JP3781889B2 - camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to improvement of display functions such as camera settings and operation states, and more particularly to a camera having a display illumination function for illuminating a display unit.
[0002]
[Prior art]
  For example, a conventional camera using a silver salt film has shooting functions such as automatic shooting, flash shooting, self-timer shooting, and long exposure shooting. Many cameras can perform shooting using these shooting functions by selecting and setting shooting modes corresponding to each camera.
The long exposure shooting is a shooting mode in which a shortage of light is compensated for by a long exposure time in order to shoot a low-luminance subject such as shooting under a low light amount. For long exposure shooting, in addition to long exposure with automatic exposure such as night view mode suitable for night scene shooting, slow sync mode linked with strobe flash, time provided for camera as long exposure shooting function by manual operation There are photographing modes such as a time mode and a bulb mode using an exposure function and a bulb function.
[0003]
  The time exposure function is a function that keeps the shutter open from the release operation to the next release operation, and the valve function is a function that keeps the shutter open only while the release button is pressed.
By the way, in recent years, electronic control systems in cameras have progressed, and most cameras are operated by a battery power source. For this reason, many of the above-described various shooting modes and other setting states and operation states are displayed on a low power consumption display device such as a liquid crystal display device. For example, a liquid crystal display device is a display that uses reflection or refraction of light, and unlike a display using a light emitting element or the like, it is difficult to visually recognize in a dark place. Therefore, an EL (electroluminescence) element or a fluorescent lamp or the like is used. In many cases, illumination by a light emitting element is also used.
[0004]
  Although the liquid crystal display device itself has low power consumption, the illumination device that illuminates the liquid crystal display device consumes a certain amount of power. It is desirable not to use as much as possible.
For example, Japanese Utility Model Laid-Open No. 5-81832 relates to a camera having a mode in which shooting information such as a shutter speed and an aperture value is not displayed. Japanese Utility Model Laid-Open No. 5-81832 discloses that in the mode in which the photographing information is not displayed, illumination for the liquid crystal for display is unnecessary, and thus the illumination is turned off.
[0005]
  Japanese Utility Model Laid-Open No. 6-15051 relates to a camera having a liquid crystal display device for displaying photographing information in the viewfinder field of view. Japanese Utility Model Laid-Open No. 6-15051 discloses that the illumination light amount of an illumination device that illuminates a liquid crystal display device that displays photographing information within the viewfinder field is subject to follow-up control based on the brightness of a subject based on a photometric result. Has been.
[0006]
[Problems to be solved by the invention]
  However, the above-mentioned Japanese Utility Model Laid-Open No. 5-81832 discloses that when the display is not performed and the illumination is clearly unnecessary, the illumination is turned off.InNot too much. Japanese Utility Model Laid-Open No. 6-15051 merely controls the amount of illumination light in accordance with the brightness in the viewfinder field in order to prevent the liquid crystal display device from becoming difficult to see.
Therefore, in the case of Japanese Utility Model Laid-Open No. 5-81832 described above, illumination is performed unconditionally as long as the display of the display device is performed. The illumination is only turned off only when it is very bright. When the brightness of the subject is below a certain level, the illumination is not turned off. That is, in any of these cases, it is not intended to actively reduce the battery power consumption by the lighting device.Yes.
  The present invention has been made in view of the above-described circumstances.Limiting the lighting period of the display lighting means that illuminates the display means, preventing unnecessary lighting of the display lighting means, and actively reducing power consumption.Providing camera to getIt is an object.
SpecialClaims1In particular, it is an object of the present invention to provide a camera capable of selectively setting whether to use display illumination without adding new operation means.
[0007]
[Means for Solving the Problems]
  ContractClaim1In order to achieve the above-described object, the camera according to the present invention described in (1)
  In a camera having a plurality of operation means for photographing a subject,
  Display means for displaying settings and operating states;
  Display illumination means for illuminating the display means;
  Of the plurality of operating meansmain switchofOperation over a predetermined timeControl means for selectively setting use and non-use of the display illumination means in response to
It is characterized by comprising.
[0008]
[Action]
That is,Claims of the invention1In the camera having a plurality of operation means, the use or non-use of the display illumination means for illuminating the display means is determined from among the plurality of operation means.main switchofOperation over a predetermined timeSelect and set in response to.
With such a configuration, use / nonuse of the display illumination can be selected and set without particularly adding new operation means.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, based on embodiments, a camera of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows the configuration of the main part of the camera according to the first embodiment of the present invention..
Figure1 includes a camera control unit 11, a system power supply 12, a main switch 13, a film drive system 14, a lens drive system 15, an exposure control system 16, a shutter drive system 17, a strobe device 18, a display device 19, and a release switch 20. , A mode setting switch 21, an MR (manual rewind) switch 22, a back cover switch 23, a strobe switch 24, a self mode switch 25, an exposure correction switch 26, and an aperture switch 27.
[0010]
  The camera control unit 11 constitutes camera control means and controls the operation of the entire camera.
The system power supply 12 is a power supply using a battery that generates power for operating the entire camera. The system power supply 12 supplies power DCDC to the camera control unit 11. The main switch 13 is a switch for turning on / off the power supply by the system power supply 12 and supplies the switch signal MAIN to the camera control unit 11 to turn on the entire camera operation including the operation of the camera control unit 11. / Turn off.
[0011]
  The film drive system 14 winds up and feeds the film one frame at a time for each frame shooting, and rewinds (rewinds) manually when the shooting of all the frames of the loaded film is completed or at the MR switch 22. When required, rewind the film. The film drive system 14 controls the MR switch 22 so as to allow manual rewinding of the film when manual rewinding is requested, and enables rewinding of the film by manual handle operation. You may comprise as follows.
The lens driving system 15 includes a distance measuring system such as autofocus, and performs distance measurement in response to the first-stage operation of the release switch 20, for example, and further drives the photographing lens system according to the distance measurement result. Control the lens extension amount.
[0012]
  The exposure control system 16 includes a photometry unit, an aperture control system, a strobe control system, and the like. For example, in response to the first-stage operation of the release switch 20, the exposure control system 16 performs photometry prior to distance measurement, and further according to the photometry result. In order to obtain a proper exposure, the shutter opening time, aperture value, strobe light emission and the like are set and controlled.
The shutter drive system 17 controls the shutter and opens and closes the shutter with a shutter opening time based on the control of the exposure control system 16.
The strobe device 18 is controlled by the exposure control system 16 to emit light.
[0013]
  The display device 19 is a display device having a display unit which is a non-light emitting display unit such as a liquid crystal display device, for example, and illumination that illuminates the display unit using, for example, an EL (electroluminescence) element or an LED (light emitting diode). An illumination unit as means is provided. The display device 19 is controlled by the camera control unit 11 to display the setting and operation state of the camera on the display unit by the display signal LCD, and illuminates the display unit by the illumination unit in response to the illumination signal ELL. .
The release switch 20 is a switch that constitutes release switch means and operates by operating a release button (not shown), and provides a direct direct release signal to the camera control unit 11. The direct release signal supplied from the release switch 20 to the camera control unit 11 includes the first release signal RL1 generated by the first release operation of the release button, that is, half-press (the release button is half-pressed), and There is a second-stage release signal RL2 that is generated by a second-stage operation of the release button, that is, when the release button is fully pressed (a state where the release button is fully pressed).
[0014]
  The mode setting switch 21 sets a camera operation mode by giving a mode signal MODE to the camera control unit 11 by a switch operation.
The MR switch 22 is a switch for giving a manual rewind signal MR for requesting manual rewind, that is, rewinding by manual operation, to the camera control unit 11. As described above, the manual rewind signal MR by the MR switch 22 may be a signal that requests that the film is rewound by a manual handle operation.
The back cover switch 23 supplies a back cover open signal OPN / back cover close signal CLS to the camera control unit 11 in response to an operation for opening and closing the back cover of the camera. These back cover open signal OPN / back cover close signal CLS are, for example, a single signal that performs an on / off operation.
[0015]
  The strobe switch 24 is a switch for setting operation / non-operation of the strobe device 18, and supplies a strobe setting signal ST corresponding to the operation state to the camera control unit 11. According to the strobe setting signal ST, any one of strobe light emission (forced light emission), strobe automatic light emission (light emission if necessary in conjunction with automatic exposure shooting) and strobe non-light emission is selected and set.
The self-mode switch 25 is a switch for setting a self-mode for performing self-timer shooting, and supplies a self-setting signal SELF to the camera control unit 11 at the time of setting. The exposure correction switch 26 is a switch for setting the exposure correction amount of the automatic exposure operation, and supplies an exposure correction signal EVS to the camera control unit 11 every time an operation is performed. The camera control unit 11 sequentially changes the exposure correction amount according to a predetermined order in response to the exposure correction signal EVS.
[0016]
  The aperture switch 27 supplies an aperture setting signal AVP indicating an aperture value to the camera control unit 11. The camera control unit 11 controls the exposure control system 16 according to the set value of the aperture switch 27 to set the aperture value at the time of shooting.
That is, the camera control unit 11 is turned on / off by the main switch 13 and operates using the power supplied from the system power supply 12 in the mode set by the mode setting switch 21. The camera control unit 11 controls the lens driving system 15, the exposure control system 16, the shutter driving system 17, and the strobe device 18 based on the operation of the release switch 20, and shoots one frame at a time. The film drive system 14 is controlled to wind and feed the film for one frame. Further, the camera control unit 11 automatically rewinds the film by controlling the film driving system 14 when the shooting of all frames of the loaded film is completed.
[0017]
  In addition, the camera control unit 11 operates by operating the mode setting switch 21 such as an automatic shooting mode, a flash shooting mode and a self mode, and a long exposure shooting mode such as a night view mode, a slow sync mode, a time mode and a bulb mode. Various shooting modes are sequentially selected and set.
The camera control unit 11 as camera control means is a part that controls all sequences in the camera such as photographing and film feeding as described above, and typically an IC (integrated circuit) such as a control microcomputer. Consists of. As an IC constituting the camera control unit 11, a custom IC such as a control gate array can be used in addition to the control microcomputer.
The display device 19 includes an illumination driving unit that drives an illumination element such as an EL element as display illumination means, and turns on / off the display illumination in response to the on / off of the illumination signal ELL of the camera control unit 11. .
[0018]
  When the release switch 20 is operated, the camera performs photometry and distance measurement, extends the lens, opens and closes the shutter, performs shooting, and further feeds the film. As described above, the release switch 20 is a switch that operates in two steps. The first step, that is, the release signal RL1 in a half-pressed state in which the release button is pressed halfway, performs photometry, distance measurement, and lens extension. The shutter is opened / closed and the film is fed by the release signal RL2 in the second stage, that is, when the release button is fully pressed. The function sharing by the release switch 20 may be changed as desired or according to circumstances. Alternatively, the release switch 20 may be configured as a single-stage switch, and all shooting sequences may be executed by the operation.
[0019]
  The mode setting switch 21 is used for time exposure mode, bulb shooting mode, and other shooting mode settings. For example, the camera control unit 11 is set to the time exposure mode by appropriately operating the mode setting switch 21. In the time exposure mode, when the release switch 20 is pressed (for example, the second release signal RL2), the time exposure photographing operation starts, and the shutter drive system 17 is controlled via the camera control unit 11 to open the shutter. . In this state, when the release switch 20 is pressed again (for example, the release signal RL2 at the second stage), the camera control unit 11 closes the shutter via the shutter drive system 17 and removes the film via the film drive system 14. Roll up to finish shooting.
[0020]
  The mode setting switch 21 is configured so that the time exposure mode can be selected as one of many other shooting modes. The start and stop of time exposure shooting in the time exposure mode may be controlled by either the first release signal RL1 or the second release signal RL2 of the release switch 20.
Further, the main switch 13, MR switch 22, back cover switch 23, strobe switch 24, self-mode switch 25, exposure correction switch 26, and aperture switch 27 direct and set various operations as described above to the camera control unit 11. It is a switch for.
[0021]
  Next, the operation related to the control of the display illumination of the camera configured as described aboveExampleWill be described with reference to the flowchart shown in FIG.
The process shown in FIG. 2 turns on the illumination of the display device 19 during a prescribed operation, that is, a corresponding operation process, when operating an operation unit such as a switch that requires an operation that requires confirmation of a film counter or mode state. This is processing of the camera control unit 11.
Normally, it is in a standby state (step S1), and in the standby state, it is monitored whether or not an operation is accepted by an operation unit such as a corresponding switch (step S2). If there is no corresponding operation, the monitoring of the operation reception in the standby state is continued, and when the corresponding operation is detected, the camera control unit 11 turns on the illumination signal ELL for the display device 19 and turns on the illumination (step S3). In this state, the process of the specified action corresponding to the accepted operation is executed (step S4), and when this process ends, the camera control unit 11 turns off the illumination signal ELL for the display device 19 and turns off the illumination ( Step S5), returning to the standby state.
[0022]
  In this way, when requesting a preset operation that requires confirmation of the film counter or mode state during or after operation, turn on the illumination when the corresponding operation unit is operated, and request by the operation. The lighting is turned off after the operation processing is completed.
Accordingly, since the illumination is on during the processing of the prescribed operation based on the operation, the state during or after the operation can be easily and clearly confirmed. In addition, the above-mentioned lighting is not turned on for an operation unit such as a switch or the like that has a function for clearly indicating the operation state in the operation unit such as a switch or the operation state is clear and the display need not be confirmed. . In this way, wasteful power consumption can be suppressed.
Such control is applied to switch operations such as the back cover switch 23, the release switch 20, the main switch 13, and the mode setting switch 21, for example.
[0023]
  3 to 6 show flowcharts in the case of these switch operations.
For example, the process shown in FIG. 3 is a process of the camera control unit 11 that turns on the illumination of the display device 19 during a prescribed operation, that is, a film setting operation process, when the back cover switch 23 is operated in conjunction with opening and closing of the back cover.
The stationary state is in a standby state (step S1), and in the standby state, the presence or absence of detection of a back cover closing operation by the back cover switch 23 is monitored (step S2A). If the back cover closing operation is not performed, the back cover closing operation is continuously monitored in the standby state. When the back cover closing operation is detected, the camera control unit 11 turns on the illumination signal ELL for the display device 19 to turn on the illumination. Turn on (step S3). In this state, a film setting operation process, which is a prescribed operation, is executed (step S4A). When this process ends, the camera control unit 11 turns off the illumination signal ELL for the display device 19 and turns off the illumination (step S5). ) To return to the standby state.
In this way, when the rear cover switch 23 set in advance is closed, the illumination is turned on, and the illumination is turned off after the film setting operation process based on the operation is completed (film loading is completed).
[0024]
  The process shown in FIG. 4 is a process of the camera control unit 11 that turns on the illumination of the display device 19 during the shooting operation process when the specified operation, that is, the shooting operation or the shooting operation is stopped halfway during the operation of the release switch 20 in normal shooting. It is.
The steady state is in a standby state (step S1). In the standby state, the presence or absence of the first-stage release signal RL1 by the release switch 20 is monitored (step S2B). If the release switch 20 is not operated, the release switch 20 is continuously monitored in the standby state. When the first-stage release signal RL1 is detected, the camera control unit 11 turns on the illumination signal ELL for the display device 19, Illumination is turned on (step S3).
[0025]
  In this state, the specified operation, that is, the process of either continuing the photographing operation when the second-stage release signal RL2 is given or stopping the photographing operation when the first-stage release signal RL1 is turned off is executed ( Step S4B) When this process ends, the camera control unit 11 turns off the illumination signal ELL for the display device 19, turns off the illumination (step S5), and returns to the standby state.
In this way, when the first stage of the release switch 20 set in advance is operated, the illumination is turned on, and the illumination is turned off after the photographing operation or the photographing stop operation process based on the operation is completed.
[0026]
  The processing shown in FIG. 5 is performed when the main switch 13 is operated in preparation for photographing, and the lens barrel accommodated in a so-called collapsible type in the main body protrudes to a predetermined preparation position for preparation for photographing. This is a process of the camera control unit 11 that turns on the illumination of the display device 19 during the preparation operation process.
In the standby state (step S1), the operation of the main switch 13 is monitored (step S2C). If the main switch 13 is not operated, the monitoring of the main switch 13 in the standby state is continued. When the main switch signal MAIN is detected, the camera control unit 11 turns on the illumination signal ELL for the display device 19 and turns on the illumination. Turn on (step S3).
[0027]
  In this state, a prescribed operation, that is, a lens barrel preparation operation process for preparation for photographing is executed (step S4C). When this process is completed, the camera control unit 11 turns off the illumination signal ELL for the display device 19 and performs illumination. Is turned off (step S5), and the process returns to the standby state.
In this way, when the preset main switch 13 is operated, the illumination is turned on, and the illumination is turned off after the lens barrel preparation operation process based on the operation is completed.
[0028]
  The process shown in FIG. 6 is a process of the camera control unit 11 that turns on the illumination of the display device 19 during the process of the specified operation, that is, the mode switching operation, when the mode setting switch 21 is operated.
Normally, it is in a standby state (step S1), and in this standby state, the presence or absence of the mode signal MODE by the operation of the mode setting switch 21 is monitored (step S2D). If the mode setting switch 21 is not operated, the mode setting switch 21 is continuously monitored in the standby state, and when the mode signal MODE is detected, the camera control unit 11 turns on the illumination signal ELL for the display device 19 and turns on the illumination. Is turned on (step S3).
[0029]
  In this state, a specified operation, that is, a mode switching operation process is executed (step S4D). When this process ends, the camera control unit 11 turns off the illumination signal ELL for the display device 19 and turns off the illumination (step S5). ) To return to the standby state. In this manner, when the preset mode setting switch 21 is operated, the illumination is turned on, and the illumination is turned off after the mode switching preparation operation process based on the operation is completed.
In addition to the switches described above, there are an MR switch 22 and a self-mode switch 25, etc., that are desirable to perform the same illumination control as described above.
[0030]
  The processing shown in FIG. 7 is based on an operation of an operation unit such as a switch that requires an operation that requires confirmation of a film counter or a mode state. That is, after the corresponding operation processing is completed, the display device 19 is operated for a predetermined time. This is processing of the camera control unit 11 for turning on the illumination.
[0031]
  The station is always in a standby state (step S11), and in the standby state, the presence / absence of operation reception by an operation unit such as a corresponding switch is monitored (step S12). If there is no corresponding operation, the monitoring of the operation reception in the standby state is continued, and when the corresponding operation is detected, the camera control unit 11 executes the process of the prescribed operation corresponding to the received operation (step S13).
When this process ends, the camera control unit 11 turns on the illumination signal ELL for the display device 19 to turn on the illumination (step S14). In this state, a predetermined time set in advance, for example, 5 seconds is waited (step S15), and when 5 seconds have elapsed, the camera control unit 11 turns off the illumination signal ELL for the display device 19 and turns off the illumination (step S15). S16), returning to the standby state.
[0032]
  In this way, when requesting an operation that requires confirmation of the film counter or mode state after the operation is completed, the illumination is turned on after the operation process requested by the corresponding operation is completed, and a predetermined time is set in advance. Turn off the lights after.
Therefore, since the lighting is turned on after the processing of the specified operation based on the operation, the state after the operation can be easily and clearly confirmed. In addition, the above-mentioned lighting is not turned on for an operation unit such as a switch or the like that has a function for clearly indicating the operation state in the operation unit such as a switch or the operation state is clear and the display need not be confirmed. . In this way, wasteful power consumption can be suppressed.
[0033]
  Such control is, ExampleFor example, the present invention can be applied to switch operations such as the back cover switch 23, the release switch 20, the main switch 13, the mode setting switch 21, the MR switch, and the self mode switch.
For example, FIG. 8 shows a specific flowchart in the case of the back cover switch operation by the back cover opening / closing operation.
[0034]
  The process shown in FIG. 8 is performed by the camera control unit 11 that turns on the illumination of the display device 19 for a predetermined time after the end of the film setting operation process based on the operation of the back cover switch 23 interlocked with the opening and closing of the back cover. It is processing.
The stationary state is in a standby state (step S11), and in the standby state, the presence or absence of detection of a back cover closing operation by the back cover switch 23 is monitored (step S12A). If there is no back cover closing operation, monitoring of the back cover closing operation in the standby state is continued, and when the back cover closing operation is detected, the camera control unit 11 executes processing of a film setting operation which is a prescribed operation ( Step S13A). At the end of the film setting operation, the camera control unit 11 turns on the illumination signal ELL for the display device 19 to turn on the illumination (step S14). In this state, a predetermined time set in advance, for example, 5 seconds is waited (step S15), and after 5 seconds, the camera control unit 11 turns off the illumination signal ELL for the display device 19, turns off the illumination (step S16), and waits. Return to state.
In this way, the illumination is turned on after the preset film setting operation process based on the operation of the back cover switch 23, and the illumination is turned off after a predetermined time.
[0035]
  FigureThe processing shown in 9 is displayed for a prescribed operation based on an operation of an operation unit such as a switch that requires an operation that requires confirmation of a film counter or a mode state, that is, a period of the corresponding operation processing and a predetermined time after the operation ends. This is processing of the camera control unit 11 that turns on the illumination of the device 19.
[0036]
  The station is always in a standby state (step S21). In the standby state, the presence / absence of operation reception by an operation unit such as a corresponding switch is monitored (step S22). If there is no corresponding operation, monitoring of the operation reception in the standby state is continued, and when the corresponding operation is detected, the camera control unit 11 turns on the illumination signal ELL for the display device 19 and turns on the illumination (step S23). . In this state, the camera control unit 11 executes a specified action corresponding to the accepted operation (step S24).
When this process ends, the camera control unit 11 turns off the illumination signal ELL for the display device 19 and turns off the illumination when a predetermined time set in advance, for example, 5 seconds (step S25) and 5 seconds elapses ( Step S26), returning to the standby state.
[0037]
  In this way, when requesting an operation that requires checking the film counter or mode state during and after the preset operation, the illumination is turned on when requested by the corresponding operation, and The illumination is turned off after a predetermined time after the end. Therefore, since the lighting is turned on during and after the prescribed operation based on the operation, the state after the operation can be easily and clearly confirmed.
In addition, the above-mentioned lighting is not turned on for an operation unit such as a switch or the like that has a function for clearly indicating the operation state in the operation unit such as a switch or the operation state is clear and the display need not be confirmed. . In this way, wasteful power consumption can be suppressed.
[0038]
  Such control is, ExampleFor example, the present invention can be applied to switch operations such as the back cover switch 23, the release switch 20, the main switch 13, the mode setting switch 21, the MR switch 22 and the self mode switch 25.
For example, FIG. 10 shows a specific flowchart in the case of the back cover switch operation by the back cover opening / closing operation.
[0039]
  The processing shown in FIG. 10 is a camera control unit that turns on the illumination of the display device 19 for a predetermined time during the processing of the film setting operation and after the processing is completed, based on the operation of the back cover switch 23 interlocked with the opening and closing of the back cover. 11 processing.
The stationary state is in a standby state (step S21), and in the standby state, the presence or absence of detection of a back cover closing operation by the back cover switch 23 is monitored (step S22A). If the back cover closing operation is not performed, the back cover closing operation is continuously monitored in the standby state. When the back cover closing operation is detected, the camera control unit 11 turns on the illumination signal ELL for the display device 19 to turn on the illumination. Turn on (step S23). And the camera control part 11 performs the process of the film setting operation | movement which is a prescription | regulation operation | movement (step S24A). At the end of the film setting operation, the camera control unit 11 turns off the illumination signal ELL for the display device 19 and waits for a predetermined time set in advance, for example, 5 seconds (step S25) and 5 seconds, when the film setting operation ends. Is turned off (step S26), and the process returns to the standby state.
[0040]
  In this way, the illumination is turned on at the start of processing of the preset film setting operation based on the operation of the back cover switch 23, and the illumination is turned off after a predetermined time.
Note that the operation unit such as a switch has a function of clearly indicating the operation state, or the operation unit such as a switch in which the operation state is clear and the display need not be confirmed includes, for example, the strobe switch 24 and the aperture switch 27. The processing of the camera control unit 11 for these operations is as follows.
[0041]
  In the case of the strobe switch 24, a strobe emission mark 24a, an auto strobe mark 24b and a strobe non-emission mark 24c are displayed near the operation unit as shown in FIG. A corresponding strobe operation mode is set by performing a slide operation so that the slide operation knob 24d, which is an operation unit, corresponds to one of these displays. Therefore, the state of the setting mode is clear from the operation state at the time of setting.
As shown in FIG. 12, the control of the camera control unit 11 in this case is in a standby state in a steady state (step S31), and the operation of the strobe switch 24 is monitored in the standby state (step S32). If there is no operation of the strobe switch 24, monitoring of the strobe switch 24 in the standby state is continued. When the operation of the strobe switch 24 is detected, the strobe mode is switched (step S33) and the state returns to the standby state.
[0042]
  In the case of the aperture switch 27, as shown in FIG. 13, an indicator 27b is displayed in the vicinity of the dial operation unit 27a to be rotated. A corresponding aperture value is set by rotating the aperture value displayed on the dial operation unit 27a, which is an operation unit, so as to correspond to the position of the index 27b. Therefore, the set aperture state is clear from the operation state at the time of setting.
In this case, as shown in FIG. 14, the control of the camera control unit 11 is in a standby state (step S35), and in the standby state, the operation of the aperture switch 27 is monitored (step S36). If there is no operation of the aperture switch 27, the aperture switch 27 is continuously monitored in the standby state. When the operation of the aperture switch 27 is detected, the aperture value is switched (step S37), and the process returns to the standby state.
[0043]
  When the display device is illuminated under heavy loads such as shutter drive, motor drive, and strobe charge, the brightness of the battery fluctuates due to the effect of battery voltage fluctuations caused by the large current flow, causing the user to feel uncomfortable and uneasy. Giving or impairing the luxury. To deal with such problems, the lights are turned off during heavy load operation.
  ThisIn this case, the processing for the photographing operation of the camera control unit 11 is performed as shown in FIG.
[0044]
  The process shown in FIG. 15 is a process of the camera control unit 11 that turns off the illumination of the display device 19 under heavy load in a photographing operation with typical motor driving, shutter driving, and strobe charging.
In the standby state (step S41), the presence or absence of the first-stage release signal RL1 of the release switch 20 is monitored (step S42). If the first-stage release signal RL1 of the release switch 20 is not present, the monitoring of the operation reception in the standby state is continued, and when the first-stage release signal RL1 is detected, the camera control unit 11 detects the illumination signal for the display device 19. ELL is turned on to turn on the illumination (step S43). In this state, the camera control unit 11 performs photographing preparation operations such as photometry and distance measurement (step S44).
[0045]
  In this state, the signal from the next release switch 20 is examined to determine whether the second stage release signal RL2 is on or the first stage release signal RL1 is off (step S45). When the first stage release signal RL1 is turned off, the process returns to the standby state in step S41.
If it is determined in step S45 that the second-stage release signal RL2 is on, various setting states are checked to determine whether or not a heavy load state is present (step S46). When it is determined that the load is heavy, the camera control unit 11 turns off the illumination signal ELL for the display device 19 and turns off the illumination (step S47), and controls the lens driving system 15 to control the lens. The payout is executed (step S48). If it is not determined in step S46 that the vehicle is in the heavy load state, as shown in FIGS. 6 and 9, the camera control unit 11 performs the requested operation process (step S47A) for the requested light load. Thereafter, the illumination is turned off (step S47).
[0046]
  After extending the lens, the camera control unit 11 performs shutter opening / closing control via the shutter drive system 17 and lens return control via the lens drive system 15 (step S49), and then via the film drive system 14. The film is wound up (step S50), the flash device 18 is charged with the flash (step S51), and the process returns to the standby state of step S41.
Note that when determining the heavy load in step S46, the remaining battery level in the system power supply 12 may be examined, and it may be determined whether or not to turn off the illumination in step S47 according to the remaining level. That is, when the remaining amount of the battery is sufficiently large, the lighting may be skipped and the lighting may be continued as it is.
[0047]
  In this way, by turning off the illumination before heavy load operations such as shutter drive, motor drive, and strobe charging, the illumination brightness is reduced due to the influence of the voltage fluctuation of the battery of the system power supply 12 due to a large current at the time of heavy load. It fluctuates to prevent the user from feeling uncomfortable and anxious, and impairing the sense of quality.
As described above, when the display device is turned off during heavy loads such as shutter drive, motor drive, and strobe charge, and the user feels uncomfortable and uneasy, check the camera's operating state after operation. Is inconvenient when needed. Address these issuesIn order toDuring heavy load operation, turn off the light, and turn on the light for a predetermined time after the heavy load operation endsThe
  FigureThe processing shown in 16 is a camera control unit 11 that turns off the illumination of the display device 19 at the time of heavy load and transfers the illumination for a predetermined time after the heavy load operation in the photographing operation involving motor driving, shutter driving, and strobe charging. It is processing.
[0048]
  In the standby state (step S41), the presence or absence of the first-stage release signal RL1 of the release switch 20 is monitored (step S42). If the first-stage release signal RL1 of the release switch 20 is not present, the monitoring of the operation reception in the standby state is continued, and when the first-stage release signal RL1 is detected, the camera control unit 11 detects the illumination signal for the display device 19. ELL is turned on to turn on the illumination (step S43). In this state, the camera control unit 11 performs photographing preparation operations such as photometry and distance measurement (step S44).
In this state, the signal from the next release switch 20 is examined to determine whether the second stage release signal RL2 is on or the first stage release signal RL1 is off (step S45). When the first stage release signal RL1 is turned off, the process returns to the standby state in step S41.
[0049]
  If it is determined in step S45 that the second-stage release signal RL2 is on, various setting states are checked to determine whether or not a heavy load state is present (step S46). If it is determined that the state is a heavy load state, the camera control unit 11 turns off the illumination signal ELL for the display device 19, turns off the illumination (step S47), and controls the lens driving system 15 to extend the lens. Is executed (step S48). If it is not determined in step S46 that the vehicle is in a heavy load state, the corresponding operation process (step S47A) that is a light load is performed, and then the illumination is turned off (step S47). After extending the lens, the camera control unit 11 performs shutter opening / closing control via the shutter drive system 17 and lens return control via the lens drive system 15 (step S49), and then via the film drive system 14. Then, the film is wound up (step S50), and the stroboscopic device 18 is stroboscopically charged (step S51).
[0050]
  Further, the illumination is turned on again (step S55), and the state is left as it is for a predetermined time, for example, 5 seconds (step S56). Further, the illumination is turned off (step S57), and the process returns to the standby state of step S41.
Note that when determining the heavy load in step S46, the remaining battery level in the system power supply 12 may be examined, and the illumination extinction in step S47 may be determined according to the remaining level. That is, when the remaining battery level is high, the lighting may be skipped and the lighting may be continued as it is.
In this way, before the heavy load operation such as shutter driving, motor driving and strobe charging, the illumination is turned off, and the fluctuation of the illumination brightness is affected by the voltage fluctuation of the battery of the system power supply 12 due to the large current at the heavy load. Even if this is prevented, it is possible to easily check the camera state by relighting the illumination for a predetermined time after the end of the heavy load operation.
  Also, when it is desired to prioritize battery saving of the system power supply 12 over lighting for the display device 19, it is also possible to deactivate the lighting function itself when lighting is clearly unnecessary due to operator preference or the like. You should be able to do it. However, it is not preferable to provide a switch for that purpose. Considering such a case, the first aspect of the present invention.2It is an embodiment.
[0051]
  First of the present invention2The embodiments of the present invention are described in the claims of the present invention.1It is an example corresponding to. First of the present invention2The configuration of the camera according to the embodiment is as shown in FIG. 1 as in the first embodiment. In this case, the processing of the camera control unit 11 is illustrated.17This is done as shown in
Figure17The process shown in FIG. 6 is a process of the camera control unit 11 when the operation / non-operation of the illumination function, that is, the use / non-use of the display illumination is switched according to the operation time of the main switch 13.
[0052]
  Normally, it is in a standby state (step S101), and in this standby state, the ON operation of the main switch signal MAIN of the main switch 13 is monitored (step S102). If the main switch signal MAIN is not on, the on-operation of the main switch signal MAIN in the standby state is continuously monitored, and when the on-operation of the main switch signal MAIN is detected, the camera control unit 11 detects the main switch signal MAIN. Off is checked (step S103). If the main switch signal MAIN is not off, the elapsed time is checked (step S104). If the predetermined time is less than 2 seconds, for example, less than 2 seconds, the process returns to step S103 to monitor the main switch signal MAIN off and the elapsed time. continue.
[0053]
  In step S104, if the elapsed time of the state where the main switch signal MAIN is not turned off has reached 2 seconds or more, that is, if the main switch 13 has been kept on for 2 seconds or more, the lighting at that time The use state is checked (step S105). If the illumination is set to the use state, the illumination is not used (step S106). Thereafter, the illumination function is set not to operate, and the standby state of step S101 is set. Return to.
In step S105, if the use state of the illumination at that time is set to the non-use state, the illumination is switched to use (step S107), and thereafter, the illumination function is set to operate. Return to standby.
[0054]
  If the main switch signal MAIN is detected to be off within the elapsed time of less than 2 seconds in step S103, the lens barrel is prepared according to the setting state of the illumination function at that time (step S108). Return to standby.
In this way, the lighting of the display device 19 is automatically and selectively used at any time to activate the camera, or the lighting of the display device 19 is completely prohibited to save the battery of the system power supply 12 with the highest priority. Whether the camera is to be operated can be toggled or set alternately by continuing to operate the main switch 13 for a predetermined time or more. In other words, the system power supply 12 can be turned on / off and the use / non-use of the illumination can be switched by operating only the main switch 13 (operation time).
Of course, the present invention can be implemented with various modifications such as appropriately combining the configurations of the above-described embodiments.
[0055]
【The invention's effect】
  As described above, the claims of the present invention1According to this camera, in a camera having a plurality of operation means, the use and non-use of the display illumination means for illuminating the display means is determined from among the plurality of operation means.main switchofFor operation over a predetermined timeBy selecting and setting in response, the use / non-use of the display illumination can be selected and set without adding a new operation means.
[Brief description of the drawings]
FIG. 1 is a block diagram schematically showing a functional configuration of a main part of a camera according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing lighting processing during operation of the camera of FIG. 1;
FIG. 3 is a flowchart showing a back cover operation process which is an example of a lighting process during operation of the camera of FIG. 1;
4 is a flowchart showing a normal photographing process which is another example of a lighting process during operation of the camera of FIG. 1. FIG.
5 is a flowchart showing a main switch process which is another example of the lighting process during operation of the camera of FIG. 1. FIG.
6 is a flowchart showing a mode setting switch process which is still another example of the lighting process during operation of the camera of FIG. 1; FIG.
[Fig. 7]MosquitoIt is a flowchart which shows the lighting process after a mela operation.
8 is a flowchart showing a back cover operation process which is an example of a post-operation lighting process of the camera of FIG. 1. FIG.
FIG. 9MosquitoIt is a flowchart which shows a lighting process after operation of a camera.
10 is a flowchart showing a back cover operation process which is an example of a lighting process after the operation of the camera of FIG. 9;
11 is a schematic diagram showing an appearance of an operation unit of a strobe switch of the camera of FIG. 1. FIG.
FIG. 12 is a flowchart showing strobe switch processing which is an example of processing not using display illumination.
FIG. 13 is a schematic diagram illustrating an appearance of an operation unit of a diaphragm switch of a camera.
FIG. 14 is a flowchart showing aperture switch processing, which is another example of processing that does not use display illumination.
FIG. 15MosquitoIt is a flowchart which shows the imaging | photography operation | movement process of a mela.
FIG. 16MosquitoIt is a flowchart which shows the imaging | photography operation | movement process of a mela.
[Figure17] Of the present invention2It is a flowchart which shows the main switch process of the camera which concerns on this embodiment.
[Explanation of symbols]
  11 Camera control unit
  12 System power supply
  13 Main switch
  14 Film drive system
  15 Lens drive system (including ranging system)
  16 Exposure control system (including photometry system)
  17 Shutter drive system
  18 Strobe device
  19 Display device (including display illumination means)
  20 Release switch
  21 Mode setting switch
  22 MR (Manual Rewind) Switch
  23 Back cover switch
  24 Strobe switch
  25 Self mode switch
  26 Exposure compensation switch
  27 Aperture switch

Claims (1)

In a camera having a plurality of operation means for photographing a subject,
Display means for displaying settings and operating states;
Display illumination means for illuminating the display means;
A camera comprising: control means for selectively setting use or non-use of the display illumination means in response to an operation for a predetermined time or more of the main switch among the plurality of operation means.

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