JP2004282296A - Image pickup apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image pickup apparatus which is capable of simultaneously photographing objects at different positions with photographing optical systems having different field angles, and is advantageous to improve the latitude of photographing. <P>SOLUTION: The image pickup apparatus 100 is provided with a first case 10, a display panel 30 connected to the first case 10, and a second case 20 connected to the display panel 30. A first optical photographing system 12 is disposed on the first case 10. The system 12 is constituted as a zooming system capable of continuously changing a field angle ranging from a wide angle to a telescope. The second case 20 is provided on a top surface 3006 away from the first case 10 in a state that the display panel 30 is opened at a usage position via a pan and tilt mechanism 40. A second photographing optical system 22 is disposed on the front of the second case 20. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an imaging device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is an imaging apparatus such as a video camera capable of changing an angle of view (imaging magnification) by providing a zooming function in an imaging optical system to perform imaging.
In such an image pickup apparatus, the angle of view of the photographing optical system is changed to the telephoto direction to photograph the subject to be photographed in close-up, or the angle of view of the photographing optical system is changed to the wide angle direction to include the subject. I am shooting a wide range.
However, in such an imaging apparatus, only one imaging optical system is provided, so that images having different angles of view cannot be simultaneously captured.
In order to solve such inconveniences, two video cameras are housed in a single case with their respective photographic optical systems directed in the same direction, and one photographic optical system is set to telephoto, and the other is used for photographic. 2. Description of the Related Art There is provided an imaging apparatus that simultaneously captures a telephoto image and a wide-angle image by setting an optical system to a wide angle (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-9-215012
[0004]
[Problems to be solved by the invention]
However, in the above-described imaging apparatus, the directions in which the imaging optical systems of the two video cameras point are the same, so that the range that can be simultaneously imaged by the two video cameras is limited, and the degree of freedom in imaging is low. there were.
The present invention has been made in view of such circumstances, and an object of the present invention is to increase the flexibility of photographing by simultaneously photographing objects at different positions with photographing optical systems having different angles of view. And to provide an advantageous imaging device.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the present invention includes a main body case, a first photographing optical system provided in the main body case, and a first photographing image formed by the first photographing optical system. A first photographing means for generating an image pickup signal, and a second photographing means for photographing a subject image formed by the second photographing optical system provided in the main body case. A second photographing unit for generating a signal, a driving unit for changing a direction of the second photographing optical system, and a direction for controlling a direction of the second photographing optical system by controlling the driving unit. Direction control means; and image recording means for generating image information based on the first image signal and the second image signal and recording the image information on a recording medium, wherein the first and second photographing optics are provided. The second optical system is larger than the angle of view of the imaging optical system of the first optical system. Wherein the angle of the imaging optical system is capable of setting such that the larger.
Therefore, by changing the directional direction of the second photographing optical system in a state where the angle of view of the second photographing optical system is set to be larger than the angle of view of the photographing optical system of the first optical system, it is different. The subject at the position can be photographed simultaneously with different angles of view.
[0006]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of an imaging device according to an embodiment of the present invention as viewed from the front, FIG. 2 is a perspective view of the imaging device as viewed from the rear, FIG. 3 is a block diagram illustrating a configuration of a control system of the imaging device, FIG. 4 is a block diagram showing a configuration of a recording system of the imaging apparatus.
As shown in FIGS. 1 and 2, in the present embodiment, the imaging device 100 is a video camera that records image information as moving image data or still image data on an optical disk cartridge 2 that is a recording medium. , A first case 10, a display panel 30 connected to the first case 10, and a second case 20 connected to the display panel 30, and the first case includes a first imaging unit. Is provided, and the second imaging means is provided in the second case. The first and second cases 10 and 20 and the display panel constitute a main body case according to the claims.
[0007]
The first case 10 is formed to have an upper and lower height, a front and rear length, and a left and right width. In the present embodiment, the height of the first case 10 is larger than the length and the width. It is formed with dimensions, and the length is formed with dimensions larger than the width. In the present embodiment, the left and right sides of the imaging device 100 are referred to when the imaging device 100 is viewed from behind.
A first imaging optical system 12 is disposed on the upper front surface of the first case 10, and a first imaging element 13 (which detects an object image formed through the imaging optical system 12 and outputs an imaging signal). FIG. 3) is incorporated in the first case 10, and the first photographing means 11 is constituted by the first photographing optical system 12 and the first image sensor 13.
Further, in the present embodiment, the first photographing optical system 12 is configured as a zoom type that can continuously change the angle of view (photographing magnification) from a wide angle to a telephoto range.
The upper part of the right side of the first case 10 is provided with a pan operation dial 16 for rotating the second case 20 on the display panel 30 along a horizontal plane, that is, in a panning direction P, and a display. A tilt operation dial 18 is provided on the panel 30 so as to rotate when the second case 20 is swung along a vertical plane, that is, in the tilt direction T.
A photographing switch 14A, a reproduction switch 14B, a display setting switch 14C, an operation mode switch 14D, a zoom switch 14E, and the like are provided at a front portion on a right side surface of the first case 10. The photographing switch 14A is operated when starting and stopping photographing. The reproduction switch 14B is operated when reproducing image information recorded on the optical disk 2. The display setting switch 14C is used to set the operation mode when the second case 20 is swung in the pan direction P and the tilt direction T by manually operating the two operation dials 16 and 18 to swing the second case 20. The operation is performed when the mode is set to one of the mode and the automatic mode in which the second case 20 is automatically swung. The zoom switch 14E is operated when changing the angle of view of the first photographing optical system 12 in the wide-angle direction and the telephoto direction.
[0008]
At the front of the upper surface of the first case 10, a recording microphone 15 for detecting a voice for recording voice information on a recording medium is provided.
Inside the first case 10, there is provided a liquid crystal display 1902 (FIG. 3) for displaying a subject image displayed based on an image pickup signal output from the first image pickup device 13, and the first camera body 11 An eyepiece window 1904 for visually recognizing the liquid crystal display 1902 is provided at the upper part of the rear surface. The liquid crystal display 1902 and the eyepiece window 1904 constitute an electronic viewfinder 19.
A recording unit 200 (FIGS. 3 and 4) is provided inside the first case 10, and a disc insertion / ejection port 1006 communicating with the recording unit 200 is provided at a lower rear portion of the first case 10. I have. The optical disc cartridge 2 is loaded into the recording unit 200 via the insertion / ejection port 1006, is detached from the recording unit 200, and is ejected outward via the insertion / ejection port 1006.
Both ends of a belt 1004 are attached to a lower part of the front and a lower part of the rear of the first case 10, respectively, so that the first case 10 can be securely held by hand by putting a hand in a gap between the belt 1004 and the right side. It is configured.
[0009]
The display panel 30 has its right side 3002 attached to the front of the left side 1001 of the first case 10 via a hinge 1002 whose axis is oriented vertically in the first case 10. As a result, the display panel 30 has a storage position where the display panel 30 is fitted to the left side surface 1001 of the first case 10 and a use position opened to the left from the first case 10 as shown in FIGS. Swing between position.
Inside the display panel 30, a display 32 formed of, for example, a liquid crystal display or the like is accommodated so as to face outward through a window 3004 on the rear surface of the display panel 30.
The display panel 30 has a left-right width, a top-bottom height, and a front-back thickness. In the present embodiment, the width is formed with a dimension larger than the height and the thickness, and has a horizontally long rectangular plate shape. .
[0010]
The second case 20 is located on the upper surface 3006 of the display panel 30 in the longitudinal direction on the opposite side to the hinge 1002, that is, the upper surface 3006 separated from the first case 10 with the display panel 30 opened to the use position. It is provided at a location via a pan / tilt mechanism 40 (moving means).
The second case 20 is formed to have an upper and lower height, a front and rear length, and a left and right width. In the present embodiment, the width of the second case 20 is larger than the height and the length. It is formed with.
A second imaging optical system 22 is provided on the front surface of the second case 20, and a second imaging element 23 (see FIG. 1) that detects a subject image formed through the imaging optical system 22 and outputs an imaging signal. 3) is incorporated in the second case 20, and the second imaging means 21 is constituted by the second imaging optical system 22 and the second imaging element 23.
Further, in the present embodiment, the angle of view (imaging magnification) of the second imaging optical system 22 is set to a predetermined value on the wide angle side.
A direction detecting microphone 24 composed of two microphones is disposed on the front surface of the second case 20, and these direction detecting microphones 24 detect sounds generated around the imaging device 100 and generate sound signals. Is configured.
The pan / tilt mechanism 40 is provided on the upper surface 3006 of the display panel 30 and is connected to the lower surface of the second case 20 via the shaft 42. The pan / tilt mechanism 40 moves the second case 20 by swinging the shaft portion 42 in the pan direction and the tilt direction based on a control signal supplied from the pan / tilt drive section 118, and thereby moves the second imaging optical system. The system 22 is configured to change the direction in which it is directed.
[0011]
Next, a configuration of a control system of the imaging apparatus 100 will be described with reference to FIGS.
3 and 4 show only the signal recording system, and the reproduction system and the servo system are omitted.
In the imaging apparatus 100, the controller 102 controls the entire operation, and is configured by a microcomputer including a CPU, a RAM, a ROM, a flash ROM, and the like.
The first video processing unit 104 performs necessary signal processing such as frame processing and compression processing on the first imaging signal output from the first imaging element 13 and converts the processed signal into a first video signal Vm. Is supplied to the recording unit 200.
The second video processing unit 106 performs necessary signal processing such as frame processing and compression processing on the second imaging signal output from the second imaging element 23, and converts the processed signal into a second video signal Vm. Is supplied to the recording unit 200.
The audio processing unit 107 is configured to perform necessary signal processing such as amplification on the audio signal output from the recording microphone 15 and to supply the processed signal to the recording unit 200 as an audio signal for recording. .
[0012]
As shown in FIG. 4, the recording unit 200 is configured to independently record image data on the optical disc cartridge 2 by first and second optical pickups 202 and 204.
The optical disk cartridge 2 includes a cartridge 2A and an optical disk 2B housed in the cartridge 2A.
The recording unit 200 includes a spindle motor 201, first and second optical pickups 202 and 204, first and second laser drivers 206 and 208, first and second encoders 210 and 212, a drive controller 214, and the like. ing.
The spindle motor 201 is configured to rotate the optical disk 2B of the optical disk cartridge 2 loaded in the recording unit 200 from the disk insertion / ejection port 1006.
The first and second optical pickups 202 and 204 are configured to face the recording surface of the optical disk 2B via the opening of the cartridge 2A.
The first encoder 210 is configured to perform predetermined encoding such as error correction code processing, scramble processing, data processing, and data format processing on the first video signal Vm supplied from the first video processing unit 104. ing.
Similarly, the second encoder 212 performs predetermined encoding such as error correction coding, scrambling, data processing, and data formatting on the second video signal Vs supplied from the second video processing unit 106. Is configured.
The first laser driver 206 modulates the output of the laser light source of the first optical pickup 202 based on the encoded first video signal Vm supplied from the first encoder 210, thereby recording on the optical disk 2B. The first image information based on the first video signal Vm is recorded on the surface.
Similarly, the second laser driver 208 modulates the output of the laser light source of the second optical pickup 204 on the basis of the encoded second video signal Vs supplied from the second encoder 212, and It is configured to record second image information based on the second video signal Vs on the recording surface of 2B.
The recording of the first and second image information on the recording surface of the optical disk 2B is performed by forming recording marks on the recording surface by a phase change recording method or a dye change recording method.
[0013]
The drive controller 214 performs control to execute a recording / reproducing operation on the optical disc 2B in accordance with an instruction from the controller 102.
That is, the recording unit 200 controls a servo system (not shown) to control the rotation of the spindle motor 201, focus, tracking, sled movement control, and laser power control of the first and second optical pickups 202 and 204. And control of a reproduction control system (not shown) and reading of addresses and control information from the optical disk 2B.
In the case of this example, the first image information recorded on the optical disk 2B by the first optical pickup 202 and the second image information recorded on the optical disk 2B by the second optical pickup 204 are different from each other on the optical disk 2B. It is recorded discretely on the orbiting track. The drive controller 214 also performs control for writing management information to the optical disk 2B so that the first and second image information are recorded simultaneously and reproduced at the same time.
The recording of the audio information on the optical disc cartridge 2 by the recording unit 200 is performed based on the recording audio signal supplied from the audio processing unit 107, and the recording is performed using one of the first and second optical pickups 202 and 204, Alternatively, it is configured to be performed by both. In addition, recording and reproduction of audio information are performed by a conventionally known configuration, and thus detailed description is omitted.
[0014]
As shown in FIG. 3, the image synthesizing unit 108 includes a first video signal Vm supplied from the first video processing unit 104 and a second video signal Vm supplied from the second video processing unit 106. The composition processing is performed so that the two video signals Vs and the two video signals Vs are simultaneously displayed in one screen (one frame) in a screen division state. Further, the image synthesizing unit 108 is configured to select one of the first video signal Vm and the second video signal Vs and perform a selection process so that the selected video signal is displayed in one screen (one frame). Have been.
The display drive unit 110 is configured to display an image on the display 32 of the display panel 30 based on the video signal supplied from the image synthesis unit 108, that is, the synthesized video signal, or the selected video signal. ing.
The LCD display drive unit 112 displays an image on the liquid crystal display 1902 of the electronic viewfinder device 19 based on the video signal supplied from the image synthesis unit 108, that is, the synthesized video signal or the selected video signal. It is configured to be displayed.
Although not shown, the recording unit 200 reproduces the first and second image information recorded on the optical disc 2B to obtain a reproduction signal, and supplies the reproduction signal to the image combining unit 108. The image synthesizing unit 108 is configured to display an image based on the synthesized video signal or an image based on the selected video signal on the display 32 and the liquid crystal display 1902. Since the display of the image on the liquid crystal display 1902 is performed in the same manner as the display of the image on the display 32, only the display of the image on the display 32 will be described below.
[0015]
The zoom mechanism 114 is configured to change the angle of view (photographing magnification) to a wide angle direction or a telephoto direction by moving a plurality of lenses constituting the first photographing optical system 12 in the optical axis direction.
The zoom drive unit 116 is configured to supply a drive signal to the zoom mechanism 114 based on a control signal supplied from the controller 102 to drive the zoom mechanism 116.
The pan / tilt driving section 118 supplies a driving signal to the pan / tilt mechanism section 40 based on a control signal supplied from the controller 102 to drive the pan / tilt mechanism section 40, thereby making the second case 20 In the pan direction P and the tilt direction T.
The voice recognition unit 120 specifies the direction of the sound source that has generated the voice based on the two voice signals detected by the two direction detection microphones 24 provided in the second case 20, and performs the second shooting. The amount of movement of the second case 20 required to direct the pointing direction of the optical system 22 toward the sound source, that is, the amount of swing in the pan direction P and the amount of swing in the tilt direction T is calculated and supplied to the controller 102. It is configured as follows.
When the operation mode switch 14D is operated in the manual mode, the controller 102 supplies a control signal to the pan / tilt driving unit 118 according to the rotation amount of each of the pan operation dial 16 and the tilt operation dial 18 to perform pan control. The second case 20 is configured to swing in the pan direction P and the tilt direction T by driving the / tilt mechanism section 40.
Further, when the operation mode switch 14D is operated in the automatic mode, the controller 102 controls the pan / tilt driving unit 118 according to the swing amount in the pan direction P and the tilt direction T supplied from the voice recognition unit 120. By giving a control signal, the pan / tilt mechanism 40 is driven, whereby the second case 20 is swung in the pan direction P and the tilt direction T, so that the second photographing optical system 22 is directed to the sound source. It is configured.
Further, the controller 102 controls the image synthesizing unit 108 by operating the display setting switch 14C to select either the first video signal Vm or the second video signal Vs and display the selected video signal on the display 32, and , The first video signal Vm and the second video signal Vs are combined and displayed on the display 32.
In the present embodiment, the controller 102 and the recording unit 200 constitute an image recording unit described in the claims. Further, the controller 120 and the pan / tilt drive unit 118 constitute a directivity control unit according to the claims. Further, the controller 120, the image synthesizing unit 108, and the display driving unit 110 constitute an image display unit according to the claims. The direction detecting microphone 24 and the voice recognition unit 120 constitute a direction detecting unit described in the claims.
[0016]
Next, with reference to FIGS. 5 and 6, the operation at the time of shooting will be described.
In this example, there will be described a case where there are two persons as subjects, and a second person P2 watching the first person P1 is photographed simultaneously with photographing the first person P1. It is also assumed that the imaging device 100 is positioned such that the distance L1 between the imaging device 100 and the first person P1 is longer than the distance L2 between the imaging device 100 and the second person P2.
As shown in FIG. 5, the image pickup apparatus 100 is attached to the camera platform of the tripod A, the first photographing optical system 12 is directed to the person P1, and the display 32 of the display panel 30 is swung to the use position. Adjusts the direction of the imaging device 100 so that the user faces the second person P2.
Then, an image of the first person P1 based on the first image pickup signal Vm generated by the first photographing means 11 is displayed on the display 32, and the zoom switch 14E is operated to set the angle of view to a desired angle of view. .
Also, by operating the operation mode switch 12D to the manual side and rotating the pan direction operation dial 16 and the tilt direction operation dial 18, the second image pickup signal Vs generated by the second image pickup means 21 is used. The image of the person P2 is displayed on the display 32.
Further, the controller 20 controls the image synthesizing unit 108 to divide the display 32 into two screens, and to simultaneously display the image of the first person P1 and the image of the second person P2. In the present example, as shown in FIG. 4, the area of the area where the image of the first person P1 is displayed is large and the area of the area where the image of the second person P2 is displayed is small. The distribution of the area of the region for displaying the two images displayed on 32 is arbitrary.
Next, by operating the photographing switch 14A to start the photographing operation, the first and second image information based on the first and second image pickup signals Vm and Vs are simultaneously recorded on the optical disk 2B.
By operating the zoom switch 14E during the photographing operation, the angle of view of the first photographing optical system 12 can be arbitrarily changed to a wide angle direction or a telephoto direction.
In addition, during the shooting operation, the panning operation dial 16 and the tilt direction operation dial 18 are rotated and operated to arbitrarily change the directional direction of the second imaging optical system 22 to the pan direction P and the tilt direction T. By using the photographing optical system 22, the periphery of the imaging device 10 can be easily photographed at an angle of view corresponding to a wide angle.
The recording operation of the first and second image information on the optical disk 2B is stopped by terminating the photographing operation by operating the photographing switch 14A again.
[0017]
Next, the operation at the time of reproducing the image information will be described.
By operating the reproduction switch 14B of the imaging device 100, the controller 102 controls the recording unit 200 to execute a reproduction operation. At this time, by operating the display setting switch 14C, a state in which an image of the first person P1 is displayed as shown in FIG. 6A and an image of the second person P2 as shown in FIG. Is arbitrarily selected between the state where is displayed and the state where the image of the first person P1 and the image of the second person P2 are combined and displayed as shown in FIG. 6C.
[0018]
Next, a photographing operation using an automatic mode in which the second case 20 automatically swings in the pan direction P and the tilt direction T will be described.
When the imaging device 100 is installed in a party hall or the like, it is assumed that the operation mode switch 12D is operated to the automatic side.
At this time, when a voice such as applause or cheering is generated, a voice signal is supplied from the direction detection microphone 24 that has detected the voice to the voice recognition unit 120, whereby the swing in the pan direction P generated by the voice recognition unit 120 is performed. The data of the movement amount and the swing amount in the tilt direction T are supplied to the controller 102, and the controller 102 controls the pan / tilt driving unit 118 to drive the pan / tilt mechanism unit 40, whereby the second case 20 is moved and The second photographing optical system 22 points in the direction in which the sound is generated.
Therefore, the second photographing optical system 22 always photographs the direction in which the sound is generated, and can appropriately photograph the situation around the imaging device 100.
[0019]
Therefore, by setting the angle of view of the second imaging optical system 22 larger than the angle of view of the first imaging optical system 12, that is, by setting the angle of view to the wide-angle side, the first imaging optical system 12 is used for shooting, A range that cannot be photographed with the angle of view of the first photographing optical system 12 can be photographed by the second photographing optical system 22.
Further, by moving the directional direction of the second photographic optical system 22, the first photographic optical system 12 is used to perform photographing, and at the same time, the photographic range other than the directional direction of the first photographic optical system 12 is subjected to the second photographing. Photographing can be easily performed by the optical system 22.
Therefore, despite the fact that only one imaging device is used, objects in different ranges can be simultaneously photographed, and image information of both different objects can be recorded on a recording medium. This is advantageous.
For this reason, for example, the first person to be photographed and the second person located at a position different from the first person are photographed at the same time, and the expressions and movements of both the first and second persons are completely captured. Can be recorded.
Further, by simultaneously photographing a subject to be photographed and a wide range including the subject, it is possible to simultaneously record both a close-up image of the subject and a wide range image including the subject on a recording medium. This makes it possible to record the situation of both the subject and the surrounding environment without fail.
Further, it is possible to select and reproduce any one of the first and second image information recorded on the optical disc 2B as a recording medium, or to reproduce the first and second image information by combining them. Thus, the first and second image information can be reproduced in various forms according to preference.
When the second photographing optical system 22 is directed in the direction in which the sound is generated, the photographing can be performed in an unmanned state without the photographer operating the image capturing apparatus 100. This is advantageous in shooting natural expressions and movements.
Further, when the first and second photographing optical systems 12 and 22 are substantially parallel, the interval between these two optical axes is configured to be substantially equal to the interpupillary distance of a person. With the upper surfaces of the second cases 10, 20 facing upward, the lower surfaces of the first and second cases 10, 20 facing downward, and the first photographing optical system in a state where the display panel 30 is located at the use position. If the position in the height direction of the optical axis of the optical axis 12 and the position in the height direction of the optical axis of the second imaging optical system 22 are substantially matched, the first and second imaging optical systems 12 and 22 are configured. By setting the angle of view to the same value, two types of image information obtained by photographing one subject from different angles can be obtained. By using such two types of image information, a three-dimensional image can be formed using a known technique.
Further, in the present embodiment, since the second photographing optical system 22 is provided on the display panel 30, the first and second photographing optical systems 12 and It is easy to set the distance between the optical axes 22 to about the interpupillary distance, and easily obtain two pieces of image information for forming a stereoscopic image with a simple configuration without using a dedicated optical device. Can be.
[0020]
In the present embodiment, the first and second image information are independently recorded on the recording medium. However, the first and second image information are combined to generate third image information, and the third image information is generated. The third image information may be recorded on the recording medium together with the first and second image information, or only the third image information may be recorded on the recording medium.
Also, at the time of reproduction of the recording medium, editing information for instructing in what form the first and second image information are reproduced, for example, the first and second image information are combined to form the third image information May be generated, and information instructing to reproduce the third image information may be recorded on a recording medium.
The method of recording the first and second image information on the recording medium is arbitrary, and the first and second image information may be recorded in a time-division manner. It is also optional to compress the first and second image information and record it on a recording medium.
Further, in the present embodiment, the first and second image information are recorded on a single recording medium, but the first and second image information may be recorded on different recording media.
In addition, the first and second photographing units are provided one by one, but the number of the first and second photographing units is arbitrary.
In this embodiment, an optical disk (including a magneto-optical disk) is used as a recording medium. However, the present invention is not limited to this. For example, a magnetic disk, a memory card, a magnetic tape, or the like may be used. Can be.
Further, in the present embodiment, the case where the imaging device 10 is a video camera has been described. However, the present invention is naturally applicable to other imaging devices such as a digital still camera.
[0021]
【The invention's effect】
As described above, the imaging apparatus of the present invention is advantageous in that the subjects at different positions can be simultaneously photographed by the photographing optical systems having different angles of view, and the degree of freedom of photographing can be increased.
[Brief description of the drawings]
FIG. 1 is a perspective view of an imaging device according to an embodiment of the present invention as viewed from the front.
FIG. 2 is a perspective view of the imaging device as viewed from the rear.
FIG. 3 is a block diagram illustrating a configuration of a control system of the imaging apparatus.
FIG. 4 is a block diagram illustrating a configuration of a recording system of the imaging apparatus.
FIG. 5 is an explanatory diagram showing a state in which first and second persons are imaged by the imaging apparatus.
6A is an explanatory diagram showing a state in which an image of a first person is displayed on a display; FIG. 6B is an explanatory diagram showing a state in which an image of a second person is displayed on a display; It is explanatory drawing which shows the state which the image of the 1st, 2nd person was superimposed and displayed on the display.
[Explanation of symbols]
10 first case, 11 first photographing means, 12 first photographing optical system, 13 first image pickup device, 20 second case, 21 second Imaging means, 22 second imaging optical system, 23 second imaging element, 30 display panel, 100 imaging apparatus, 102 controller.

Claims (16)

Body case,
A first photographing unit that has a first photographing optical system provided in the main body case and captures a subject image formed by the first photographing optical system to generate a first imaging signal;
A second photographing unit having a second photographing optical system provided in the main body case, photographing a subject image formed by the second photographing optical system, and generating a second image pickup signal;
Driving means for changing a direction in which the second photographing optical system is directed;
A directional control unit that controls the directional direction of the second imaging optical system by controlling the driving unit;
Image recording means for generating image information based on the first imaging signal and the second imaging signal, and recording the image information on a recording medium,
The first and second photographing optical systems are configured to be set so that the angle of view of the second photographing optical system is larger than the angle of view of the photographing optical system of the first optical system. ,
An imaging device characterized by the above-mentioned. The imaging apparatus according to claim 1, wherein the main body case includes a display panel, and further includes image display means for displaying an image based on the first imaging signal and the second imaging signal on the display panel. The main body case has a first case that houses the first photographing unit, and a second case that houses the second photographing unit, and the second case is provided in the first case. The imaging device according to claim 1, wherein the imaging device is swingably connected. The main body case includes a display panel, and image display means for displaying an image based on the first imaging signal and the second imaging signal on the display panel is provided, and the main body case includes the first imaging means. A first case accommodating therein, a second case accommodating the second photographing unit, and the display panel, wherein the display panel is swingably connected to the first case; The second case is connected to the display panel. The main body case has a second case for accommodating the second photographing unit, and the driving unit changes a direction in which the second photographing optical system is directed by moving the second case. The imaging device according to claim 1, wherein the imaging device is configured as follows. The main body case includes a display panel, and image display means for displaying an image based on the first imaging signal and the second imaging signal on the display panel is provided, and the main body case includes the first imaging means. A first case accommodating therein, a second case accommodating the second photographing unit, and the display panel, wherein the display panel is swingably connected to the first case; A second case is connected to the display panel, and the driving unit is configured to change a direction in which the second imaging optical system is directed by moving the second case. The imaging device according to claim 1. The main body case includes a display panel, and image display means for displaying an image based on the first imaging signal and the second imaging signal on the display panel is provided, and the main body case includes the first imaging means. A first case accommodating therein, a second case accommodating the second photographing unit, and the display panel, wherein the display panel is provided in the first case, and the display panel is provided in the first case. A display panel having an upper surface facing upward, the display panel having an upper surface facing upward, the display panel having an upper surface facing upward; The imaging device according to claim 1, wherein the second case is disposed at the upper surface portion away from the first case in a state where the second case is opened to a use position. When the optical axis of the first photographing optical system is substantially parallel to the optical axis of the second photographing optical system, the distance between these two optical axes is substantially equal to the human eye width. The imaging device according to claim 1, wherein the imaging device is configured. When the optical axis of the first photographing optical system is substantially parallel to the optical axis of the second photographing optical system, the distance between these two optical axes is substantially equal to the human eye width. The position of the first photographing optical system in the height direction of the optical axis of the first photographing optical system and the second photographing optical system are configured with the upper surface of the body case facing upward and the lower surface of the body case facing downward. 2. The image pickup apparatus according to claim 1, wherein the position of the optical axis in the height direction substantially coincides with the position of the optical axis. When the optical axis of the first photographing optical system is substantially parallel to the optical axis of the second photographing optical system, the distance between these two optical axes is substantially equal to the human eye width. With the upper surface of the main body case facing upward and the lower surface of the main body case facing downward, the height of the optical axis of the first photographing optical system in the height direction with the display panel positioned at the use position is configured. 8. The imaging apparatus according to claim 7, wherein the position is substantially coincident with the position of the second photographing optical system in the height direction of the optical axis. The apparatus further includes a voice direction detecting unit that detects a voice and obtains a direction in which the voice is generated based on a detection result of the voice, wherein the control of the driving unit by the directional control unit is performed by the second photographing optical system. 2. The image pickup apparatus according to claim 1, wherein the image pickup apparatus is directed in a direction detected by the sound direction detection unit. The image information is recorded on the recording medium by the image recording means by independently recording first image information based on the first image signal and second image information based on the second image signal. 2. The imaging apparatus according to claim 1, wherein the imaging is performed. The image information is recorded on the recording medium by the image recording means by independently recording first image information based on the first image signal and second image information based on the second image signal. The image recording means is configured to record the editing information used when reproducing the first and second image information on the recording medium. Item 2. The imaging device according to Item 1. The recording of the image information on the recording medium by the image recording means is performed by the image recording means by combining the first image information based on the first image signal and the second image information based on the second image signal. 2. The image pickup apparatus according to claim 1, wherein the third image information is generated by compositing, and the third image information is recorded on a recording medium. The main body case includes a display panel, and further includes an image display unit that displays an image based on the first image signal and the second image signal on the display panel, wherein the image display unit includes the first image signal. The imaging apparatus according to claim 1, wherein the imaging apparatus is configured to select one of an image based on a signal and an image based on a second imaging signal and display the selected image on a display panel. The main body case includes a display panel, and further includes an image display unit that displays an image based on the first image signal and the second image signal on the display panel, wherein the image display unit includes the first image signal. The imaging device according to claim 1, wherein an image based on the signal and an image based on the second imaging signal are simultaneously displayed.

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