JP2005020251A - Digital camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a digital camera with remote controller which can transmit picture data to the remote controller from a camera main body in a short time and which has a display means. <P>SOLUTION: A main control means 7 controls a system in such a way that it transmits picture data to the remote controller 3 through a connector 9 when the connector 9 is connected to a connection terminal 12, and transmits conversion data whose data amount is smaller than original picture data to the remote controller 3 through a main body communication means 11 when the connector 9 is not connected to the connection terminal 12. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital camera with a remote control having display means and / or recording means.
[0002]
[Prior art]
In recent years, a digital camera with a remote control having a liquid crystal monitor has been developed as a user-friendly digital camera, and such a digital camera is disclosed in Patent Document 1.
[0003]
According to the invention described in Patent Document 1, when the liquid crystal monitor is attached to the camera body, it operates as the display monitor. When the liquid crystal monitor is detached from the camera body and connected to the communication means, the display monitor is attached. Therefore, the user can confirm the image captured by the digital camera remotely and take an image while adjusting the image, which is convenient for the user.
[0004]
However, in the digital camera described in Patent Document 1, since the data transfer capability between the camera body and the remote controller when the remote controller is detached from the camera body is smaller than the transfer capability when the remote controller is attached, the remote controller is mounted on the camera body. When it is removed from the camera, it cannot be displayed because it cannot send video or still image data from the camera body to the remote control in a short time, and in particular, image data cannot be sent at the screen display speed displayed on the LCD monitor in the remote control. There is a problem that the motion of the image becomes unnatural or the time lag of the image captured on the liquid crystal monitor is large.
[0005]
In order to solve such problems, a camera described in Patent Document 2 is disclosed. The camera described in Patent Document 2 is configured to binarize an image captured by the camera body and transmit the two-tone image to a remote controller. Thereby, the image transmission speed from the camera body to the remote controller can be shortened.
[0006]
[Patent Document 1]
JP 2001-320625 A
[Patent Document 2]
JP-A-11-174576
[0007]
[Problems to be solved by the invention]
However, the conventional digital camera has a problem that the image displayed on the liquid crystal monitor provided in the remote control is always an image with a small gradation and the image quality is not good. In particular, when the remote control is attached to the camera body, it is used as a finder for photographing, so that the image quality is also high, there is a strong demand from the market.
[0008]
SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and an object thereof is to provide a digital camera that can transmit image data to a remote controller in a short time and with good image quality.
[0009]
[Means for Solving the Problems]
In order to achieve this object, a digital camera according to a first aspect of the present invention includes a first imaging unit that captures an image of a subject and generates image data, and a first that transmits image data generated by the first imaging unit. A main body having a connection means, a first image processing means for generating converted data by reducing the data amount of the image data, and a first communication means for transmitting the conversion data; and connecting to the first connection means Possible second connection means for receiving image data, second communication means for receiving conversion data transmitted from the first communication means, and conversion data received via the second communication means Second image processing means for generating original image data based on the image data, and display means for displaying image data received through the second connection means or image data generated by the second image processing means Can be attached to and detached from the main body A remote controller for controlling the main body, and the main body transmits image data to the remote control through the first connection means when the first connection means is connected to the second connection means, When the first connection means is not connected to the second connection means, there is provided a main body control means for controlling the conversion data to be transmitted to the remote controller via the first communication means.
[0010]
With this configuration, even when transmitting to the remote control via the first communication means, the main body control means controls to transmit the conversion data having a data amount smaller than the original image data. On the other hand, image data can be transmitted in a short time. Further, when transmitting to the remote controller via the first communication means, conversion data with a small data amount is automatically generated and transmitted without being conscious of the user, which is convenient for the user.
[0011]
According to a second aspect of the present invention, there is provided a digital camera comprising: a first imaging unit that captures an image of a subject and generates image data; and a first image processing unit that generates conversion data by reducing the amount of image data. A main body having a first connection means for transmitting the conversion data and a first communication means for transmitting the conversion data; and a second connection means connectable to the first connection means and receiving the conversion data Second communication means for receiving the conversion data transmitted from the first communication means, and original image data based on the conversion data received via the second connection means or the second communication means. A second image processing unit to be generated; and a display unit to display image data generated by the second image processing unit. The main unit includes a remote controller that is detachable from the main body and controls the main body. , The first connection means is the second connection When the first connection means is connected to the second connection means, the conversion data having a data amount smaller than the conversion data generated by the first image processing means when the first connection means is connected to the second connection means is not connected to the first image. It has a main body control means for controlling to be generated by the processing means and transmitted to the remote controller via the first communication means.
[0012]
With this configuration, even when transmitting to the remote control via the first communication means, the main body control means controls to transmit conversion data having a smaller data amount than when transmitting via the first connection means. Therefore, the image data can be transmitted from the main unit to the remote controller in a short time.
[0013]
According to a third aspect of the present invention, there is provided the digital camera according to the first or second aspect, wherein the remote controller includes recording means for recording image data or conversion data received from the main body. This configuration is convenient because the user can exchange recording means on the remote control side.
[0014]
A digital camera according to a fourth invention is the digital camera according to any one of the first to third inventions, wherein the main body generates a signal for instructing generation of a recorded image by the first imaging means. The remote control includes a second operation unit that generates a signal instructing generation of a recorded image by the first imaging unit, and the main body control unit includes the first connection unit as the second connection unit. When connected, a signal generated by the first operating means is received to instruct generation of a recorded image by the first imaging means, while the first connecting means is connected to the second connecting means. If not, a signal generated by the second operation means is received to instruct generation of a recorded image by the first imaging means. With this configuration, the remote controller is not operated by the first operation means of the main body but is operated by the second operation means of the remote control. It is possible to prevent operation.
[0015]
According to a fifth aspect of the present invention, there is provided a digital camera, comprising: a main body having a first imaging unit that captures an image of a subject and generates first image data; and a first communication unit that transmits the first image data; A second communication unit that receives the first image data transmitted from the first communication unit; a second imaging unit that captures an image of the subject and generates the second image data; and a second communication unit that receives the first image data. Display means for displaying the first image data generated or the second image data generated by the second imaging means, and a remote controller that is detachable from the main body and controls the main body. With this configuration, the user can easily take an image with a remote controller having a small weight and a small capacity.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS.
[0017]
(Embodiment 1)
FIG. 1 is a rear view of the digital camera according to Embodiment 1 of the present invention. In FIG. 1, the digital camera 1 includes a camera body 2 and a remote controller 3. The camera body 2 has a lens barrel (not shown), a power switch 8a, a shutter button 8b, a main body communication means 11, a finder 19 and the like, and selects a still image or a moving image by pressing the shutter button 8b. Image. When the power switch 8a is switched to the arrow A side, the power of the camera body 2 is turned on, and when switched to the arrow B side, the power is turned off. The main body communication means 11 is a means for communicating with the remote control 3 by radio such as Bluetooth or infrared, and receives a control signal from the remote control 3 or transmits image data from the camera main body 2. The viewfinder 19 is a display means for allowing the user to look into and capture the subject within the angle of view during shooting.
[0018]
The remote controller 3 includes a determination button 17a, a cursor key 17b, a shutter button 17c, a liquid crystal monitor 18, and the like, and is detachable from the camera body 2 mechanically and electrically. The remote controller 3 controls the camera body 2. The decision button 17a is an operation means used when the selection items displayed in the liquid crystal monitor 18 are decided, and the cursor key 17b is used for moving the cursor displayed in the liquid crystal monitor 18. Operating means. The shutter button 17c is an operation means for transmitting a control signal instructing the camera body 2 to start imaging when the remote controller 3 is detached from the camera body 2. The liquid crystal monitor 18 is a display unit that displays a captured image or a through image. Here, the through image refers to an image displayed on the liquid crystal monitor 18 without being recorded on the memory card 6 among images captured by a body imaging unit 4 (to be described later) of the camera body 2. On the other hand, an image recorded on the memory card 6 among images picked up by the body image pickup means 4 of the camera body is called a recorded still image or a recorded moving image. A recorded still image and a recorded moving image are collectively referred to as a recorded image. The term “image data” means both through image data and recorded image data. The liquid crystal monitor 18 only needs to be capable of displaying an image, and may be replaced with, for example, an organic EL display panel. Further, the power switch 8 a and the shutter button 8 b are a part of the main body operating means 8, and the decision button 17 a, the cursor key 17 b and the shutter button 17 c are a part of the remote control operating means 17.
[0019]
FIG. 2 is a rear view of the camera body 2 when the remote control 3 of the digital camera 1 according to Embodiment 1 of the present invention is removed. In FIG. 2, the camera body 2 has a connection connector 9 at a portion from which the remote control 3 is removed, and the connection connector 9 is a connection means that electrically (such as a serial bus) and mechanically connects to the remote control 3.
[0020]
FIG. 3 is a back view of remote controller 3 according to Embodiment 1 of the present invention. The remote control 3 includes a connection terminal 11 and remote control communication means 14. In addition, the remote controller 3 has pins and screws (none of which are shown) for mechanically connecting to the camera body 2. The connection terminal 12 is a connection means for connecting to the connection connector 9 of the camera body 2, and the remote control communication means 14 is for communicating with the body communication means 11 of the camera body 2.
[0021]
FIG. 4 is a block diagram showing the configuration of the digital camera 1 according to Embodiment 1 of the present invention. In FIG. 4, a main body image pickup means 4 is an image pickup means for picking up an image of a subject and generating image data, and includes a lens, a CCD, a YC data generation means (all not shown), and the like. The main body image processing means 5 is an image processing means for performing resolution conversion, compression or expansion on the image data generated by the main body imaging means 4 or the image data received from the main body control means 7 and the memory card 6. It is composed of a compression circuit, a decompression circuit, etc. specified in the standard. The memory card 6 is a recording means in which a semiconductor memory (not shown) such as a flash memory or a ferroelectric memory is built, and is detachable from the camera body 2. The main body control means 7 is a means for controlling the main body imaging means 4, the main body image processing means 5, the main body communication means 11 and the connection connector 9, and is realized by a microcomputer or the like. The main body operation means 8 includes a power switch 8a, a shutter button 8b, and the like, and transmits a control signal to the main body control means 7. The connection connector 9 transmits image data generated by the main body image pickup means 4, conversion data compressed or resolution-converted by the main body image processing means 5, or a control signal to the remote control 3, and image data and control signals are transmitted from the remote control 3. Or the like. Here, the conversion data means image data after being compressed by the main body image means 5 and image data after resolution conversion, and the amount of data is larger than that of the original image data generated by the main body imaging means 4. The feature is that (data size) is small. The main body connection detection means 10 is detection means for detecting whether or not the connection connector 9 is connected to a connection terminal 12 of the remote controller 3 to be described later, and this connection detection is performed electrically, mechanically, or optically. When the connection connector 9 and the connection terminal 12 are connected, it is detected and a control signal indicating the connection is transmitted to the main body control means 7.
[0022]
The connection unit 12 is a connection unit for connecting to the connection connector 9 and receives image data, conversion data, or a control signal from the camera body 2 and transmits image data, a control signal, or the like from the remote controller 3. The remote control connection detection means 13 is a detection means for detecting whether or not the connection terminal 12 and the connection connector 9 are connected, and the detection of this connection is detected electrically, mechanically or optically. When the connection terminal 12 and the connection connector 9 are connected, it is detected and a control signal indicating that the connection terminal 12 is connected is transmitted to the remote control means 14. The remote control control means 14 is a control means for controlling the connection terminal 12, the remote control communication means 15, and the remote control image processing means 16, and includes a microcomputer or the like. The remote control communication means 15 transmits image data generated by a remote control image processing means 16 to be described later and a control signal from the remote control control means 14 to the main body communication means 11 or image data transmitted from the main body communication means 11. Communication means for receiving conversion data or a control signal from the main body control means 7. The remote control image processing unit 16 is an image processing unit that performs resolution conversion, compression, or expansion on the image data received from the remote control unit 14 or the memory card 20, and includes, for example, a compression circuit, a decompression circuit, or the like defined in the JPEG standard. Composed. The remote control operation means 17 includes a determination button 17a, a cursor key 17b, a shutter button 17c, and the like, and transmits a control signal to the remote control control means 14. The liquid crystal monitor 18 is display means for displaying image data generated by the remote control image processing means 16 or image data input via the remote control image processing means 16. Similar to the memory card 6, the memory card 20 is a recording unit composed of a semiconductor memory (not shown) or the like, and is detachable from the remote controller 3.
[0023]
The main body imaging means 4 is an example of the first imaging means of the present invention, the connection connector 9 is an example of the first connection means of the present invention, and the main body image processing means 5 is the first image of the present invention. The main body communication means 11 is an example of the first communication means of the present invention, the main body operation means 8 is an example of the first operation means of the present invention, and the camera main body 2 is an example of the processing means. It is an example of a main body.
[0024]
The connection terminal 12 is an example of the second connection means of the present invention, the remote control communication means 15 is an example of the second communication means of the present invention, and the remote control image processing means 16 is the second image of the present invention. The liquid crystal monitor 18 is an example of the display means of the present invention, the memory card 20 is an example of the recording means of the present invention, and the remote control operation means 17 is an example of the second operation means of the present invention. It is.
[0025]
With the digital camera 1 configured as described above, while the camera body 2 and the remote controller 3 are separated from each other, the remote controller 3 receives a through image generated by the camera body 2, and the user uses the remote controller 3 to move the camera body 2. The operation when operating will be described below with reference to FIGS.
[0026]
FIG. 5 is a flowchart for explaining the operations of the camera body 2 and the remote controller 3 in a state of waiting for a control signal from the remote controller 3 while transmitting the through image generated by the camera body 2 to the remote controller 3. FIG. 6 is a flowchart for explaining the operation of the camera body 2 when an imaging start signal is transmitted by the remote controller 3. FIG. 7 is a schematic diagram showing a screen display on the liquid crystal monitor 18 of the digital camera 1.
[0027]
In FIG. 1, the user switches the power switch 8a of the digital camera 1 to the arrow A side, turns on the digital camera 1, sets the digital camera 1 so that the subject can be imaged, and sets the operation mode of the camera body 2 to the recording mode. Set to. Then, the main body imaging means 4 images a subject and generates a through image (S1). At this time, the main body control means 7 receives a control signal indicating that the connection connector 9 and the connection terminal 12 are connected from the main body connection detection means 10 (S2), and the remote control 3 is attached to the camera main body 2. And the process proceeds to step S3. Then, the main body control means 7 acquires the through image generated by the main body imaging means 4 via the main body image processing means 5 and transmits the acquired through image to the remote control 3 via the connection connector 9. When the connection terminal 12 obtains the through image from the connection connector 9, it transmits it to the remote control means 14. The remote control control unit 14 receives a control signal indicating that the connection connector 9 and the connection terminal 12 are connected from the remote control connection detection unit 13, determines that the remote control 3 is attached to the camera body 2, and connects The through image received from the terminal 12 is transmitted to the liquid crystal monitor 18 via the remote control image processing means 16, and the through image is displayed on the liquid crystal monitor 18 (S7). When the main body control means 7 receives a control signal from the remote controller 3 (S8), the process proceeds to step 9, and when not received (S8), the process returns to step S2. The liquid crystal monitor 18 sequentially displays the image data generated by the main body imaging means 4 as a through image by the loop-like operation including the above steps S2, S3, S7, and S8.
[0028]
Next, when the user separates the remote controller 3 from the camera body 2 as shown in FIG. 2, the body connection detection means 10 detects that the connection connector 9 is not connected to the connection terminal 12, and this is controlled by the body control. Transmit to means 7. Then, the main body control means 7 causes the main body image processing means 5 to compress the through image generated by the main body imaging means 4, and generates conversion data whose data amount is smaller than the data amount of the original through image (S4). The converted data is transmitted to the remote controller 3 through the main body communication means 11 (S5). The remote control control unit 14 determines that the connection connector 9 and the connection terminal 12 are not connected by receiving a control signal indicating that the connection connector 9 and the connection terminal 12 are not connected from the remote control connection detection unit 13. Then, the conversion data transmitted from the main body communication means 11 is received via the remote control communication means 15, and the converted data received by the remote control image processing means 16 is expanded, so that the original through generated by the main body imaging means 4 is obtained. An image is generated (S6). Then, the through image expanded by the remote control image processing means 16 is displayed on the liquid crystal monitor 18 (S7). When the main body control means 7 receives a control signal from the remote controller 3 (S8), the process proceeds to step 9, and when not received (S8), the process returns to step S2. The liquid crystal monitor 18 sequentially displays the image data generated by the main body imaging means 4 as a through image by the loop-like operation including the above steps S2 and S4 to S8.
[0029]
Next, the operation of the digital camera 1 when an image is picked up by pressing the shutter button 17c of the remote controller 3 after the user adjusts the picked-up image using the through image will be described.
[0030]
When the user confirms the through image displayed on the liquid crystal monitor 18 and sets the imaging conditions such as imaging magnification and white balance and then presses the shutter button 17c of the remote controller 3, the remote controller control means 14 captures the recorded image. A control signal for starting is received from the remote control operation means 17 and transmitted to the camera body 2 via the remote control communication means 15. Since the remote controller 3 is separated from the camera body 2, the main body control means 7 receives a control signal for starting the recording image recording from the remote control means 14 via the main body communication means 11 (S 8). Then, the main body control means 7 causes the main body imaging means 4 to start generating image data of the recorded image, and the image data generated by the main body imaging means 4 is stored in an image memory (not shown) inside the main body image processing means 5. It is recorded and transmitted to the main body image processing means 5 (S91).
[0031]
Here, when the remote controller 3 is attached to the camera body 2, that is, when the connection connector 9 and the connection terminal 12 are connected, the main body control means 7 depresses the shutter button 17c on the remote control 3 side. Also, the control signal for starting the recording image recording is not transmitted to the main body imaging means 4, and the recording of the recording image is started for the main body imaging means 4 by pressing the shutter button 8b on the camera main body 2 side. Send a control signal to the effect. On the other hand, when the remote controller 3 is not attached to the camera body 2, that is, when the connection connector 9 and the connection terminal 12 are not connected, the body control means 7 depresses the shutter button 8b on the camera body 2 side. In addition, the control signal for starting the recording image recording is not transmitted to the main body image pickup means 4, and the main body image pickup means 4 is started to pick up the recording image by pressing the shutter button 17c on the remote control 3 side. Send a control signal to that effect.
[0032]
Next, the main body image processing means 5 compresses the received recorded image to generate converted data, and transmits the generated converted data of the recorded image to the main body control means 7. The main body control means 7 transmits the received conversion data to the remote controller 3 via the main body communication means 11 (S92). When the remote control means 14 receives the conversion data transmitted from the main body control means 7 via the remote control communication means 15, the remote control means 14 sends the original recorded image (generated by the main body imaging means 4) to the remote control image processing means 16 based on the conversion data. Image data) is generated, and the image data is displayed on the liquid crystal monitor 18. Then, as shown in FIG. 7A, the remote control means 14 displays “Do you want to record this image?” On the liquid crystal monitor 18 to prompt the user to select (S94). At this time, if the user selects “Yes”, the remote control means 14 further displays “Where do you want to record this image?” On the liquid crystal monitor 18 to select the recording destination of the recorded image to the user. Let When the user decides the recording destination using the cursor key 17b or the enter button 17a (S95), the remote control control means 14 transmits that fact to the camera body 2 via the remote control communication means 15. For example, when the user selects “both memory cards” as shown in FIG. 7B, the remote control control means 14 uses the converted data received from the camera body 2 via the remote control image processing means 16 to the memory card 20. And a control signal for instructing recording to the memory card 6 is transmitted to the camera body 2. When receiving the control signal, the main body control means 7 records the conversion data recorded in the image memory (not shown) inside the main body image processing means 5 in the memory card 6 (S96).
[0033]
Then, after step S96 or after the user selects not to record a recorded image in step S94 (in the case of “No” in S94), the main body imaging means 4 starts to generate a through image again and controls the main body. The means 7 transmits the through image to the remote controller (S97), and returns to step S2.
[0034]
As described above, according to the first embodiment of the present invention, the main body control unit 7 transmits image data to the remote controller 3 via the connection connector 9 when the connection connector 9 is connected to the connection terminal 12. When the connection connector 9 is not connected to the connection terminal 12, control is performed so that conversion data having a data amount smaller than that of the original image data is transmitted to the remote controller 3 via the main body communication means 11. Even when transmitting to the remote control 3, the main body control means 7 controls to transmit the conversion data having a data amount smaller than the original image data. Send in time. Also, when transmitting to the remote control 3 via the main body communication means 11, it is convenient for the user because the conversion data with a small data amount is automatically generated and transmitted without the user being conscious. Furthermore, when the remote controller 3 is attached to the camera body 2, it is detected that the camera body 2 is attached, and the amount of image data is not reduced compared to when the remote controller 3 is detached from the camera body 2, so that good image quality is transmitted. can do.
[0035]
Further, according to the first embodiment of the present invention, the remote controller 3 includes the memory card 20 that records the image data or the conversion data received from the camera body 2, and therefore the memory card 20 is exchanged on the remote controller 3 side. It is convenient because it can.
[0036]
Further, according to the first embodiment of the present invention, the main body control means 7 receives a signal generated by pressing the shutter button 8b when the connection connector 9 is connected to the connection terminal 12. While instructing generation of the image data of the recorded image by the main body imaging means 4, the main body by receiving a signal generated by pressing the shutter button 17c when the connection connector 9 is not connected to the connection terminal 12. Since an instruction to generate image data of a recorded image by the imaging unit 4 is given, it is possible to prevent a person other than the user operating the remote control 3 from operating the camera body 2 by mistake.
[0037]
(Embodiment 2)
In the second embodiment of the present invention, the remote controller 23 is different from the first embodiment of the present invention in that the remote controller 23 includes the remote controller imaging means 21. FIG. 8 is a rear view of the digital camera 22 according to Embodiment 2 of the present invention. In FIG. 8, the remote control imaging means 21 is provided on the same surface as the surface on which the liquid crystal monitor 18 is provided. The other configurations in FIG. 8 are the same as the configurations in FIG.
[0038]
FIG. 9 is a block diagram illustrating a configuration of the digital camera 22 according to the second embodiment. The remote control imaging unit 21 captures an object and generates image data under the control of the remote control control unit 14. The image data captured by the remote control imaging unit 21 may be subjected to processing such as resolution conversion and compression conversion by the remote control image processing unit 16. Further, the image data picked up by the remote control image pickup means 21 may be displayed on the liquid crystal monitor 18. Further, the image data picked up by the remote control image pickup means 21 may be recorded in the memory card 20. Further, the image data picked up by the remote control image pickup means 21 may be transmitted to the camera body 2 via the connection terminal 12 or the remote control communication means 15.
[0039]
In FIG. 8, the remote controller imaging means 21 is provided on the same surface as the liquid crystal monitor 18 of the remote controller 23. However, it may be provided on the back surface of the liquid crystal monitor 18 as shown in FIG. Further, the remote control imaging means 21 may be provided so as to be rotatable between the same surface and the back surface of the remote control 23 as the liquid crystal monitor 18. The main body imaging unit 4 is an example of the first imaging unit of the present invention, and the remote control imaging unit 21 is an example of the second imaging unit of the present invention.
[0040]
The operation when the subject is imaged by the remote control imaging means 21 of the digital camera 22 configured as described above will be described below with reference to FIG.
[0041]
The user selects which of the main body image pickup means 4 and the remote control image pickup means 21 is driven by operating the decision button 17a, the cursor key 17b, etc. in FIG. 8 (S21). At that time, the liquid crystal monitor 18 displays the screen shown in FIG. 12 to prompt the user to select. When the user selects “main body side”, the main body image pickup means 4 is enabled, and image data generated by the main body image pickup means 4 is input via the remote control communication means 15 (S22). The remote control means 14 displays the input image data on the liquid crystal monitor 18.
[0042]
On the other hand, when the user selects “remote control side”, the remote control imaging means 21 converts the input subject image into image data and transmits it to the remote control image processing means 16, and the remote control control means 14 provides the remote control image processing means 16. The remote control image processing means 16 is controlled to display the image data transmitted to the liquid crystal monitor 18 as a through image (S23). The user operates the remote controller 23 so that a desired image can be obtained based on the through image displayed on the liquid crystal monitor 18. Then, when the user sets the remote controller 23 so that a desired recorded image can be obtained, the user presses the shutter button 17c (S24). Then, the shutter button 17c sends a control signal to the remote control means 14 to start capturing a recorded image. The remote control control means 14 sends a control signal to the remote control imaging means 21 to start the recording image recording. As a result, the remote control imaging unit 21 images the subject and generates image data of the recorded image. Next, the remote control imaging unit 21 transmits the generated image data of the recorded image to the remote control image processing unit 16. Then, the remote control means 14 displays the image data of the recorded image transmitted to the remote control image processing means 16 on the liquid crystal monitor 18 (S25). Next, the remote control control means 14 records the image data of the recorded image generated by the remote control imaging means 21 on the memory card 20 (S26). At this time, the memory card 20 may record the image data of the recording image compressed by the remote control image processing means 16.
[0043]
As described above, according to the second embodiment of the present invention, the digital camera 22 transmits the image data generated by the main body imaging unit 4 and the main body imaging unit 4 that images the subject and generates image data. A camera body 2 having a main body communication means 11, a remote control communication means 15 for receiving image data transmitted from the main body communication means 11, a remote control imaging means 21 for imaging a subject and generating image data, and a remote control communication means A liquid crystal monitor 18 for displaying image data received via the image data 15 or image data generated by the remote control imaging means 21; a remote controller 23 that is detachable from the camera body 2 and controls the camera body 2; Therefore, the user can easily take an image with a remote controller that is light in weight and small in capacity. When image data with good image quality is desired, the image data can be generated by driving the main body imaging means 4 on the camera main body 2 side.
[0044]
In the first and second embodiments of the present invention, the memory card 6 is a recording unit that can be attached to and detached from the camera body 2, but may be a recording unit that is built in the camera body 2. For example, the camera body 2 may have a semiconductor memory mounted instead of the memory card 6. Similarly, the memory card 20 is a recording means that can be attached to and detached from the remote control 3 or the remote control 23, but may be a recording means that is built in the remote control 3 or the remote control 23. For example, the remote controller 3 or the remote controller 23 may be one in which a semiconductor memory is mounted instead of the memory card 20.
[0045]
In the first and second embodiments of the present invention, a connection connector that is a female connection means is provided on the camera body 2 side, and a connection terminal 12 that is a male connection means is provided on the remote control 3 or remote control 23 side. Male connection means may be provided on the camera body 2 side, and female connection means may be provided on the remote control 3 or remote control 23 side.
[0046]
In the first embodiment of the present invention, the image data transmitted to the remote controller 3 via the connection connector 9 is image data generated by the main body imaging means 4 and compressed by the main body image processing means 5 However, it may be compressed by the main body image processing means 5. However, the main body control means 7 has a data amount larger than the conversion data generated by the main body image processing means 5 when the connection connector 9 is not connected to the connection terminal 12 and when the connection connector 9 is connected to the connection terminal 12. Is generated by the main body image processing means and transmitted to the remote control 3 via the main body communication means 11. Thereby, even when transmitting to the remote control 3 via the main body communication means 11, the main body control means 7 controls to transmit conversion data having a smaller data amount than when transmitting via the connection connector 9. The image data can be transmitted from the camera body 2 to the remote controller 3 in a short time. Therefore, the same effects as those of the first embodiment of the present invention can be obtained.
[0047]
【The invention's effect】
As described above, the present invention controls the main body control unit to transmit the conversion data having a data amount smaller than the original image data even when transmitting to the remote controller via the first communication unit. Image data can be transmitted from the main unit to the remote controller in a short time. Also, when transmitting to the remote control through the first communication means, a conversion camera with a small amount of data is automatically generated and transmitted without being conscious of the user, so that a digital camera convenient for the user is provided. Can do. Furthermore, when a remote controller is attached to the main body, it is detected that the remote controller has been attached, and the amount of image data is not reduced compared to when the remote controller is detached from the main body, so that a good image quality can be transmitted.
[Brief description of the drawings]
FIG. 1 is a rear view of a digital camera according to Embodiment 1 of the present invention.
FIG. 2 is a rear view of the camera body in the first embodiment of the present invention.
FIG. 3 is a rear view of the remote control according to the first embodiment of the present invention.
FIG. 4 is a block diagram showing a configuration of a digital camera according to Embodiment 1 of the present invention.
FIG. 5 is a flowchart for explaining the operation of the digital camera according to Embodiment 1 of the present invention;
FIG. 6 is a flowchart for explaining the operation of the digital camera according to Embodiment 1 of the present invention;
7 is a schematic diagram showing a display screen on a liquid crystal monitor of the digital camera according to Embodiment 1 of the present invention. FIG.
FIG. 8 is a rear view of the digital camera according to Embodiment 2 of the present invention.
FIG. 9 is a block diagram showing the configuration of a digital camera according to Embodiment 2 of the present invention.
FIG. 10 is a rear view of the remote control according to the second embodiment of the present invention.
FIG. 11 is a flowchart for explaining the operation of the digital camera according to Embodiment 2 of the present invention;
FIG. 12 is a schematic diagram showing a display screen on a liquid crystal monitor of a digital camera according to Embodiment 2 of the present invention.
[Explanation of symbols]
2 Camera body
3, 23 Remote control
4 Body imaging means
5 Body image processing means
7 Main body control means
8b Shutter button
9 Connector
11 Main body communication means
12 Connection terminals
14 Remote control means
15 Remote control communication means
17c Shutter button
18 LCD monitor
20 Memory card
21 Remote control imaging means

Claims (5)

A first imaging unit that captures an image of a subject and generates image data; a first connection unit that transmits image data generated by the first imaging unit; and a conversion that reduces the data amount of the image data A main body having first image processing means for generating data and first communication means for transmitting the converted data;
A second connection means that is connectable to the first connection means and receives the image data; a second communication means for receiving conversion data transmitted from the first communication means; and the second Second image processing means for generating original image data based on the converted data received via the communication means, and image data received via the second connection means or the second image processing Display means for displaying the image data generated by the means, detachably attached to the main body, comprising a remote control for controlling the main body,
When the first connecting means is connected to the second connecting means, the main body transmits the image data to the remote controller via the first connecting means, while the first connecting means A digital camera comprising main body control means for controlling to transmit the conversion data to the remote controller via the first communication means when is not connected to the second connection means. A first imaging unit that captures an image of a subject and generates image data; a first image processing unit that generates conversion data by reducing a data amount of the image data; and a first connection that transmits the conversion data A main body having means and first communication means for transmitting the converted data;
A second connection means that is connectable to the first connection means and receives the conversion data; a second communication means for receiving the conversion data transmitted from the first communication means; and the second Second image processing means for generating original image data based on the conversion data received via the connection means or the second communication means, and the image data generated by the second image processing means. Display means for displaying, detachable from the main body, and comprising a remote control for controlling the main body,
The main body has the first image processing means when the first connection means is not connected to the second connection means and when the first connection means is connected to the second connection means. A digital camera having a main body control unit that controls the first image processing unit to generate conversion data having a data amount smaller than the conversion data generated by the first data processing unit and to transmit the conversion data to the remote controller via the first communication unit . The digital camera according to claim 1, wherein the remote controller includes a recording unit that records image data or conversion data received from the main body. The main body includes first operation means for generating a signal for instructing generation of a recorded image by the first imaging means, and the remote controller receives a signal for instructing generation of a recorded image by the first imaging means. A second operating means for generating,
The main body control means receives the signal generated by the first operating means when the first connecting means is connected to the second connecting means, thereby allowing the first imaging means to The first imaging unit receives a signal generated by the second operation unit when the first connection unit is not connected to the second connection unit while instructing generation of a recorded image. The digital camera according to claim 1, wherein generation of a recorded image is instructed. A main body having first imaging means for imaging a subject and generating first image data; and first communication means for transmitting the first image data;
A second communication means for receiving the first image data transmitted from the first communication means; a second imaging means for imaging a subject to generate second image data; and the second communication means. Display means for displaying the first image data received via the second image data generated by the second imaging means, a remote controller that is detachable from the main body and controls the main body, Digital camera equipped with.

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