIG. 6 in order to carry out the process for normal recovery from the power failure. If the set value change switch is in the ON state (step S61; Y), transition determination processing is performed (step S62). As will be described later, in the transition determination process, it is determined whether or not the conditions for transition to the probability setting value change state are established, and if the transition conditions are satisfied, the probability setting value changing flag is set. .

If the probability setting value changing flag is set in the transition determination process (step S63; Y), the process of initializing the RAM and setting the probability setting value changing state in which the setting value can be changed is performed. 6 to step S35. In addition, in this modification, since the probability set value changing flag is set in the transition determination process, the process of step S37 does not have to be performed. Also, when the probability set value changing flag is not set in the transition determination process (step S63; N), the process proceeds to step S41 in FIG. 6 to initialize the RAM area for game control.

On the other hand, if the backed-up information is not normal, after setting the RAM clear start address 1 (step S25), it is checked whether the set value change switch is in the ON state from the state of the third input port 124 read earlier. is determined (step S64). If the setting value change switch is not in the ON state (step S64; N), the command (specific information) of the setting change instruction is transmitted to the production control board (production control device 300) (step S28), and RAM access is prohibited. (Step S29), the control is stopped and the power supply of the game machine is stopped.

If the set value change switch is in the ON state (step S64; Y), transition determination processing is performed (step S65). This transition determination process is the same process as step S62. If the probability setting value changing flag is set in the transition determination process (step S66; Y), the RAM initialization process and the probability setting value changing state where the probability setting value can be changed are performed. The process proceeds to step S35 in FIG. Further, when the probability setting value changing flag is not set in the transition determination process (step S66; N), the process proceeds to step S27.

[Transition judgment processing]
FIG. 40 shows the transition determination process (steps S62 and S65) in the main process described above. In this transition determination process, first, an initial value (for example, 30 seconds) is saved in the transition standby timer area (step S71), the state of input port 1 is read (step S72), and it is determined whether the transition condition is met (step S72). step S73).

In this modification, the staff puts game balls into the prize winning area in a predetermined order within a predetermined time period, thereby shifting to the probability set value change state. Whether or not this transition condition is satisfied is determined from the state of the input port 1 to which the detection signal from is input. If this transition condition is satisfied (step S73; Y), the probability set value changing flag is set (step S76), and the transition determination process is terminated. As a result, the state shifts to the probability set value change state.

If the transition condition is not met (step S73; N), if the transition standby timer is not 0, it is updated by -1 (step S74), and it is determined whether the transition standby timer is 0 (step S75). . If the transition standby timer is not 0 (step S75; N), the process returns to step S72. That is, the detection signal from the winning area is monitored for a predetermined period of time (for example, 30 seconds).

If the transition standby timer is 0 (step S75; Y), the transition determination process is terminated. That is, if the transition condition is not satisfied within the predetermined time, the transition determination process is terminated without setting the probability set value changing flag. As a result, when the backed up data is normal, the process proceeds to step S41 in FIG. 6 to perform the process of initializing the RAM area for game control. , the processing of steps S28 and S29 is performed and the control is stopped.

The transition condition may or may not be changeable at the game arcade. Also, although the transition condition is to put the game balls in the winning area in a predetermined order, it is also possible to put a predetermined number of game balls in the predetermined winning area regardless of the order. Further, a predetermined detection by one detection means may be used as a transition condition. In this case, the condition may be simply that the detection is made by the detection means, or the detection by the detection means a plurality of times in a predetermined manner (the number of times of detection, the detection interval, etc.) may be the predetermined condition. .

Moreover, although the winning area detection sensor is used as the detection means used to establish the transition condition, other detection sensors may be used. For example, the touch sensor of the operating handle 24 or the set value change switch 151 may be used. However, it is preferable that the transition conditions include detection by detection means that cannot be freely operated by the player during the game, such as a detection sensor for the winning area.

In addition, a plurality of DIP switches are provided at positions that can be operated only when the front frame 12 is opened, and are used as detection means used to establish transition conditions, and transition is made when the state of each DIP switch is in a predetermined state. The condition may be satisfied. Alternatively, a keyboard may be provided at a position operable only when the front frame 12 is opened, and used as a detection means for establishing the transition condition, and the password entered from the keyboard may establish the transition condition. .

Further, only when the set value change switch 151 is turned on when the power of the game machine is turned on, the establishment of the transition condition is monitored and the transition to the probability set value change state is made possible. Even when the set value change switch 151 is not turned on, the transition to the probability set value change state may be made possible by monitoring the establishment of the transition condition. In this case, a period for monitoring whether the transition condition is established may always be set based on the power-on of the game machine, or when the set value change switch 151 is operated after the power is turned on, the transition condition You may make it start the period which monitors establishment of.

From the above, in a gaming machine capable of executing a game based on the establishment of a predetermined condition and generating a special game state in which a game value is awarded to a player when the result of the game is a special result, The detection means used (gate switch 34a, winning opening switch 35a, starting opening 1 switch 36a, starting opening 2 switch 37a, big winning opening switch 38a) and the probability setting value to which the probability value used for the lottery of the game is assigned , Setting means (game control device 100) that allows selection from a plurality of types of probability setting values based on the operation of the operation unit (setting key operation unit (setting key switch 152), setting value change button (setting value change switch 151)) and the setting means enables the selection of the probability set value when the detecting means detects a predetermined mode. Therefore, since detection in a predetermined manner by the detection means has the same function as the setting key, it is possible to prevent the probability setting value from being illegally changed. In addition, the number of game machines capable of changing the probability setting values at the same time is not limited to the number of setting keys. improves.

In addition, it is used in a game in a gaming machine that can generate a special game state that gives a game value to a player when the game is executed based on the establishment of a predetermined condition and the result of the game is a special result. A plurality of detection means (gate switch 34a, prize winning port switch 35a, starting port 1 switch 36a, starting port 2 switch 37a, big winning port switch 38a) and the probability set value to which the probability value used for the lottery of the game is assigned, A setting means (game control device 100) that enables selection from a plurality of types of probability setting values based on the operation of the operation unit (setting key operation unit (setting key switch 152), setting value change button (setting value change switch 151)) In addition, the setting means enables the selection of the probability set value when a predetermined mode of detection is detected by a plurality of detection means. Therefore, since detection in a predetermined manner by the detection means has the same function as the setting key, it is possible to prevent the probability setting value from being illegally changed. In addition, the number of game machines capable of changing the probability setting values at the same time is not limited to the number of setting keys. improves.

The setting means makes it possible to select the probability set value when the detection means detects the predetermined mode in a certain period after the power is turned on. Therefore, it is possible to prevent the probability setting value from being changed unintentionally.

Also, the plurality of detection means are inoperable by the player. Therefore, it is possible to prevent the probability setting value from being changed unintentionally.

[Fourth modification]
Next, a fourth modification of the gaming machine of the first embodiment described above will be described. It should be noted that, basically, it has the same configuration as the gaming machine of the above-described embodiment. explain. In the gaming machine of this modified example, the probability set value is changed by a set value change operation unit composed of DIP switches.

A DIP switch forming a set value changing operation section is provided at a position where it can be operated only when the front frame 12 is opened, and its input state is inputted to the CPU 111A. As shown in FIG. 41, three DIP switches SW1 to SW3 are provided as a set value change operation unit, and the states of the DIP switches corresponding to each probability set value are defined.

[Probability setting value change processing]
In the gaming machine of this modified example, instead of the probability setting value changing process shown in FIG. 11, the probability setting value changing process shown in FIG. 42 is performed. In this probability set value change process, it is determined whether the state of the set value change operation unit has changed (step S461). (step S462). As a result, the desired probability set value can be set by operating the set value change operation unit during the probability set value change state and ending the probability set value change state as a state corresponding to the desired probability set value. becomes.

By using the DIP switches in this way, the task of setting a desired probability setting value is facilitated, and the set probability setting value can be grasped at a glance. Since the set probability setting value can be grasped at a glance, the probability setting value display device 153 may not be provided. Also, a cover may be attached to cover the DIP switches so that the state of the DIP switches is not immediately visible when the front frame 12 is opened.

Also, in order to make it easier to grasp the state of each DIP switch, a confirmation LED may be provided corresponding to each DIP switch so that it lights up when the corresponding DIP switch is ON. Further, the confirmation LED may be lit all the time, or may be lit only in the probability set value change state or in the probability set value confirmation mode.

Also, the set value change operation unit is not limited to a dip switch, but may be a toggle switch or a rotary switch. Anything is fine.

In addition, although the state of the setting key switch 152 changes the state of the probability set value change, the state of the set value change switch 151 can shift to the probability set value change state as in the third modification described above. , the probability setting value change state may end. In this case, the probability set value may be set based on the state of the set value change operation section when the predetermined time has elapsed, or based on the state of the set value change operation section at the time when the predetermined confirmation operation is performed. A probability setting value may be set.

In addition, when the probability setting value is not changed, the currently set probability setting value is compared with the state of the setting value change operation unit, and a monitoring process is performed to monitor whether the two states match. Also good. The monitoring process may be always performed when the probability setting value is not changed, or may be performed only at a predetermined time such as when the power is turned on or when the special figure fluctuation display game is started. Alternatively, it may be performed regularly at regular time intervals. When it is determined by the monitoring process that the two states do not match, it is possible to notify that an abnormality has occurred, or to stop the game.

[Fifth Modification]
Next, a fifth modification of the gaming machine of the first embodiment described above will be described. It should be noted that, basically, it has the same configuration as the gaming machine of the above-described embodiment. explain. In the gaming machine of this modified example, the game cannot be played when the wiring between the setting key switch 152 and the CPU 111A for making it possible to change the probability set value is broken. .

In this modification, a setting sub-board serving as a setting means having a setting value change button, a setting key operation section, a probability setting value display device 153, etc. is provided, and this setting sub-board is connected to the game control device 100. It's like For example, as shown in FIG. 43( a ), wiring from the setting key switch 152 provided on the setting sub-board is connected to the game control device 100 via a connector 154 . Note that the setting value change switch 151 is omitted here.

FIG. 43(a) shows a state in which the setting key of the setting key operating section is not in the second position. In this state, the setting key switch 152 is closed and the input to the CPU 111A is LOW, so that the input from the setting key switch 152 is recognized as being OFF. Based on this, the probability setting value change state is prevented and the game can be progressed. Further, in the gaming machine of this modified example, an LED is provided as confirmation means for visually recognizing the state of the setting key switch 152 . In the state of FIG. 14(a), the confirming means is turned off, making it possible to confirm that the setting key switch 152 is recognized as being in the OFF state.

FIG. 43(b) shows a state in which the setting key of the setting key operating section is in the second position. In this state, the setting key switch 152 is open and the input to the CPU 111A is HI, so that it is recognized that the setting key switch 152 is on. Further, the confirmation means is turned on, and it can be confirmed that the setting key switch 152 is recognized as being in the ON state.

As described above, when the power is turned on, the setting key of the setting key operation section is set to the second position and the input from the setting key switch 152 is turned on, so that the probability set value change state is set. It is configured. That is, the input of the ON state from the setting key switch 152 constitutes the specific operation information that is input based on the operation of the operation unit so as to be in a specific state, and based on the input of this specific operation information. A probability setting value change state is entered in which the probability setting value can be selected. In this probability set value change state, the game cannot be progressed, and the game can be progressed by ending the probability set value change state.

FIG. 43(c) shows the case where the wiring between the setting key switch 152 and the CPU 111A is broken, and FIG. 43(d) shows the case where the connector 154 is disconnected. In either case, the input to the CPU 111A is HI, and the setting key switch 152 is recognized as being on. Further, the confirming means is turned on, and it becomes possible to confirm that the setting key switch 152 is recognized as being in the ON state.

That is, since the state is the same as when the probability set value is changeable, the specific operation information is input in this case as well. As a result, the probability setting value is changed, and the game cannot be progressed. In this way, by inputting the specific operation information even when there is a disconnection or disconnection of the connector, it is possible to prevent the game from progressing when there is an abnormality. In addition, since the confirmation means is lit even though the setting key of the setting key operating section is not at the second position, it is possible to visually confirm that an abnormality has occurred.

Although the setting key switch 152 and the game control device 100 are connected by the connector 154 here, they may be directly connected without the connector 154 . Also, although the setting sub-board serving as setting means including the setting key switch 152 and the like is provided separately from the game control device 100, the game control device 100 is provided with the setting key switch 152 and the like, and the setting means may be integrated with the game control device 100, and in this case also, it is possible to detect disconnection or connector disconnection between the setting key switch 152 and the CPU 111A with the same configuration.

Also, here, when the connection between the setting key switch 152 and the game control device 100 is interrupted, the specific operation information is input. Information may be input. Also, the setting sub-board may check the connection status of the setting key switches 152 and the like within the setting sub-board, and if there is an abnormality, the setting sub-board may output specific operation information.

From the above, it can be concluded that in a gaming machine capable of executing a game based on the establishment of a predetermined condition and generating a special game state in which a game value is awarded to a player when the result of the game is a special result, A control means (game control device 100) that performs control and a probability setting value to which a probability value used for lottery of the game is assigned is connected to the control means, and is set by an operation unit (setting key operation unit (setting key switch 152)). A setting means (game control device 100) that enables selection from a plurality of types of probability setting values by operating a value change button (set value change switch 151)), and the operation unit is operated so as to be in a specific state. Based on this, the specific operation information is input to the control means so that the probability set value can be selected, and the control means prevents the progress of the game while the specific operation information is being input. When the wiring between the setting means and the control means is disconnected, the specific operation information is input to the control means. Therefore, it is possible to prevent an act of illegally changing the probability set value.

Further, when the power is turned on while the operation unit is operated to be in a specific state, the probability setting value can be selected. Therefore, it is possible to prevent an act of illegally changing the probability set value.

It should be noted that the gaming machine of the present invention is not limited to the pachinko gaming machine shown in the above-described embodiment, and may be other pachinko gaming machines, arrange ball gaming machines, majang ball gaming machines, and the like. can be applied to all gaming machines that use game balls. It is also possible to apply the present invention to slot machines. The slot machines are not limited to slot machines using medals, but include all slot machines such as slot machines using game balls. In addition, the configurations of the modifications described above can be appropriately combined and applied.

In addition, the embodiments disclosed this time should be considered as examples in all respects and not restrictive. The scope of the present invention is indicated by the scope of the claims rather than the above description, and is intended to include all modifications within the meaning and range of equivalents of the scope of the claims.

10 game machine 100 game control device (control means, setting means, initialization means)
111C RAM (storage means)
151 set value change switch (second operating unit)
152 setting key switch (first operation unit)

Claims (2)

In a gaming machine that can execute a game based on the establishment of a predetermined condition,
A game control means for controlling a game;
Based on the information from the game control means, production control means for controlling the game production,
setting means for enabling setting of setting values related to the game by operating an operation unit;
The game control means is
a storage means capable of retaining stored information even when power is cut off;
a validity determination means for determining whether the information stored in the storage means is valid when the power is turned on,
The storage means includes a first work area and a first stack area related to game control, and a second work area and a second stack area related to display regarding the performance of the gaming machine,
performing the validity determination by a checksum targeting the first work area and excluding the first stack area, the second work area, and the second stack area;
reading the state of the operation unit before performing the validity determination;
When the result of the legitimacy determination is not valid, the specific information is transmitted to the performance control means, the game is stopped until the power is cut off, and the set value can be set. If the condition is satisfied and the power is not turned on again, the game will be stopped again even if the power is turned on again.
In the game stop state, waiting for power cutoff without updating random numbers generated by software,
It is possible to output information to the outside of the game machine and to initialize information stored in the storage means in response to the establishment of the settable state . Characteristic game machine. In a gaming machine that can execute a game based on the establishment of a predetermined condition,
A game control means for controlling a game;
Based on the information from the game control means, production control means for controlling the game production,
setting means for enabling setting of setting values related to the game by operating an operation unit;
The game control means is
a storage means capable of retaining stored information even when power is cut off;
a validity determination means for determining whether the information stored in the storage means is valid when the power is turned on,
The storage means includes a first work area and a first stack area related to game control, and a second work area and a second stack area related to display regarding the performance of the gaming machine,
performing the validity determination by a checksum targeting the first work area and the first stack area and excluding the second work area and the second stack area;
reading the state of the operation unit before performing the validity determination;
When the result of the legitimacy determination is not valid, the specific information is transmitted to the performance control means, the game is stopped until the power is cut off, and the set value can be set. If the condition is satisfied and the power is not turned on again, the game will be stopped again even if the power is turned on again.
In the game stop state, waiting for power cutoff without updating random numbers generated by software,
It is possible to output information to the outside of the game machine and to initialize information stored in the storage means in response to the establishment of the settable state . Characteristic game machine.

Images