JP2004032222A - Digital camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make a display device 30 freely attachable and detachable to/from a camera 1 and to control the camera 1 by following the instruction from the display device 30. <P>SOLUTION: A storage recess 4 to store the display device 30 is formed on the rear face of the camera 1. When the display device 30 is stored in the storage recess 4, a connection terminal of the camera 1 and the connection terminal of the display device 30 are electrically connected, and the instruction from the display device 30 is transmitted to the camera 1. Also, image data outputted from the camera 1 is transmitted to the display device 30, and an image is displayed on a display screen of the display device 30. When the display device 30 is detached from the storage recess 4, the display device 30 and the camera 1 are made communicable with each other by a sensor 6. The instruction from the display device 30 can be transmitted to the camera 1 even in a state that the display device 30 is stored in the camera 1 or detached from it. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
【Technical field】
The present invention relates to a digital camera (including a portable information device having a camera function).
[0002]
BACKGROUND OF THE INVENTION
Many digital cameras have a liquid crystal display on the back. An image represented by image data obtained by imaging the subject is displayed on the display screen of the liquid crystal display device. The subject can be photographed while checking the displayed image.
[0003]
As described above, since a digital camera is often provided with a liquid crystal display device, it is required to use the liquid crystal display device effectively.
[0004]
DISCLOSURE OF THE INVENTION
It is an object of the present invention to effectively use a liquid crystal display device.
[0005]
The digital camera according to the first invention comprises a digital camera body and a display device that is detachable from the digital camera body.
[0006]
The digital camera body is formed on the back surface of the digital camera body and holds the display device so that the display screen is on the outside, and detects that the display device is held by the holding portion. Detecting means, a first power supply circuit for supplying power to the display device in response to the detection means detecting that the display device is held in the holding unit, and a command transmitted from the display device Obtained by the receiving circuit for receiving the image, the photographing means for photographing the subject based on the command received by the receiving circuit, and the photographing means operating based on the power supplied from the first power circuit. Image data transmission means for transmitting the received image data to the display device.
[0007]
The display device is based on a second power supply circuit that supplies power, a power supply supplied from the first power supply circuit of the digital camera body, or a power supply supplied from the second power supply circuit. Input means for inputting a command to be transmitted to the digital camera body, a transmission circuit for transmitting a command input from the input means to the digital camera body, and the digital circuit by the transmission circuit. Display control means is further provided for controlling the display device so as to display an image represented by the image data transmitted from the image data transmission circuit of the digital camera based on the command transmitted to the camera body.
[0008]
According to the first invention, the digital camera is composed of a digital camera body and a display device. A holding part is formed in the digital camera body, and a display device is held in this holding part. When the display device is held in the holding unit, the holding is detected by the detecting means. When it is detected that the display device is held in the holding unit, power is supplied to the display device from the first power supply circuit in the digital camera body. The display device operates with power supplied from a first power supply circuit in the digital camera body.
[0009]
The display device has a second power supply circuit. When not held in the digital camera body, the display device operates with the power supplied from the second power supply circuit.
[0010]
The display device is provided with input means for inputting a command to be transmitted to the digital camera body, and the command input from the input means is transmitted to the digital camera body.
[0011]
When a command transmitted from the display device is received by the digital camera body, the subject is imaged according to the command. Image data obtained by imaging is transmitted from the digital camera body to the display device. The subject image is displayed on the display screen of the display device.
[0012]
Whether the display device is held in the digital camera body or not, the command can be transmitted from the display device to the digital camera body. As described above, the digital camera body can be controlled in accordance with the command.
[0013]
According to a second aspect of the present invention, there is provided a digital camera that captures an image of a subject and outputs image data representing the image of the subject, and outputs the image data from the imaging unit to a display screen that is irradiated with light transmitted from a backlight device. A liquid crystal display device for displaying an image represented by the image data, and a light guide for guiding the emitted light from the backlight device to be emitted from the front of the digital camera. .
[0014]
According to the second invention, the light emitted from the backlight device is applied to the back surface of the display screen of the liquid crystal display device. The light emitted from the backlight device is emitted from the front of the digital camera through the light guide. The backlight device can be used to illuminate the subject brightly. The backlight device provided in the liquid crystal display device can be effectively used without causing the strobe device to emit strobe light.
[0015]
A condensing / diffusing lens that collects or diffuses the light guided by the light guide path and emits the light from the front of the digital camera may be further provided. For example, when the macro shooting mode is set, it is determined that the main subject is nearby, so that the light can be diffused. Further, when the macro shooting mode is not set, the light can be condensed and irradiated to the main subject.
[0016]
You may make it further provide the determination means which determines whether it is dark place imaging | photography. In this case, the light guide path will emit the light emitted from the backlight device from the front of the digital camera in response to the determination by the determination means that the image is taken in the dark place.
[0017]
The light guide path may selectively conduct light emitted from the backlight device to the front of the digital camera and to the back surface of the display screen. In this case, determination means for determining whether or not the photographing is in the dark place, and the light emitted from the backlight device and the front of the digital camera in response to the determination that the darkness photographing is determined by the determination means, the determination means Accordingly, light guide path control means for controlling the light guide path so as to guide the emitted light from the backlight device to the back surface of the display screen in response to the determination that it is not dark place shooting will be provided.
[0018]
[Explanation of Examples]
FIG. 1 shows an embodiment of the present invention, and is a perspective view of a digital still camera as viewed from the back.
[0019]
The digital still camera includes a camera body 1 and a display device 30 that are separable from each other. The camera body 1 and the display device 30 can communicate with each other.
[0020]
An imaging lens 3 projects from the front surface of the camera body 1. On the upper surface of the camera body 1, a release button 2 is provided on the right side when viewed from the back.
[0021]
A storage recess 4 is formed almost entirely on the back surface of the camera body 1. The storage recess 4 is almost the same size as the display device 30. The display device 30 is just inserted into the storage recess 4. A detection switch 5 is provided on the inner wall 4A of the storage recess to detect that the display device 30 is fitted in the storage recess 4 of the camera body 1. A sensor 6 for communicating with the display device 30 is provided on the right side of the detection switch 5. In addition, a connection terminal that is electrically connected to the display device 30 when the display device 30 is fitted into the storage recess 4A is formed on the upper wall of the storage recess 4.
[0022]
A display screen 30 </ b> A is formed on the surface of the display device 30. A menu button 31, a first select button 32, a second select button 33, and an enter button 34 below the display screen 30A (these buttons are realized by displaying an area on the screen 30A by software. A touch panel is formed on the screen 30A, and it is needless to say that the touch is detected. Of course, a mechanical button may be formed). A sensor for communicating with the camera body is provided on the upper surface of the display device 30. Furthermore, on the upper surface of the display device 30, there is a connection terminal for electrically connecting with a connection terminal formed in the storage recess when the display device 30 is fitted in the storage recess 4 of the camera body 1. (These sensors and connection terminals are on the back side in FIG. 1 and are not visible).
[0023]
As shown in FIG. 1, when the display device 30 is detached from the camera body 1, communication is performed using the sensor 6 formed on the camera body 1 and the sensor formed on the display device 30.
[0024]
FIG. 2 is a perspective view of the digital still camera in a state in which the display device 30 is fitted in the storage recess 4 of the camera body 1.
[0025]
When the display device 30 is fitted in the storage recess 4 of the camera body 1, the connection terminal of the display device 30 and the connection terminal of the camera body 1 are electrically connected. The camera body 1 and the display device 30 communicate with each other via a connection terminal that is electrically connected. When a signal indicating that the menu button 31 or the like has been pressed is transmitted from the display device 30 to the camera body 1, processing corresponding to the transmission is performed in the camera body 1. By transmitting image data from the camera body 1 to the display device 30, an image represented by the image data is displayed on the display screen 30 </ b> A of the display device 30.
[0026]
FIG. 3 is an example of an image displayed on the display screen 30 </ b> A of the display device 30.
[0027]
In FIG. 3, a file operation menu 30 is displayed.
[0028]
When the menu button 31 is pressed, various menus are displayed on the display screen 30A. A desired menu is selected from the displayed menus by the first select button 32 or the second select button 32. When the enter button 34 is pressed, the selected menu is determined.
[0029]
As shown in FIG. 3, when the file operation menu 35 is selected and displayed on the display screen 30A, the cursor 36 is moved down by operating the first select button 32 or the second select button 33. Or move up. When the determination button 34 is pressed, a command surrounded by the cursor 36 is given to the display device 30 and given from the display device 30 to the camera body 1.
[0030]
FIG. 4 is a block diagram showing an electrical configuration of the digital still camera.
[0031]
As described above, the digital still camera includes the camera body 1 and the display device 30 that can be attached to and detached from the camera body 1.
[0032]
Connection terminals 28A, 28B and 28C are formed in the camera body 1. Further, the display device 30 is formed with connection terminals 51A, 51B and 51C. When the display device 30 is stored in the storage recess 4 of the camera body 1, the connection terminals 28A, 28B, and 28C of the camera body 1 and the connection terminals 51A, 51B, and 51C of the display device 30 are electrically connected. .
[0033]
The camera body is provided with the sensor 6 as described above. The display device 30 is provided with a sensor 47 that communicates with the sensor 6. When the display device 30 is removed from the storage recess 4 of the camera body 1, the display device 30 and the camera body 1 communicate with each other using the sensors 6 and 47.
[0034]
The overall operation of the camera body 1 is controlled by the CPU 10. The display device 30 also has a CPU 40 built therein, and the operation of the display device 30 is controlled by the CPU 40.
[0035]
The signal indicating that the release button 2 is pressed and the detection signal output from the detection switch 5 are input to the CPU 10. Further, the control signal of the display device 30 output from the CPU 10 is given to the connection terminal 28 </ b> A and the transmission / reception circuit 27.
[0036]
The camera body 1 also includes a power supply circuit 20 that supplies power to each circuit constituting the camera body. The power output from the power supply circuit 20 is also applied to the connection terminal 28A.
[0037]
When a shooting mode is set by a mode setting switch (not shown), a subject image is formed on the light receiving surface of the CCD 11 via the imaging lens 3. Various timing clock pulses are output from the timing signal generation circuit 14 and supplied to the CCD drive circuit 15 and the CDS (correlated double sampling) and AD (analog / digital) converter 12. The CCD 11 is driven by the CCD drive circuit 15.
[0038]
A video signal representing the subject image is output from the CCD 11 and input to the CDS and AD converter 12. In the CDS and AD converter 12, a correlated double sampling process is performed. The video signal subjected to the correlated double sampling processing is subjected to analog / digital conversion to obtain image data. The image data is temporarily stored in the memory 19 via the image processing circuit 13. The image data is read from the memory 19 and input to the image processing circuit 13, and predetermined image processing such as white balance adjustment and gamma correction is performed. The image data output from the image processing circuit 13 is input to the switching circuit 25. The switching circuit 25 switches the supplied image data to the connection terminal 28A or the liquid crystal display data coding circuit 26 and outputs it.
[0039]
When the detection switch 5 detects that the display device 30 is housed in the housing recess 4 of the camera body 1, the image data output from the image processing circuit 13 is switched to be supplied to the connection terminal 28A. The circuit 25 is controlled by the CPU 10. When the detection switch 5 detects that the display device 30 is not housed in the housing recess 4 of the camera body 1, the image data output from the image processing circuit 13 is given to the liquid crystal display data coding circuit 26. Thus, the switching circuit 25 is controlled by the CPU 10.
[0040]
Image data output from the switching circuit 25 when the display device 30 is stored in the storage recess 4 of the camera body 1 is input to the liquid crystal drive circuit 50 via the connection terminal 28A and the connection terminal 51A of the display device 30. To do. The liquid crystal display device 46 is driven by the liquid crystal driving circuit 50, and an image represented by image data obtained by photographing is displayed on the display screen of the liquid crystal display device 46.
[0041]
The image data output from the switching circuit 25 when the display device 30 is stored in the storage recess 4 of the camera body 1 is input to the liquid crystal display data coding circuit 26 as described above. A coding process is performed in the liquid crystal display data coding circuit 26. The coded image data is given to the sensor 6 via the transmission / reception circuit 27. It is transmitted from the sensor 6 to the sensor 47 of the display device 30. Image data is input to the transmission / reception circuit 48 via the sensor 47. The image data is input from the transmission / reception circuit 48 to the liquid crystal display data decoding circuit 49. Decoding processing is performed in the liquid crystal display data decoding circuit 49 and input to the liquid crystal driving circuit 50. When the liquid crystal display device 46 is driven by the liquid crystal driving circuit 50, an image represented by image data obtained by photographing is displayed on the display screen of the liquid crystal display device 46.
[0042]
The image data output from the image processing circuit 13 is also supplied to the video output circuit 23. Video signal processing is performed in the video output circuit 23 and applied to the video output terminal 24. An image represented by image data obtained by photographing is displayed on a display screen of a display device connected to the video output terminal 24.
[0043]
Further, an electronic view finder 22 may be provided in the camera body 1. When the image data output from the image processing circuit 13 is given to the electronic view finder 22, an image represented by the image data obtained by photographing is displayed on the display screen of the electronic view finder 22.
[0044]
When the release button 2 is pressed, the image data output from the image processing circuit 13 as described above is applied to the external interface recording control circuit 16. Image data obtained by photographing is recorded on the memory card 18 by the external interface recording control circuit 16. Further, it is given from the external interface recording control circuit 16 to the input / output circuit 17. Image data is recorded on a recording medium connected to the input / output circuit 17.
[0045]
The display device 30 includes a power supply circuit 42 that supplies power to each circuit of the display device 30.
[0046]
When the detection switch 5 detects that the display device 30 is housed in the housing recess 4 of the camera body 1, a power switch control signal is sent from the CPU 10 of the camera body 1 to the CPU 40 of the display device 30. Is provided via 51B. Then, the CPU 40 of the display device 50 gives a switching control signal to the power supply selector switch 41, and the power supplied from the camera body 1 is given to each circuit of the display device 30.
[0047]
When the detection switch 5 detects that the display device 30 is not stored in the storage recess 4 of the camera body 1, the power switch control signal is sent from the CPU 10 of the camera body 1 to the CPU 40 of the display device 30. , The sensor 6, the sensor 7 of the display device 30, and the transmission / reception circuit 48, input to the CPU 40 of the display device 30. Then, the power supply circuit 42 is controlled by the CPU 40 of the display device 50 so that power is supplied from the power supply 42 of the display device 40 to each circuit of the display device 40.
[0048]
Signals output from the keypad 43 of the menu button 31, the first select button 32, the second select button 33, and the enter button 34 provided on the display device 30 are input to the operation position detection circuit 45. To do. The operation position detection circuit 45 detects which of the buttons 31 to 34 is pressed, and inputs a signal indicating the detected position to the CPU 40.
[0049]
When the display device 30 is stored in the storage recess 4 of the camera body 1, an operation signal obtained based on the operation of the keypad 43 is transmitted via the connection terminal 51 </ b> B and the connection terminal 28 </ b> B of the camera body 1. To the CPU 10. The operation of the camera body 1 is controlled by the CPU 10 of the camera body based on the operation of the keypad 43 of the display device 30. For example, when the menu button 31 is pressed as described above, the camera body 1 is controlled to display the menu image on the display screen of the display device 30. When the display device 30 is not housed in the housing recess 4 of the camera body 1, a signal obtained based on the keypad 43 is given to the transmission / reception circuit 48. The operation signal is input to the CPU 10 of the camera body 1 via the transmission / reception circuit 48, the sensor 47, the sensor 6 of the camera body 1, and the transmission / reception circuit 27. Similarly to the case where the display device 30 is housed in the housing recess 4 of the camera body 1, the operation of the camera body 1 is controlled by the CPU 10 of the camera body based on the keypad operation of the display device 30.
[0050]
FIG. 5 is a flowchart showing the processing procedure of the digital still camera.
[0051]
When the detection switch 5 detects that the display device 30 is housed in the housing recess 4 of the camera body 1 (YES in step 61), the changeover switch 25 of the camera body 1 is given as described above. The changeover switch 41 of the display device 30 is switched so as to supply the power supplied from the power supply circuit 20 of the camera body 1 to each circuit of the display device 30 so as to supply data to the connection terminal 28A (step 62).
[0052]
When a command (command based on the operation of the keypad 43) given from the display device 30 is input to the CPU 10 of the camera body 1 (YES in step 63), processing corresponding to the command is performed by the camera body (step 64). As described above, image data representing an image to be displayed on the display screen of the display device 30 is input from the changeover switch 25 to the liquid crystal driving circuit 50 via the connection terminals 28A and 51A. By controlling the liquid crystal display panel 46 by the liquid crystal drive circuit 50, an image represented by image data given from the camera body 1 is displayed on the display screen 30A based on the operation of the keypad 43 of the display device 30. (Step 65).
[0053]
When the detection switch 5 detects that the display device 30 is housed in the housing recess 4 of the camera body 1 (NO in step 61), the changeover switch 25 of the camera body 1 displays the given image data on the liquid crystal display. The power supply circuit 42 of the display device 30 is controlled to supply power to each circuit of the display device 30 so as to be supplied to the data coding circuit 26 (step 71).
[0054]
When a command (command based on the operation of the keypad 43) given from the display device 30 is input to the CPU 10 of the camera body 1 (YES in step 72), processing corresponding to the command is performed by the camera body (step 73). As described above, the image data representing the image to be displayed on the display screen of the display device 30 passes through the liquid crystal display data / coding circuit 26, the sensors 6 and 7, the transmission / reception circuit 48, and the liquid crystal display data / decoding circuit 49. Input to the liquid crystal drive circuit 50. By controlling the liquid crystal display panel 46 by the liquid crystal drive circuit 50, an image represented by image data given from the camera body 1 is displayed on the display screen 30A based on the operation of the keypad 43 of the display device 30. (Step 74).
[0055]
In this way, the operation of the camera body 1 is controlled based on the operation of the keypad 43 of the display device 30 even when the display device 30 is not housed in the housing recess 4 of the camera body 1 or when it is housed. can do. In particular, when the display device 30 is housed in the housing recess 4 of the camera body 1, the display device 30 is operated by the power supplied from the power supply circuit 20 of the camera body 1, so that the power source 42 of the display device 30 is wasted. Can be prevented in advance.
[0056]
6 to 11 show another embodiment. In this embodiment, a subject is irradiated with light emitted from a backlight device included in a liquid crystal display device. A dark subject can be photographed brightly without using a strobe light emitting device.
[0057]
FIG. 6 is a perspective view of the digital still camera as viewed from the back.
[0058]
An imaging lens 82 is provided in front of the digital still camera. On the top surface of the digital still camera, a release button 81 is provided on the right side when viewed from the back.
[0059]
A liquid crystal display screen 83 is formed almost on the back of the digital still camera. Under the liquid crystal display screen 83, a menu button 84, a first select button 85, a second select button 86, and an enter button 87 are provided.
[0060]
FIG. 7 is a perspective view of the contents of the digital still camera, and corresponds to FIG. 8 is a cross-sectional view taken along line VIII-VIII in FIG.
[0061]
On the back side of the digital still camera 80, a liquid crystal display panel 98 having a liquid crystal display screen 83 formed on the surface as described above is provided. Inside the housing, a backlight light source (backlight device) 90 for irradiating the liquid crystal display panel 98 with backlight light from the back is provided in parallel with the back of the digital still camera 80. Inside the housing of the digital still camera 80, a reflector 96 is provided in parallel to the rear surface of the digital still camera 80 while being separated from the liquid crystal display panel 98 by a predetermined distance. Between the reflection plate 96 and the liquid crystal display panel 98, there is provided a light guide plate 95 that swings between a position indicated by a solid line and a position indicated by a chain line about a central axis C between a predetermined angle θ. On the central axis C, a swing motor 97 that swings the light guide plate 95 between a predetermined angle θ is provided.
[0062]
A first deflection mirror 91 is provided in front of the backlight light source 90 in parallel with the backlight light source 90. The light emitted from the backlight light source 90 is deflected upward by the first deflection mirror 91. A second deflection mirror 92 is provided above the first deflection mirror 91. The second deflection mirror 92 is curved and collects incident light and emits it from the front. In front of the second deflection mirror 92, a condensing / diffusion lens 93 for further collecting or diffusing the light collected by the second deflection mirror 92 is provided. An irradiation window 94 is formed in front of the condensing / diffusing lens 93 on the front surface of the digital still camera 80.
[0063]
When the subject brightness is low, the light guide plate 95 is positioned at the solid line position by the swing motor 97. Light emitted from the backlight source 90 is guided to the condensing / diffusing lens 93 by the first deflection mirror 91 and the second deflection mirror 92. The light is condensed or diffused by the condensing / diffusing lens 93 and emitted from the irradiation window 94 to the subject. When the macro mode is set by a mode setting dial (not shown), the condenser / diffusion lens 93 is controlled so that the light emitted from the irradiation window 94 is diffused, and when the macro mode is not set, The condensing / diffusing lens 93 is controlled so that the light emitted from the irradiation window 94 is condensed. The light emitted from the backlight light source 90 is also guided to the second deflection mirror 92 by the reflector 96 and the light guide plate 95, and is irradiated onto the subject through the condensing / diffusing lens 93 and the irradiation window 94. Not too long. When the subject brightness is low, the subject is irradiated with the light emitted from the backlight light source 90, so that a relatively bright subject image can be obtained.
[0064]
When the subject brightness is high, the light guide plate 95 is positioned at the position of the chain line by the swing motor 97. Light emitted from the backlight light source 90 is applied to the back surface of the liquid crystal display panel 95 by the light guide plate 95.
[0065]
FIG. 9 is a block diagram showing an electrical configuration of the digital still camera 80. In this figure, the same components as those shown in FIG.
[0066]
The entire operation of the digital still camera 80 is controlled by the CPU 100.
[0067]
The light emission of the backlight light source 90 is controlled by the CPU 100.
[0068]
Image data obtained by photographing the subject as described above is given to the liquid crystal drive circuit 101. The liquid crystal display panel 98 is driven by the liquid crystal driving circuit 101, and an image represented by image data obtained by photographing is displayed on the display screen 83 of the display panel 98.
[0069]
The digital still camera 80 is provided with a dark place sensor 99. An output signal from the dark place sensor 99 is input to the CPU 100. When it is determined that the subject is dark based on the output signal from the dark place sensor 99, the backlight light source 90 emits light, and the light emitted from the backlight light source 90 is irradiated by the swing motor 97 as described above. The light guide plate 95 is controlled so as to be emitted from 94.
[0070]
The condensing / diffusing lens 93 is controlled so as to condense or diffuse the incident light by the motor 96.
[0071]
FIG. 10 is a flowchart showing the photographing processing procedure of the digital still camera 80.
[0072]
When the shooting mode is set by the mode setting dial, the liquid crystal display screen 83 is displayed as a default (step 111). For example, if the light emitted from the backlight light source 90 is set to be irradiated from the back surface of the liquid crystal display panel 98 as a default display, the position of the light guide plate 95 is controlled by the swing motor 97 as such.
[0073]
It is confirmed by the dark place sensor 99 whether or not the subject brightness is lower than the designated brightness (step 112).
[0074]
If it is determined that the shooting is in the dark place (YES in step 112), the light guide plate 97 is controlled by the swing motor 97 so as to be positioned at the position of the solid line in FIG. Thereby, the light of the backlight light source 90 is emitted from the irradiation window 94 and irradiates the subject (step 114: dark place photographing). The subject can be illuminated without using a strobe light emitting device. Further, since the image is taken in a dark place, it is possible to prevent the image displayed on the display screen 83 from becoming difficult to see even if the back surface of the liquid crystal display panel 98 is not illuminated by the light emitted from the backlight light source 90. You can check the shooting angle.
[0075]
If it is determined that the image is not in the dark place (NO in step 112), the light guide plate 97 is positioned at the position of the chain line in FIG. 8 without being moved. The light emitted from the backlight source 90 irradiates the back surface of the liquid crystal display panel 98 (step 113: normal liquid crystal display). It is possible to prevent the liquid crystal display screen 83 from becoming dark. Since a relatively bright subject image is displayed on the liquid crystal display screen 83, it is relatively easy to determine the shooting angle.
[0076]
Steps 112 to 114 are repeated until the photographing mode is completed (step 115).
[0077]
FIG. 11 is a flowchart showing the processing procedure of the irradiation method.
[0078]
When the shooting mode is set by the mode setting dial, the subject is shot in the standard shooting mode (step 121).
[0079]
If the macro shooting mode is not set by the user (NO in step 122), the condenser / diffusion lens 93 is controlled by the motor 96 so that the main subject is irradiated with the light emitted from the backlight source 90 (step 122). 123). When the macro shooting mode is set (YES in step 122), it is considered that the main subject is near the camera, so that the light emitted from the backlight light source 90 is diffused and irradiated so that the condensing / diffusing lens. 93 is controlled by the motor 96 (step 124).
[0080]
Steps 122 to 124 are repeated until the photographing mode is completed (step 125).
[0081]
In the above-described embodiment, whether or not the shooting is in the dark place is detected, and when the macro shooting mode is set when it is detected that the shooting is in the dark place, the condensing / diffusing of the condensing / diffusing lens 93 is performed. You may make it control. However, it is not necessary to perform both the processing for detecting whether or not the shooting is in the dark place and the processing for detecting whether or not the macro shooting mode is set, and one of the processing may be performed. Needless to say.
[Brief description of the drawings]
FIG. 1 is a perspective view of a digital still camera according to an embodiment of the present invention.
FIG. 2 is a perspective view of a digital still camera according to an embodiment of the present invention.
FIG. 3 is an example of an image displayed on a display screen.
FIG. 4 is a block diagram showing an electrical configuration of a digital still camera.
FIG. 5 is a flowchart showing a processing procedure of the digital still camera.
FIG. 6 is a perspective view of a digital still camera according to another embodiment.
FIG. 7 is a perspective view of the digital still camera as viewed from the back.
8 is a cross-sectional view taken along line VIII-VIII in FIG.
FIG. 9 is a block diagram showing an electrical configuration of a digital still camera.
FIG. 10 is a flowchart illustrating a processing procedure of a shooting mode.
FIG. 11 is a flowchart showing a processing procedure of an irradiation method.
[Explanation of symbols]
1,80 digital still camera
4 storage recess
5 Detection switch
6,47 sensor
10, 40, 100 CPU
20, 42 Power supply circuit
27, 48 Transmission / reception circuit
28A, 28B, 28C, 51A, 51B, 51C Connection terminal
30 Display device
43 Keypad
90 Backlight source
91 First deflection mirror
92 Second deflection mirror
93 Condenser / Diffusion Lens
94 Irradiation window
95 Light guide plate
96 reflector
97 Swing motor
98 LCD panel
99 Dark place sensor

Claims (3)

It consists of a digital camera body and a display device that is detachable from the digital camera body.
The digital camera body is
A holding part that is formed on the back surface of the digital camera body and holds the display device such that the display screen faces outside;
Detecting means for detecting that the display device is held in the holding unit;
A first power supply circuit for supplying power to the display device in response to detecting that the display device is held in the holding unit by the detection means;
A receiving circuit for receiving a command transmitted from the display device;
An imaging unit that operates based on power supplied from the first power supply circuit and that captures a subject based on a command received by the receiving circuit, and image data obtained by imaging in the imaging unit Image data transmitting means for transmitting to the device;
The display device
A second power supply circuit for supplying power,
It operates based on the power supplied from the first power circuit of the digital camera body or based on the power supplied from the second power circuit.
Input means for inputting a command to be transmitted to the digital camera body;
A transmission circuit for transmitting a command input from the input means to the digital camera body, and a transmission from the image data transmission circuit of the digital camera based on the command transmitted to the digital camera body by the transmission circuit. Display control means for controlling the display device to display an image represented by the image data,
A digital camera further equipped with An imaging means for imaging a subject and outputting image data representing the subject image;
A liquid crystal display device that displays an image represented by the image data output from the imaging means on a display screen irradiated with light transmitted from the backlight device, and light emitted from the backlight device A light guide that guides the light from the front of the digital camera,
With digital camera. The digital camera according to claim 2, further comprising a condensing / diffusing lens that collects or diffuses the light guided by the light guide path and emits the light from the front of the digital camera.

Images