JPS60123990A - Currency processor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention]

[Technical Field of the Invention] The present invention relates to a money processing device that handles money. [Technical background of the invention and its problems] This type of money handling device is used for banking business, and it distinguishes and stores the number of coins (amount of money) inserted into the housing and handles the coins. The coins are stored in the denomination-specific storage section and accepted, and a predetermined number of coins are taken out from the denomination-specific storage section, the number is memorized, and the coins are discharged, and the coins in the denomination-specific storage section are stored as necessary. One example is a system that performs a collection process in which coins are collected in a storage unit and a replenishment process in which coins stored in this storage unit are replenished into denomination storage units as needed. Conventionally, this device can accumulate and store the amount of coins used for collection processing and the amount of coins used for replenishment processing, in order to easily check the amount of money in the storage unit by denomination at the end of the day. It was like that. By the way, if collected coins are lent to a bank transaction device, or if collected coins are borrowed from another device for replenishment, the accumulated amount of stored coins for each replenishment process and collection process is The amount of money theoretically calculated from the number of meters and the total amount of money that has been released in the acceptance process 2 may not match the actual amount of money in stock. Conventional equipment performs replenishment processing. Since the quantity of coins submitted for collection processing is accumulated (), if discrepancies such as those mentioned above occur, it is not possible to trace the history of replenishment processing and collection processing. There was a problem in that the cause could not be easily determined. [Object of the Invention] The present invention has been made in view of the above circumstances, and its purpose is to be able to track the progress of collection processing and replenishment processing, and to track the progress of collection processing and replenishment processing. It is an object of the present invention to provide a money processing device that can easily contribute to the investigation of the cause of a discrepancy in inspection. 1. Summary of the Invention] In order to achieve the above object, the present invention stores the quantity of collected coins or the quantity of replenished coins each time collection processing or replenishment processing is performed, and Based on this, the history of the replenishment process 9 collection process can be tracked to contribute to the investigation of the cause of discrepancies in scrutiny. [Examples of the Invention] The present invention will be specifically described below based on Examples. FIG. 1 is a schematic perspective view showing an apparatus according to an embodiment of the present invention. What is shown in the figure is a transaction device 100 that automatically deposits and withdraws money based on the user's operations. It is installed facing the automatic deposit/withdrawal corner. The operation surface 2 includes a bill slot 4 through which bills for deposit as securities are inserted and bills discharged from the housing 1 are taken out, and coins for deposit are discharged from the interior of the housing 1 when deposited coins are inserted. One coin entrance/exit 201 from which coins are taken out
, a card/passbook entrance 5 through which a cash card or passbook used for depositing and withdrawing money is inserted and discharged, and a display/input surface 6 through which the customer performs deposit/withdrawal operations and displays necessary information. There is. In the housing 1, there is a depositing area for banknotes inserted from the banknote inlet/outlet 4, and a banknote inlet/outlet 4.
a banknote processing unit 9 that performs processing for dispensing banknotes to be ejected to the coin slot 201; a coin processing unit 200 that performs processing for accepting coins inserted from the coin slot 201 and discharging coins to be discharged to the coin slot 210; Said card/
A card/passbook processing unit 10 that performs predetermined processing on the card or passbook inserted through the passbook entrance/exit 5, a display/passbook processing unit that performs predetermined display operations and input operations on the display/input surface 6;
Input unit l-11, staff operation units l-280 used for staff operations, and control unit I for controlling each unit.
~290 are set. Figure 2 is a memo transaction device! ! There is a configuration block diagram of 100. In the figure, what is indicated by 290 is the control m1. It is a knit, and a predetermined program is memorized.
A storage means (hereinafter referred to as Qi) that stores transaction records for each transaction in the device, the cumulative amount of outflow 1, the collection amount and replenishment amount of i-banknotes stored in the device, etc. (also referred to as memory) 92 is connected to the control unit 90. The details of the contents stored in the transaction memory 92 and the contents controlled by the control section 90 will be described later. And the control section 90
The above-mentioned banknote processing unit 9 and coin processing unit 20 are
0. Card/passbook processing unit 1-10, crab knit with display 11. An attendant operation unit 280 and a voice guidance unit 99 for providing voice guidance to customers are connected. Further, this control unit 90 is communicably connected to a center computer 94 using a dedicated line or exchange line, etc., and the account number read from the card or passbook inserted into the card/passbook processing unit 10, the account number, etc. Transactions can be made by communicating the reserve limit registered in advance in the center calculation TL 194 corresponding to the PIN number, the account number and PIN input from the display/input units 1 to 11, etc. . In the figure, 100' indicates another transaction device that is communicably connected to the center calculation ta94 and has the same configuration as the transaction device 100 described above. Next, details of the banknote processing unit 9 will be explained with reference to FIGS. 3 to 6. First, the outline of the structure of the banknote processing unit 9 is shown in Figs. 3(a) to 3(j).
Explain with reference to. FIG. 3(a) Smell C At the front side (left side in the figure) upper part of the housing 14 of the banknote processing unit 9 is the banknote inlet/outlet (also referred to as the banknote input/output port or banknote output L1).
A storage section 15 is provided to accommodate input banknotes or outgoing banknotes in a stacked state so as to face the banknotes 4.

[C] On the back side of the banknote processing units 1 to 9 (on the right side in the figure), from the bottom, there are various types of money deposits, damaged bills for deposits, 10,000 yen bills that cannot be withdrawn, Unfit notes for storing 1,000 yen notes and deposited 5,000 yen notes; non-payable area 5/10,000 yen note storage section 16; Yen bill storage section 17
, 10,000 yen notes for withdrawals and 10,000 yen notes for deposits other than unfit notes II! 2
A ten thousand yen bill storage section 18 for depositing banknotes and a collection *19 for storing forgotten banknotes are arranged. Furthermore, inside the housing 14, there is an inspection section 20 that inspects the banknotes P, and a first inspection section 20 that inspects the banknotes P, and a first inspection section 20 that inspects the banknotes P, and a first inspection section 20 that inspects the banknotes P, and a first inspection unit 20 that inspects the banknotes. A second accumulation and conveyance section 218.21b is provided, and a banknote conveyance path 22 is formed so that banknotes P can be conveyed to each section. In addition, sorting gooses 23a to 23f whose driving sources are rotary solenoids (not shown) are arranged at the branching portions of the banknote transport path 22, and banknote passage detectors (not shown) are arranged at various locations along the way. It is set up. Moreover, the banknote conveyance path 22 is formed as follows. In addition, a take-in conveyance path 22a is formed corresponding to the banknote inlet/outlet 4, and the base end thereof is the accommodating portion 15.
This intake conveyance path 22a is in communication with a central conveyance path 221) in which the inspection section 20 is disposed in the middle. Moreover, this central conveyance path 221) is connected to each banknote storage section 16.
．． 17 and 18 are in communication with the divided conveyance path 22C along the arrangement direction. The divided conveyance path 220 branches into storage conveyance paths 22d , 22e , and 221.22g for storing banknotes P in the banknote storage units 16 , 17 , 18 and the collection warehouse 19 . Furthermore, each banknote storage section 16, 17 is provided in the divided conveyance path 220.
．． A take-out conveyance path 221+ for conveying the banknotes P taken out via the take-out mechanism 24,
22i and 22j match! The situation is such that Further, the base end of the central conveyance path 22b communicates with the terminal end of the segmented conveyance path 22c via the connecting conveyance path 22, and in the middle part there is a section for conveying banknotes P to the first accumulation conveyance section 21a. The branch conveyance path 22 is branched. Furthermore, the banknotes P in the first collecting and transporting section 21a are +JQ.
A delivery conveyance path 22m is provided for conveying banknotes to the storage section 15. Here, the banknote conveyance path from the storage section 15 to the inspection section 20 is referred to as a first conveyance path L1. The 11r5 transporting means that transports banknotes along the line 1-1 is referred to as the first transporting means 190.
The banknote conveyance path from a to the storage section 15 via a part of the intake conveyance path 22a, the output conveyance path 22m, and the second accumulation conveyance section 2111 is referred to as a second conveyance path L2, and this second conveyance path (The conveying means for conveying banknotes is the second conveying means 1.
91. Next, an overview of the flow of banknotes 1 at the time of deposit will be explained with reference to FIG. 3(b). First, the banknotes P... inserted all at once into the banknote inlet/outlet 4 are taken in one by one by the take-in/output Tfil of the storage unit 15 provided opposite to the banknote inlet/outlet 14. Central conveyance path 22 via conveyance path 22a
b, and the inspection section 20 located in the middle of this section determines the face value and authenticity. As a result, in the case of a genuine bill, it is conveyed as it is through the central conveyance path 22b and fed into the classification conveyance path 220, as shown by the solid line arrow in the figure.
sorting gate 231) arranged on the sorting conveyance path 220). 23C and 23d are selectively distributed. Then, 5,000 yen notes and damaged notes that cannot be used as withdrawal notes are placed in the damaged/unpayable notes/5,000 yen note storage section 16, 1,000 yen notes are placed in the 1,000 yen note storage section 17, and 10,000 yen notes are placed in the 1,000 yen note storage section 17. are respectively stored in the ten thousand yen bill storage section 18. On the other hand, if it is determined to be a counterfeit bill, it is sorted to the branch conveyance path 221 side by the sorting gate 23a as shown by the broken line arrow in the figure, and is accumulated in the first accumulation conveyance section 21a via this branch conveyance path 21. be done. In addition, the distribution gate 23a and the branch conveyance path 221 are 111
This is an example of a two-feed switching means. When the absence of a banknote P in the C1 banknote entrance 4 is detected by a banknote no-detector (not shown), the system shown in FIG. 3 (
C) The temporarily accumulated counterfeits are conveyed in the opposite direction to the bill entrance/exit 4 via the delivery conveyance path 22n1. Next, an outline of the flow of banknotes P at the time of withdrawal will be explained with reference to FIG. 3(d). Depending on the user's designation of the payment denomination, either 10,000 yen notes or 1,000 yen notes, each denomination is stored in a safe in the 10,000 yen note storage section 18. Removal mechanism 2 from thousand yen bill storage section 17
4, the sheets are taken out one by one through the take-out conveyance path 22.
j, 22i, and is fed into the 11Q feed path 22c. Then, it goes straight through this divided conveyance path 22c and is sent to the C central conveyance path 221) via the connecting conveyance path 22k, and the inspection section 20C, the 2-sheet picker, etc., are processed and one payment is made. i'il, 1 or 1--unable to pay is determined. (,1-Payment 1jl J) The banknote P that has been determined as ``J'' is transferred to the branch conveyance path 22! side through the sorting gate 23a as shown by the solid line arrow C in the figure, and is passed through the first I m After being continuously conveyed in the conveyance section 21a, the bills are accumulated in the second accumulation conveyance section 21b, and after the removal of one banknote of all -C is completed, they are dispensed at once to the banknote entrance 4.Meanwhile, in the inspection section 20 Skewed and double-bill bills P that are determined to be "unpayable" are not sorted by the sorting gate 23a and are transferred to the central conveyance path 22b, as shown by the broken line arrow in the figure.
and is sent straight to the divided conveyance path 22C. and,
The lowermost storage conveyance path 22d is separated by the sorting gate 23b.
The banknotes are sorted into unfit notes/non-payable notes/5,000 yen notes and stored in a storage section 16. Also, when depositing and withdrawing money, the bill P in the bill slot 4 is
If you forget to take it, it is configured to be transported and stored in the collection warehouse 19 via the take-in transport path 22a, the central transport path 22b1, the segmented transport path 22c, and the uppermost storage transport path 22g. Next, the structure of the accommodating portion 15 will be explained with reference to FIG. 4(a) and FIGS. 5(a), (b), and (c). A banknote door (hereinafter also referred to as a banknote entry/exit door) 123 that can be opened and closed is provided at the upper part of the storage section 15 (see FIG. 4(a)). This banknote entry/exit door 12; as shown in Fig. 5(a), there are guide shafts 121.
It is possible to slide along the banknote entry/exit door 1.
A part of the banknote 23 is locked to an endless belt 125 (Jj), and this belt is reciprocated by a reversible rotation drive of a banknote output motor 124 to open and close the banknote entry/exit door 123. The drive of this banknote exit motor 124 is controlled by the control section 90 (see FIG. 4(c)). and guide shafts 121 and 122 constitute the banknote opening/closing mechanism 120. Also, on both sides of the banknote entry/exit door 123, there are bins 123a.
A U-shaped plate member 127 is attached to the lower part of the banknote entry/exit door 123 and is inserted into and supported by the bin 123a and has a U-shaped cross section and is rotatable. This plate-like member 127
A bill stopper 126, 126, which is a paper sheet alignment means, is installed at a position corresponding to the widthwise center of the bill output rtP123.
have. The bottle 12 in this plate member 127
A coil spring 128 is installed at the end that is inserted into and supported by 3a.
One end is locked, and the other end is locked to the housing 14. The urging force of the coil spring 128 causes the plate member 127 and the banknote stopper 126 to
It is urged to rotate in the direction of arrow F in the drawings about 3a. Furthermore, a plate-shaped cam 129 is fixed to the path along which the plate-shaped member 127 moves as the bill entry/exit door 123 opens and closes, and guides the plate-shaped member 127 by contacting the lower surface thereof. The end of this plate-like cam 129 is parallel to the lower surface of the banknote entry/exit door 123 over almost the entire length thereof,
The end surface of the plate-shaped cam 129, which the plate-shaped member 127 comes into contact with when the banknote exit #123 closes the banknote entrance/exit 4, is curved downward. Therefore, until just before the banknote entry/exit door 123 closes the banknote entrance/exit 4, the plate member
The flange 126 is in contact with the end surface of the plate-shaped cam 129 and is parallel to the lower surface of the bill input/output port 123. When the bill entry/exit door 123 closes the bill entry/exit port 4, the plate member 127 rotates in the direction of the arrow shown in the figure while contacting the curved portion of the plate cam 129, and the bill slot [・flange 126]
The banknote turnout FW 'I is as shown in Figure 5j<8).
23 so as to protrude in the cross direction from the lower surface of 23.
-) There is C. Next, FIG. 4 (
This will be explained with reference to a), FIG. A paper sheet placement member (hereinafter simply referred to as a placement table) 105; a take-out roller 104 that is a take-out member that contacts the topmost layer of banknotes stacked on this placement table 105 and sequentially sends out the banknotes one by one by friction; ,
The pusher 1, which is a pressing means for pressing the bill interposed between the take-out roller 104 and the take-out roller 104 in the direction of the surface of the bill, faces the take-out roller 104 and is movable apart.
A plate 107, a feeding roller 103 disposed ahead of the taking-out roller 104, which feeds out and conveys the banknotes to the taking-in conveyance path 22a, and a feeding roller 103, which is disposed opposite to the feeding roller 103 with a predetermined gap, and which separates the banknotes by this gap.
A first sheet number regulating roller 106 for preventing sheet feeding is provided. In addition to the function of taking out the inserted banknotes as described above, this storage section 15 also has the function of taking out the inserted banknotes.
It also has the function of accumulating rejected banknotes or disbursed banknotes that are sent out and conveyed through the bank. For this purpose, the mounting table 105 is configured to rotate in the direction shown in FIG. 4(a). That is, when taking banknotes into the apparatus and conveying them, the mounting table is positioned in the state shown in FIG. Further, when stacking the banknotes sent out from the second stacking/conveying section 21b, the mounting table 105 is rotated in the direction of the counter-clock bar 1 from the state shown in FIG. 4(a). There is. The drive mechanism of this mounting table 105 is shown in FIG. 5(1)). In FIG. 5(b), the mounting table 105 has a side plate 137.
, 137, which are rotatably supported by bins 138, 138. , IC1 One of the pins 138 and 138 has an idle gear 139 fixed to one end protruding from the side plate 137, and this idle gear 139 is connected to the mounting table driving motor 14.
It meshes with a drive gear '140a fixed to the motor shaft of No. 0. By reversibly rotating the mounting table driving motor 140, the mounting table 105 is rotated in the direction shown in FIG. 3(a). Next, the suppression plate 107 will be explained. This pressing plate 107 is interposed between the taking-out roller 104 and the pressing surface that presses the banknotes as shown in FIG.
) It is possible to turn the mounting table 105 in the 13 directions shown in the figure, and in order to avoid any trouble in the clockwise rotation of the upper part of the mounting table 105, J direction 1. :
This press plate 107
(The structure is shown in FIGS. 5(b) and 5(c). First, the push 11 lever 107 is moved in the direction of Ch shown in FIG. 4(a).
7) IPJ ff9* *C1 As shown in FIG. Fig. 5(b) The coil spring 131, which is biased downward, is rotated by the rotational drive of the pressing drive motor 132, and the elongated hole (not shown) drilled at one end of the coil spring 131 is rotated. Pressing plate 107
It is equipped with a rotating lever 133 which is locked. The pressing plate 107, which is always urged downward, slides upward against the urging force of the coil spring 131 as the rotating lever 133 is rotationally driven by the rotation of the pressing plate driving motor 132. It looks like this. Further, the pressing surface 107a that presses the stacked banknotes is shown in FIG. 5(b).
As shown in , it is rotatably supported by the pressing plate 107 via the spring-loaded hinge 134 . Further, on the surface of the suppression surface 107a that comes into contact with the banknote, an elastic member (for example, a rubber plate, etc.) 18 whose surface has a reduced coefficient of friction is provided.
0 is pasted. This elastic member 180 is used to uniformly apply a pressing force to the banknotes interposed between the elastic member 180 and the take-out roller 104. Further, the suppression surface '10
The drive mechanism of 7a in the direction B shown in FIG. 4(a) is as shown in FIG. 5(C). FIG. 5(C) is a cross-sectional view taken along line GG in FIG. 5(1). In FIG. 5(C), the drive mechanism of the suppressing surface 107a is fixed to the upper part of the suppressing surface 107a, and the notch 10 has a shape of 1=1.
7C, a pressing surface driving solenoid 135 that inserts and removes the iron core 135a by energizing it, and a solenoid 135 for driving the pressing surface that is rotatable around a fulcrum 136a, locks the iron core 135a at one end, and has the notch at the other end. I1'! L link plate 13
It consists of 6. Then, by energizing the suppression surface driving solenoid 135, the iron core 135a is attracted, and the displacement of the iron core 135a causes the link play 1-13 to
6 rotates around the fulcrum 136a. As a result, the roller 13 provided on the link plate 136
6b drives the driven piece 107b to rotate the suppressing surface 1071) in the direction C13 shown in the drawing against the biasing j of the spring f'' hinge 134. In addition, the above-mentioned mounting table drive 1-teri/
I O, +! II Ji plate drive motor 132)
The one-plane drive solenoid 135 is driven and controlled by the control section 90. Next, FIG. 4(a) shows details of the banknote conveyance system. This will be explained with reference to (b) and (C). The main driving source of this banknote conveyance system is a banknote conveyance system drive motor 101. This conveyance system drive motor 101 is the first. The conveyor belts other than the second collecting and conveying sections 21a and 21b are driven so that their circumferential speeds are equal. (1) This transport system driving motor 101 also rotates the take-out roller 104 and the feed-out roller 103. That is, the take-out roller 104 and the feed roller 103 are
The driving force of the transport system driving motor 101 is transmitted via an electromagnetic clutch 162, and when the electromagnetic clutch 102 is turned on, the take-out roller 104. The feeding rollers 103 are rotated synchronously, and the above-mentioned mounting table 1
The banknotes placed on the 05 are taken in and conveyed one by one. When a sensor (not shown) detects that no banknotes are present on the mounting table 105, the electromagnetic clutch 102 is turned off to stop driving the take-out roller 104 and the feed roller 103. Next, the first. The second accumulation/conveyance section 218, 211] will now be explained. The first accumulation conveyance section 21a is the branch conveyance path 22! and the intake conveyance path 22a (
The first banknote conveyance belt 114 is tensioned with one end side (backward stage in the conveyance direction) in contact with the first banknote conveyance belt 114, and the other end side (front stage in the conveyance direction) is composed of a second banknote conveyance bell l 11 F5, etc., which is stretched so as to be able to come into contact with and separate from the branch conveyance path 21. Further, the front stage in the conveying direction of the second banknote conveyance belts i to 115 is always separated from the branch conveyance path 22, and the branch conveyance path 22 and the second banknote conveyance belt 11; The distance between them narrows in the conveying direction, forming a ridge shape. In addition, this second banknote conveyance belt t-
The roller 152 at the front stage in the conveyance direction of the roller 115 has a fulcrum 15.
A rotary lever 150 is attached to the rotary lever 150, which can be rotatably displaced in the direction 1 shown in FIG.
An iron core 118a, which is inserted and removed by energizing 18, is locked. Furthermore, a first gear 153 is fixed to the [1-R axis of the roller 152, and a first gear 153, which is continuously rotated by the drive of the transport system drive motor 101, is located at a position opposite to the first gear 153 and is spaced apart from the first gear 153. Two gears 154 are arranged. Then, when the first continuous conveyance solenoid 118 is energized, the second banknote conveyance belt 115 and the branch conveyance path 22 come into contact with each other due to the action of the rotary lever 150, and the second gear 153. 154 will mesh. Therefore, when the first continuous conveyance solenoid 118 is energized, the second banknote conveyance belt 115 continuously rotates to convey banknotes. On the other hand, on the latter side of the second banknote conveyance belt 115 in the conveyance direction, there are
) As shown in FIG.
and a roller 112B that is rotatably supported by the drive shaft 156 and extends over a third banknote conveyance belt 157 that forms a part of the take-in conveyance path 22a. Therefore, the rotational driving force of the intermittent conveyance drive motor (for example, a pulse motor) 109 is transmitted to the drive shaft 156 via the one-way clutch 110 and the drive transmission belt 115. Then, when the presence of a banknote is detected by a first banknote detection sensor 141, which will be described later, the intermittent conveyance drive motor 109 is activated by the control unit 9.
Based on the drive control of 0, the number of pulses corresponds to a distance shorter than the length of the banknote (the length along the conveying direction), for example, 5 mm to 10 mm. Intermittent drive 1 of intermittent conveyance drive motor 109
By doing this repeatedly, the branch conveyance path 22N
The banknotes continuously conveyed through the C banknotes are sandwiched and conveyed in a stacked state with the conveyance tips of the C banknotes shifted between the first and second banknote conveyance belts 114 and 115. In this case, the first collecting and conveying section 21a serves as an intermittent conveying means, and since it is intermittently driven when υ1 ticket removal occurs, the rejected ticket accumulating means stacks the rejected tickets while shifting them by this intermittent drive. It has the function of Note that the one-way clutch 110 is connected to the second coarse conveyor belt 1.
15 is the first. This is provided in order to prevent the rotational force of the drive shaft 156, which rotates when being continuously rotated via the second gears 153 and 154, from being transmitted to the intermittent conveyance drive motor 109. There is. Further, a first stage section and a rear stage section in the transport direction of the first accumulation transport section 21a are provided with a first stage. Second banknote detection sensors 141 and 142 are respectively arranged. This first. Second banknote detection sensor'+141. 142 is a light emitting element 141a, 121.2a and a light receiving element 1
41b and 142b, and detects the presence of banknotes. The first banknote detection sensor '4j141 disposed upstream of the first stacking and transporting section 21a is used to control the drive of the intermittent transport drive motor 109, as described above. On the other hand, the second banknote detection sensor 142 is connected to the first banknote detection sensor 142. It is detected that the conveyance tip of the stacked banknotes that are intermittently conveyed while being held between the second bill conveyance belts 114 and 115 has reached the vicinity of the exit of the first stacking and conveying section 21a, and when this is detected, the control section At 90, turn on and stop the drive of the entire device. This is the first accumulation conveyance section 21
This is to prevent the banknotes sent out from 8 from being guided to the taking-in conveyance path 22a that continues continuous conveyance and being taken in and conveyed again along the same route as the deposited banknotes. Next, the second collecting and transporting section 21b will be explained. The second stacking and conveying section 21b is disposed at the latter stage in the conveyance direction of the banknote delivery conveyance path 22m, and is recessed so as to guide rejected banknotes or paid banknotes to the storage section 15. Second
As shown in FIG. 4(a), the accumulation and conveyance unit 21b is
A fourth banknote conveyance belt 16 is stretched endlessly with its front side in the conveyance direction in contact with the banknote delivery conveyance path 22111.
0, and the endless fifth bill conveying bell 1 to 1 disposed in the contact/separation C1 with the bill conveying bells 1 to 160 of this tIS4.
The 110th stage side of the fifth banknote conveyance bell l-161 is always spaced apart from the fourth banknote conveyance bell 1-160, and , this 4th degree banknote Illll lbel 1
60 and 161 are wedge-shaped so that the distance between them becomes narrower in the conveying direction. The fifth banknote conveyance belt 161 is rotatable in the direction E shown in FIG. Part 21a
Similarly, this is performed by rotating the rotary lever 162 by energizing the second continuous conveyance solenoid 119. Furthermore, although not shown, when the fifth bill conveyance belt 161 is rotated in the direction E in the figure and comes into contact with the fourth bill conveyance belts 1 to 160, this fifth bill conveyance belt ]・A gear for continuously driving the transport system 161 meshes with a gear driven by the transport system drive motor 101. Furthermore, rotational power from the intermittent conveyance drive motor 109 is transmitted to the drive roller 113 via the one-way clutch 111. Therefore, like the first collecting and transporting section 21a, the second collecting and transporting section 21b is capable of continuous transport of banknotes and intermittent transport of stacking banknotes while shifting the leading end of the banknotes. Note that the driving roller 113 and the fifth banknote conveying bell i to 161 are arranged to face each other (
]1-la is j fiddle [''-la 117. Further, Fl disposed on the front side in the conveyance direction of the second accumulation conveyance section 21b
The third banknote detection sensor 143 that has been
A and the light receiving element 143b detect the tip of the dispensing banknote, and when this detection occurs, the number of pulses corresponding to m41, which is shorter than the length of the banknote by λ·1, is set based on the drive control of the control unit 90. Drive [J-Ra 1133 is driven. On the other hand, the fourth banknote detection sensor 144, which is disposed on the rear side in the transport direction of the second accumulation and transport section 211, detects the rear end of rejected banknotes or paid banknotes using a light emitting element 144a and a receiving element 144b. After this detection, the control unit 90 controls the transport system drive motor 101. 1st. The second continuous conveyance solenoid 118, 119 is turned OFF and the bill input/output rR123 is opened. is provided with a slip output port 170 that sends out a payment recording paper (hereinafter referred to as a slip) issued based on a disbursed banknote in the card/passbook processing unit (details will be described later) 10. After the last bill to be paid passes through the third bill detection sensor 143, it is sent out from the bill delivery port 170 via a payment recording paper conveying means (details will be explained later), and In the stacking and conveying section 21b, the dispensing banknotes are stacked with the conveyance tip shifted and sent to the storage section 15. The banknote processing unit 9 configured as described above performs deposit processing, deposit rejection ticket processing, and withdrawal. The details of the processing of gold banknotes will be explained with reference to FIGS. 6(a) to 6(e). First, the banknote depositing process will be described. When the banknote depositing mode is selected, the control Based on the drive control of the unit 90, the bill in/out door motor 124 is driven, and the bill in/out door 123 is opened by the action of the bill door opening/closing mechanism 120.The control unit 9o also controls the loading table drive motor 140. The plate driving motor 132 is driven to set the loading table 105 and the pressing plate 107 to the state shown in FIG. Then, the banknotes are placed in a stacked state between the placing table 105 and the pressing plate 107. At this time, the banknotes are pressed by the pressing plate 107 and C
not present. Thereafter, the bill entry/exit door motor 124 is driven to reverse rotation, and the bill door opening/closing mechanism 120 causes the bill entry/exit door 123 to close the bill entry/exit 0/I. At this time, the plate member 127 moves C along the plate cam 129 in conjunction with the closing movement of the bill inlet/outer door 23, and the bill inlet/outer door 1
23 is closed, the bill stopper 126 is rotated along the curved portion of the plate-shaped cam 129 by the "I" force of the spring 128, and the bill stopper 126 is projected as shown in FIG. 5(a). The stopper 126 comes into contact with the end surface of the stacked banknotes interposed between the placing table 105 and the pressing plate 107 to align the banknotes.After this, the control unit 9
0 controls the energization of the pressing surface driving solenoid 135 to move the pressing surface 107a to the spring-loaded hinge 134. ．． 134 in the direction B shown in FIG. 4(a) or FIG. At this time, since an elastic member 180 with a reduced surface friction coefficient is attached to the banknote contacting surface side of the pressing surface 107a, the elasticity of the elastic member 180 equalizes the pressing force applied to the entire surface of the banknote. be done. After that, the control unit 90
The transport system drive motor 101 is drive-controlled to drive the transport system of the banknote processing unit 9. The take-out roller 104 and the feed-out roller 10 disposed in front of the take-out roller 104
3 and 3 input the rotational driving force of the transport system drive motor 101 via the electromagnetic clutch 102, and are rotated together in synchronization. At this time, since the pressing force of the banknotes frictionally delivered by the take-out [1-ra 104 is equalized by the elastic member 180, the banknotes are not transported in a skewed state, and are not transported in a skewed state. In particular, it is possible to eliminate paper jams caused by J2 or unreadability in the inspection section 20. The banknotes taken out by the take-out port-ra 10/I are sent to the pay-out roller 1.
03 and the first number regulating roller 106 prevents two bills from being fed, and one bill at a time is sent to the other side one by one. As described above, the banknotes taken in and conveyed are transferred to each banknote storage section 16, 17.
It is distributed to 8 and divided into 1 and accumulated. Further, the bills that are identified as counterfeit by the inspection section 20 are sorted by the distribution gate 23a to the branch conveyance path 22 and accumulated in the first accumulation conveyance section 21a, as shown in FIG. 3(C). It turns out. Here, details (1) of the processing of banknotes that are identified as counterfeit banknotes will be explained with reference to FIGS. 6(a), (b), and (c). The banknotes conveyed by the branch sequential feed path 221 are
, sea urchin C first accumulation and conveyance section 21a r'J3 (I'
1. That is, along the first branch conveyance path 22N (
When the leading edge of the banknote being conveyed blocks the first banknote detection sensor 141, the control unit 90 activates the intermittent conveyance drive motor 109.
drive and control the distance shorter than the length of the banknote, for example 5m.
The intermittent conveyance drive motor 109 is rotated by the number of pulses corresponding to n+ to 110ll1. At this time, since the first continuous conveyance solenoid 118 is not operated, the branch conveyance path 22 and the second banknote conveyance belt 115 form a wedge shape such that the distance #1 becomes narrower in the conveyance direction. It remains as it is. This intermittent conveyance drive motor 1
09 by a predetermined amount of rotation, the leading edge of the first banknote becomes the first banknote.
．． The second banknote transport belt 114, 115 holds the l[
In this state, the banknotes are stopped. This operation is repeated every time a rejected bill, for example a counterfeit bill, blocks the first bill detection sensor 141. These banknotes, as shown by the dashed line in FIG. A second banknote transport bell? -114,
115 and is intermittently conveyed. Also, 1st. The banknotes held by the second banknote conveyance belt 114 and 115 are stacked as shown in FIG. 6(b). That is, by intermittently driving the intermittent conveyance drive motor 109 by a predetermined amount, the bills are stacked with their conveyance tips shifted. In this way, if counterfeit bills are generated while continuing the deposit processing, the counterfeit bills can be accumulated and held in the first accumulation and conveyance section 21a. Moreover, since the banknotes 110 can be stacked in a state where they are sandwiched between the feeding bells 1 and 1, multiple Iffs can be stacked, which leads to the increase in the size of devices such as impellers.
, 't74M configuration is not required. On the other hand, if a large number of counterfeit bills are generated during the deposit process, and the number of counterfeit bills reaches a predetermined amount, the first accumulating and conveying section 21a will collect the odor! The first banknote detected is detected by the second banknote 12.
42. In this case, the control unit 90 stops driving the entire device. This is because, as described above, the banknotes sent out from the first collecting and transporting section 21a are guided to the receiving transport path 22a, which is the depositing route where they are continuously transported.
This is to prevent the banknotes from being taken in and conveyed again along the same route as the banknotes to be deposited, thereby preventing the 81 number of banknotes from being mistaken. The drive of the device is stopped and the operator is notified of this by some means, such as an alarm. At this time, the operator opens the banknote entry/exit door 123.
The banknotes on the loading/purchasing table 105 are removed at short intervals, and processing continues for certain banknotes. Thereafter, the operator selects the counterfeit bill processing mode and performs the following processing. That is, based on the operation control of the control section 90, the first. The second continuous conveyance solenoids 118 and 119 are energized, the second banknote conveyance belt 115 is rotated in the direction shown in FIG.
FIG. 6(a) rotates in the direction E shown in the figure to form a conveyance system shown in FIG. 6(C). At this time, the second. Due to the rotation of the fifth banknote conveying belt 115,161, the first banknote conveyance belt 115.161 rotates. The second symbol accumulation and conveyance units 21a and 21b are placed in a continuous conveyance mode by the gears that mesh with the gears driven by the conveyance system drive motor 101. In this state, the transport system drive motor 101
When the banknotes are stacked in the first stacking and transporting section 21a with their transport tips shifted, the banknotes are transferred directly to the first stacking and transporting section 21a.
The banknotes are continuously conveyed while being held between the second banknote conveyance belts 114 and 115, and sent out to the taking-in conveyance path 22a.
3, and is led to the delivery conveyance path 22, and is further continuously conveyed by the second accumulation conveyance section 21b and sent to the storage section 15 (see Fig. 6(C)).
. On the other hand, at this time, if d3 is in the housing part 15, the control part 9
The mounting table driving motor 140 is driven based on the operation control of the stage o, and as shown in FIG. Then, it is in a state where it can accept the density and density of the sending from the second Jffl sending section 21b. Further, the control unit 9o drives and controls the pressing plate driving motor 1332 to move the suppressing plate 107 upward in the direction C shown in FIG. 1(a).
1. ; 2. The pressing force of the spring (=I) 134 causes the pressing surface 107a to rotate back in the counterclockwise 81 direction (
(See Figure 6(C)). In this way, the accommodating section 15 can receive banknotes from the second collecting and transporting section 21b. Furthermore, when the banknote entry/exit door 123 is closed, the banknote stopper 126 protrudes across the mounting table 105 . Therefore, the banknotes that are continuously conveyed in a stacked state with the conveyance tip shifted from the second accumulation conveyance section 21b are
The end faces of the banknotes are brought into contact with the banknote stopper 126 one after another (they are stacked on the stacking table 105 in an aligned state. After all the counterfeit bills are stacked on the mounting table 105,
Based on the detection by the fourth banknote detection sensor 144, the banknote entry/exit door 123 is opened and the loaded counterfeit banknotes can be taken out. Note that the process for removing counterfeit bills is not limited to the above embodiment.
For example, the counterfeit bills accumulated in the first accumulation and transportation section 21a are guided to the second accumulation and transportation section 21b in the same manner as described above, and the remaining funds are processed again after being temporarily held there. The counterfeit bills are accumulated in the first accumulation and conveyance section 21a. After all deposit processing is completed, the first. The counterfeit bills accumulated in the second accumulation and conveyance sections 21a and 21b can also be continuously conveyed and guided to the storage section 15 in the same manner as described above. Next, the details of the banknote withdrawal process are shown in FIG. 6(d). This will be explained with reference to (e) as well. When the withdrawal mode is selected, the control unit 90 controls the placement table 105. The pressing plate 107 is driven and controlled in the same manner as in the counterfeit bill processing mode, so that the banknotes can be received from the second stacking and conveying section 21b. The control unit 90 also controls the first continuous conveyance solenoid 11.
8, the second banknote conveyance belt 115 is rotated in the direction shown in FIG.
Set a to continuous transport mode. When the conveyance system drive motor 101 is driven in this state, the denominations designated for payment are taken out one by one from each banknote accommodating section 16, 17, and 18, and are moved along the path shown in FIG. 3(d). Continuously conveyed according to Note that the first stacking WI sending unit 21a is in continuous transport mode (since the first stacking WI sending unit 21a is in continuous transport mode, it is not stacking banknotes and is continuously transporting them).
J is sent. When the first banknote determined to be a payer is continuously conveyed (along the path indicated by the dashed-dotted line shown in FIG. 6 (1), If the banknote detection sensor 143 of No. 3 is blocked, the control unit 90
controls the operation of the intermittent conveyance driving motor 109, and rotates it by a number of pulses corresponding to a distance shorter than the length of the banknote. By repeating this operation every time a banknote obstructs the third banknote detection sensor 143,
), the banknotes are intermittently conveyed while being stacked with their conveying tips shifted. Then, the banknotes that are intermittently taken out from the second stacking and conveying unit 21b are stacked on the mounting table 105 in the storage unit 15 in a state in which the end faces of the banknotes are brought into contact with the banknote stopper 126 one after another and aligned. will be done. Then, when the last bill to be conveyed among the bills to be dispensed blocks the third bill detection sensor 143, the slip issued in the card/passbook processing unit 10 is sent out from the slip output port 170, and the second bill is sent out. is supplied to the collecting and transporting section 21b. When this slip obstructs the third bill detection sensor 143, it is intermittently conveyed in the same manner as the bill, and the slip is stacked with its conveying tip offset from the conveying tip of the final bill. After this, the second
The continuous conveyance solenoid 118 is controlled to be energized to set the second accumulation conveyance section 21b in continuous conveyance mode, and continuously conveys banknotes and slips. As a result, the banknotes are aligned and stacked on the mounting table 105 in the storage section 15 with the slip placed on the top layer. Thereafter, the bill in/out door 123 is opened based on the detection by the fourth bill detection sensor 144, and the user can take out the C withdrawal bill through the bill in/out port 4. In this way, it is possible to easily accumulate the bills to be dispensed without requiring a complicated structure such as an impeller, which greatly contributes to miniaturization of the device. In addition, when stacking a large number of banknotes (C), the banknotes that are held between the paper sheet transport bell 1 and the paper sheet transport bell 1 are transferred to the collection 1 with their transport tips sequentially shifted, so regardless of the number of banknotes, Therefore, a large number of banknotes can be stacked without difficulty, and there is no need to take any special measures when transporting them. High-speed conveyance is possible.Furthermore, the storage section 15 can be selectively loaded with both incoming banknotes and outgoing banknotes, and the banknote stopper 1
26 can also be used as alignment means for both, further reducing the size of the device. Next, referring to FIGS. 7(a) and (b), the card/passbook unit 1 which has the function of handling a UIC memory card C and a magnetic passbook (hereinafter referred to as a passbook) 1 as a transaction medium will be described. 10 configurations will be explained. In the figure, 310 is the above)j-
1./It is a casing having a frontage facing the bankbook entrance/exit 5, and within this casing 30, a transport path 31 is formed almost linearly from the card/passbook entrance 5. The card/passbook entry/exit 5 is an opening 3 approximately equal to the width of the passbook E.
2 and a groove 33 approximately equal to the width of the IC memory card C. Further, the conveyance path 31 includes a plurality of roller pairs 34.
. . . and a guide plate pair 35 . At one end of this conveyance path 31, that is, on the side of the card/passbook entrance 5, there are optical sensors 36a to 36 (1, card reading section 37 for IC memory card C, and solenoid 3).
Shutters 39 for opening the transport path 31 are sequentially provided. The card reading section 37 has a contact surface 40 provided on the upper surface side of the conveyance path 31 and a receiver 41 that receives contact pressure, and the contact surface 40 is swung around a support shaft 43 by a solenoid 42 The support lever 44 is attached to the support lever 44. Furthermore, behind the shutter 39, that is, in the middle of the conveyance path 31, there are a reflective sensor 45 for detecting the page marks and print flow of the bankbook F, and a magnetic head 46 for reading the magnetic strip of the bankbook E. It is set up. Furthermore, a printing device 47 is provided further behind these. This printing device 47 is a guide shirt l-48,/
18 in the direction perpendicular to the transport path 31.
1-C has a configuration including a print l\rad 0 mounted on a carriage 49 that can freely move back and forth, and an anvil 51 provided along the moving direction of the print head 50. In addition, a part of the rolled paper 53 attached to the rail 52 is hung over the anvil 51, and its tip is connected to the conveyance path 31.
It is held by a pair of feed rollers 54 provided on the lower surface side of the roller, and is sequentially fed out by rotation of the pair of feed rollers 54. Further, a cutter 55 is provided near the feeding direction side of the pair of feed rollers 54 to cut the roll paper of the print flow, and the cut roll paper, that is, a slip 56, is transferred to the pair of conveying rollers 54.
. . . and a pair of guide plates 58 . . . and a pair of guide plates 58 . . Further, at the other end of the conveyance path 31, that is, on the opposite side from the card/passbook entrance 5, there is provided a collection box 60 for storing transaction media such as the IC memory card 01 bankbook E1 slip 56 that the user has forgotten. There is. Note that the IC memory card C is shown in Figures 8(a) and 8.
It is configured as shown in Figure (b). Figure 8(a)
61 shows the appearance, and 61 is the surface layer, and this surface layer 61 has an IC memory contact part 62, a magnetic stripe 63,
Embossed portions 64 expressing characters are formed by protrusions, and the overall appearance is similar to that of a conventional magnetic card. In addition, the back layer 65 is coated with a conductor and has a "C" shape. FIG. A magnetic stripe records information such as a number, and information is written and read from the outside via a magnetic head 46.6
6 is an IC memory as a storage element, and this IC memory 6
6 contacts 62, input/output control section 67, central control section 6
8. Storage unit 69 is a highly densely integrated LSI, and the storage unit 69 includes a program memory 69a storing control procedures, a readable/writable data memory 69b, and a
The key data memory 69c is protected so that it cannot be read or rewritten from the outside. Note that the magnetic stripe 63 of the IC memory card C has [
1 account number, I'f't K11 number, etc. are recorded, and the 10 memory 66 stores the same account number and password number 602 as above, as well as the Show Jail Tj number. If the password M-q stored in the magnetic stripe 63 is entered, transactions will be restricted, such as being able to withdraw 100,000 yen per day, and the IC will be completely unreadable by a third person. The second
When the PIN number is keyed in, there is a J: Unatsu C who controls the device so that transactions are not restricted. However, when the IO memory card C is inserted into the card/passbook entrance 5, the optical sensors 36b, 36c
In this case, the shutter 17 and ivy 39 remain open, and the IC memory card C is positioned with the leading edge of the IC memory card C in contact with the shutter 39. Next, the solenoid 42 is operated, and the support lever 44 is oscillated about the support shaft 43, and the contact surface 40 attached to the tip side is pressed into contact with the contact portion 62 of the IC memory card C, and is electrically connected. combined,
Sends and receives signals. Moreover, when the passbook E is inserted, the optical sensors 36a to 36d
In this case, the shutter 39 is activated to operate the drive UJ system of the conveyance path 31, and while the passbook E is taken in, page marks and printed information are read out by the reflective sensor 45, and then the printing device 47 The printer is controlled to print at a predetermined position. In addition, as shown in FIG. 7(b), a conductor 70 which is grounded is attached to the groove 33 of the card/passbook entrance 5, and the conductor 70 is connected to the back layer 65 of the inserted IC memory card C. It comes into contact with the coated conductor to remove static electricity that can adversely affect the IC memory 66. Next, with reference to FIGS. 9(a), (b), and (0), the configuration of the units 1 to 11 will be explained. As shown in a), a CRT (screen display device) 7 serves as an operation guide means.
1, and a transparent keyboard 72 as an operation input means provided to cover both sides 'i'ia of this CRT 71.
These are incorporated into the casing 73. As shown in FIG. 9(b), the transparent keyboard 72 has transparent electrodes 75 embedded in a transparent plate 74, and is used by configuring a helix circuit of x1 to x5 and Yi to Y4. The configuration is such that an output can be output in accordance with the part I pressed f1 by a user. In addition, the transparent plate 74 has approximately the same curvature as the screen portion 7 in of the CRT 71 to prevent parallax. The platform displayed as shown in Figure 9 (C) can be used as a numeric keypad.
is programmed to switch to the For example, in order to instruct the customer in advance whether the deposit is in banknotes or coins, the message ``Please specify the desired transaction using the buttons on the screen'' will be displayed, as shown in Figure 9(d). A payment instruction section 76A, a first deposit instruction section 76B that instructs deposits in banknotes and coins, a second deposit instruction section 76G that instructs deposits in banknotes only, and a third deposit instruction section 76G to instruct deposits in coins only. 76D is displayed. Next, the details of the coin processing unit 200 will be explained. FIG. 10 is a sectional view showing a detailed MI+ structure of the coin processing unit. First, the outline of the coin processing unit 200 will be explained. In other words, this is the input/output coin introducing section 202 that introduces coins inserted from the coin entry/exit port 201 and the coins to be taken out from the coin entry/exit port 201, and the coin introduction section 202 that introduces coins that have been inserted through the coin entry/exit port 201 and coins to be taken out from the coin entry/exit port 201. Unclaimed coin storage section 2
03. A receiving conveyance path 204 transports coins inserted into the input/output coin introduction section 202 by a user upward, and coins conveyed downward in the receiving conveyance path 204 are guided downward using gravity. When the coin is received, the denomination storage section 205 stores the coins by denomination, and the desired amount of money Fj <7 taken out from the denomination storage section 20 is transferred to the input/output coin introduction section 202. Conveyance crane discharge conveyance path 20
7. VJ! taken out from the denomination storage section 205! A recovery conveyance path 208 that conveys coins upward to collect them, a storage section 209 that receives and stores coins conveyed on this recovery conveyance path 208, and a storage section 209 that receives coins from this storage section 209 for replenishment. It is composed of a replenishment conveyance path 210 for conveying coins to be taken out and conveyed to join the receiving conveyance path 204, and the coins inputted from the coin entrance/exit 201 are stored in the denomination storage section 205.
A receiving process in which coins of a predetermined amount are taken out from the denomination-specific storage unit 205 and introduced into the input/output coin introducing unit 202, and a coin collection process in which the coins in the denomination-specific storage unit 205 are collected as necessary (into the storage unit 209). Collection processing and storage department 209
The replenishment process of replenishing the 14 denominations stored in the denomination storage section as necessary is performed based on the operations of customers and staff.Next, we will explain the details of each of the above sections. The input/output coin introducing section 202 is connected to the coin entrance/exit 20.
1, an input space 212 for introducing coins is formed into a frame, and a coin discharge port 212A is formed at the back facing the coin entrance/exit 201, and a coin drop port 212B is formed at the bottom. The coin entrance 201 has a coin door 2 pivotably supported in the directions of arrows Z1 and Z2 shown in FIG.
A coin door opening/closing mechanism 214 is provided which includes a first opening/closing drive member (for example, a rotary solenoid) 214B that drives the coin door to open and close. A coin placement member 216A, on which coins inserted from the coin entry/exit port 201 and coins ejected from the coin ejection port 212A are placed in the coin drop port 212B, is not shown in FIG. 10 and rotates in the directions of arrows Yz and Y2. A drive unit (hereinafter also simply referred to as a second opening/closing drive member) that is pivotably supported and prevents rotational displacement of the coin placement member in order to drop the placed coin d.
216B is provided. In addition, the coin placement member 21
For example, a translucent first optical system is used to optically detect a customer's hand inserted into the coin entrance/exit 201 as an extraction determination means for determining whether the coin on 6A has been removed through the coin entrance/exit 201. Sensor 217△, 2nd)
1713 is installed in the introduction space 212 (J) and both optical sensors 217A are installed. rfT when no hand is detected again until reaching
! A clocking means 90A is installed to determine whether the ti is taken out] (J
+3 This time retrieval means 90A, as shown in FIG.
The slide gate member 226A, which can be rotated to selectively allow coins to slide down from the oblique lower end of the slide gate 1, and the slide gate member 226A are shown in FIG. It is composed of a third opening/closing drive member 226B that rotates in the X2 direction and a forgotten coin storage box 227 that stores coins that have slipped down from the receiving and conveying path 204.
Only when A is rotated in the direction of arrow X1 shown in FIG. 10, coins are allowed to slide down from the receiving and conveying path 204. A third optical sensor +J227A for optically detecting the collection of forgotten coins is installed near the opening of the forgotten coin storage box 227. The conveyance path 204 for depositing money is stretched diagonally upward so that the left side of the first conveyance belt 220 and the left side of the second conveyance belt 221 can run endlessly. The portion facing the lower position is configured as a coin holding portion 221A that collectively holds coins dropped from the coin drop port 212B. The coins dropped into the coin holding section 221A are transferred to the second conveyor belt 221
The second conveyor belt 221 rotates with a gap equivalent to the thickness of one or two coins from the upper surface of the second conveyor belt 221 during the conveyance.
A conveyance number regulating roller 223 is provided, and by the action of this second conveyance number regulating roller 223, coins in a stacked state of about 1 to 2 journeys are allowed to be sequentially conveyed. It is designed to be held and conveyed diagonally upward by a conveyor belt 221. and both conveyor belts 220. The third conveyor belt 22 receives the coins pinched and conveyed at '221 and conveys them in an almost horizontal state.
4 is provided to be able to run endlessly, and rotates with a gap of 19 inch hard tlj one sheet travel distance from the upper surface of the third conveyor belt 224.
is provided. The paper sheets are fed out one by one into the golden storage section 205 by the action of a third conveyance belt 224 installed on the upper part of the receiving conveyance path 204 and a second conveyance number regulating roller 228. The coin is guided downward by the coin 230, and when the coin is guided by the coin 230, an electronic inspection unit is used to determine whether or not the coin can be inserted. The coin section 231 accepts coins determined by the electronic coin verification section 231 (e.g. genuine 1 yen, 511-1.1011), 50 yen, 10 yen.
0 yen coin) and unacceptable coins during transportation, and a discharge mechanism that guides the unacceptable coins separated by this divergent gate unit 232 downward using gravity. A chute 233, an external shape sorting section 234 that sorts acceptable coins that have passed through the branch gate section 232 into denominations according to their external dimensions, and a denomination-specific storage box that stores coins sorted by denomination in the external size sorting section. 235. The denomination-specific storage box 235 has 1 yen storage areas 235A, 50
Circle storage area 2358.5 Circle storage area 235'C, 100
It is divided into a circle storage area 235D and a 10-yen storage area 235F. Each storage area 235A to 235
F is a withdrawal chute 236 for taking out coins one by one.
For example, a known disc dispensing device 2
37 are provided. A first counting means 238 for optically or mechanically counting the number of coins dropped downward is provided at the upper end of each dispensing shoe h236. Further, as collection signal output means for instructing that the coins stored in the predetermined storage areas 235A, .
..., a first storage unit that determines whether the coins stored in 235E are correct (for example, optically detects that the number of stored coins has increased to a predetermined amount) and outputs a collection signal to the control unit 90; A quantity detection means 240 is provided. Further, as a replenishment signal output means for instructing the predetermined storage areas 235A, . . . , 235E to perform coin replenishment processing, for example, vJ! a second storage amount detection means 241 that determines whether x't is hanging (for example, optically detects that the stored coins have decreased to a predetermined amount) and outputs a replenishment signal to the i control section 90;
is set up. The discharge conveyance path 207 and the recovery 1m conveyance path 208 have a travel f
A part of the i-side is connected to the ejection shoes 1 to 233. Withdrawal sheet
The first
As shown in figure 0, run endlessly in the direction of arrow W1 or W2.
m 4 (7) A fifth conveyor belt 245 that is disposed in contact with and facing the right upright running surface of the conveyor belts 1 to 244 and is capable of running at the end of t=vQt, contacts the left upright running surface of the fourth conveyor belt 244. A sixth conveyor belt 246 that can run endlessly and is arranged opposite to the fourth conveyor belt 244 rotates with a gap corresponding to the thickness of one to two travel coins relative to the horizontal running surface on the right side of the fourth conveyor belt 244. Fourth transport sheet number regulation roller 24
7, and a fifth transport number regulating roller 248 that rotates with a gap equivalent to the thickness of one or two travel coins from the horizontal running surface on the left side of the fourth transport belt 244. . With the above configuration, the coins to be dispensed one by one and the coins to be dispensed are pinched and conveyed by the fourth conveyor belts 1 to 244 and the sixth conveyor belt 246, and are discharged to the input/output coin introducing section 202, The coins to be collected are held and conveyed by the fourth conveyor belt 244 and the fifth conveyor belt 1-245, and are stored in the storage section 209. Note that the first conveyor belt 220. Second conveyor belt 221. Fourth conveyor bell [・244. Fifth conveyor bell 1
~245° Sixth conveyor belt 246. Second transport sheet number regulating roller 223. The fourth transport sheet number regulating roller 247° and the fifth transport sheet number regulating roller 248 are driven by the first motor 25.
0 as a driving source. The storage section 209 has an introduction opening 251A into which the hard material that has been sandwiched and conveyed by the fourth conveyor belt 244 and the fifth conveyor belt h2/I5 is introduced. and a delivery opening section 25113 from which accumulated coins are delivered.
The replenishment conveyance path 210, which is constituted by a storage box 251, is arranged in an endless manner so as to place the hard material introduced into the storage box 251 and feed it toward the delivery opening 251B. There is a gap corresponding to the thickness of one to two travel coins with respect to the upper surface of the seventh conveyor belt 252 and the seventh conveyor belt 252.
The coins sent out from the delivery opening 251B for replenishment are transferred to the third transport belt 22, which constitutes a part of the front receiving transport path 204.
4, it will be dropped into -l2 and transported to the destination. 1. When the refilled hard L5 passes through the electronic coin verification section 231, the number of one denomination is detected, so
This electronic coin verification section 231 also has a function as a second counting means for counting the number of coins used for replenishment processing. Here, details (1) of the attendant operation unit 280 will be explained in particular in relation to the coin processing unit 200. FIG. 11 is a plan view showing the operation surface of the attendant operation unit. In relation to the coin processing unit 200, there is a loading switch 281 that instructs the coin processing unit 200 to load coins when starting business with the transaction device, a replenishment switch 282 that instructs the coin replenishment process, and a coin recovery process. A collection switch 283 that instructs the inspection process of the transactions conducted in the coin processing unit, an inspection switch 284 that instructs the inspection process of the transactions conducted in the coin processing unit 200, and a check switch 284 that instructs the inspection process of the transactions conducted in the coin processing unit 200. stock amount confirmation switch 285 for instructing stock amount confirmation processing to check the content of the process;
and an attendant information input means for inputting attendant information, such as a numeric keypad 286 for inputting a unique attendant code number given to an attendant. Next, coin processing units 1 to 20 of the transaction memory 92
Next, the storage area for storing transaction details at 0 will be explained in detail. FIG. 12 is a memory map regarding processing contents in the coin processing unit 200. This is the loaded number of coins of denomination fO MA1. ..., MA5 and device i1 Store the staff code number MAA for handling the loaded number of sheets.''-Rear M
Δ, Every time replenishment processing or collection processing is performed, the number of processed coins for each denomination and the staff code number of the staff member who performed the processing are stored.The first replenishment/collection number (1) BMl,...
. <1) Memorizing ML3s by denomination and staff-1
- Memorize code number BON+, replenishment/collection number division record 1
Hari'< 1) I: 3M, 2nd and subsequent nth
The same memory is stored for the replenishment and /collection processing of C' for the second time (replenishment, /collection number division storage area (2) BM..., (n) replenishment/collection number storage for BM. Area BM, number of deposited coins for each denomination MC1,...1MC5
Deposit number storage area for each MC denomination! ! ! The number of coins to be withdrawn MDt, . . . , the number of coins to be withdrawn storage area MD for storing MC2, the theoretical number of available coins by denomination (also simply referred to as the theoretical number) ME1, . It is constituted by a theoretical sheet number storage area ME that stores MEs. Next, the main configurations of the control unit 90 and program memory 91, which are means for realizing various functions, will be explained, especially in the coin processing unit h200.
To explain in detail in relation to the above, it is configured to realize the following functions. [1] When the screen shown in FIG. 9(d) is displayed on the CRT 71 and the first deposit instruction section 7'6B is pressed by the customer, the coin door 214A is first inserted and then the coin door 21 is pressed.
After 4A is closed, the banknote door 123 is opened to prevent coins and banknotes from getting mixed up. [2] When a coin is inserted into the coin entrance/exit 202, the coin placement member 21 is moved through the second opening/closing drive member 216B.
6A in the direction of the arrow Y1 shown in FIG.
During the coin acceptance judgment at V! ! Coin loading section 2 is sequentially removed via the coin ejection port 212A.
Return N1 to 16A. [3] When a coin for return or payment is placed on the coin placement member 216Δ'-, an example of the take-out determining means is set to the second coin based on the output from the means 90A at time t1, which is a paddle.
The opening/closing driving member 216B is operated to perform the operation of collecting the forgotten coins every time. (4) By inputting a collection signal from the first stored amount detection means 240, the coins of the denomination stored in the denomination specific storage section 205 are collected into the storage section 2.9, and the second By inputting a replenishment signal from the storage amount detecting means 241, the coins stored in the C storage section 209 are replenished into the denomination storage section 205, thereby performing one cycle of coins in the device. [5] It is determined whether the clerk Q21-code number entered manually from the numeric keypad 286 by the clerk's operation matches the pre-registered clerk I code number, and if it does not match, at least the corresponding clerk N performs collection processing. Next, the effect of Knit 200 will be explained. This unit performs a discharging process in which coins are paid to the customer based on the customer's operation, and an accepting process in which the coins inserted by the customer are deposited. Note that when the number of coins accommodated in the denomination-specific storage section 205 reaches a predetermined amount at the stage where the receiving process or the discharging process is performed, the collection process and the replenishment process are automatically performed. The above-mentioned loading process, replenishment process, collection process, inspection process, and inventory level confirmation process are performed based on the staff operations. FIG. 13(a) is an explanatory diagram showing the coin conveyance route in the acceptance process, and the route shown by the solid line is the coin entrance/exit 201.
This is the transport route for the coins inserted into the denomination storage box 235, and the route shown by the broken line is the transport route from the electronic coin validation unit
1 is a route for returning coins that cannot be inserted to the input/output coin introducing section 202. When a coin is inserted into the insertion/removal coin introducing section 202, the second opening/closing drive member 2
16B, the coin placement member 216A is rotated in the direction of arrow Y1, and the inserted coin is temporarily transferred to the coin holding portion 221Δ5, and then the coin holding portion 1216Δ is returned to the horizontal state. After this state is achieved, the coin is sent to the electronic validation unit 231 via the acceptance conveyance path 204.As a result of the determination in the electronic validation unit 231, the coins that cannot be accepted are classified by denomination. The coins are stored in the storage box 2-35.Those which cannot be accepted as a result of the discrimination are returned to the input/output coin introducing section 202 via the discharge conveyance path 207.In this way, all of the input coins are -, Jl (/litM After the coins are transferred to the holding unit 221Δ, the inserted coins are
Before reaching 1. Coins that cannot be inserted into J can be returned, and coin acceptance processing can be carried out efficiently. The number of coins for each denomination accommodated in the storage box 235 for each denomination through the acceptance process is stored in the deposited coin number storage area MC based on the detection signal from the electronic coin verification section 231. FIG. 13 ([)] is an explanatory diagram of the conveyance route of coins in the discharging process, and the route shown by solid lines is the coin that was left behind in the input/output coin introducing section 202.
This is the route to recover to 0.3. Coins are withdrawn from the denomination-specific storage box 235 in the designated denomination if the customer specifies the denomination,
If no denomination is specified, the denomination will be calculated from the withdrawal amount (total payment amount) by applying the minimum number method. The withdrawal coins selected in this way are stored in the denomination storage box 2.
35 and fed into the input/output coin introduction section 202 via the discharge conveyance path 207. When a coin for withdrawal is sent in, the coin #214. A is rotated in the direction of arrow Z1, allowing the customer to take out coins. When the customer's hand is inserted into the coin introduction section 202, the hand is detected by the first optical sensor 217A or the second optical sensor 217. The hand of the customer who grabbed the coin is removed from the input/output coin introducing section 202 and the first optical sensor 217Δ and the second optical sensor 21
7 When it is no longer detected at +3, the clocking means 90△
is activated. If the customer's hand is not detected again until the time measured by the timer 90A reaches a predetermined time, for example, 10 seconds, it is determined that the coin removal has been completed and the coin #214A is closed. If the passenger's hand is detected again within 10 seconds, the clock hand FQ will be set to 90△.
1 hour is cleared and the next hand is detected. It becomes possible to take out the coin several times.When the means 90A at C31 determines that Il!T! negative removal has been completed, the coin 821/I△ is closed and the number of coins is 1 Kabe 21 (3△ is an arrow Ffl
Y Rotated in one direction and said ffJ falling gate part +A
22 (3△ is rotated in the direction of arrow
Collection operations are performed. At this time rIJ! Convex @ Dobu Shrine 2
If there is a coin L5 left behind at 10Δ, it will be stored in the forgotten coin storage box 227. Such a forgotten coin collection operation is performed every time without directly detecting the forgotten coin. It is possible to reliably prevent the unreasonable situation in which coins are crossed. If the denomination is not specified, it is calculated based on the specified denomination and the total amount paid. If there is no denomination specified, it is calculated based on the total amount paid by applying the minimum number method. The calculated number of coins for each denomination is calculated for each release process. The number of coins to be withdrawn is stored in the storage area MD. FIG. The number of coins of each denomination stored in the storage box 235 for each denomination increases to a predetermined amount and the first
When a collection signal is output from the storage amount detection means 2/10 of the storage amount detection means 2/10, or when the collection switch 283 on the staff operation unit 280 is operated by the staff, the denomination-specific storage box in which the coin of the denomination is stored is displayed. 235 containment territory Vi,
The corresponding denomination coins were taken out from 235A, 235B, 235C, 235D, and 235F and collected l#! It is collected into the storage section 209 via the feed path 208. Note that the number of coins taken out from the storage box 235 for each denomination during the collection process (the number of coins for each denomination in town is used as an argument by the first 11 number means 238 installed at the upper end of the withdrawal chute 236, and the collection process is performed Each time the replenishment/recovery number is stored, the number of replenishment/recovery sheets is stored. Erino' M
, .=, (n) Stored in BM. Further, the number of collected coins by denomination is subtracted from the theoretical number of coins memory 1 rear ME, and this value is stored. FIG. 13(d) is an explanatory diagram showing a coin conveyance route in the replenishment process, and arrows (not shown by solid lines) indicate a replenishment route C from the storage section 209 to the denomination-specific storage box 235. It is stored in the denomination-specific storage box 235 -(
The number of coins by denomination that is present decreases to a predetermined amount, and the second
When the replenishment signal is output from the storage amount detection means 241 of the storage capacity detection means 241, or when the replenishment switch 282 on the staff operation unit 280 is operated by the staff, the seventh transport heald 252 and the sixth transport Thread control control-1-ra 253
is driven, and the coins stored in the storage section 209 are ejected onto the delivery amount 1 section 251BhI1.' + 3rd (7) transporting hel l-22/I. Ejected!, L' Then, as in the case of deposit, the coin verification part 231゜Outline RB separate part 23
4, the denomination-specific storage box 235 is replenished. The number of coins by denomination replenished in the storage box 235 by denomination through the replenishment process is determined based on the information related to the number of coins of 9 denominations detected by the electronic coin verification unit 231 in the replenishment/collection number storage area MB.
is memorized. This memory is stored in the replenishment/collection number division storage area (1) BM, .
(n) Performed on BM. In this way, the coins to be supplied for replenishment processing are transported to join the receiving conveyance path 20/I, and then, as in the receiving processing, they are counted and replenished by denomination, so the number and denomination of the replenishment coins can be ensured. You can replenish from the coin entrance on the front side like before, or directly replenish the storage box by denomination with a predetermined number of coins sorted by denomination! [To solve the inconvenience of spelling] 3, the number of coins by denomination that has been replenished is stored in the number memory area E, and this value is stored. As is clear from the explanation of the collection process and the replenishment process above, the coin processing unit 200 collects the coins stored in the denomination storage box 235 to the storage unit 209 when the collection signal is output. When the coins stored in the storage unit 209 can be refilled into the denomination storage box 235, when the replenishment signal is output.
It is possible to improve the operational efficiency of the unit by recycling 00 coins. The device l11 processing is done by the staff member.
When the device-specific switch 281 of 10- is pressed, f
-7 We introduced frontage area 251 by staff before the start of business.
This is done by receiving the coins inserted from 8 to 13 (d), sending them along the replenishment route to UI 11, and storing them in the denomination storage boxes 235. The number of loaded RC coins for each denomination is calculated based on the information related to the number of denominations detected by the electronic coin verification section 231.
Memorized in a small corner. Next, we will explain the overall operation of the IN currency processing unit l-200.
4(a) and (b') will be mainly explained. First, it is determined whether it is a heading operation, and 1, which is an operator operation!
μ device in 4th place! It is determined whether it is a yi process, if it is not a loading process, it is determined whether it is loaded, if it is loaded, it is determined whether it is a recovery process, and if it is not a recovery process, it is determined whether it is a replenishment process. If it is not a replenishment process, it is determined whether it is a scrutiny process, and if it is not a scrutiny process, it is determined whether it is a balance confirmation process, and if it is not a balance confirmation process, it is returned to the original state. If it is a loading process, it is determined whether the inspection has been completed, that is, the first
It is determined whether all the storage areas shown in FIG. 2 have been cleared, and loading processing is accepted only when they have been thoroughly examined. After the loading process is accepted, the staff member inputs the staff number via the numeric keypad 286 shown in FIG. The control unit 90 is input to the IC
It is checked and determined whether the staff code number matches the staff code number registered in advance, and if they match, a designated loading process is executed, and if they do not match, a warning is issued. The content of the loading process is as described above, but when the number of coins of each denomination loaded in the storage box 235 for each denomination is stored in the loaded number storage area MA, the number of coins of each denomination loaded in the storage box 235 for each denomination is Type) Envoy 1. Theoretical sheet number memory area 77 that memorizes the number of Uno08 sheets. (Ct. At the same time, the attendant's T-code number is also stored. After that, the acceptance process and discharge process that depend on the operation of the customer are practically possible (depending on your request.) 11. First, the clerk's coat number of the clerk in question is entered using the numeric keypad 286 shown in FIG. Control unit 901: The staff court number entered by one person is t.
It is checked to see if it matches the registered staff code number, and only if it matches, the specified number 15 is returned by pressing the Wit collection switch 283. Execute the process. The contents of the collection process are as described above, but the number of If coins by denomination collected in the storage unit 209 is stored in the corresponding divided storage area (the first time the replenishment/collection process is performed) behind the replenishment/collection number storage area MB. [If 1, replenishment/collection number division storage area 11) M13>(1) MB, -, (n) MB
When the MyPs 1iri C is stored in , the staff code number of the relevant staff member is also stored in b. At the same time, the number of coins for each denomination stored in the replenishment/collection number storage area MB is subtracted from the number of coins for each denomination stored in the theoretical number of coins storage area ME. When the staff member selects the replenishment process, as shown in FIG.
is designated by pressing the replenishment switch 282 only when it matches the input staff code number, and the replenishment process is executed. The contents of the replenishment process are as described above, but first, the number of coins stored in all the divided areas of the replenishment/collection number storage 1 rear MB is totaled by denomination, and if the cumulative value is a negative value, then ( (This means that there are coins that have been collected and processed.) Processing is performed to replenish the number of coins of the denomination below the value. The number of coins for each denomination replenished in the storage box 235 for each denomination is stored in the corresponding divided storage area in the replenishment/collection number storage area MB (if the replenishment/collection process is the second time, the replenishment/collection number division storage area ( 2
) M 13 ) (1) MB, ..., (n) MB is stored as a positive value, and the number of coins for each denomination is recorded in the theoretical number of coins storage area 'M IZ! will be added to the number of denominations listed. When the inspection process is selected by the staff member using J:, the staff member first inputs the staff coat number (the staff member's coat number) using the numeric keypad 286 shown in FIG. 11 in the same manner as described above. It is checked to see if the staff coat number that has been entered matches the staff code number recorded in advance, and only if they match, press 11'l KL! l + '^ Port switch, 7-284. Designated temple W eye 1
Execute. The contents of the scrutiny process are as shown in Figure 13 (car is collected in the storage section 209,
At that time, the first counting hand 812 J8g::1 determines whether the counted number of coins for each denomination and the theoretical number of coins stored in the rear MF matches the number of coins for each denomination stored in the If they match, print out 1 and 1, and if they do not match, print out 1 and the state of mismatch. After printing out, all the storage areas shown in FIG. 12 are cleared. The above-mentioned collection processing, replenishment processing, loading processing, and inspection processing by the staff are executed only when the input staff code numbers match, so unnecessary troubles can be avoided when managing money and the relevant processing. Moreover, even if the results of the scrutiny process do not match, the staff member can smoothly conduct the investigation. If the stock level confirmation process is selected by the staff, the first
All the storage contents of the storage area shown in FIG. 2 are outputted. Note that, as in the case of the above-mentioned inspection process, the printout is not printed on the roll paper 53 in the card passbook processing unit I-10, but is printed on the back of the units I-10 (in the collection box 60) by the staff. This will be done on the slip-like slip inserted from the side). In this way, in the stock amount confirmation process, all the contents stored in the replenishment/collection number division storage area (1) MB, ..., (n) MB shown in Fig. 12 are updated every replenishment process and collection process. The content will be printed out, so please replenish it. The history of the collection process can be tracked. By following this result, it becomes possible to easily and reliably investigate the cause of discrepancies in inspection that occur when collected coins are taken to another device. In the flowchart shown in FIG. 14(a), when it is determined that the operation is not an operator's operation, that is, it is a customer's operation, the flow shifts to the flow shown in FIG. 14(b). The transaction selection by the customer is to deposit with banknotes and coins, deposit with banknotes only, deposit or pay with coins only, and the selection is made according to the instruction section 76A in FIG. 9(d).
, 76B, ' 76C, 76D is pressed (J, -) (is performed. If depositing banknotes and coins is selected, insert a passbook, check the passbook, open the coin slot 202, IZ 61
Insertion, coin entrance/exit 202 open, bill exit/exit 41ift
hk, bill insertion, bill entrance/exit 413JJ completed, bill counting,
Number of hard yen fields, amount display, amount confirmation, passbook printing, passbook ↑71
Operations such as output are performed sequentially and processed. In the middle of this process, first open the coin door 214A and insert the coin into the
The bill door opening/closing mechanism 120 and the coin door opening/closing mechanism 21 are arranged so that the bill door 123 is opened after the coin store 214Δ is closed.
4 is controlled, it is possible to reliably prevent coins from being inserted into the bill slot 4 and bills from being inserted into the coin slot 202. In addition, since the coin entrance/exit 202 serves as a coin insertion port and a coin withdrawal port, the customer does not have to bend over to take out the coins as in the past, and can insert and take out coins in the same posture. If depositing only with banknotes is selected, operations such as inserting a banknote, checking the bankbook, opening the banknote slot 4, inserting banknotes, closing the banknote slot 4, counting banknotes, displaying the amount, confirming the amount, communicating, printing the bankbook, and discharging the bankbook are performed. are performed sequentially and processed. If depositing only with coins is selected, operations such as inserting a passbook, checking the passbook, opening the coin slot 202, inserting coins, opening the coin slot 202, counting coins, displaying the amount, confirming the amount, communicating, printing the passbook, and discharging the passbook are performed. Processing is performed sequentially. If payment is selected, card insertion, password input, password verification, amount input, communication, bill processing unit operation 1'1, hard shield processing unit operation, slip printing/issuance, bill entry/exit 1'' opening, bill removal, Operations such as opening the bill slot, opening "Yuan coin/withdrawal 1", removing 1/4 coins, hi operation, opening coin/withdrawal 1-1, and ejecting the card are performed sequentially until the end of the cycle. Also, collection processing and replenishment processing are automatically performed when a customer can select J or C transactions. For these processes, the transaction selection by the customer is 1jlj, 1 nitsu 1~2
00, the banknote processing unit 9 has been accessed.
It is something that is done from time to time. The collection process at this time is performed when a collection signal is output from the first storage amount detection means 240, and the number of collected IC denomination coins is replenished/recovered in the same way as the collection process by the staff. It is stored in the sheet number storage area MB, and at the same time the theoretical sheet number storage area M.
Subtraction processing is performed on E. Note that since collection at this time is automatic, the staff code number is not stored, but instead a code number indicating automatic collection is stored. Further, the replenishment process at this time is performed by the second storage ω detection means 2.
/I This is done when the replenishment information is output from i, and the number of replenished coins of each denomination is stored in the replenishment/collection number storage area MB in the same way as the replenishment process by the clerk, and at the same time, the number of coins replenished is stored in the theoretical number storage area MB. Addition processing is performed for the ME. The replenishment process at this time is automatic, so
The attendant code number is not stored; instead, a code number indicating automatic replenishment is stored. Note that the replenishment process is performed for coins of a predetermined denomination, but since the replenishment coins are transported in mixed denominations, coins of other denominations are passed through the storage box 235 for each denomination and returned to the storage section again. 209, and the replenishment process is completed when a predetermined number of replenishment denomination coins are replenished.The above example is an example, and various modifications may be made within the scope of the gist of Kikomei. Modifications are possible.a3 In the above embodiment, the history of collection processing and replenishment processing is explained exclusively in the case of coins, but it can also be applied to the case of banknotes.Also, the history of collection processing and replenishment processing is stored as a history. The quantity of coins is not limited to the number of coins by denomination, but may be the amount by denomination.Furthermore, the present invention can be applied not only to transaction devices as in the above embodiments but also to vending machines and money exchange machines. Note that in this case, it is not necessarily necessary to memorize the quantity of received and processed fine coins and the quantity of coins that are discharged. Ah, you can track the history of collection and replenishment processing.
This is due to the excellent effect that when a discrepancy in inspection occurs due to collection processing or replenishment processing, it is possible to easily investigate the cause.

[Brief explanation of drawings]

FIG. 1 is a schematic perspective view showing an embodiment of the present invention.
FIG. 12 is a block diagram showing the configuration of the transaction device, FIG. 33(a) is a schematic R1i side view showing the configuration of the bill processing unit, and FIG. A schematic explanatory diagram of the processing routes of acceptance processing, ticket removal processing, and discharge processing, FIG. 4(a) is a partially detailed sectional view of banknote processing unit 1~, and FIG. 4(C) is a block diagram showing the control system of the banknote transport system; FIG. 5(a) is a schematic perspective view of the banknote door; FIG. 5<1> ) is a schematic explanatory diagram of the storage section, Fig. 5 (0)
Press! A schematic explanatory diagram showing the drive system of the L plate, FIG. 6(a),
(b>. (C) is a schematic explanatory diagram for explaining the processing operation of rejected tickets, FIGS. 6(d) and (e) are schematic explanatory diagrams for explaining the processing operation of withdrawn banknotes, and FIG. Figure (a) is a schematic sectional view showing the configuration of the card/passbook processing unit, Figure 7 (b) is a schematic perspective view of the card/passbook entrance and exit, and Figure 8 <a> is the IC
The external perspective view of the memory card, FIG. 8(b) shows the internal structure of the IC memory card.
) is a sectional view of the enclosure showing the display, Figure 9(b) is a schematic explanatory diagram of the transparent keyboard, and Figure 9(C) is a schematic explanatory diagram showing the screen portion where Cr<T. Fig. 9(d) is an explanatory diagram of the contents of the transaction selection displayed on the display/input screen, Fig. 10 is a sectional view showing the detailed structure of the coin processing cornite, and Fig. 11 is the clerk operation unit 1. FIG. 12 is a memory map regarding the processing contents of the coin processing units 1 to 1. FIG. b) is an explanatory diagram of the conveyance route of coins undergoing the discharge process, No. 13
Diagram (C) is the collection station 1!1! Figure 13 (d) is an explanatory diagram showing the coin conveyance path in the replenishment process, and Figures 14 (a) and ([+) are the coin processing unit. 2 is a flowchart showing the overall operation of FIG. 1... Housing, 92... Storage means, 20
5...Accommodation section by denomination, 209...Storage section, 231...Second divisor means, Fig. 6 (G) Fig. 6 (b) Fig. 6 Figure (d) (e) Figure 9 73 1 person, 9 people (d) 6A

Claims (1)

[Claims] (1) The coins inserted into the housing are stored in the denomination-specific storage section and accepted, and a predetermined number of coins are received from the denomination-specific storage section. ηThe coins are taken out and the coins are discharged, and the coins in the denomination-specific storage section are collected into the τ1^ pipe section as necessary. A first counting means for counting the quantity of coins subjected to the collection process, and a second counting means for counting the quantity of coins subjected to the replenishment process. 1. A money handling device comprising: a money counting means; and a storage means for storing a value obtained by the first hi counting means or the second counting means each time a collection process or a replenishment process is performed.