JP4131018B2 - Tilt data changing device for electronic still camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic still camera including an inclination sensor that detects an inclination angle of a camera body.
[0002]
[Prior art]
In a conventional electronic still camera, when an image obtained through a photographing optical system is displayed on a computer display device, an image sensor equipped with a tilt sensor is used to adjust the vertical direction of the image to the posture of the camera body. Are known. That is, the tilt sensor detects whether the camera body is set to the vertical position or the horizontal position. For example, when the camera body is set to the vertical position, the display device displays a vertically long image. In addition, tilt data indicating the vertical position is recorded on the recording medium together with the image data.
[0003]
[Problems to be solved by the invention]
When shooting with the camera body tilted at approximately 45 degrees, or when shooting while moving the camera body in the tilted state, an error occurs in the camera body posture detection by the tilt sensor, and it should be detected as a vertical position. Sometimes it is detected that it is in the horizontal position.
[0004]
An object of the present invention is to provide an inclination data changing device that can easily avoid erroneous detection when an erroneous detection by a tilt sensor is likely to occur.
[0005]
[Means for Solving the Problems]
The tilt data changing device for an electronic still camera according to the present invention is configured to display the first tilt data indicating the tilt angle of the camera body detected by the tilt sensor on the upper and lower sides of the image obtained through the photographing optical system. Data detecting means for detecting data indicating the direction, and data indicating the vertical direction of the image can be changed to second inclination data different from the first inclination data. And a data change means.
[0006]
The data changing means includes, for example, detection operation pause means for temporarily stopping the operation of the data detection means. In this case, preferably, the second slope data is the default slope data. The temporary stop of the detection operation pause means may be executed and canceled when a switch for driving the data detection means is in an ON state. Further, the suspension of the detection operation suspension means may be canceled by the end of the photographing operation of the electronic still camera. Further, the pause of the detection operation pause means may be released after a predetermined time has elapsed since the start.
[0007]
The data changing means may be configured to obtain the second tilt data by correcting the first tilt data. In this case, preferably, the first or second inclined data and the recording means for recording the image on the recording medium, and the first or second inclined data before the recording operation on the recording medium are appropriate. Confirmation message display means for displaying a message for confirming whether or not. The inclination data changing device may further include a data re-correcting means that can further correct the second inclination data.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view showing a state in which an electronic still camera to which the first embodiment of the present invention is applied is viewed from the rear.
[0009]
This electronic still camera is a single-lens reflex camera, and the interchangeable lens 11 is detachably attached to the camera body 90. An optical viewfinder 91 is provided at the center of the upper portion of the camera body 90, and a liquid crystal panel (liquid crystal display element) 46 is provided at the approximate center of the back surface 92. On the liquid crystal panel 46, an image obtained by the interchangeable lens 11 that is a photographing optical system is displayed as a moving image, and a still image stored in a memory (not shown) can be displayed by a photographing operation. A mode setting switch 95 is provided beside the liquid crystal panel 46. The mode setting switch 95 is provided for setting various operation modes, and is a jog dial in the illustrated embodiment.
[0010]
When the camera body 90 is viewed from the back 92 side, a shutter button 93, a status display device 55, and a detection operation pause switch 97 are provided on the right side of the upper part of the camera body 90. The status display device 55 includes a liquid crystal display element, and various setting states of the electronic still camera are displayed on the liquid crystal display element as characters or symbols. As will be described later, the detection operation pause switch 97 is provided to temporarily stop a position information detection recording mode in which an output signal from an inclination sensor (not shown) is detected and recorded.
[0011]
The tilt sensor is provided in the camera body 90. Whether the camera body 90 is placed in the horizontal position, that is, in the state shown in FIG. 1, or in the inverted state, or in the vertical position, that is, in FIG. From the state shown, it can be detected whether the lens is rotated by about 90 degrees around the optical axis of the interchangeable lens 11, and a signal corresponding to these states is output. Since the configuration of the tilt sensor is conventionally known, the description thereof is omitted.
[0012]
A card slot 96 is formed on the side surface of the camera body 90. The card slot 96 is provided for inserting a PC card (memory card) into the camera body 90, and a card connector (not shown) into which the PC card is inserted is provided inside the card slot 96.
[0013]
FIG. 2 is a block diagram mainly showing an electrical configuration of the electronic still camera.
The interchangeable lens 11 is electrically connected to an electric circuit provided in the camera body 90 (FIG. 1) via mount pins 12 and 13. A front lens group 14 and a rear lens group 15 are provided in the lens barrel of the interchangeable lens 11, and a diaphragm 16 is disposed between these lenses 14 and 15. The lenses 14 and 15 are displaced in the direction of the optical axis under the control of the lens control circuit 17 to perform focus adjustment. The lens control circuit 17 operates in accordance with a control signal sent from the system controller 31 provided in the camera body via the mount pin 12. The aperture 16 operates in accordance with a control signal sent from the aperture drive circuit 32 provided in the camera body via the mount pin 13, and the opening of the aperture 16 is adjusted. The aperture drive circuit 32 is controlled by the system controller 31.
[0014]
A half mirror 21 is provided on the optical axis of the lenses 14 and 15 in the camera body. The half mirror 21 is fixed at a position inclined by about 45 degrees with respect to the optical axes of the lenses 14 and 15. A focus plate 22 is provided above the half mirror 21, and a pentaprism 23 is provided above the focus plate 22. A finder eyepiece 24 is disposed behind the pentaprism 23. Therefore, the light taken in from the lenses 14 and 15 is reflected by the half mirror 21 and guided to the pentaprism 23 side, and the subject image is observed through the eyepiece lens 24.
[0015]
An infrared cut filter 26 and an optical low-pass filter 27 are provided behind the half mirror 21. A CCD (imaging device) 33 is provided behind the optical low-pass filter 27. Therefore, the light taken in from the lenses 14 and 15 passes through the half mirror 21 and is irradiated on the light receiving surface of the CCD 33. That is, an image obtained by the lenses 14 and 15 is formed on the light receiving surface, and the CCD 33 generates an imaging signal corresponding to the image.
[0016]
A pulse signal generation circuit (PPG) 36 is connected to the system controller 31, and the pulse signal generation circuit 36 generates various pulse signals under the control of the system controller 31. Based on these pulse signals, the CCD drive circuit 37, the A / D converter 38, and the image signal processing circuit 39 are driven, and the CCD drive circuit 37 controls the operation of the CCD 33. That is, the image pickup signal read from the CCD 33 is converted into a digital signal by the A / D converter 38 and subjected to predetermined image processing in the image signal processing circuit 39. The image signal processing circuit 39 is connected to a memory 40 having a sufficient capacity for storing digital image data corresponding to one image.
[0017]
A monitor interface 41 and a card interface 42 are connected to the image signal processing circuit 39. These interfaces 41 and 42 are controlled by the system controller 31.
[0018]
A backlight 45 and a liquid crystal panel 46 are connected to the monitor interface 41 via a liquid crystal drive circuit 44. In the liquid crystal panel 46, as described above, the liquid crystal driving circuit 44 is controlled based on the image pickup signal read from the CCD 33, whereby the image obtained by the interchangeable lens 11 is displayed as a moving image, and the memory 40 The liquid crystal driving circuit 44 is controlled based on the image data read out from, and a still image is displayed. A card connector 47 is connected to the card interface 42, and a PC card 43 can be attached to the card connector 47.
[0019]
An AF sensor 51 and a photometric sensor 52 are connected to the system controller 31. The AF sensor 51 has a conventionally known configuration, and the AF sensor 51 measures the focus adjustment state of the lenses 14 and 15. The photometric sensor 52 performs photometry to determine the opening of the diaphragm 16 at the time of exposure and the charge accumulation time (exposure time) in the CCD 33.
[0020]
The system controller 31 is connected to a photometric switch 53, a release switch 54, and a status display device 55. The metering switch 53 is turned on by half-pressing the shutter button 93, whereby the metering sensor 52 performs metering. The release switch 54 is turned on by fully pressing the shutter button 93, whereby the image pickup operation of the CCD 33 is started, and an image pickup signal corresponding to the image is generated in the CCD 33.
[0021]
Further, a mode setting switch 95 and a detection operation pause switch 97 are connected to the system controller 31. As described above, the mode setting switch 95 is a jog dial. When the mode setting switch 95 is pressed at a rotational position corresponding to the operation mode, the operation mode is set. As an operation mode, for example, there is a position information detection recording mode in which it is detected whether the camera body is in the horizontal position or the vertical position and the information is recorded. The operation of the position information detection recording mode can be temporarily stopped by pressing the detection operation pause switch 97.
[0022]
Further, a tilt sensor 81 is connected to the system controller 31, and based on a tilt signal output from the tilt sensor 81, it is determined whether the camera body 90 is set to the horizontal position or the vertical position.
[0023]
3 and 4 are flowcharts of a photographing operation control routine which is a program for performing a photographing operation. This program is executed in the system controller 31.
[0024]
In step 101, the parameter PS relating to the temporary stop of the position information detection recording mode is set to zero.
[0025]
In step 102, it is determined whether or not the photometric switch 53 has been turned on. Step 102 is repeatedly executed while the photometric switch 53 is in the off state. When the photometric switch 53 is in the on state, the process proceeds to step 103 where photometry and exposure calculation are executed. That is, the opening degree of the diaphragm 16 and the shutter speed are determined. In step 104, it is determined whether or not the release switch 54 has been turned on. When the release switch 54 is in the OFF state, the process returns to step 102. When the release switch 54 is in the ON state, the process proceeds to step 105.
[0026]
In step 105, it is determined whether or not the position information detection recording mode is on. The on / off state of the position information detection recording mode is determined by operating the mode setting switch 95. When the position information detection recording mode is on, the routine proceeds to step 106, where it is determined whether or not the parameter PS is zero. When the parameter PS is 0, the position information detection recording mode is continuously executed, and when the parameter PS is not 0, the position information detection recording mode is temporarily stopped. The parameter PS is normally 0, but is set to 1 by the action of a position information detection recording pause routine described later when the detection operation pause switch 97 is pressed.
[0027]
When it is determined at step 106 that the parameter PS is 0, the routine proceeds to step 107 in order to continue the position information detection recording mode. In step 107, the vertical and horizontal positions of the camera body 90 are detected, and first tilt data indicating the tilt angle of the camera body 90 detected by the tilt sensor 81 is obtained via the interchangeable lens 11 (shooting optical system). The detected image is detected as data indicating the vertical direction of the image, and the routine proceeds to step 108. On the other hand, when it is determined in step 105 that the position information detection recording mode is in the off state, steps 106 and 107 are skipped. When it is determined in step 106 that the parameter PS is not 0, that is, when the position information detection recording mode is paused, step 107 is skipped.
[0028]
In step 108, an electronic shutter operation, that is, exposure in the CCD 33 is started via the CCD drive circuit 37. In step 109, it is determined whether or not the exposure has ended, that is, whether or not the CCD 33 has been exposed for a time corresponding to the shutter speed determined in step 103. When it is confirmed in step 109 that the exposure has been completed, the process proceeds to step 110 where the image signal generated in the CCD 33 is read from the CCD 33, converted into digital image data, and stored in the memory 40.
[0029]
In step 111, it is determined whether or not the position information detection recording mode is on. When the position information detection recording mode is in the ON state, the process proceeds to step 112, where it is determined whether or not the parameter PS is 0. When the parameter PS is 0, steps 113 and 114 are executed. In step 113, rotation processing is performed on the image data read from the memory 40, and the image is rotated around its center by an angle based on the first tilt data detected by the tilt sensor 81. And is displayed on the LCD 46. For example, when shooting is performed with the camera body 90 set to the vertical position, a vertically long image is displayed on the LCD 46 by the process of step 113. In step 114, the image data and the first tilt data are recorded on the PC card 43, and the program ends.
[0030]
On the other hand, when it is determined in step 112 that the parameter PS is not 0, steps 115 and 116 are executed. In step 115, the image is displayed on the LCD 46 as it is based on the image data read from the memory 40 regardless of the output signal of the tilt sensor 81. That is, even if the tilt sensor 81 outputs a signal indicating that the camera body 90 is in the vertical position, the image data is not rotated. In step 116, image data and default inclination data, that is, second inclination data indicating that the inclination angle of the camera body 90 is 0 are recorded in the PC card 43, and this program is recorded. Ends. In this way, when the parameter PS is not 0, default inclination data is recorded as data indicating the vertical direction of the image.
[0031]
FIG. 5 is a flowchart of a position information detection / recording pause routine which is a program for temporarily stopping the position information detection / recording mode. This program is executed by the system controller 31 and is interrupted, for example, every 10 msec.
[0032]
In step 201, it is determined whether or not the detection operation pause switch 97 is set to an on state. When the detection operation pause switch 97 is in the OFF state, the process proceeds to step 208, and steps 202 to 207 are not executed. On the other hand, when the detection operation pause switch 97 is on, the parameter PS is set to 1 in step 202. Next, at step 203, a timer for measuring the pause time is set to a predetermined time, and at step 204, the timer is started.
[0033]
In step 205, it is determined whether or not the predetermined time (for example, 10 seconds) set in step 203 has elapsed from the start of the timer. If the predetermined time has not yet elapsed, it is determined in step 206 whether or not the release switch 54 is in the on state. If it is not in the on state, step 205 is executed again. That is, when the predetermined time has not elapsed and the release switch 54 is not in the ON state, steps 205 and 206 are repeatedly executed.
[0034]
If the release switch 54 is switched to the ON state during the execution of steps 205 and 206, the process proceeds to step 207, where it is determined whether or not the photographing operation has been completed. That is, it is determined whether or not the photographing operation control routine of FIGS. When it is confirmed in step 207 that the photographing operation has been completed, the parameter PS is set to 0 in step 208, and this program ends.
[0035]
On the other hand, when a predetermined time elapses between the execution of steps 205 and 206, that is, when it is detected that the predetermined time elapses after the parameter PS is set to 1, the process proceeds from step 205 to step 208. After the parameter PS is set to 0, the program ends.
[0036]
As described above, in the position information detection recording pause routine of FIG. 5, when the detection operation pause switch 97 is in the OFF state, the parameter PS is set to 0 in step 208. On the other hand, when the detection operation pause switch 97 is in the ON state, the parameter PS is set to 1 in step 202, and the parameter PS is maintained at 1 before a predetermined time has passed thereafter. . Accordingly, the vertical and horizontal position detection (step 107) is not performed in the photographing operation control routine (FIGS. 3 and 4) until the predetermined time elapses after the parameter PS is set to 1, and step 115, 116 is executed and the image is not rotated.
[0037]
When a predetermined time elapses after the parameter PS is set to 1, the parameter PS is reset to 0 in step 208, and the temporary stop is released. Therefore, in the photographing operation control routine, the vertical and horizontal positions are detected, steps 113 and 114 are executed, and the image is rotated.
[0038]
On the other hand, if the photographing operation is completed before the predetermined time has elapsed after the parameter PS is set to 1, the parameter PS is reset to 0 in step 208, and then the photographing operation is executed. 3 and 4, vertical and horizontal position detection is performed, and steps 113 and 114 are executed.
[0039]
As described above, according to the present embodiment, when the position information detection recording mode is in the ON state, the position information detection recording mode is temporarily stopped or executed, and the first and second horizontal position detection of the camera body 90 is performed. The image is displayed and recorded using the tilt data of the above or the default second tilt data. Therefore, when the camera body 90 is tilted at about 45 degrees and shooting is performed, when the output signal of the tilt sensor 81 becomes unstable and an erroneous signal is likely to be output, the detection operation pause switch 97 is pressed. As a result, detection of the output signal of the tilt sensor 81 can be temporarily stopped, and erroneous processing based on the erroneous signal can be prevented. In the present embodiment, the position information detection recording mode is automatically canceled when a predetermined time has elapsed after the detection operation pause switch 97 is switched on. There is no need to switch the operation pause switch 97 to the OFF state.
[0040]
FIG. 6 is a flowchart of the position information detection / recording pause routine in the second embodiment. Similarly to the first embodiment, this program is interrupted, for example, every 10 msec. In the second embodiment, other configurations are the same as those of the first embodiment.
[0041]
In step 301, it is determined whether or not the detection operation pause switch 97 is set to an on state. When the detection operation pause switch 97 is off, the process proceeds to step 305, and steps 302 to 304 are not executed. On the other hand, when the detection operation pause switch 97 is on, the parameter PS is set to 1 in step 302. Next, at step 303, it is determined whether or not the release switch 54 is on. When the release switch 54 is not in the on state, step 303 is repeatedly executed. When the release switch 54 is switched to the on state, the process proceeds to step 304, where it is determined whether or not the photographing operation is completed. If it is confirmed in step 304 that the photographing operation has been completed, the parameter PS is set to 0 in step 305, and this program ends.
[0042]
As described above, in the position information detection / recording pause routine of this embodiment, when the detection operation pause switch 97 is in the ON state, the parameter PS is reset to 0 by the end of the photographing operation, and the position information The temporary stop of the detection recording mode is released. That is, in the second embodiment, as in the first embodiment, the temporary stop is not automatically released with the passage of a predetermined time, but once the detection operation temporary stop switch 97 is set to the on state, The position information detection recording mode is not canceled until the photographing operation is completed. Therefore, when the arrival of a photo opportunity is indefinite, that is, when the timing from when the detection operation pause switch 97 is set to the on state to when the release switch 54 is turned on to start the photographing operation is indefinite, It is possible to prevent the suspension from being released before the photographing operation and photographing in the state where the inclination sensor 81 is erroneously detected.
[0043]
FIG. 7 is a flowchart of the position information detection / recording pause routine in the third embodiment. This program is interrupted, for example, every 10 msec. In the third embodiment, other configurations are the same as those in the first embodiment.
[0044]
The contents of steps 401 to 406 and 408 are the same as steps 201 to 206 and 208 of FIG.
[0045]
If the release switch 54 is switched to the ON state during the execution of steps 405 and 406, the process proceeds to step 407, where it is determined whether or not the photographing operation has been completed. If it is determined in step 407 that the shooting operation has been completed, the process returns to step 405. That is, if the predetermined time has not elapsed from the timer start in step 404 even after the photographing operation is completed, the loop of steps 405 to 406 is repeatedly executed, and the process proceeds to step 408 only after the predetermined time has elapsed. To do.
[0046]
As described above, in the third embodiment, the position information detection / recording mode is maintained even if the photographing operation is completed until a predetermined time elapses after it is detected that the position information detection / recording pause switch 97 is turned on. The pause of the mode is maintained. Therefore, when shooting is performed at a relatively short interval (interval), it is not necessary to set the position information detection / recording pause switch 97 for each shooting, and the position information detection / recording mode is finally paused. Since it is released, manual release after the last shooting can be omitted, and forgetting to release can be avoided.
[0047]
FIG. 8 is a block diagram mainly showing an electrical configuration of the electronic still camera according to the fourth embodiment. The difference from the first embodiment shown in FIG. 2 is that a rotation correction switch 98 is provided in place of the detection operation temporary stop switch 97, and the others are the same as in the first embodiment. The rotation correction switch 98 is provided at the same position as the detection operation pause switch 97 (see FIG. 1) on the back surface of the camera body 90.
[0048]
FIG. 9 is a flowchart of the photographing operation control routine in the fourth embodiment. In the present embodiment, the position information detection recording pause routine is not provided.
[0049]
In step 501, it is determined whether or not the photometry switch 53 is turned on. When the photometry switch 53 is turned on, photometry and exposure calculation are executed in step 502, and the opening of the diaphragm 16 and the shutter speed are determined. Is done. In step 503, it is determined whether or not the release switch 54 has been turned on. When the release switch 54 is in the off state, the process returns to step 501. When the release switch 54 is in the on state, the process proceeds to step 504.
[0050]
In step 504, based on the output signal of the tilt sensor 81, first tilt data indicating the tilt angle of the camera body 90, that is, angle information A [0 ° / 90 ° / 180 ° / −90 °] is obtained. . Thus, since there are four types of angle information A, it can be expressed as, for example, 2-bit data, but various conventionally known methods can be used.
[0051]
In step 505, exposure of the CCD 33 is started. In step 506, it is determined whether the exposure has ended. In step 506, when it is confirmed that the exposure is completed, the process proceeds to step 507, where the image signal generated in the CCD 33 is read from the CCD 33, converted into digital image data, and stored in the memory 40.
[0052]
In step 508, the image data read from the memory 40 is rotated, and the image is rotationally displaced about its center by the angle information A detected by the tilt sensor 81, and is displayed on the LCD 46. Is displayed. In step 509, a message to the effect that the rotation process executed in step 508 should be confirmed is displayed on the LCD 46. In step 510, it is determined whether or not the rotation correction switch 98 is set to the on state. When the rotation correction switch 98 is on, step 511 is executed, and the correction rotation angle selected by the mode setting switch 95 is read. That is, the user looks at the image displayed at step 508 and the message displayed at step 509 to determine whether or not the rotation processing is appropriate, and presses the rotation correction switch 98 to turn it on. The correction rotation angle can be selected by rotating the setting switch 95.
[0053]
In step 512, it is determined whether or not the corrected rotation angle selected in step 511 should be confirmed. By pressing the mode setting switch 95 which is a jog dial, the corrected rotation angle is determined. If it is not confirmed, step 511 is executed again, and the corrected rotation angle is changed. When the corrected rotation angle is determined in this manner, based on this, the angle information A is corrected in step 513 to obtain second tilt data. Then, the process returns to step 508, the image data is rotated based on the corrected angle information A (second tilt data), and the image is displayed on the LCD 46.
[0054]
Next, steps 509 and 510 are executed, and when it is determined in step 510 that the rotation correction switch 98 is in the OFF state, the process proceeds to step 514, and whether or not the angle information A selected at that time should be confirmed. Is determined. Steps 514 and 510 are repeatedly executed until the mode setting switch 95 is pressed. If the rotation correction switch 98 is switched to the ON state during that time, step 511 is executed again, but the mode setting switch 95 is pressed. When it is confirmed in step 514 that the angle information A is confirmed, step 515 is executed, and the angle information A (first or second tilt data) and the image data are stored in the PC card 43. The program is terminated.
[0055]
As described above, according to the present embodiment, the image displayed on the LCD 46 can be viewed to check the vertical direction of the image, and the rotation angle of the image can be corrected as necessary. Therefore, accurate position information can always be recorded on the PC card 43 even if the detection data of the tilt sensor 81 is incorrect.
[0056]
In the above-described embodiment, the position information detection mode is set by the mode setting switch 95. However, the present invention does not operate the mode setting switch 95 in a normal state. The present invention can also be applied to an electronic still camera configured to execute the position information detection mode.
[0057]
【The invention's effect】
As described above, according to the present invention, when erroneous detection by the tilt sensor is likely to occur, the erroneous detection can be easily avoided.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a state in which an electronic still camera to which a first embodiment of the present invention is applied is viewed from behind.
FIG. 2 is a block diagram mainly showing an electrical configuration of an electronic still camera.
FIG. 3 is a first half portion of a flowchart of a photographing operation control routine.
FIG. 4 is the latter half of the flow chart of the photographing operation control routine.
FIG. 5 is a flowchart of a position information detection recording pause routine in the first embodiment.
FIG. 6 is a flowchart of a position information detection recording pause routine in the second embodiment.
FIG. 7 is a flowchart of a position information detection / recording / pause routine in the third embodiment.
FIG. 8 is a block diagram mainly showing an electrical configuration of an electronic still camera according to a fourth embodiment.
FIG. 9 is a flowchart of an imaging operation control routine in the fourth embodiment.
[Explanation of symbols]
11 Interchangeable lens (shooting optical system)
81 Tilt sensor
90 Camera body

Claims (3)

  Data detection means for detecting first tilt data indicating the tilt angle of the camera body detected by the tilt sensor as data indicating the vertical direction of an image obtained via the photographing optical system, and operation of the data detection means Detecting operation suspending means for temporarily stopping the image, and the data indicating the vertical direction of the image can be changed to second inclination data different from the first inclination data by the suspension of the detecting operation suspending means. Yes, the detection operation suspension means is maintained regardless of the elapsed time and is released after the photographing operation is completed, or the detection operation suspension means is temporarily stopped after the photographing operation is finished and predetermined. An inclination data changing device for an electronic still camera, which is released after a lapse of time.   The inclination data changing device according to claim 1, wherein the second inclination data is default inclination data.   The inclination data changing device according to claim 1, wherein the suspension of the detection operation suspension means is executed and canceled while a switch for driving the data detection means is in an ON state.

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