JP2008271210A - Imaging device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an imaging device capable of speedily retrieving a target image. <P>SOLUTION: A video camera 1 (imaging device) is equipped with a tilt sensor 9 which detects the video camera 1 tilting and a control unit 1c which performs control to change an update time or update unit of an image when the tilting of the video camera 1 is detected. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an imaging device, and more particularly, to an imaging device including a display unit that displays a captured image.

  2. Description of the Related Art Conventionally, imaging devices that include a display unit that displays captured images are known (see, for example, Patent Documents 1 to 3).

  Patent Document 1 discloses an image reproducing device including a liquid crystal monitor (display unit) for displaying an image. In the image reproducing apparatus described in Patent Document 1, a liquid crystal monitor is rotatably attached to the apparatus main body. Then, the display image is updated to the next image by rotating the liquid crystal monitor by a predetermined angle while the image is displayed on the liquid crystal monitor.

  Patent Document 2 discloses a terminal device including a display unit, an inclination sensor for detecting the inclination of the apparatus body, and an operation unit including a plurality of buttons. In the terminal device described in Patent Document 2, reduced images are displayed in two rows on the display unit, and two rows of reduced images are sequentially displayed by button operation on the operation unit. In the state where the reduced images arranged in two rows are displayed, when the inclination of the apparatus main body is detected by the inclination sensor, the reduced image corresponding to the inclination direction side of the apparatus main body is enlarged and displayed. ing.

  Patent Document 3 discloses a portable terminal device including a display unit and a tilt sensor for detecting the tilt of the device body. In the portable terminal device described in Patent Document 3, when the tilt of the device main body is detected by the tilt sensor when the moving image is reproduced on the display unit, fast-forwarding and rewinding are performed depending on the detected tilt angle. It is comprised so that operation | movement may be performed.

JP-A-2005-198256 JP 2003-150296 A JP 2006-148773 A

  However, while the image reproduction apparatus described in Patent Document 1 is configured to update the display image by rotating the liquid crystal monitor, the display image is always updated only at a constant speed. Therefore, there is a problem that it is difficult to quickly search for a target image. Further, since it is considered that the display image is always updated only in a predetermined unit, there is a problem that it is difficult to quickly search for a target image.

  Further, the terminal device described in Patent Document 2 is configured so that reduced images arranged in two rows are sequentially displayed by button operation in the operation unit, while updating of the display image is always performed at a constant speed. Therefore, there is a problem that it is difficult to quickly search for a target image. Further, since it is considered that the display image is always updated only in a predetermined unit, there is a problem that it is difficult to quickly search for a target image.

  Further, the mobile terminal device described in Patent Document 3 is configured to perform an operation such as fast-forwarding according to the magnitude of the tilt angle detected by the tilt sensor, while the display image is constantly updated. Since it can be considered only at a speed, there is a problem that it is difficult to quickly search for a target image. Further, since it is considered that the display image is always updated only in a predetermined unit, there is a problem that it is difficult to quickly search for a target image.

  The present invention has been made to solve the above-described problems, and one object of the present invention is to provide an imaging apparatus capable of quickly searching for a target image.

Means for Solving the Problems and Effects of the Invention

  An imaging apparatus according to a first aspect of the present invention includes an apparatus main body that captures an image, a display unit that displays an image captured on the apparatus main body, an inclination detection unit that detects an inclination of the apparatus main body, and a display on the display unit. A control unit that controls to change the update time or update unit of the image when it is detected that the apparatus body is tilted by a predetermined angle in a predetermined direction when updating the image to be performed, When updating the image displayed on the display unit, the control unit increases the image update time or the update unit when it is detected that the apparatus main body is tilted by a predetermined angle in a predetermined direction. In addition, control is performed so that the image update time or the update unit is decreased when it is detected that the image is updated at a predetermined angle in a direction opposite to the predetermined direction in which the image update time or update unit increases. The control unit Each time the apparatus main body is tilted in a predetermined direction by a predetermined angle, control is performed such that the image update time or update unit is set to be further increased, and the apparatus main body is controlled to increase the image update time or update unit. Each time the camera is tilted by a predetermined angle in the opposite direction, the control is performed so that the update time of the image is further reduced, and the controller detects that the tilt of the device body is detected by the tilt detector. When the image update time or update unit is changed by the control, the setting change of the update time or update unit is maintained until the tilt detection unit detects again that the device body has been tilted by a predetermined angle. The display unit is configured to display a setting screen unit in which the user sets the image update time or update unit.

  In the imaging apparatus according to the first aspect, as described above, the inclination detection unit that detects the inclination of the apparatus main body and the control to change the image update time or the update unit when the inclination of the apparatus main body is detected. The control unit changes the update time or update unit of the image when the tilt of the apparatus body is detected, so that it is possible to change the image without changing the button operation. The update time or update unit is changed. Therefore, the target image can be searched quickly.

  In the imaging device according to the first aspect, the control unit controls the image update time or the update unit to be increased when it is detected that the device main body is tilted by a predetermined angle in a predetermined direction. At the same time, when it is detected that a predetermined angle is tilted in a direction opposite to a predetermined direction in which the image update time or update unit increases, control is performed so that the image update time or update unit decreases. With this configuration, when updating an image, the user can set the update time or the update unit to be increased only by tilting the apparatus main body by a predetermined angle in a predetermined direction. In addition, the user can set the update time or the update unit to be small only by tilting the apparatus main body by a predetermined angle in a direction opposite to the predetermined direction in which the image update time or update unit becomes large. In addition, the control unit controls the apparatus main body so that the image update time or update unit is set to be larger every time the apparatus main body is tilted by a predetermined angle in a predetermined direction, and the apparatus main body is updated or updated. By configuring so that the image update time or update unit is set to be further reduced each time the unit is tilted in a direction opposite to the predetermined direction in which the unit increases, the user can easily perform the control. In addition, the update time or the update unit can be changed to be larger or smaller. In addition, when the control unit detects that the inclination of the apparatus main body is detected by the inclination detection unit and the update time or update unit of the image is changed, it is again confirmed that the apparatus main body is inclined by a predetermined angle by the inclination detection unit. By configuring so that the setting change of the update time or update unit is maintained until it is detected, the update time or unless the device body is tilted again by a predetermined angle by the tilt detector. Since the setting of the update unit is maintained, the user does not need to maintain the tilted state of the device main body in order to maintain the setting after tilting the device main body and setting the desired update time or update unit. The target image can be searched without tilting the apparatus main body. Thereby, the workability at the time of image search can be improved. In addition, by configuring the display unit to display a setting screen unit for setting the update time or update unit of the image by the user, the user can set the update time or update unit of the image by setting the display unit. This can also be done in the screen section.

  An imaging apparatus according to a second aspect of the present invention includes an apparatus body that captures an image, a display unit that displays an image captured on the apparatus body, an inclination detection unit that detects an inclination of the apparatus body, and a display on the display unit. And a control unit that controls to change the update time or update unit of the image when it is detected that the apparatus main body is tilted by a predetermined angle in a predetermined direction when updating the image to be updated.

  In the imaging apparatus according to the second aspect, as described above, the tilt detection unit that detects the tilt of the apparatus main body and the control to change the image update time or the update unit when the tilt of the apparatus main body is detected. The control unit changes the update time or update unit of the image when the tilt of the apparatus body is detected, so that it is possible to change the image without changing the button operation. The update time or update unit is changed. Therefore, the target image can be searched quickly.

  In the imaging device according to the second aspect, preferably, the control unit increases the image update time or the update unit when it is detected that the device body is tilted by a predetermined angle in a predetermined direction. In addition to controlling, when it is detected that the image has been tilted by a predetermined angle in the direction opposite to the predetermined direction in which the update time or update unit of the image is increased, the update time or update unit of the image is decreased. To do. With this configuration, when updating the image, the user can set the update time or the update unit to be increased only by tilting the apparatus main body by a predetermined angle in a predetermined direction. In addition, the user can set the update time or the update unit to be small only by tilting the apparatus main body by a predetermined angle in a direction opposite to the predetermined direction in which the image update time or update unit becomes large.

In the imaging device according to the second aspect, preferably, the control unit performs control so that the update time or update unit of the image is further increased every time the device body is tilted by a predetermined angle in a predetermined direction. . Further, the control unit is set so that the image update time or update unit is further reduced each time the apparatus body is tilted by a predetermined angle in a direction opposite to the predetermined direction in which the image update time or update unit is increased. To control. With this configuration, the user can easily change the update time or the update unit to be larger or smaller.

  In the image pickup apparatus according to the second aspect, preferably, the control unit causes the inclination detection unit to change the device when the image update time or the update unit is changed by detecting the inclination of the apparatus main body by the inclination detection unit. Control is performed so that the setting change of the update time or update unit is maintained until it is detected again that the main body is tilted by a predetermined angle. With this configuration, the setting of the update time or the update unit is maintained unless the tilt detection unit detects again that the device body has been tilted by a predetermined angle. After setting the update time or the update unit, it is not necessary to maintain the tilted state of the apparatus main body in order to maintain the setting. Therefore, the target image can be searched without tilting the main body of the apparatus. Thereby, the workability | operativity at the time of the search of an image can be improved.

  In the imaging apparatus according to the second aspect, preferably, the display unit is configured to be able to display a setting screen unit for setting an image update time or an update unit by a user. If comprised in this way, the user can also set the update time or update unit of an image also in the setting screen part of a display part.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments embodying the present invention will be described below with reference to the drawings.

(First embodiment)
1 and 2 are perspective views showing the overall configuration of the video camera according to the first embodiment of the present invention. FIG. 3 is a plan view of the video camera according to the first embodiment of the present invention. 4 to 6 are diagrams for explaining the configuration of the video camera according to the first embodiment of the present invention. First, with reference to FIGS. 1-6, the structure of the video camera 1 by 1st Embodiment of this invention is demonstrated. The video camera 1 is an example of the “imaging device” in the present invention.

  As shown in FIGS. 1 to 3, the video camera 1 according to the first embodiment of the present invention includes operation buttons including a lens 2, a viewfinder 3, a flash 4, a shooting / recording button 5, and left / right / up / down buttons. 6, a display screen 7 for displaying a photographed image, and a power button 8. In addition, the video camera 1 according to the first embodiment includes a tilt sensor 9 (see FIG. 3). The display screen 7 is an example of the “display unit” in the present invention. The tilt sensor 9 is an example of the “tilt detector” in the present invention.

  As shown in FIGS. 1 to 3, the lens 2 is composed of a plurality of optical lenses. The finder 3 is configured such that the user can determine the shooting range while viewing the subject through the finder 3. The flash 4 has a function of emitting light during shooting and recording. The shooting / recording button 5 is configured to perform shooting when pressed during shooting. The operation button 6 is provided for the user to perform a setting change operation or the like in accordance with a screen instruction displayed on the display screen 7. Further, the display screen 7 is provided for displaying an image to be photographed and for displaying a menu screen 7a for performing various settings of the video camera 1 as shown in FIG. Further, various settings on the menu screen 7 a displayed on the display screen 7 are configured by operating the operation buttons 6. The menu screen 7a is an example of the “setting screen section” in the present invention.

  Further, as shown in FIG. 4, the menu screen 7a has “display of photographed image” option 7b for displaying a photographed image and “various settings” for setting an exposure value of the video camera 1, for example. Option 7c and “image update time setting” option 7d for setting an update time for updating an image displayed on the display screen 7 are displayed.

  Here, in the first embodiment, the menu screen 7a of the display screen 7 is configured so that an image update time can be set by a user operation.

  As shown in FIG. 3, the display screen 7 continuously displays the displayed image on the next image by continuously pressing the left and right buttons of the operation button 6 when the captured image is displayed. It is configured so that it can be updated.

  The tilt sensor 9 (see FIG. 3) is provided for detecting the tilt of the video camera 1. As shown in FIG. 5, the tilt sensor 9 is composed of two balls 9a and 9b and ball passage portions 9c and 9d. Here, the ball passage portions 9c and 9d are arranged at a predetermined interval in the direction in which the lens axis extends. Further, each of the ball passage portions 9c and 9d is configured to extend in an oblique direction so as to intersect each other in a direction orthogonal to a direction in which the lens axis of the lens 2 (see FIG. 2) extends. The two balls 9a and 9b are movably inserted into the ball passage portions 9c and 9d, respectively. In addition, detectors (not shown) for detecting the presence or absence of the ball 9a are provided at both end portions 91c and 92c of the ball passage portion 9c. Also, detectors (not shown) for detecting the presence / absence of the ball 9b are provided at both end portions 91d and 92d of the ball passage portion 9d. The tilt sensor 9 of the first embodiment is configured to generate tilt position data based on a combination pattern of the presence / absence of the balls 9a and 9b at both ends of the ball passage portions 9c and 9d.

  Specifically, when the ball 9a and the ball 9b are detected at one end 91c of the ball passage portion 9c and one end 91d of the ball passage portion 9d (state of FIG. 5), respectively, the video camera 1 Inclination position data [0, 0] that the normal orientation (see FIG. 1) is generated is generated. When the ball 9a is rotated about 90 ° in the direction of arrow A from the state of FIG. 5, the ball 9a moves from one end 91c of the ball passage portion 9c to the other end 92c, and the ball 9b It is held at one end 91d of the passage 9d. Thereby, the ball 9a and the ball 9b are detected at the other end 92c of the ball passage 9c and the one end 91d of the ball passage 9d, respectively. Then, tilt position data [1, 0] indicating that the video camera 1 is tilted by about 90 ° in the direction of arrow A (see FIG. 3) is generated. Further, when the state is rotated by about 90 ° in the direction of arrow B from the state of FIG. 5, the ball 9a is held at one end 91c of the ball passage portion 9c and the ball 9b is one of the ball passage portions 9d. It moves from the end 91d to the other end 92d. As a result, the ball 9a and the ball 9b are detected at the one end 91c of the ball passage 9c and the other end 92d of the ball passage 9d, respectively. Then, tilt position data [0, 1] indicating that the video camera 1 is tilted by about 90 ° in the direction of arrow B (see FIG. 3) is generated. In the first embodiment, as described above, the tilt sensor 9 causes the three tilt position data ([0, 0], [1, 0] and [0, 1]) corresponding to the three tilt positions of the video camera 1. Is configured to be generated. When the state of FIG. 5 is rotated about 180 ° in the direction of arrow A (or direction of arrow B), the balls 9a and 9b move to the other end 92c of the ball passage portion 9c and the ball passage portion 9d, respectively. By detecting at the other end 92d, tilt position data [1, 1] indicating that the video camera 1 is tilted 180 ° is generated. The tilt sensor 9 has a function of outputting each tilt position data generated as described above to the control unit 1c (see FIG. 6) described later.

  Further, as shown in FIG. 6, a control circuit unit 1a including a memory unit 1b and a control unit 1c is provided inside the video camera 1. The memory unit 1b stores various operation programs and is provided for storing captured image data. The control unit 1c is configured to control the operation of the video camera 1 by the various operation programs described above.

  Here, in the first embodiment, when the control unit 1c updates the image displayed on the display screen 7, when it is detected that the video camera 1 is tilted by a predetermined angle in a predetermined direction, Based on the detected tilt position data, control is performed so as to change the update time of the image displayed on the display screen 7. Specifically, the control unit 1c determines that the video camera 1 is tilted by about 90 ° in the direction of arrow A (see FIG. 3) by the detection sensor 9 while the image update operation is performed on the display screen 7. When the image is detected, control is performed so that the image update time is shortened. Similarly, when the image updating operation is performed on the display screen 7, the control unit 1 c is tilted by about 90 ° in the direction of arrow B (see FIG. 3) by the detection sensor 9. If this is detected, control is performed so that the update time of the image becomes longer. In this way, as shown in FIG. 3, when updating the image on the display screen 7, the control unit 1c tilts the video camera 1 in the direction of arrow A by about 90 ° so that the image update time is shortened. The image update time is controlled to be longer by tilting approximately 90 ° in the direction of arrow B.

  7 and 8 are diagrams for explaining the operation of the video camera according to the first embodiment of the present invention. 9 and 10 are tables showing changes in update time of images displayed on the display screen of the video camera according to the first embodiment of the present invention. Moreover, FIG. 11 is a figure for demonstrating the operation | movement in the display screen of the video camera by 1st Embodiment of this invention. Next, with reference to FIG. 3, FIG. 4 and FIG. 7 to FIG. 11, control of the image update speed by the control unit 1c of the video camera 1 according to the first embodiment of the present invention will be described.

  As described above, the control unit 1c of the video camera 1 in the first embodiment moves the video camera 1 about 90 ° in the direction of arrow A (see FIG. 7) when updating the image displayed on the display screen 7. Control is performed so that the image update time is shortened by tilting, and control is performed so that the image update time is prolonged by tilting approximately 90 ° in the direction of arrow B (see FIG. 7).

  Specifically, first, the update of the image displayed on the display screen 7 is started by pressing the operation button 6 (see FIG. 3) for a predetermined time. At this time, while the operation button 6 is pressed, the display image is continuously updated at a predetermined time interval, and a level gauge 7e (see FIG. 8) indicating the magnitude of the update time is displayed on the display screen 7. . Further, in the operation of the operation button 6, the image is updated to a newer image by continuing to press the right button of the operation button 6, and updated to an older image by continuing to press the left button of the operation button 6. The

  Then, during the image update operation (in a state where the operation button 6 is continuously pressed), the update time is shortened by tilting the video camera 1 by about 90 ° in the direction of arrow A, as shown in FIG. As shown in FIG. 8, the level gauge 7e decreases. Further, by tilting the video camera 1 by about 90 ° in the direction of arrow B, the update time becomes longer and the level gauge 7e increases.

  Here, in the first embodiment, as shown in FIG. 7, the control unit 1c is set so that the image update time is further shortened every time the video camera 1 is tilted by about 90 ° in the direction of arrow A. To control. Further, the control unit 1c performs control so that the image update time is set to be longer every time the video camera 1 is tilted by about 90 ° in the arrow B direction.

  Specifically, as shown in FIG. 9 and FIG. 10, in the initial state setting (“normal” setting), the image displayed on the display screen 7 is changed to the next image at intervals of about 0.5 seconds. It is set to be updated. Here, as shown in FIG. 9, when the video camera 1 is tilted once in the direction of arrow A (see FIG. 7), the image update time becomes about 0.25 seconds. That is, the display time of one image is about 0.25 seconds. In this state, by further tilting the video camera 1 in the direction of arrow A (see FIG. 7), the image update time becomes about 0.125 seconds. Also, as shown in FIG. 10, the image update time is about 1.0 seconds by tilting the video camera 1 once in the direction of arrow B (see FIG. 7) from the initial state setting. That is, the display time of one image is about 1.0 seconds. In this state, by further tilting the video camera 1 in the direction of arrow B (see FIG. 7), the image update time becomes about 2.0 seconds.

  Here, in the first embodiment, when the tilt time of the video camera 1 is detected by the tilt sensor 9 and the update time of the image is changed, the control unit 1c causes the tilt sensor 9 to move the video camera 1 to about 90. ° Control is performed so that the setting for changing the update time is maintained until it is detected again that it has been tilted. That is, the control unit 1c controls the image update time so that the latest setting is always maintained. Therefore, after the video camera 1 is tilted and the update time is changed, the setting after the update time is changed is maintained even if the tilt of the video camera 1 is returned to the horizontal direction.

  Next, a case where the image update time is changed on the menu screen 7a of the display screen 7 will be described. This operation is performed by the user operating the operation button 6. First, as shown in FIG. 4, an “image update time setting” option 7d on the menu screen 7a is selected. Then, when the option 7d of “image update time setting” is selected, an image update time setting screen 7f is displayed on the display screen 7, as shown in FIG. The image update time setting screen 7f includes an “update time setting” option 7g, an “OK” option 7h for determining the set update time, and a “return to menu” option 7i. Is displayed. Then, the operation button 6 (see FIG. 3) is operated up and down to select the “update time setting” option 7g, and the operation button 6 is operated left and right to set the update time. At this time, every time the right button of the operation button 6 is pressed, the display part of the update time is displayed in order of 0.5 [sec], 0.25 [sec], and 0.125 [sec]. Each time the left button of the operation button 6 is pressed, the update time display portion is displayed in order of 0.5 [sec], 1.0 [sec], and 2.0 [sec]. Then, in the state where the update speed to be changed is displayed, the change of the image update time is applied by selecting the “OK” option 7h.

  In the first embodiment, as described above, the tilt sensor 9 that detects the tilt of the video camera 1, and the control unit 1 c that controls to change the image update time when the tilt of the video camera 1 is detected; Since the control unit 1c changes the update time of the image when the tilt of the video camera 1 is detected, the update time of the image is changed without performing a change or the like by a button operation. The Therefore, the target image can be searched quickly.

  In the first embodiment, the control unit 1c controls the image update time so as to increase when it is detected that the video camera 1 is tilted by a predetermined angle in a predetermined direction. When it is detected that the image is tilted by a predetermined angle in a direction opposite to the predetermined direction in which the update time increases, the user can control the image so that the image update time is decreased. Can be set so that the update time is increased only by tilting the video camera 1 in a predetermined direction at a predetermined angle. In addition, the user can set the update time to be small only by tilting the video camera 1 by a predetermined angle in a direction opposite to the predetermined direction in which the image update time increases.

  In the first embodiment, the control unit 1c performs control so that the image update time is set to be longer every time the video camera 1 is tilted by a predetermined angle in a predetermined direction. In addition, the control unit 1c controls the video camera 1 so that the image update time is further reduced every time the video camera 1 is tilted by a predetermined angle in a direction opposite to the predetermined direction in which the image update time increases. By configuring in this way, the user can easily change the update time to be larger or smaller.

  In the first embodiment, the control unit 1c causes the tilt sensor 9 to move the video camera 1 to a predetermined angle when the tilt time of the image is changed by the tilt sensor 9 detecting the tilt of the video camera 1. By configuring the control so that the setting change of the update time is maintained until it is detected again that it is tilted, unless the tilt sensor 9 detects again that the video camera 1 has been tilted by a predetermined angle. Since the update time setting is maintained, the user does not need to maintain the tilted state of the video camera 1 in order to maintain the setting after tilting the video camera 1 to set the desired update time. The target image can be searched without tilting the video camera 1. Thereby, the workability at the time of image search can be improved.

  Further, in the first embodiment, the display screen 7 is configured so that the menu screen 7a for setting the image update time by the user can be displayed, so that the user can set the image update time setting on the display screen 7. This can also be done on the menu screen 7a.

(Second Embodiment)
FIG. 12 is a block diagram showing the overall configuration of a video camera according to the second embodiment of the present invention. 13 and 14 are plan views of a video camera according to the second embodiment of the present invention. FIG. 15 is a view showing a display screen of the video camera according to the second embodiment of the present invention. This second embodiment is different from the first embodiment in which the control unit controls the image update time to be changed when the tilt of the video camera is detected by the tilt sensor during the image update operation. An example will be described in which the control unit performs control so that the image update unit is changed when the tilt sensor detects the tilt of the video camera. Here, the image update unit is a unit indicating how many images ahead are displayed when an image displayed on the display screen is updated. That is, it is a unit that means how many images to be updated are updated at intervals. In the second embodiment, the description of the same parts as those of the first embodiment will be omitted.

  Here, in the second embodiment, as illustrated in FIG. 12, when the control unit 10 c updates the image displayed on the display screen 70, the video camera 10 is tilted by a predetermined angle in a predetermined direction. Is detected, the control unit is configured to change the update unit of the image displayed on the display screen 70 based on the detected tilt position data. Specifically, as illustrated in FIGS. 13 and 14, the control unit 10 c causes the detection sensor 90 to move the video camera 10 in the direction of arrow A by about 90 when an image update operation is performed on the display screen 70. When the tilt is detected, the image update unit is controlled to be large. In addition, when the image update operation is performed on the display screen 70, the control unit 10 detects the image when the detection sensor 90 detects that the video camera 10 is tilted by about 90 ° in the arrow B direction. The update unit is controlled to be small.

  As shown in FIG. 15, the display screen 70 is provided with a menu screen 70a for setting various operations and the like in the same manner as in the first embodiment. The menu screen 70a is used to set an update unit for updating an image displayed on the display screen 70 in addition to the option 70b for “display captured image” and the option 70c for “various settings”. It is composed of options 70d for “setting of update unit”.

  Here, in the second embodiment, an image update unit can be set on the menu screen 70a of the display screen 70 by a user operation.

  FIG. 16 is a table showing changes in update units of images displayed on the display screen of the video camera according to the second embodiment of the present invention. FIG. 17 is a diagram for explaining the operation on the display screen of the video camera according to the second embodiment of the present invention. Next, with reference to FIG. 13, FIG. 16, and FIG. 17, control of an image update unit by the control unit 10c of the video camera 10 according to the second embodiment of the present invention will be described.

  Here, in the second embodiment, as illustrated in FIG. 13, the control unit 10 c is set so that the update unit of the image is further increased every time the video camera 10 is tilted by about 90 ° in the arrow A direction. To control. In addition, the control unit 10c performs control so that the update unit of the image is set to be smaller every time the video camera 10 is tilted by about 90 in the arrow B direction.

  Specifically, as shown in FIG. 16, in the initial state setting (“normal” setting in the table), the image displayed on the display screen 70 is updated to the next image for each sheet. Is set. Here, when the image is updated, the video camera 10 is tilted once in the direction of arrow A (see FIG. 13), so that the image update unit becomes five. That is, the next image to be displayed is set to be five images ahead. Then, by further tilting the video camera 10 in the direction of arrow A (see FIG. 13), the image update time becomes ten. That is, the next image to be displayed is set to be 10 images ahead. In addition, when the video camera 10 is tilted once in the direction of arrow B (see FIG. 13) from the state where the image is set to be 10 images ahead, the image update time becomes 5 images. Then, by further tilting the video camera 10 once more in the direction of arrow B (see FIG. 13), the image update time becomes one. That is, the initial state is restored.

  Here, in the second embodiment, the control unit 10c allows the tilt sensor 90 to move the video camera 10 to about 90 when the tilt sensor 90 detects the tilt of the video camera 10 and the image update unit is changed. ° Control is performed so that the setting for changing the update unit is maintained until it is detected again that it has been tilted. That is, the control unit 10c controls the update unit of the image so that the latest setting is always maintained. Therefore, after the video camera 10 is tilted and the update unit is changed, the setting after the update unit is changed is maintained even if the tilt of the video camera 10 is returned to the horizontal level.

  Next, a case where the update unit of the image is changed on the menu screen 70a of the display screen 70 as shown in FIG. 17 will be described. This operation is performed when the user operates the operation button 60. First, the update unit can be set by operating the operation button 60 up and down to select the “set update unit” option 70 g and operating the operation button 60 left and right. At this time, every time the right button of the operation button 60 is pressed, the display unit of the update unit is displayed in order of one sheet, five sheets, and ten sheets. Then, by selecting the “OK” option 70h in a state where the update unit to be changed is displayed, the change of the image update unit is applied.

  In the second embodiment, as described above, the tilt sensor 90 that detects the tilt of the video camera 10, and the control unit 10c that controls to change the image update unit when the tilt of the video camera 10 is detected; Since the control unit 10c changes the update unit of the image when the tilt of the video camera 10 is detected, the update unit of the image is changed without performing a change by a button operation or the like. The Therefore, the target image can be searched quickly.

  In the second embodiment, the control unit 10c controls the image update unit to be large when it is detected that the video camera 10 is tilted by a predetermined angle in a predetermined direction. By configuring so that the update unit of the image is reduced when it is detected that the update unit is tilted at a predetermined angle in a direction opposite to the predetermined direction in which the update unit is increased, the user can Can be set so that the update unit becomes larger only by tilting the video camera 10 in a predetermined direction by a predetermined angle. Further, the user can set the update unit to be small only by tilting the video camera 10 by a predetermined angle in a direction opposite to the predetermined direction in which the image update unit is large.

  In the second embodiment, the control unit 10c controls the video camera 10 so that the image update unit is set to be larger every time the video camera 10 is tilted by a predetermined angle in a predetermined direction. By configuring so that the image update unit is set to be further reduced every time the image is updated at a predetermined angle in a direction opposite to the predetermined direction in which the image update unit increases, the user can easily perform the control. In addition, the update unit can be changed to be larger or smaller.

  In the second embodiment, the control unit 10c causes the tilt sensor 90 to move the video camera 10 to a predetermined angle when the tilt sensor 90 detects the tilt of the video camera 10 and changes the image update unit. By configuring so that the setting change of the update unit is maintained until the tilt is detected again, unless the tilt sensor 90 detects again that the video camera 10 is tilted by a predetermined angle. Since the setting of the update unit is maintained, the user does not need to maintain the tilted state of the video camera 10 in order to maintain the setting after tilting the video camera 10 to set the desired update unit. The target image can be searched without tilting the video camera 10. Thereby, the workability at the time of image search can be improved.

  In the second embodiment, the display screen 70 is configured so that the menu screen 70a for setting the image update unit by the user can be displayed, so that the user can set the image update unit. This can also be done on the menu screen 70a.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above description of the embodiments but by the scope of claims for patent, and further includes all modifications within the meaning and scope equivalent to the scope of claims for patent.

  For example, in the first and second embodiments, a video camera is shown as an example of an imaging apparatus. However, the present invention is not limited to this, and the imaging apparatus includes a sensor that detects inclination and a display unit that displays a captured image. If so, the present invention can also be applied to an imaging apparatus other than a video camera.

  In the first and second embodiments, as an inclination sensor, an example is shown in which an inclination sensor that detects the inclination of the apparatus main body by detecting the positions of two balls is used, but the present invention is not limited to this. An inclination sensor having another configuration may be used as long as the sensor detects the inclination of the apparatus main body.

1 is a perspective view showing an overall configuration of a video camera according to a first embodiment of the present invention. It is a perspective view which shows the whole structure of the video camera by 1st Embodiment of this invention shown in FIG. It is a top view of the video camera by 1st Embodiment of this invention shown in FIG. It is the figure which showed the display screen of the video camera by 1st Embodiment of this invention shown in FIG. It is the figure which showed the inclination sensor of the video camera by 1st Embodiment of this invention shown in FIG. It is a block diagram which shows the structure of the video camera by 1st Embodiment of this invention shown in FIG. It is a figure for demonstrating operation | movement of the video camera by 1st Embodiment of this invention shown in FIG. It is a figure for demonstrating operation | movement of the video camera by 1st Embodiment of this invention shown in FIG. FIG. 5 is a diagram for explaining a change in update time of an image displayed on the display screen of the video camera according to the first embodiment of the present invention shown in FIG. 4. FIG. 5 is a diagram for explaining a change in update time of an image displayed on the display screen of the video camera according to the first embodiment of the present invention shown in FIG. 4. It is a figure for demonstrating the operation | movement in the display screen of the video camera by 1st Embodiment of this invention shown in FIG. It is a block diagram which shows the whole structure of the video camera by 2nd Embodiment of this invention. It is a figure for demonstrating operation | movement of the video camera by 2nd Embodiment of this invention shown in FIG. It is a figure for demonstrating operation | movement of the video camera by 2nd Embodiment of this invention shown in FIG. It is a figure for demonstrating the display screen of the video camera by 2nd Embodiment of this invention shown in FIG. It is a figure for demonstrating the change of the update unit of the image displayed on the display screen of the video camera by 2nd Embodiment of this invention shown in FIG. It is a figure for demonstrating the operation | movement in the display screen of the video camera by 2nd Embodiment of this invention shown in FIG.

Explanation of symbols

1, 10 Video camera (imaging device)
1c, 10c Control unit 7, 70 Display screen (display unit)
7a, 70a Menu screen (setting screen section)
9, 90 Tilt sensor (Tilt detector)

Claims (6)

An apparatus body for capturing an image;
A display unit for displaying the image captured on the apparatus body;
An inclination detector for detecting the inclination of the apparatus body;
When updating the image displayed on the display unit, when it is detected that the apparatus body is tilted by a predetermined angle in a predetermined direction, the update time or update unit of the image is changed. A control unit for controlling,
The control unit, when updating the image displayed on the display unit, when it is detected that the apparatus body is tilted by a predetermined angle in a predetermined direction, the update time or update unit of the image Is updated, and when it is detected that the image has been tilted by a predetermined angle in a direction opposite to the predetermined direction in which the update time or update unit of the image increases, the update time or update of the image Control the unit to be smaller,
The control unit controls the apparatus main body so that the update time or update unit of the image is further increased every time the apparatus main body is tilted by a predetermined angle in a predetermined direction. Each time the image is tilted by a predetermined angle in a direction opposite to the predetermined direction in which the update time or the update unit is increased, the update time or the update unit of the image is controlled to be set to be further reduced,
The control unit tilts the apparatus main body by a predetermined angle by the tilt detection unit when the update time or update unit of the image is changed by detecting the tilt of the apparatus main body by the tilt detection unit. Control so that the update time or update unit setting change is maintained until it is detected again,
The imaging device is configured to be capable of displaying a setting screen unit for setting an update time or update unit of the image by a user. An apparatus body for capturing an image;
A display unit for displaying the image captured on the apparatus body;
An inclination detector for detecting the inclination of the apparatus body;
When updating the image displayed on the display unit, when it is detected that the apparatus main body is tilted by a predetermined angle in a predetermined direction, the update time or update unit of the image is changed. An imaging device comprising a control unit for controlling.   The control unit, when updating the image displayed on the display unit, when it is detected that the apparatus body is tilted by a predetermined angle in a predetermined direction, the update time or update unit of the image Is updated, and when it is detected that the image has been tilted by a predetermined angle in a direction opposite to the predetermined direction in which the update time or update unit of the image increases, the update time or update of the image The imaging apparatus according to claim 2, wherein the unit is controlled to be small.   The control unit controls the apparatus main body so that the update time or update unit of the image is set to be larger every time the apparatus main body is tilted in a predetermined direction by a predetermined angle. The control is performed so that the update time or the update unit of the image is set to be further decreased every time the predetermined angle is tilted in the predetermined direction opposite to the direction in which the update time or the update unit is increased. Or the imaging device of 3.   The control unit tilts the apparatus main body by a predetermined angle by the tilt detection unit when the update time or update unit of the image is changed by detecting the tilt of the apparatus main body by the tilt detection unit. The imaging device according to any one of claims 2 to 4, wherein control is performed such that the setting change of the update time or the update unit is maintained until the event is detected again.   The imaging device according to claim 2, wherein the display unit is configured to be able to display a setting screen unit for setting an update time or an update unit of the image by a user.

Images