JP3929095B2 - Camera information input device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an operation method of a camera or the like, and for example, relates to a photographing information input device for inputting a mode selection designation.
[0002]
[Prior art]
In general, information input means provided in a camera often sets a shutter speed, an aperture value, an exposure correction value, and the like, which are photographing conditions, using a number of dedicated operation members. In recent years, the determination of shooting conditions and the automation of shooting operations have progressed, but on the other hand, the number of items that must be selected and their dedicated operation members tend to increase as the types of exposure modes and the like increase.
Corresponding to such a current situation, it is possible to perform a plurality of types of manual adjustments by operating only a single operation unit only for a predetermined setting object, and simplify the structure of the video camera by reducing the number of switches for setting. A technique with improved operability is disclosed in JP-A-8-43899. According to this prior art, the body is equipped with a roller-shaped dial for manual adjustment of the video camera, and the user rotates the dial to select and adjust items, and specify the axis of the dial. By pressing in one direction, it is possible to display and output the next level item and to confirm the selection, so that the number of switches is reduced and the structure can be simplified.
[0003]
[Problems to be solved by the invention]
However, in the prior art as described above, although two types of input designations are performed on the video camera by a dial rotation operation and a pressing operation in a specific direction, selection of an adjustment target item and adjustment thereof are performed. If you want to select another item without making a decision, select the item such as “Return” or “Auto” to return to the menu screen, etc. by rotating operation, then press again. There was a need to do. As a result, the dial operation itself becomes complicated especially for resetting or changing the selection, and the items that the user must select increase in operation. In order to solve this problem, it may be possible to provide a dedicated switch corresponding to “return” or “auto”. However, this increases the number of switches, which is against the demands for miniaturization and cost reduction of video cameras. Bring results. Furthermore, there are cases where selection items cannot be configured with a simple hierarchical structure due to the recent enhancement of functions of the camera, and there are cases where the setting order is unspecified. In such a case, the above prior art is used as an input device such as a camera. Could not be applied as.
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a photographing information input device for a camera that allows comfortable operation and setting with a single operation member even when setting is performed in an unspecified setting order.
[0004]
[Means for Solving the Problems]
The present invention has been made in view of the above-described problems of the prior art and the current situation, and has taken the following measures in order to solve the problem and achieve the above object. In other words, [1] an integrally configured operation unit that can read an operation input by a scroll operation and an operation input by a pressing operation, and a state in which the content of a selection item that is scrolled according to the scroll operation is selected And a display unit for displaying the selected mode and one mode selected from the plurality of modes displayed on the display unit. For shooting Relating Represents an action or condition A first selection means for confirming and switching the selection according to the pressing operation of the operation unit so that the information can be further scrolled and selected, and a selection from data relating to a plurality of exposures displayed on the display means A selection different from the first selection means so as to select and confirm the data related to the one exposed exposure and to further scroll and select the information related to the data related to the one determined exposure. Second selection means for performing selection confirmation and switching according to operation, and a plurality of modes displayed on the display means are selected according to scroll operation of the operation unit, and selection confirmation switching by the first selection means Later in the confirmed mode For shooting Relating Represents an action or condition Information is selected according to a scroll operation of the operation unit, data related to a plurality of exposures displayed on the display unit is selected according to a scroll operation of the operation unit, and selection confirmation switching by the second selection unit And a third selection unit configured to select information related to the determined exposure data according to a scroll operation of the operation unit.
[0005]
[2] The multiple item mode includes a shooting mode including at least one of an exposure mode, a flash mode, a photometry mode, and a focus mode. A photographing information input device according to [1] is provided.
[0006]
[3] Said The data relating to a plurality of exposures includes at least one of a shutter speed, an aperture value, and an exposure correction value. The photographing information input device according to [1] is provided.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
A plurality of embodiments according to the present invention will be described sequentially with reference to the related drawings.
[0008]
(First embodiment)
FIG. 1 is a block diagram showing the structure of a camera in all embodiments according to the present invention. The main CPU 1 that operates as a camera control center controls the peripheral integrated circuits and the like by sequentially executing sequential control based on a program stored in the ROM (not shown) provided therein, for example. Centrally manage the operation of components. The LCD 2 as a display means is a liquid crystal display means provided on the outer surface of the camera body, and displays various modes, the number of film frames, and the like based on a control signal from the main CPU 1. The AFIC 3 as a part of the distance measuring means is a component related to the autofocus function. This has a sensor array of a charge storage type or the like, and two images obtained by dividing a subject image incident through a photographing lens (not shown) are formed on the sensor array. When a value obtained by subjecting the light intensity of these two images to a predetermined quantization process is formed by the AFIC 3 and transferred to the main CPU 1, a focus described later is applied according to the value obtained by the main CPU 1 based on the conventional technique “phase difference detection method”. The device 17 is driven to adjust the focus of the taking lens.
[0009]
The data back 4 performs printing such as date on the film in use based on a signal from the main CPU 1. The strobe 5 irradiates the subject with strobe light when the luminance of the subject is low or in a backlight state. The ISO input device 6 is a device that reads film sensitivity information from a film case or a film cartridge.
[0010]
The SW input device 7 as a switching means is a characteristic photographing information input device of the present invention for detecting the operation state of a key switch (not shown) and a mechanical switch that switches between opening and closing according to camera operation. The key switch has a plurality of switches for instructing camera release, zoom up / down, camera mode setting, and the like. Among these switches, a dial operation switch (to be referred to as a dial hereinafter) according to the present invention is also included.
[0011]
The EEPROM 8 as a storage means is a non-luminous memory for storing and holding data for correcting a photometric value unique to the camera, AF data, and the like. The light receiving circuit 9 receives an optical remote control signal received from the remote control device 10 and performs waveform shaping processing and transmits it to the main CPU 1. The remote operation device 10 is a so-called remote controller that transmits data set by the operator on the remote operation device to the camera body or transmits a predetermined transmission code to determine the exposure start timing of the camera.
[0012]
The photometry circuit 11 is a circuit for detecting the brightness of the subject light incident through the photographing lens and determining the aperture value and shutter speed value during automatic exposure. The motor driver 12 is an integrated circuit for driving the following motors built in the camera based on signals from the main CPU 1. For example, the LDM 13 is a motor that drives the focusing device 17 in the photographing lens, the ZM 14 is a motor that drives the zoom device 18 that changes the focal length of the photographing lens, and the WSM 15 is a hoisting device 19 that winds the film; A motor that drives a spring charge for running the focal plane shutter in the shutter device 20 and a mirror mechanism (not shown) that selectively operates whether to guide the photographing light beam to a finder (not shown) or to a film surface. AVM 16 is a motor for driving the diaphragm device 21 for controlling the photographing light beam.
[0013]
The circuit diagram shown in FIG. 2 is an example of a circuit related to the information input device of the present invention. The operation dial includes four switches SW1, SW2, SW3, and SW4. By pulling up with resistors R1, R2, R3, and R4, respectively, the switch is turned on and the “L (Low)” level signal is turned on, and the switch is turned off. H (High) "level signals are output to the CPU 1 from the respective terminals SW10, SW20, SW30 and SW40. When the dial of the photographing information input device is rotated, SW1 and SW2 generate a pulse at every predetermined rotation angle of the dial. Since this pulse generates two opposite signals, it can be determined by detecting different rotation directions of the dial.
[0014]
FIG. 3 is a time chart showing the state of signals output from SW10 and SW20 when the dial is rotated. Set the dial to C.I. W. When it is rotated in the direction (ie, clockwise), a falling signal is output from the SW10 terminal, and at this time, the SW20 terminal is a signal in the “H” level state. On the other hand, the dial is connected to C.I. C. W. When rotating in the direction (ie, counterclockwise), when a falling signal is output from the SW10 terminal, the SW20 terminal is in the “L” level state. As described above, if the signal level of the SW20 terminal is detected in synchronization with the falling signal of the SW10 terminal, the rotation direction of the dial can be detected.
[0015]
FIG. 4 shows the configuration of SW1 and SW2 formed on the back side of the rotary dial. The conductive piece SW11 is connected to SW10 (FIG. 2) via a lead wire (not shown). Similarly, SW21 is connected to SW20 (FIG. 2) via a lead wire (not shown), and the intercept COM is connected to a lead wire (not shown). Connected to the ground line (FIG. 2). A portion indicated by hatching in the figure is a conductive pattern formed on the dial plane, and is formed by applying a gold-plated thin film on a copper foil. The conduction pattern and the section COM are always in contact with each other, and the SW10 and SW20 generate signals having waveforms shown in FIGS. 3A and 3B according to their directions as the dial rotates.
[0016]
FIG. 5 illustrates the configuration of the transmission mechanism from when the rotary dial, SW3 and the rotary dial are pressed in the direction perpendicular to the rotation axis until the dial moves in the pressing direction and SW3 and SW4 are turned on. .
The dial 30 is supported so as to be movable in the direction of the arrow 32 or 33, and the dial 30 is integrally configured to be rotatable with respect to the member 31. On the other hand, the member end portion 38 is supported so as to be rotatable in the direction of the arrow 34 or 35 around the rotation shaft 37 as a rotation center, and is always urged in the direction of the arrow 34 by a spring force (not shown). SW3 is a switch configured on the hard substrate 39, and is configured to energize (turn on) when a vertical pressing force is applied to the hard substrate 39. Similarly, SW4 is also a switch configured on the hard substrate 45, and is configured to be turned on when a vertical pressing force is applied to the hard substrate 45.
Therefore, for example, here, when the camera operator presses the dial 30 in the direction of the arrow 32, the member 31 also moves slightly in the direction of the arrow 32, and the shaft center in the direction of the arrow 41 while contacting the member 42. The member end portion 44 having a curved surface of the member 42 presses the SW 4 so that it is electrically connected and turned on. Similarly, the relationship between SW3 and dial 30 is the one that moves according to the same operating principle as the relationship between SW4 and dial 30 described above, only when the pressing direction of dial 30 is the opposite direction (arrow 33). It is.
[0017]
FIG. 6 is an external view of a camera 60 as an example in which the above-described information input device is applied to the camera.
On the upper surface of the camera 60, a release button 62 and a display unit 63 are arranged, and a dial 61 corresponding to the dial 30 (FIG. 5) sharing the axis of the release button 62 is provided. The dial 61 is disposed at a position where the camera operator can operate with the fingertip of the right hand, and can be rotated in both the clockwise and counterclockwise directions, and is pressed in both directions of the horizontal arrow 64 and the arrow 65. Then, it is configured to move.
One of the advantages of the above-described arrangement is that the dial 61 has a plurality of different switching functions in order to effectively use the limited space of the camera body, so that an equivalent role can be substituted for many switches. Therefore, it has the advantage of providing excellent operability at the same time as the arrangement corresponding to the miniaturization of the camera body.
[0018]
FIG. 7 shows an example of arrangement different from the above dial.
A dial 71 and a display unit 73 are arranged on the back surface of the camera 70. In this example, a dial 71 is arranged on the back surface of the camera separately from the release button 72 arranged on the upper surface of the camera. Although the dial 71 is provided at a position different from that of FIG. 6 described above, the same rotation operation can be performed with the right finger, and the pressing operation can be performed in both directions of the vertical arrow 74 and the arrow 75. Is possible.
Therefore, as an advantage of this configuration, since the dial 71 is arranged alongside the display unit 73 on the back of the camera, the dial operation and its confirmation can be made while facing the subject direction, and the area of the display unit 73 is allowed. Since it can be secured large, more detailed information can be displayed, and the advantage of being easy to see is born. On the other hand, since there is no dial or display on the top surface of the camera, there is an advantage that a clean top surface design can be achieved.
[0019]
From now on, “exposure mode” will be described as one feature of the first embodiment of the present invention.
First, FIG. 10 is an example of a display related to the dial operation in the first embodiment of the present invention. Information necessary for selecting an exposure mode and an exposure setting value is shown in the figure. Display output.
The exposure modes are as follows. That is,
Program mode (P): A mode that performs automatic exposure shooting according to a standard program diagram.
Manual exposure mode (M): A mode in which the shutter speed and exposure value are set manually for shooting.
Aperture priority mode (A): A mode in which the shutter speed is automatically set according to the manually set aperture value for shooting.
Shutter priority mode (S): A mode in which an aperture value is automatically set according to a manually set shutter speed to take a picture.
Sports mode (P1): A mode in which shooting is performed at a high shutter speed.
Portrait mode (P2): A mode for shooting with a shallow subject depth.
Landscape mode (P3): A mode in which the subject depth is set to a deep setting.
-Night view mode (P4): A mode in which the shutter speed is set to a longer time limit than usual.
The above eight types of exposure modes can be selected by the following dial operation. That is, the exposure mode can be selected by pressing operation (SW30), and a mode suitable for shooting is selected from these exposure modes by dial operation (SW10, SW20).
The display of exposure information in the selected exposure mode and the exposure data selection contents by manual selection are also displayed at the same time. The selection of the data can be selected by pressing operation (SW40) and the selection contents are switched. Data selection is performed by dial operation (SW10, SW20).
[0020]
Here, FIG. 8 shows the correspondence of the exposure data in the exposure mode. MODE 0 indicates an exposure mode. For example, the above-described P, M, A, S, P1, P2, P3, and P4 modes can be selected. MODE1 represents the contents of the first priority data in the exposure data, and MODE2 represents the contents of the second priority data. In each of the selected exposure modes, selectable exposure data and a predetermined priority order are determined in advance. In this figure, “TV” represents the shutter speed, “AV” represents the aperture value, and “+/−” represents the exposure correction value.
[0021]
The table illustrated in FIG. 9 shows the shift contents of each exposure data EXPD (Exposive Data), that is, TV (shutter speed), AV (aperture value), and +/− (exposure correction value). Here, EXPDL (Exposive Data Last) represents the final setting values of TV, AV, +/− corresponding to each mode. Each data is selected by operating the operation member (for example, dial) described above.
In the exposure data, “TV” is selected from the valve (B) and 15 seconds to 1/2000 seconds in half steps, and “AV” is set from the open aperture value to the minimum aperture value. Select in 1/2 second steps. In addition, “+/−” selects ± 2 steps of correction in 1/3 steps.
[0022]
FIG. 13 is a flowchart showing the “exposure processing” subroutine of the camera.
First, it is checked whether or not there is a predetermined switch input (S301). If there is a switch input, a predetermined "dial process" relating to the exposure described later is executed to appropriately select the input data (S302). . A display output of this result is performed (S303), and then it is checked whether or not the release switch is turned on (S304). If not, the process returns to step S301.
On the other hand, if the release switch is on, it is determined whether or not exposure is possible (S305). If exposure is permitted (S306), exposure control is performed (S307), a series of processing ends, and the process returns. (S308).
[0023]
If the exposure is not OK (i.e., permitted) in step S306, a shooting impossible display is output (S309), the process is terminated, and the process returns to the original routine.
[0024]
FIG. 14 shows an example of the “dial process 1” subroutine called in the above-described flowchart.
First, the currently set mode data is read (S401), and it is checked whether the switch SW10 has fallen (S402). If a fall has occurred, it is checked whether or not the switch SW20 is “H” (S403). If the switch SW20 is at the “H” level, scroll processing is performed in the down direction (S404). A scroll process is performed in the up direction (S405). Thereafter, a selection process to be described later is performed, and a desired value among the mode, shutter speed, aperture value, and exposure correction value is selected along with the scroll operation, and stored in a memory (not shown) (S406).
[0025]
After the scroll process or when the fall of SW10 is not detected, the fall of SW30 is examined (S407). If the falling edge is detected, the mode selection permission state in which the exposure mode can be selected when the push (press) operation in the first direction is performed is performed, and a mode setting process (S408) described later is performed. After the process, or when the fall of SW30 is not detected, the fall of switch SW40 is examined (S410). When the fall is detected, the push operation in the second direction is performed, and the exposure data selection state in which the shutter speed, the aperture value, and the exposure correction value can be selected as desired values is set, and exposure data setting to be described later Processing (S411) is performed. Thereafter, the process is terminated and the process returns to the original routine.
[0026]
The “mode setting” subroutine is shown in the flowchart of FIG. This setting process is a processing routine for switching to the mode selected by the aforementioned pressing operation 1 or changing to the last data setting value corresponding to the switched mode.
First, the MODE holding the mode type is determined (S501). If this MODE is 'MODE0', that is, "exposure mode", the exposure data that can be selected for each selected mode and its priority order are determined. And the final setting data is set. When the currently selected exposure mode MODEL is 'S' or 'M' mode (S502), 'TV' is selected as the dial selection first priority mode MODE1 (S503). Then, MODE0 is determined (S504). If MODE0 is in the “S” mode, “+/−” is selected as dial selection second priority mode MODE2 (S505), and the previous set value is set to “EXPDL”. (S506). Thereafter, the mode is switched to “MODE 1” (S507).
On the other hand, if “MODE0” is in the “M” mode in step S504, “AV” is selected for “MODE2” (S508), and the previous set value is set in step S509.
[0027]
Similarly, in step S510, it is checked whether or not MODEL is in the “A” mode (S510). If MODEL is “A”, MODE1 is set to “AV” (S511), and MODE2 is set to “+/−”. 'Is set (S512). Then, the previous set value is set (S513).
On the other hand, if MODEL is other than “A” in step S510, both MODE1 and MODE2 are set to “+/−” (S514, S515). Then, the previous set value is set (S516).
[0028]
After the above processing, “MODE” is switched to “MODE 1” in step S507 as an initial state of mode setting. If the exposure mode is not selected in step S501, the process is terminated as it is.
[0029]
The flowchart shown in FIG. 16 is a “selection process” subroutine. This process is performed as follows to set the value selected by the dial shift operation.
[0030]
First, it is checked whether MODE is 'MODE 0' (S601). If it is 'MODE 0', that is, exposure mode, the exposure mode is shifted by the direction and size corresponding to the shift information (S602), and the dial is turned on. The value of the stopped position is set to the final value “MODEL” (S603).
On the other hand, if the condition of step S601 is not satisfied, the shift mode is selected according to the selectable variable when the exposure mode has already been selected. That is, the exposure data is determined (S604). If the exposure data EXPD is 'TV' when the shutter speed is “TV”, selection by TV shift is performed (S605), and the set value of TV is stored in “EXPDL”. If EXPD is aperture value data 'AV' (S607), aperture value selection by AV shift is performed (S608), and the AV setting value is stored in EXPDL.
However, if EXPD is other than the above, correction value selection by exposure correction value data +/− shift is performed (S610), and the set value “L” of the correction value is stored in EXPDL (S611). Then, this subroutine ends and returns.
[0031]
FIG. 19 shows the processing procedure of the “exposure data setting” subroutine. In this setting process, exposure data is set by the push operation 2 described above, and selectable exposure data is exchanged. That is, it is possible to select the contents by dialing by exchanging exposure data that is currently selected with priority and exposure data that is not currently selected.
First, in step S901, the type of exposure mode MODE is checked (S901). If it is 'MODE0', it is not related to this setting process, and the process ends and returns. In the other modes, it is checked whether or not MODE = “MODE1” in the following step S902 (S902). If MODE is “MODE1”, the exposure data is changed to “MODE2” (S903). The latest value is set to 'EXPDL' (S904).
Similarly, if the MODE is not 'MODE1' in the above step S902, the MODE is set to the 'MODE1' state (S905), and then the latest value is set to 'EXPDL' (S906). Then, the subroutine ends and returns.
[0032]
(Operation effect 1)
According to the camera information input device of the present invention, the following effects can be obtained.
(Effect 1): By arranging three different selection input means on a single operation means, it becomes possible to freely select and input complex and sophisticated photographing information by a simple operation. In addition, the photographing information input device itself can be made compact. Therefore, the camera can be reduced in size and weight.
(Effect 1 ′): Selection and input of shooting mode, exposure information, and shooting information related thereto can be performed independently by operation of individual selection input means. Therefore, the operation method is easy to understand and the operability is also good.
[0033]
(Second Embodiment)
Next, “selection of various modes” will be described as a feature of the second embodiment according to the present invention. The camera information input device for the camera in the present embodiment is also implemented in the same device configuration as that in the first embodiment.
FIG. 11 is a display example on the display unit of the second embodiment that can be selected by dial operation. Exposure mode, drive mode (DRV) / flash mode (FLS), photometry mode (AE) / focus mode ( AF) and selective display output of the shutter speed, aperture value, exposure correction value, and the like as exposure data. Here, switching of permission of selection of each mode and permission of data according to the selected mode is performed by pressing operation 1 (abbreviated as pressing 1), that is, SW30 is turned on / off. Selection permission and switching of exposure data are performed by pressing operation 2. (It is abbreviated as “Press 2”). The contents of each selected mode are selected by rotating the dial.
[0034]
The various modes described above are defined as follows.
• Exposure mode: A mode for selecting information related to exposure, such as aperture, shutter speed, and exposure compensation value.
Drive mode (DRV): A mode for selecting the camera's shooting operation, such as one-frame shooting, continuous shooting, or double exposure shooting.
Flash mode (FLS): A mode for selecting flash conditions such as automatic flash, red-eye reduction flash, forced flash, and flash off.
Metering mode (AE): A mode for selecting metering conditions for the subject, such as average metering and spot metering.
・ Focus mode (AF): Single AF (but locked with one shot),
A mode for selecting ranging operation conditions such as continuous AF (that is, repeated ranging).
[0035]
In general, the photographing mode includes the above-described exposure mode (including a sports mode), a drive mode / flash mode, a photometry mode, and the like.
[0036]
Further, the exposure information and the shooting information include the following.
-Exposure information: shutter speed, aperture value, exposure compensation value, etc.
Shooting information: The shooting information selected by the third selection input means is, for example, 1/2000, 1/4000, 1/125, etc. when the shutter speed is selected. However, the “photographing information” here is used as a top-level concept including the above-mentioned photographing mode and exposure information.
[0037]
In the flowchart of FIG. 17, the “dial process 2” routine of this embodiment is illustrated as an example. However, steps S710 to S716 are equivalent to steps S401 to S406 in FIG.
[0038]
First, it is checked in step S716 whether or not the pressure switch SW30 has fallen. If a fall is detected, it is checked whether or not the selection mode “MSEL” is “MSEL0” indicating that exposure mode selection is permitted (S717). If it is “MSEL0”, it is changed to “MSEL1” for selecting exposure data (S719), while if it is “MSEL1”, it is changed to “MSEL0” (S718). That is, the two selection permission states are switched for each pressing operation.
[0039]
Thereafter, a data setting process is performed, and the data is set to “MODE” in “MODE 0” (S720). Thereafter, the process proceeds to step S721, where the fall of the SW 40 is checked (S721). If the fall is detected, exposure data is set in the same manner as described above (S722). Then, the previously set data numerical value is set (S723), and the process returns from the “dial process 2” routine to the original routine.
[0040]
(Operation effect 2)
(Effect 2): By selecting “various modes” by operating the dial, the shooting mode, exposure information, and shooting information related thereto can be selected and input independently, and the selection input means including this dial can be used. Since it can be performed independently by appropriate operation, the operation method is easy to understand and the operability is also improved.
[0041]
(Third embodiment)
Further, “up / down scroll” will be described as a feature of the third embodiment according to the present invention. Note that the camera information input device of the present embodiment is also implemented in an apparatus similar to the apparatus configuration in the first and second embodiments described above.
FIG. 12 illustrates display contents that can be selected by a dial operation according to the third embodiment. In the present embodiment, a scroll operation in the horizontal direction in which selection contents are displayed by a dial operation is performed, and a mode display is scrolled by two pressing operations of pressing 1 and pressing 2 to perform an operation in the vertical direction (ie, “up-down”) Select with.
That is, one of the features in the third embodiment is that the switch function is separated between “mode selection” and “data selection”, the selection movement in the horizontal direction with the dial, and the vertical movement in the two types of pressing directions. Unlike the first or second embodiment described above, performing selective movement proposes a method of using it.
[0042]
Here, as the contents of “mode selection”, for example, exposure mode, drive mode, and flash mode are mainly targeted, and one of these modes is selected. Further, “data selection” means performing selection for each of the various modes described above. Therefore, a processing procedure associated with a specific selection will be described next.
[0043]
FIG. 18 shows a processing procedure of “dial processing 3” of the present embodiment. Note that the processing in steps S801 to S806 is equivalent to the processing in steps S701 to S706 in FIG.
In step S807, the fall of SW30 is checked (S807). If the fall is detected, a down-direction scroll process for mode selection is performed (S808), and then the selected previous data is set (S809). Proceed to step S810.
In step S810, the fall of SW40 is checked (S810). If it is detected, an up-direction scroll process for mode selection is performed (S811), and then the previous data corresponding to the selected mode is set (S812). Then, the series of processing is terminated and the process returns.
[0044]
(Operation effect 3)
(Effect 3): By “up / down scroll” of the dial operation, it is possible to sequentially select or specify and input from a plurality of displayed shooting modes by a predetermined “pressing operation”. By combination, it is possible to perform selection or change display with good operability from the photographing information arranged and displayed two-dimensionally.
[0045]
(Other variations)
In addition, various modifications can be made without departing from the scope of the present invention.
[0046]
As described above, a plurality of embodiments have been described as examples. However, the present invention includes the following inventions. That is,
[1] In a shooting information input device of a camera that selects or inputs shooting information such as a shooting mode for the camera.
Operating means capable of rotating and pressing; and
First selection input means that operates by pressing the operation means in a first direction;
Second selection input means that operates by pressing in a second direction different from the first direction;
A third selection input means that operates by rotating;
An imaging information input device for a camera, comprising:
(Effect 1): By arranging three different selection input means on a single operation means, it becomes possible to freely select and input complex and sophisticated photographing information by a simple operation. In addition, since the photographing information input device itself can be configured in a small size, the camera can be reduced in size and weight.
[0047]
[2] The first selection input means for selecting or inputting a photographing mode; the second selection input means for selecting or inputting exposure information;
The third selection input means for selecting or inputting photographing information in accordance with the selection contents in the first or second selection input means;
The photographing information input device for a camera according to [1], comprising:
This [2] corresponds to the first and second embodiments.
(Effect 2): Since the shooting mode, exposure information, and related shooting information can be selected and input independently by operating independent selection input means, the operation method is easy to understand and the operability is also good. It is.
[0048]
[3] Display means for displaying a plurality of shooting modes;
The first selection input means for selecting or inputting the photographing modes displayed on the display means in a predetermined order;
Second selection input means for selecting or inputting the shooting mode in a direction different from the selection order of the first selection input means;
Third selection input means for performing selection or input of shooting information according to the selection content in the first or second selection input means;
The photographing information input device for a camera according to [1], comprising:
This [3] corresponds to the third embodiment.
(Effect 3): Since a predetermined “pressing operation” can sequentially select or specify and input from among a plurality of displayed photographing modes, the two-dimensionally arranged in combination with a predetermined “rotating operation” Selection or change display can be performed from the displayed shooting information with good operability.
[0049]
In addition, the following inventions are also included.
(1) In a camera shooting information input device for selecting or inputting shooting information such as a shooting mode for the camera,
Operation means capable of predetermined rotation operation and pressing operation;
Rotating a first switch that operates by pressing this operating means in a first direction and a second switch that operates by pressing in a second direction different from the first direction A third switch operated by
An apparatus for inputting photographing information of a camera, comprising:
(2) The first switch selects or inputs a shooting mode, the second switch selects or inputs exposure information, and the third switch selects the first or second switch. The photographing information input device according to (1), wherein the photographing information is selected or input according to the content.
(3) The photographing information input device according to (2), wherein the exposure information includes any one of a shutter speed, an aperture value, and an exposure correction value.
(4) The photographing information input device according to (2), wherein the photographing mode includes any one of an exposure mode (including a sports mode), a drive mode / flash mode, and a photometric mode.
(5) The imaging information input device according to (2), in which, when the first or second switch is operated, first, the previously selected imaging information is set.
(6) The imaging information input device according to (1), wherein the third switch outputs a different signal according to a rotation direction.
(7) The first switch selects or inputs shooting information that is frequently used, and the second switch selects or inputs shooting information that is less frequently used than the first switch (1). The photographing information input device described in 1.
(8) The photographic information input device according to (7), wherein the frequently used photographic information is pictorially displayed on the display means.
(9) The photographing information input device according to (1), further including a storage unit that stores selectable photographing information.
[0050]
(10) In a camera input device capable of rotating and pressing with a single operating member,
First pressing means capable of pressing in a first direction;
A second pressing means capable of pressing in a direction different from the first pressing means;
And an input device having a dial switch that can be rotated and pressed in a plurality of directions.
(11) In an input device of a camera capable of rotating and pressing with a single operation member,
A shooting mode selection means capable of selecting a shooting mode by pressing in the first direction;
Exposure information selection means capable of selecting exposure information by a pressing operation in a second direction different from the first direction;
Photographing information selecting means capable of selecting photographing information corresponding to the selected content by a rotation operation with respect to the content selected by any of the first and second pressing means;
And an input device characterized in that the mode and the information selection can be operated independently.
[0051]
(12) In an input device for a camera capable of rotating and pressing with a single operating member,
Display means for displaying information on operation of the operation member;
First selection means for selecting the content displayed in the first direction of the display means in response to a rotation operation;
Second selection means for selecting the content displayed in the second direction of the display means according to the first pressing direction;
Third selection means that is the same as the selection content of the second selection means according to the second pressing direction, and the selection direction can be selected in the reverse direction;
And an up-down scroll display accompanying rotation.
[0052]
(13) In (11), the information selected by the exposure information selection means includes any of shutter time, aperture value, and exposure correction value.
(14) In (11), when selection is possible by the shooting mode selection means or exposure information selection means, the previously specified shooting information is set out of the shooting information corresponding to the selectable information. Features.
[0053]
【The invention's effect】
As described above, according to the photographing information input device for a camera of the present invention, it is satisfactory even when it is necessary to perform setting in an unspecified order that is conventionally complicated or will increase in the future. It is possible to provide a photographing information input device for a camera that can be easily and comfortably set with only a single operation member (for example, a dial) provided in the present device.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the configuration of a camera in all embodiments of the present invention.
FIG. 2 is a circuit diagram relating to an information setting device of the present invention.
FIG. 3 is a time chart showing output signals from switches when the dial is rotated.
FIG. 4 is a plan view schematically showing each switch formed on the dial.
FIG. 5 is a cross-sectional view showing the position of the dial and each switch, the pressing direction of the rotating shaft, and the configuration of the transmission mechanism.
FIG. 6 is an external view in which an information input device is applied to the upper part of the camera.
FIG. 7 is an external view in which an information input device is applied to the back side of the camera.
FIG. 8 is a list showing the correspondence of exposure data in the exposure mode.
FIG. 9 is a list showing the shift contents of each exposure data.
FIG. 10 is a display layout that can be selected by a dial operation according to the first embodiment;
FIG. 11 is a display layout that can be selected by a dial operation according to the second embodiment;
FIG. 12 is a display layout that can be selected by a dial operation according to the third embodiment;
FIG. 13 is a flowchart showing an “exposure processing” subroutine;
FIG. 14 is a flowchart showing a “dial process 1” subroutine;
FIG. 15 is a flowchart showing a “mode setting” subroutine;
FIG. 16 is a flowchart showing a “selection processing” subroutine;
FIG. 17 is a flowchart showing a “dial process 2” subroutine;
FIG. 18 is a flowchart showing a “dial process 3” subroutine;
FIG. 19 is a flowchart showing an “exposure data setting” subroutine;
[Explanation of symbols]
1 ... main CPU,
2 ... LCD display device,
3… AFIC,
4 ... Data back,
5 ... Strobe,
6 ... ISO input device,
7 ... SW input device,
8… EEPROM,
9: Light receiving circuit,
10 ... Remote control device,
11: Photometric circuit,
12 ... Motor driver
13 ... LDM (lens drive motor),
14 ... ZM (zoom motor),
15 ... WSM (winding motor),
16 ... AVM (aperture drive motor),
17 ... Focus device,
18 ... zoom device,
19 ... winding device,
20 ... Shutter device,
21: A diaphragm device,
30, 61, 71 ... Dial,
31 ... member (dial side contact member),
37, 43 ... axis,
38, 44 .. member end portion (contact portion of L-shaped member),
39, 45 ... hard substrate,
42 ... member (L-shaped member),
73 ... display section,
SW1, SW2, SW3, SW4 ... switch,
S301 to S309 ... Processing steps of "exposure processing" routine,
S401 to S411 ... "Dial processing 1" routine processing steps,
S501 to S516: “Mode setting” routine processing steps;
S601 to S611 ... "Selection process" routine processing steps,
S710 to S723 ... "Dial process 2" routine processing steps,
S801 to S812 ... "Dial processing 3" routine processing steps,
S901 to S906: “Selection process” routine processing steps.

Claims (3)

An integrally configured operation unit capable of reading operation input by scroll operation and operation input by pressing operation,
Display means for displaying the contents of the selection items scrolled according to the scroll operation together with the selected state;
It said display means an mode selected from the displayed plurality of modes to select and confirm the, permit selection information indicative of the associated operating or condition definitive taken this selection the determined one mode further Scroll First selection means for confirming and switching the selection according to the pressing operation of the operation unit,
Select and confirm data related to one exposure selected from the data related to a plurality of exposures displayed on the display means, and further scroll to select information related to the data related to the one exposure determined and confirmed. Second selection means for confirming and switching selection according to a pressing operation different from the first selection means so as to be possible;
Selected according to a plurality of modes displayed on the display unit to a scroll operation of the operation portion, illustrating the operation or condition associated with the definitive to the determined mode taken after selection confirmation switch by the first selection means Information is selected according to a scroll operation of the operation unit, data related to a plurality of exposures displayed on the display unit is selected according to a scroll operation of the operation unit, and selection confirmation switching by the second selection unit A third selecting means for selecting information related to the data relating to the determined exposure later according to a scroll operation of the operation unit;
A photographing information input device comprising:   The imaging information input device according to claim 1, wherein the plurality of modes are imaging modes including at least one of an exposure mode, a flash mode, a photometry mode, and a focus mode. The photographing information input device according to claim 1, wherein the data relating to the plurality of exposures includes at least one of a shutter speed, an aperture value, and an exposure correction value.

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