JP5040799B2 - Imaging device - Google Patents

Description

  The present invention relates to a photographing apparatus capable of photographing a still image and a moving image and having a live view mode for displaying a through image.

  A digital single lens reflex camera capable of still image shooting and moving image shooting is disclosed in Patent Document 1. This camera has a release button for moving images, a release button for still images, and a release lock member that also functions as a power switch. When performing moving image shooting from a power-off state, the release lock member is first released. Thereafter, when the moving image release button is pressed, the mirror is raised, and the subject light flux is imaged on the image sensor, the moving image is displayed on the liquid crystal panel, and the moving image is recorded.

On the other hand, when performing still image shooting, the release lock member is first released. Thereafter, the release button for still images is fully pressed to enter a still image shooting mode. Press the still image release button halfway to focus the subject image. When the release button for still images is fully pressed, the mirror is raised, the shutter is fully opened, the subject luminous flux is imaged on the image sensor, and the subject image is recorded on the image recording medium. Thereafter, the shutter is fully closed and the mirror is lowered, and the photographing is completed.
JP 2004-109831 A

  However, this digital single-lens reflex camera, when shooting a still image from the state of moving image shooting, once presses the release button for still image to enter the still image shooting mode (mirror down state), and then freezes again. It was necessary to shoot a still image by pressing the image release button. For this reason, it was inconvenient to shoot a still image. In addition, since there is no live view mode, still images cannot be taken while watching moving images on the liquid crystal panel, which is not convenient.

  An object of the present invention is to improve the operability in a photographing apparatus having a live view mode capable of still image photographing and moving image photographing and displaying a through image.

The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this.
According to the first aspect of the present invention, an image sensor (16) that captures an optical image from the photographing optical system (5), and a first position (A) disposed in the optical path of the photographing optical system (5). And a mirror member (11) that moves between a second position (B) disposed outside the optical path of the photographing optical system (5), the imaging element (16), and the photographing optical system (5). Is output from the imaging device (16) in a state where the shutter (14) disposed between the mirror member (11) and the mirror member (11) are in the second position (B) and the shutter (14) is opened. A first operating member (33) for instructing the start of moving image recording for recording an image based on the signal as a moving image, and the mirror member (11) includes the first operating member (33). If the camera is operated while being held at position 2 (B), the movie shooting is not started. In the photographing apparatus (1), the moving image photographing instruction is invalidated when the mirror member (11) is operated while being held at the first position (A). is there.
A second aspect of the present invention is the photographing apparatus (1) according to the first aspect, wherein the display device (17) displays an image based on an output signal of the imaging element (16), and still image photographing. The second operating member (36) for instructing the start of the image sensor and the mirror member (11) at the second position (B) and the shutter (14) being opened from the image sensor (16). A third operation member (32) for instructing start of live view display for displaying an image based on the output signal on the display device (17) in real time, and the second operation member ( 36) is operated during the live view display and the moving image shooting, the mirror member (11) is temporarily moved from the second position (B) to the first position (A) and then the stationary The image shooting starts and the third When the operation member (32) is operated during the live view display, the mirror member (11) is moved from the second position (B) to the first position (A) to end the live view display. The imaging device (1) is characterized in that
A third aspect of the present invention is the photographing apparatus (1) according to the first or second aspect, wherein the first operation member (33) has a function other than the function related to the moving image photographing instruction. An imaging device (1) characterized in that it is a shared member.
According to a fourth aspect of the present invention, there is provided the photographing apparatus (1) according to the third aspect, wherein the first operating member (33) has a specific function selected from a plurality of predetermined functions. It is a photographing device (1) characterized by being a member which can be selected and set as a function.
A fifth aspect of the present invention is the imaging apparatus (1) according to the third or fourth aspect, wherein the first operating member (33) has the mirror member (11) in the first position ( In the case of being held in A), the photographing apparatus (1) is characterized in that it functions as an operation member for the other functions.
Note that the configuration described with reference numerals may be modified as appropriate, and at least a part of the configuration may be replaced with another component.

  According to the present invention, still image shooting and moving image shooting can be performed, and the operability can be improved in a shooting apparatus having a live view mode for displaying a through image.

  Embodiments of the present invention will be described below with reference to the drawings. 1, 2, 14, and 16 shown below are provided with an XYZ orthogonal coordinate system for ease of explanation and understanding. In this coordinate system, when the photographer shoots a horizontally long image with the optical axis A being horizontal, the direction toward the left side when viewed from the photographer at the position of the camera 1 (hereinafter referred to as a normal photographing position) is the X plus direction. To do. In addition, a direction toward the upper side at a normal photographing position is a Y plus direction. Furthermore, the direction toward the subject at the normal shooting position is the Z plus direction.

  FIG. 1 is a schematic view of a digital eye reflex camera 1 according to an embodiment of the present invention. The camera 1 includes a camera body 2 and a lens barrel 3 attached to the camera body 2 so as to be attachable.

  In the camera body 2, there are provided a main mirror 11a and a sub mirror 11b for guiding photographing light from a subject to a finder optical system. The main mirror 11a is configured as a quick return mirror 11 together with the sub mirror 11b. Below the quick return mirror 11, a focus detection device 13 for detecting the focus adjustment state of the lens barrel is disposed.

  On the back side of the main mirror 11a, a shutter 14 and an imaging device 15 are sequentially provided from the subject side. The imaging device 15 includes a solid-state imaging device 16 such as a CCD (charge-coupled device memory). The imaging device 16 is a photoelectric conversion device that converts subject light into an electrical signal. On the further back side of the image sensor 16, for example, an LCD (liquid crystal) monitor 17 is provided.

  A focusing screen 18 is disposed on the quick return mirror 11. The focusing screen 18 is a screen for forming a subject image reflected by the quick return mirror 11, and is disposed between the quick return mirror 11 and the pentaprism 19.

  On the focusing screen 18, a pentaprism 19 that guides the finder beam to the finder 30 (FIG. 30), and a photometric device 20 and an eyepiece optical system 21 provided on the light output side of the pentaprism 19 are provided.

  The pentaprism 19 is a prism that converts an image formed on the focusing screen 18 into an erect image and guides it to the eyepiece optical system 21 and the like, and its cross-sectional shape is a pentagon as shown in FIG. The pentaprism 19 is accommodated in the upper part in a state where the camera body 2 is held in the horizontal position.

  The photometric device 20 includes a photometric element for measuring the intensity of light in order to calculate an appropriate exposure according to the set ISO sensitivity and the intensity of light of the subject.

  The eyepiece optical system 21 is an optical system for magnifying and observing a subject image that has been made an erect image by the pentaprism 19, and is disposed on the back side of the camera body 2 with respect to the pentaprism 19.

  On the other hand, the lens barrel 3 includes a photographing optical system 5 having a plurality of lenses 23 and a diaphragm 24, and is attached to a lens mount of the camera body 2.

  The light incident on the lens barrel 3 passes through the lens 23 and the diaphragm 24 and enters the camera body 2. When the quick return mirror 11 is at the mirror down position indicated by A in FIG. 1, the passing light forms an image on the focusing screen 18 by the main mirror 11a. The main mirror 11a is a half mirror, and the passing light is reflected by the sub mirror 11b and guided to the focus detection device 13, and the focus adjustment state is detected. On the other hand, the subject image reflected by the main mirror 11 a and formed on the focusing screen 18 is observed via the eyepiece optical system 21 via the pentaprism 19. Further, the subject image formed on the focusing screen 18 is guided to the photometric device 20 via the pentaprism 19 and photometrically measured.

  FIG. 2A is a rear view of the camera 1. On the back side, the above-described monitor 17 for displaying a still image and a moving image and displaying a menu is arranged. A finder 30 is provided on the monitor 17. An AF button 31 is arranged beside the viewfinder 30. The AF button 31 is a button that performs AF when pressed during live view or movie shooting. A live view button 32 is provided on the upper side of the monitor 17. The live view button 32 is a button for starting up a live view by mirroring up when pressed in a mirror down state, and ending the live view and mirroring down when pressed during a live view.

  A moving image button 33 is arranged at the lower side of the monitor 17. The moving image button 33 is a button that starts moving image recording when pressed during live view and ends moving image recording when pressed during moving image recording. A playback button 34 is disposed on the X plus side of the monitor 17. The playback button 34 is a button for reproducing an image when pressed when an image is not being reproduced (except when recording a moving image), and ends the image reproduction when pressed when reproducing an image. A menu button 35 is arranged below the playback button 34 on the X plus side of the monitor 17. The menu button 35 is a button for displaying a menu when pressed when the menu is not displayed (except when recording a moving image), and ends the image reproduction when pressed when the menu is displayed.

  FIG. 2B is a front view of the camera 1. As shown in the figure, a release button 36 is provided on the X minus side of the front surface between the cameras 1, and a power dial 37 is provided around the release button 36 to turn the camera on and off when rotated. .

Next, the internal configuration of the camera 1 of the present embodiment will be described. FIG. 3 is a block diagram showing the internal configuration of the camera 1.
Reference numeral 101 denotes a control circuit composed of a microcomputer or the like, which inputs signals output from each block described later, performs a predetermined calculation, and outputs a control signal to each block based on the calculation result. The control device 101 is supplied with power from a battery (not shown).

SW (switch) 1 is a power switch that is turned on and off in conjunction with the rotational position of the power dial 37. The power switch 37 is turned on when the power dial 37 is set to the on position, and the power dial 37 is set to the off position. And turned off.
SW2 is turned on when pressed down to the half-pressed position of the release button 36, is kept on even when the release button 36 is further pushed down, and is turned off when the push is released from the half-pressed position of the release button 36. is there.
SW3 is a full-press switch that is turned on when the release button 36 is depressed to the full-press position, and that is turned off when the release button 36 is released from the full-press position.
SW4 is an AF switch that is turned on in conjunction with the depression of the AF button 31 shown in FIG. 2 and turned off in conjunction with the release of the depression.
SW5 is a live view switch that is turned on in conjunction with the depression of the live view button 32 shown in FIG. 2 and turned off in conjunction with the release of the depression.
SW6 is a moving image switch that is turned on in conjunction with the depression of the moving image button 33 shown in FIG.
SW7 is a menu switch that is turned on in conjunction with the depression of the menu button 35 shown in FIG. 2 and turned off in conjunction with the release of the depression.
SW8 is a reproduction switch that is turned on in conjunction with the depression of the reproduction button 34 shown in FIG. 2 and turned off in conjunction with the release of the depression.

Reference numeral 16 denotes the above-described image sensor. The image sensor 16 receives and captures the subject light transmitted through the lens barrel 3 and outputs an image signal. As the sensitivity of the imaging device 16, a predetermined sensitivity SV such as ISO 100 is set, for example.
Reference numeral 103 denotes an A / D (analog / digital) conversion circuit, which performs processing such as gain adjustment on an analog image signal as accumulated charge output from the image sensor 16 and converts the analog image signal into a digital signal.
A timing circuit 104 outputs a timing signal for driving the image sensor 16 and a timing signal for driving the A / D conversion circuit 103.

  Reference numeral 105 denotes an image processing circuit composed of an ASIC or the like, which performs image processing such as white balance (WB) adjustment, contour compensation, and gamma correction on the original image data that is a digital signal, and the above-described A / D. The original image data of the digital signal output from the conversion circuit 103 is output to a buffer memory 106 described later. Further, after the original image data is subjected to image processing, a compression process for compressing the original image data in a predetermined format, an expansion process for expanding the compressed data, and the like are performed. Further, the compressed image data is output to a recording medium 107 described later, or the compressed image data is expanded to the original uncompressed image data.

A buffer memory 106 temporarily stores original image data and compressed image data after compression processing, and includes SRAM (Static Random Access Memory), VRAM (Video Random Access Memory), and SDRAM (Synchronous Dynamic Random Memory). Memory) or the like can be used.
Reference numeral 107 denotes a recording medium such as a memory card including a flash memory, which records image data after compression processing, and is configured to be detachable from the camera 1.

Reference numeral 108 denotes a display drive circuit, which drives the monitor 17 to output an input image signal and displays an image on the monitor 17.
Reference numeral 20 denotes the above-mentioned photometric device, which is composed of an IC, inputs and amplifies the lens transmitted light amount that is transmitted through the lens barrel 3 and detected by the photometric element 20a, converts the digital signal, and outputs it to the control device 101. To do.

An information display device 111 includes a display element such as a liquid crystal and its driving circuit, and displays a shutter speed, an aperture value, and the like.
A shutter drive circuit 112 controls the holding and release of the front curtain and rear curtain of the shutter 14. Note that the shutter 14 is released during the mirror-up of the sequence driving device, which will be described later, so it is necessary to hold the front curtain and the rear curtain of the shutter 14 before the mirror-up operation by the sequence driving device.

Reference numeral 114 denotes a motor drive circuit that controls the rotation of the sequence motor 115.
The sequence motor 115 is incorporated in a known and not-illustrated sequence drive device, and drives the sequence drive device to perform up / down of the mirror, narrowing / opening of the stop, and charging of the shutter 14.

  The sequence drive device is provided with a sequence switch SW0, which is turned off immediately after the start of the mirror up operation, and is turned on during the mirror up immediately before the completion of the mirror up operation. Also, it is turned off immediately after the start of the mirror down, and is turned on during the mirror down from immediately before the mirror down. By controlling the sequence motor 115 and the brake according to the state of the sequence switch SW0 that is turned on / off at such timing, the operation of the sequence drive device can be controlled.

  That is, when the sequence drive device is in the mirror-down state and the sequence motor 115 is stopped, the sequence switch SW0 is kept on. When the sequence motor 115 is rotated forward for mirror up, the sequence drive device operates and the sequence switch SW0 is turned off with a slight time delay.

  If the sequence motor 115 continues to rotate forward, the sequence drive device operates to raise the mirror and narrow the aperture. Further, when the sequence motor 115 continues to rotate forward, the sequence switch SW0 is turned on immediately before the completion of mirror raising by the operation of the sequence driving device. By the brake control of the sequence motor 115, the sequence motor 115 is stopped, and the mirror up operation by the sequence drive device is stopped.

  Note that the sequence driving device is configured so that the aperture narrowing operation is completed before the completion of the up-lawing operation. On the other hand, the sequence switch SW0 is kept on in the mirror up state. When the sequence motor 115 is reversely rotated for mirror down, the sequence driving device operates and the sequence switch SW0 is turned off with a slight time delay.

  If the reverse rotation of the sequence motor 115 is continued, the mirror is lowered by the operation of the sequence drive device. When the aperture is locked, the lock is released and the aperture is returned to the open state. The shutter 14 described later is charged.

  Furthermore, if the reverse rotation of the sequence motor 115 is continued, the sequence switch SW0 is turned on immediately before the completion of the mirror down by the operation of the sequence drive device, so the brake control of the sequence motor 115 is performed here to stop the sequence motor 115 and drive the sequence. Mirror down operation by the device is stopped. Note that the sequence driving device is configured such that the return of the aperture opening and the charging of the shutter 14 are completed before the mirror down is completed.

Reference numeral 116 denotes an aperture position detection device, which detects and outputs the aperture position as a pulse when the aperture is narrowed down by the sequence driving device.
Reference numeral 117 denotes a diaphragm locking device. When the diaphragm locking device 117 is operated, the diaphragm is locked, and the diaphragm is stopped. The sequence driving device is configured such that the stop of the diaphragm by the stop locking device 117 is released during the mirror down of the sequence driving device.

Reference numeral 13 denotes the above-described focus detection device, which detects and outputs a focus position adjustment state by the lens barrel 3 by a phase difference detection method.
Reference numeral 119 denotes a lens driving device that drives the focus lens of the lens barrel 3 forward and backward in the optical axis direction to adjust the focal position of the lens barrel 3.

Next, the operation of the camera according to the present embodiment will be described with reference to the flowcharts of FIGS.
First, when the power dial 37 of the camera 1 is rotated to the on position and the power switch SW1 is turned on, the program starts and is executed sequentially from S1 in FIG.

(Figure 4: Main program)
FIG. 4 is a flowchart showing the main operation of the control apparatus 101. Hereinafter, the step in the flowchart is represented as S.

First, flags D, M, P, LV, and MV are set to 0 (S1).
The flag D is a monitor flag that becomes 1 when the monitor 17 is turned on and becomes 0 when the monitor 17 is turned off.
The flag M is a menu flag that becomes 1 when the menu is displayed on the monitor 17 and becomes 0 when the menu is not displayed on the monitor 17.
The flag P is a reproduction display flag which becomes 1 when an image is reproduced and displayed on the monitor 17 and becomes 0 when an image is not reproduced and displayed on the monitor 17.
The flag LV is a live view flag that becomes 1 at the time of live view in which a real-time image is displayed on the monitor 17 in the mirror up state, and becomes 0 when the live view is ended and the mirror is lowered.
The flag MV is a moving image flag that becomes 1 when moving image recording is performed in the mirror-up state, and that becomes 0 when moving image recording ends.

  Next, it is determined whether or not the power switch SW1 is off (S2). If the power is off (S2, YES), an off process is performed (S3), and the program is terminated. In the off process, when the menu is displayed, the monitor is turned off after the menu is terminated, and the program is terminated. When the image is being reproduced, the image reproduction is terminated and then the monitor 17 is turned off to terminate the program (details are shown in FIG. 5).

When the power is on (S2, NO), photometry, exposure calculation, and display on the information display device 111 are performed (S4, S5, S6).
When the live view button 32 is pressed (S7, YES), the live view mode is set (S8, details are shown in FIG. 7). Thereafter, the process returns to S2.

If the live view button 32 has not been pressed (S7, NO), it is determined whether the menu flag M is 1 (S9).
When the menu flag M is 1 (S9, YES), the menu mode is set (S10), the process proceeds to S11, and it is determined whether the menu button 35 is pressed (S11).
When the menu flag M is 0 (S9, NO), the process proceeds directly to S11, and similarly, it is determined whether or not the menu button 35 has been pressed (S11).

When the menu button 35 is pressed (S11, YES), the process proceeds to the menu button process of FIG. In the menu button process, in the menu mode (menu flag M = 1), the menu is terminated, the monitor 17 is turned off, and the menu flag M and the monitor flag D are set to 0. When an image is being reproduced (reproduction display flag P = 1), the image reproduction is terminated and menu display is performed, and the menu flag M is set to 1 and the reproduction display flag P is set to 0 (details are shown in FIG. 10).
If the menu button 35 is not pressed (S11, NO), the process proceeds directly to S13.

Thereafter, it is determined whether or not the playback button 34 has been pressed (S13). If the play button 34 is pressed, the process proceeds to the play button process of FIG. 11 (S14). In the reproduction button process, when the image is reproduced (reproduction display flag P = 1), the image reproduction is terminated, the monitor 17 is turned off, and the reproduction display flag P and the monitor flag D are set to 0. In the menu mode (menu flag M = 1), the menu is terminated and image reproduction is performed, the reproduction display flag P is set to 1, and the menu flag M is set to 0 (details are shown in FIG. 11). Then, the process proceeds to S15.
If the play button 34 has not been pressed, the process proceeds directly to S15.

In S15, it is determined whether or not the release button 36 is half-pressed. When the release button 36 is half-pressed (S15, YES), the half-press process of FIG. 12 is performed. In the half-press process, in the menu mode (menu flag M = 1), the menu is terminated, the monitor 17 is turned off, and the menu flag M and the monitor flag D are set to 0. When an image is being reproduced (reproduction display flag P = 1), image reproduction is terminated and menu display is performed, menu flag M is set to 1, reproduction display flag P is set to 0, and distance measurement by phase difference AF is performed. Then, the lens is driven (details are shown in FIG. 12), and the process proceeds to S17.
If the release button 36 is not pressed halfway (S15, NO), the process returns to step 2.

In S17, it is determined whether or not the release button 36 is fully pressed. When the release button 36 is fully pressed (S17, YES), the release sequence of FIG. 13 is performed (S18). Specifically, the shutter 14 speed is controlled by controlling the mirror up, the aperture narrowing, and the running timing of the front curtain and rear curtain of the shutter 14, the electric charge is accumulated in the image sensor 16, image processing, image compression, Record the image and take a still image with the mirror down. Thereafter, the process returns to S2.
When the release button 36 is not fully pressed (S17, NO), the process returns to S2.

(Figure 5: Off processing)
FIG. 5 is a flowchart showing the off process of S3. The off process is a process for ending the program when the power switch SW1 is off.

  First, it is determined whether the monitor 17 is lit (S21). When the monitor 17 is turned off (S21, NO, monitor flag D = 0), the off process ends.

If the monitor 17 is lit (S21, YES, monitor flag D = 1), it is determined whether live view display is being performed (S22).
When live view display is being performed (S22, YES, live view flag LV = 1), mirror down processing is performed (S23, FIG. 5), and the off processing is terminated.
When the live view display is not performed (S22, NO, live view flag LV = 0), it is determined whether a moving image is recorded (S24).

When a moving image is recorded (S24, YES, moving image flag MV = 1), a mirror down process is performed (S23, FIG. 5), and the off process ends.
If no moving image is recorded (S24, NO, moving image flag MV = 0), it is determined whether a menu is displayed (S25).
When the menu is not displayed (S25, NO, menu flag M = 0), the monitor 17 is turned on, and since the menu is not displayed, it is determined that the image is being reproduced, and the reproduction is terminated (S28). The display flag P is set to 0 (S29), and the process proceeds to S30.
When the menu is displayed (S25, YES, menu flag M = 1), the menu display is terminated (S26). The menu flag M is set to 0 (S27), and the process proceeds to S30.
In S30, the monitor 17 is turned off, the monitor flag D is set to 0 in S31, and the off process ends.

(Figure 6: Mirror down process)
FIG. 6 is a flowchart showing the mirror down process.
In the mirror down process, charge accumulation is first terminated (S41), and moving image reproduction is terminated (S42). The live view flag LV is set to 0 and the moving image flag MV is set to 0 (S43). The monitor 17 is turned off (S44), and the monitor flag D is set to 0 (S45).
The holding of the trailing curtain is released (S46). Wait until the trailing curtain finishes running (S47).
The reverse rotation of the mirror sequence motor 115 is started (S48). When the mirror down is finished (S49, YES), the sequence motor 115 is stopped (S50), and the mirror down process is finished.

(Figure 7: Live view mode)
FIG. 7 is a flowchart showing the operation in the live view mode. In the live view mode, first, mirror up processing is performed (S61, FIG. 8).
In the mirror-up process, the mirror is raised, the aperture is reduced, and the front curtain of the shutter 14 is opened. At this time, if the menu is displayed, the monitor 17 is turned off after the menu is finished, and if the image is being reproduced, the image reproduction is finished and the monitor 17 is turned off and then the mirror is raised (for details, see FIG. 8). ).

  When the mirror up is completed, the accumulation time is controlled (S62), the image is captured (S63), the image processing is performed (S64), and the moving image is compressed (S65).

Next, it is determined whether or not the moving image flag MV is 1 (S66).
When the moving image flag MV is 0 (S66, NO), the real time image is displayed on the monitor 17 as a moving image (S68), and the luminance of the moving image is calculated (S69).

In S70, it is determined whether or not the moving image button 33 has been pressed (S70). When the moving image button 33 is pressed (S70, YES), it is determined whether or not the moving image flag MV is 0 (S71). When the moving image flag MV is not 0 (S71, NO), it is set to 0 (S73), and when the moving image flag MV is 0, it is set to 1 and the processing proceeds to S74. When the moving image flag MV becomes 1, the process returns to S62 in S81 to be described later. In this case, since the moving image flag MV is 1 in S66 (S66, YES), the image is recorded on the recording medium (S67), and the process proceeds to S68 again.
If the moving image button 33 is not pressed in S70 (S70, NO), the process proceeds directly to S74.

  In S74, it is determined whether or not the AF button 31 has been pressed. When the AF button 31 is pressed (S74, YES), contrast AF focus detection based on the contrast of the imaging state of the subject light reaching the image sensor 16 is determined. (S75), the lens 23 is driven (S76), and the process proceeds to S77. If the AF button 31 is not pressed, the process proceeds directly from S74 to S77.

  In S77, it is determined whether or not the live view button 32 is pressed. When the live view button 32 is pressed (S77, YES), the moving image display of the real-time image is terminated, the monitor 17 is turned off, the live view flag LV, the moving image flag MV, and the monitor flag D are set to 0, and the mirror is lowered. Then, a mirror down process is performed to return the aperture to the open position and to run the rear curtain of the shutter 14 (FIG. 6).

If the live view button 32 is not pressed (S77, NO), it is determined whether the power is turned off (S79).
When the power is off (S79, YES), the process proceeds to (1) in FIG. 4, the moving image display of the real-time image is terminated, the monitor 17 is turned off, and the live view flag LV, moving image flag MV, and monitor flag D are set to 0. The turning-off process of FIG. 5 is performed, in which the mirror is lowered, the aperture is returned to the open state, and the rear curtain of the shutter 14 is run.

  If the power is on, it is determined whether or not the release button 36 has been fully pressed (S80). When the release button 36 is fully pressed (S80, YES), the process proceeds to (2) in FIG. Specifically, the moving image display of the real-time image is terminated, and in the process of FIG. 9, the monitor 17 is turned off, the live view flag LV, the moving image flag MV, and the monitor flag D are set to 0, the mirror is down, and the aperture is opened. The return and the rear curtain travel of the shutter 14 are performed. After that, photometry and distance measurement (phase difference AF) are performed, the lens is driven, a still image is taken, and the mirror is brought down (it does not automatically return to the live view mode).

If the release button 36 is not fully pressed (S80, NO), it is determined whether the moving image flag MV is 0 (S81).
When the moving image flag MV is 1, that is, when moving image shooting is being performed (S81, YES), the process returns to S62, and in S66, the moving image flag MV is 1, the process proceeds to S67 and an image is recorded. That is, when moving image shooting is performed, the determination of pressing the menu button 35 and the determination of pressing the playback button 34 are not performed after S81.

  If the moving image flag MV is 0 in S81, it is determined whether or not the menu button 35 has been pressed (S82). If the menu button 35 has been pressed (S82, YES), the process proceeds to the menu button process of FIG. 10 (S83). ). In the menu button processing, the moving image display of the real-time image is terminated, the monitor 17 is turned off, the live view flag LV, the moving image flag MV, and the monitor flag D are set to 0, the mirror is lowered, the aperture is opened again, and after the shutter 14 After the curtain running, the monitor 17 is turned on again to display the menu. At this time, the mirror-down state is maintained and the live view mode is not automatically restored.

If the menu button 35 has not been pressed (S82, NO), it is determined whether or not the playback button 34 has been pressed (S84). If the playback button 34 has not been pressed (S84, NO), the process returns to S62.
When the reproduction button 34 is pressed (S84, YES), the reproduction button process of FIG. 11 is performed (S85). That is, the moving image display of the real-time image is ended, the monitor 17 is turned off, the live view flag LV, the moving image flag MV, and the monitor flag D are set to 0, the mirror is lowered, the aperture is opened again, and the rear curtain running of the shutter 14 is performed. Then, the monitor 17 is turned on again to reproduce a predetermined image. At this time, the mirror-down state is maintained and the live view mode is not automatically restored.

(Figure 8: Mirror up process)
FIG. 8 is a flowchart showing the mirror-up process. In the mirror-up process, the mirror is raised, the aperture is reduced, and the front curtain of the shutter 14 is opened. At this time, if the menu is displayed, the monitor 17 is turned off after the menu display is finished, and if the image is reproduced, the monitor 17 is turned off after the image reproduction is finished, and then the mirror is raised.

Specifically, first, the live view flag LV is set to 1 (S91).
It is determined whether or not the monitor flag D is 0 (S92).
When the monitor flag D is 1 (S92, NO), it is determined whether the menu flag M is 1 (S95).
When the menu flag M is 0 (S95, NO), the reproduction is finished (S98), the reproduction display flag P is set to 0, and the process proceeds to S100.
When the menu flag M is 1 (S95, YES), the menu is terminated (S96), the menu flag M is set to 0, and the process proceeds to S100.
When the monitor flag D is 0 (S92, YES), the monitor 17 is turned on (S93). Then, the monitor flag D is set to 1, and the process proceeds to S100.

In S100, the front curtain and rear curtain of the shutter 14 are held, and the motor 115 starts normal rotation (S101).
The aperture position is detected (S102), and it is determined whether Pk ≧ Pc (S102). Pk is a drive aperture pulse detected by the aperture position detection device 116, and Pc is a pulse corresponding to the control aperture value.
When Pk ≧ Pc is not satisfied (S102, NO), the motor 115 continues to rotate forward and the aperture position is detected again (S102).
When Pk ≧ Pc (S102, YES), the diaphragm locking device 117 is operated to lock the diaphragm (S104), and when the mirror up is completed (S106), the motor 115 is stopped (S106).
Thereafter, the holding of the front curtain and rear curtain of the shutter 14 is released (S107), and charge accumulation in the image sensor 16 is started (S108).

(Figure 9: Processing when the release button is pressed during live view)
FIG. 9 is a flowchart showing processing when the release button is pressed during live view. In the process of FIG. 9, first, the mirror down process of FIG. 6 is performed.
Specifically, the moving image display of the real-time image is terminated, the monitor 17 is turned off, the live view flag LV, the moving image flag MV, and the monitor flag D are set to 0, the mirror is lowered, the aperture is opened again, and after the shutter 14 Perform a curtain run.

  Thereafter, photometry (S112), exposure calculation (S113), focus detection by phase difference AF is performed (S114), the lens 23 is driven (S115), and the release sequence shown in FIG. 13, that is, still image shooting is performed (S116). ).

(Figure 10: Menu button processing)
FIG. 10 is a flowchart showing menu button processing.
First, it is determined whether or not the live view flag LV is 1 (S121).
When the live view flag LV is 0 (S121, NO), it is determined whether the monitor flag D is 1 (S127).
When the monitor 17 is turned on and the monitor flag D is 1 (S127, YES), it is determined whether or not the reproduction display flag P is 1 (S128).
When the reproduction display flag P is 0 and no image is displayed on the monitor 17 (S128, NO), the menu is ended (S129).
The menu flag M is set to 0 (S130), and the monitor 17 is turned off (S131). Then, the monitor flag D is set to 0 and the process ends.
When the reproduction display flag P is 1 in S128 (S128, YES), the reproduction is terminated (S133), the reproduction display flag P is set to 0, and the process proceeds to S125.
When the monitor flag D is 0 in S127 (S127, NO), the process proceeds to S123.
In S121, when the live view display is performed (S121, YES), the mirror down process of FIG. 6 is performed (S122).
The monitor 17 is turned on (S123), the monitor flag D is set to 1, a menu is displayed (S125), the menu flag M is set to 1 and the process is terminated.

(Figure 11: Playback button processing)
FIG. 11 is a flowchart showing the playback button process. In the playback button process, first, it is determined whether or not the live view flag LV is 1 (S141).
If the live view flag LV is 0 (S141, NO), it is determined whether the monitor flag D is 1 (S147).
If the monitor flag D is 1 (S147, YES), it is determined whether the menu flag M is 1 (S148).
When the menu flag M is 0 (S148, NO), the reproduction is terminated (S149), and the reproduction display flag P is set to 0 (S150).
The monitor 17 is turned off (S151), the monitor flag D is set to 0 (S152), and the process ends.
If the menu flag M is 1 in S148 (S148, YES), the menu is terminated (S153), the menu flag M is set to 0 (S154), and the process proceeds to S145.
When the monitor flag D is 0 in S147 (S147, NO), the process proceeds to S123. In S141, when the live view display is performed (S121, YES), the mirror down process of FIG. 6 is performed (S142). The monitor 17 is turned on (S143), the monitor flag D is set to 1 (S144), reproduction display is performed (S145), the reproduction display flag P is set to 1, and the process ends.

(Figure 12: Half-press process)
FIG. 12 is a flowchart showing the half-press process. In the half-press process, first, it is determined whether or not the monitor flag D is 1 (S161). When the monitor flag D is 1 (S161, YES), it is determined whether or not the reproduction display flag P is 1 (S162).
When the reproduction display flag P is 0 (S162, NO), the menu is terminated (S165). Then, the menu flag M is set to 0 (S166), and the process proceeds to S167.
If the playback display flag P is 1 in S162, playback is terminated (S163), and the playback display flag P is set to 0 (S164).
In S167, the monitor 17 is turned off and the monitor flag D is set to 0 (S168).
Thereafter, the focus is detected by phase difference AF (S169). If the monitor flag D is 0 in S161, the process proceeds to S169. Then, the lens is driven (S170), and the process ends.

(Figure 13: Release sequence)
FIG. 13 is a flowchart showing a release sequence.
First, the front curtain and rear curtain of the shutter 14 are held (S181).
The forward rotation of the motor 115 is started (S182). As a result, the mirror-up operation and the aperture narrowing are started.
The aperture position is detected (S183), and it is determined whether Pk ≧ Pc (S184),
When Pk ≧ Pc is not satisfied (S184, NO), the forward rotation of the motor 115 is continued and the aperture position is detected again (S183).
When Pk ≧ Pc (S184, YES), the diaphragm locking device 117 is operated to lock the diaphragm (S185), and when the mirror up is completed (S186), the motor 115 is stopped (S187).

Thereafter, the system waits for a predetermined time (S188), and starts accumulating charges in the image sensor 16 (S189). The holding of the front curtain of the shutter 14 is released (S190), and after the time corresponding to the shutter speed has elapsed, the holding of the rear curtain of the shutter 14 is released (S191).
The process waits until the trailing curtain finishes running (S192), and the charge accumulation of the image sensor 16 started in S189 is terminated (S193).
The reverse rotation of the motor 115 is started (S194), the accumulated charge is read (S195), converted into a digital signal, and data processing as an image is performed (S196). When the motor 115 starts to reversely rotate, the mirror down operation and the return of the aperture to the open state are started.
The image data is compressed (S197), and the image data is recorded (S198). After that, it is determined whether the mirror is down (S199). When the mirror down is finished (S199, YES), the motor 115 is stopped (S200), and the release sequence is finished.

As described above, according to this embodiment,
When the release button 36 is fully pressed while the camera 1 is powered on, still image shooting is performed. When the live view button 32 is pressed while the power of the camera 1 is on, live view display is performed on the monitor 17. Then, a) When the release button 36 is fully pressed during live view, still image shooting is performed. b) When the moving image button 33 is pressed during live view, moving image shooting is performed. When the moving image button 33 is pressed again, the moving image shooting is ended and the live view state is set. c) When the live view button 32 is pressed during live view, the live view is stopped.

  As described above, the live view button 32 is provided in addition to the release button 36 for starting a still image and the moving image button for moving image shooting. Then, separating the observation of the subject with the eyepiece optical system in the mirror-down state and the observation of the subject with the rear liquid crystal in the mirror-up state, and pressing the release button 36 in the mirror-up state live view mode It was possible to shoot and start moving image shooting by pressing the moving image button.

  Therefore, in the live view mode, when the release button 36 is pressed, still image shooting is performed immediately, and when the moving image button is pressed, moving image shooting is started immediately. Therefore, the camera 1 of the present embodiment is stationary. Convenient when shooting pictures and videos.

  Further, if the release button 36 is pressed during moving image shooting, a still image is immediately shot, which is convenient for the still camera 1.

  Furthermore, since the moving image shooting is not started even when the moving image button 33 is pressed in the mirror-down state, the moving image button 33 may be inadvertently pressed to start moving image shooting while checking the finder image. Absent. For this reason, it is the same usage as the conventional single-lens reflex camera 1 without moving image shooting, and the photographer does not get confused in operation. Furthermore, it is easy to use as the still camera 1 because it does not inadvertently shoot moving images.

(Deformation)
The present invention is not limited to the above-described embodiment, and various modifications and changes as described below are possible, and these are also within the scope of the present invention.
(1) FIG. 14 shows an OK button which is assigned to another function (for example, a function for displaying information) to the button 40 arranged at the position of the moving image button 33 in FIG. When 41 is pressed during live view, moving image shooting is started. FIG. 15 shows the OK switch 9 that is turned on in conjunction with the depression of the OK button 41 and turned off in conjunction with the release of the depression. In this case, S70 in FIG. 7 is changed to a determination of “OK button pressed?”.

(2) In FIG. 16, when the moving image button 33 cannot be secured at the position shown in FIG. 2A, moving image shooting starts when the function button 51 arranged on the front surface of the camera 1 is pressed during live view. It is a form. FIG. 17 shows the function switch 10 that is turned on in conjunction with the depression of the function button 51 and turned off in conjunction with the release of the depression. In this case, S70 of FIG. 7 is changed to the determination of “function button pressed?”.
(3) The moving image button 33 shown in FIG. 2A may be a member that also has a plurality of functions other than the function related to the instruction for moving image shooting, and is specified from, for example, a menu screen from a plurality of predetermined functions. You may be able to select the function. The moving image button 33 can also function as an operation member for other functions when the mirror is down.
Note that the embodiment and the modification can be used in appropriate combination, but detailed description thereof is omitted. Further, the present invention is not limited to the embodiment described above.

1 is a schematic view of a digital eye reflex camera 1 according to an embodiment of the present invention. (A) is a rear view of the camera, and (b) is a front view of the camera. It is a block diagram which shows the structure of a camera. It is a flowchart which shows the main operation | movement of an arithmetic circuit. It is a flowchart which shows an OFF process. It is a flowchart which shows a mirror down process. It is a flowchart which shows operation | movement of the arithmetic circuit in live view mode. It is a flowchart which shows a mirror up process. It is a flowchart which shows a process when the release button is pressed during live view. It is a flowchart which shows a menu button process. It is a flowchart which shows a reproduction | regeneration button process. It is a flowchart which shows a half-press process. It is a flowchart which shows a release sequence. It is the figure which showed arrangement | positioning of the button in a deformation | transformation form. It is the figure which showed the OK switch which turns on in response to depression of the OK button in a deformation | transformation form, and turns off in conjunction with cancellation | release of depression. It is the figure which showed arrangement | positioning of the button in a deformation | transformation form. It is the figure which showed the function switch which turns on in response to pushing down of a function button, and turns off in conjunction with cancellation of pushing down.

Explanation of symbols

  1: camera, 5: photographing optical system, 11: mirror mechanism, 14: shutter, 16: image sensor, 17: monitor, 32: live view button, 33: moving image button, 36: release button, A: mirror down position, B: Mirror up position

Claims (5)

An image sensor that captures an optical image from the imaging optical system;
A mirror member that moves between a first position disposed in the optical path of the photographing optical system and a second position disposed outside the optical path of the photographing optical system;
A shutter disposed between the image sensor and the photographing optical system;
A first operating member for instructing start of moving image shooting for recording an image based on a signal output from the image sensor as a moving image when the mirror member is in the second position and the shutter is opened; With
When the first operating member is operated when the mirror member is held at the second position, the moving image shooting is started, and the mirror member is held at the first position. An imaging device characterized in that the instruction to shoot a moving image is invalidated when operated at times. The imaging device according to claim 1,
A display device for displaying an image based on an output signal of the image sensor;
A second operating member for instructing the start of still image shooting;
Instructing the start of a live view display in which an image based on a signal output from the image sensor is displayed in real time on the display device when the mirror member is in the second position and the shutter is opened. And an operation member.
When the second operating member is operated during the live view display and the moving image shooting, the still image shooting is started after the mirror member is temporarily moved from the second position to the first position. ,
When the third operation member is operated during the live view display, the mirror member is moved from the second position to the first position to end the live view display. . The imaging device according to claim 1 or 2,
The imaging apparatus according to claim 1, wherein the first operation member is a member that also has a function other than the function related to the moving image shooting instruction. The imaging device according to claim 3,
The first operation member is a member capable of selecting and setting a specific function as the other function from a plurality of predetermined functions. The imaging device according to claim 3 or 4,
The first operation member functions as an operation member for the other function when the mirror member is held at the first position.

Images