JP4478228B2 - Imaging device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a video camera for recording and reproducing video signals and audio signals.
[0002]
[Prior art]
Video cameras use optical disks and magnetic disks as recording media, and disk cameras that mainly capture still images, and camera-integrated VTRs that use magnetic tape as a recording medium and can capture still images and moving images. There is. On the other hand, a digital still camera that uses a semiconductor memory as a recording medium and captures a still image is used.
[0003]
[Problems to be solved by the invention]
Optical tapes and magnetic disks used in disk cameras and magnetic tapes used in camera-integrated VTRs have a large storage capacity and are advantageous in terms of cost, but on the other hand, they are heavy and consume a lot of power and have high accessibility. For example, when a magnetic tape is used, there is a problem in searchability when still images are processed in units of one sheet.
On the other hand, a digital still camera using a semiconductor memory as a recording medium is lightweight and excellent in portability. However, since a semiconductor memory is used as a recording medium, when recording a large number of still images, moving images, and sounds, Storage capacity may be insufficient.
[0004]
The present invention has been made in view of the current situation of various video cameras as described above. The purpose of the present invention is to use a general video camera and a portable simple video camera separately by simple operation, and to Another object of the present invention is to provide a video camera capable of accurately recording and reproducing moving images and audio.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, according to the present invention, there is provided an imaging device for imaging a subject in an imaging device in which a camera block and a storage block are connected to each other by a connecting device in a detachable state. Image signal recording / reproducing means for recording / reproducing, sub-storage means for storing image signals, and main control means for controlling the overall operation are housed in the camera block, and main storage for storing image signals Means, a microphone for collecting sound, a sensor for detecting a level of sound collected by the microphone, and a drive control means for controlling a recording / reproducing operation with respect to the main storage means are housed in the storage block. The control means stores the image signal in a predetermined storage amount in the sub-storage means in a state where the storage block is mounted on the camera block. Later, a predetermined storage amount is read from the secondary storage means and stored in the primary storage means. In a state where the storage block is detached from the camera block, the image signal is stored in the secondary storage means, An alarm is issued when the remaining storage capacity of the secondary storage means decreases to a predetermined storage capacity.
[0007]
Similarly, in order to achieve the above object, the present invention provides an imaging apparatus in which a camera block and a storage block are connected to each other by a connecting means in a detachable manner, and an imaging means for imaging a subject. The image signal recording / reproducing means for recording / reproducing the image signal, the sub-storage means for storing the image signal, and the main control means for controlling the entire operation are accommodated in the camera block, and the image signal is stored. Main storage means, a microphone for collecting sound, a sensor for detecting the level of sound collected by the microphone, and a drive control means for controlling recording / reproducing operation for the main storage means are housed in the storage block. The image pickup apparatus further includes a display unit that displays a remaining storage capacity of the main storage unit, and the main control unit stores the storage in the camera block. In a state where the lock is mounted, the image signal is stored in the sub-storage unit after a predetermined storage amount, and then the predetermined storage amount is read from the sub-storage unit and stored in the main storage unit, and the camera block When the storage block is removed from the storage unit, the image signal is stored in the secondary storage means, and an alarm is issued when the remaining storage capacity of the secondary storage means decreases to a predetermined storage capacity. is there.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, one embodiment of the present invention will be described with reference to FIGS.
1 is an explanatory diagram showing the configuration of the present embodiment, FIG. 2 is a block diagram showing the overall configuration of the present embodiment, FIG. 3 is a block diagram showing the configuration of the recording system of the present embodiment, and FIG. It is a block diagram which shows the structure of the reproducing | regenerating system of embodiment.
[0009]
As shown in FIGS. 1 and 2, the video camera device according to the present embodiment includes a camera block 1 and a recording / reproducing drive block 2 that are detachable from each other by a detachable connector 25, and a recording / reproducing drive block. As shown in FIG. 1A, an optical disk medium 3 is mounted as a recording medium, and when the recording / reproducing drive block 2 is detached from the camera block 1, as shown in FIG. The camera block 1 can be used alone.
In a use state in which the recording / reproducing block 2 is connected to the camera block 1, the recording / reproducing signal Fri, the control signal Fc, and the power signal Fp are supplied over both blocks, and the recording / reproducing operation of the video camera is performed. It is configured as follows.
[0010]
The recording system of the present embodiment has a configuration as shown in FIG. 3. In the camera block 1, a camera unit 22A and a control unit 23 are separately arranged, and the camera unit 22A performs a sound collecting operation. An audio signal processing circuit 8 that performs signal processing such as level adjustment and AD conversion on the audio signal from the microphone 7 is connected to the microphone 7 that performs the audio signal processing. The signal compression circuit 9 is connected, and the output terminal of the audio signal compression circuit 9 is connected to one input terminal of the multiplexer 10.
[0011]
Similarly, in the camera unit 22A, the image sensor 12 that images a subject and outputs a video signal performs video signal processing such as AGC, color separation, enhancement, coring, gamma correction, white balance, and AD conversion. The video signal processing circuit 13 is connected to a video signal compression circuit 14 for compressing the video signal (JPEG, MPEG-1, MPEG-2) and a display unit 15 for displaying the video signal. The video signal compression circuit 14 is connected to the other input terminal of the multiplexer 10.
The output terminal of the multiplexer 10 is connected to a non-volatile temporary storage memory 11 in which video signals and audio signals are temporarily stored. The temporary storage memory 11 has an alarm lamp 31 for alarming the remaining storage capacity. It is connected. The storage capacity of the temporary storage memory 11 is set to 2 Mbytes or more.
[0012]
In the recording / reproducing drive block 2, an optical pickup 19 is connected to a modulation / demodulation circuit 21 that performs modulation during recording and demodulation during reproduction, so that a recording / reproduction driving unit 24 is configured. In addition, a drive 20 loaded with the optical disk medium 3 is connected, and a display 32 for displaying the remaining storage capacity is connected to the drive 20.
[0013]
On the other hand, the configuration of the playback system according to the present embodiment is as shown in FIG. 4. In the playback system camera unit 22B of the camera block 1, the demultiplexer is connected to the temporary storage memory 11 to which the alarm lamp 31 is connected. 26 is connected, and one output terminal of the demultiplexer 26 is connected to an audio compression / decoding circuit 27 that expands the audio signal. The audio compression / decoding circuit 27 is an audio that removes out-of-band signals and performs level adjustment. A signal processing circuit 29 is connected.
The other output terminal of the demultiplexer 26 is connected to a video compression / decoding circuit 28 that expands the video signal. The video compression / decoding circuit 28 removes out-of-band signals and adjusts the level. Is connected, and the video signal processing circuit 30 is connected to a display unit 15 for displaying video signals.
Since the configuration of the other parts of the reproduction system of the present embodiment is the same as the configuration of the recording system already described with reference to FIG. 3, duplicate description will not be given.
[0014]
The operation of the present embodiment having such a configuration will be described.
First, the operation when the camera block 1 and the recording / reproducing drive block 2 are integrally connected to each other by the detachable connector 25 will be described.
Based on the recording command signal input to the operation unit 16 by the operator, the camera unit control signal Fc2 is supplied from the control circuit 17 to the camera unit 22A, and the drive control signal Fc1 is supplied to the recording / reproducing drive block 2, and the camera The unit 22A and the recording / reproducing drive block 2 are activated.
[0015]
In this state, at the time of the recording operation, the sound collected by the microphone 7 is electrically converted to an audio signal from the microphone 7 and output. The audio signal processing circuit 8 performs level adjustment and AD conversion to perform signal processing. The audio signal is input to the audio signal compression circuit 9 and subjected to audio compression processing, and then input to one input terminal of the multiplexer 10.
At the same time, the video signal of the subject imaged by the image sensor 12 is output from the image sensor 12 and input to the video signal processing circuit 13, where the AGC, color separation, enhancement, coring, gamma Signal processing such as correction, white balance, and AD conversion is performed, and the video signal subjected to the signal processing is displayed on the display unit 15 and input to the video signal compression circuit 14. Signal compression such as MPEG-1 and MPEG-2 is performed, and the compressed video signal is input to the other input terminal of the multiplexer 10.
[0016]
In this way, the operator can perform the imaging operation while confirming the video of the subject being imaged on the display unit 15. In the multiplexer 10, the compressed audio signal and the video signal are multiplexed and multiplexed. The recorded / reproduced signal Fri is recorded in the temporary storage memory 11. When the recording / reproducing signal Fri is stored in the temporary storage memory 11 by a predetermined storage capacity, for example, 1 MByte, the storage / reproduction signal Fri is read from the temporary storage memory 11 according to a command from the control circuit 17.
The read recording / reproducing signal Fri is transferred to the modulation / demodulation circuit 21, where the modulation / demodulation circuit 21 performs modulation corresponding to the optical disk medium 3, and an error correction code is added to the modulation / demodulation circuit 21. And recorded on the optical disc medium 3 of the drive 20 driven by the drive control signal Fc1.
At this time, the remaining storage capacity of the optical disk medium 3 is displayed on the display 32 as the recording / reproducing signal Fri is recorded on the optical disk medium 3.
[0017]
At the time of the reproduction operation, when the operator inputs a reproduction command signal from the operation unit 16, the recording / reproduction signal Fri is reproduced and reproduced from the optical disk medium 3 of the drive 20 by the optical pickup 19 according to the command of the control circuit 17. The modulation / demodulation circuit 21 performs decoding processing and error correction processing on the recording / reproducing signal Fri, and the recording / reproducing signal Fri is bit-streamed into a recorded state and stored in the temporary storage memory 11.
[0018]
Next, the recording / reproducing signal Fri read from the temporary storage memory 11 is brought into a state in which the audio signal and the video signal are separated from the time division multiplexed state in the demultiplexer 26. The separated audio signal is decompressed by the audio compression / decoding circuit 27, and then the audio signal is input to the audio signal processing circuit 29. The audio signal processing circuit 29 removes the out-of-band signal. Are adjusted and output as an audio output signal Fo.
[0019]
The video signal separated and output from the demultiplexer 26 is subjected to video signal expansion processing in the video compression / decoding circuit 28, and then the video signal is input to the video signal processing circuit 30. The out-of-band signal is removed and the level is adjusted and displayed on the display unit 15 and output as the video output signal Fv.
[0020]
As described above, in this embodiment, when the camera block 1 and the recording / reproducing drive block 2 are integrally connected to each other by the detachable connector 25, a still image of the subject corresponding to the storage capacity of the optical disk medium 3, Video and audio can be recorded and played back, but at the time of recording, the recording / playback signal Fri is read from the temporary storage memory 11 and recorded every time a predetermined capacity, eg, 1 Mbyte, is recorded in the temporary storage memory 11. -Since it is transferred to the playback drive block 2 and stored in the optical disk medium 3, it is not necessary to drive the drive 20 intermittently as in the past, reducing power consumption and driving noise. And the operating life of the drive 20 can be extended.
[0021]
Next, the operation when the recording / reproducing drive block 2 is detached from the camera block 1 at the detachable connector 25 portion will be described.
During the recording operation, the camera unit 22A is activated by the camera unit control signal Fc2 supplied from the control unit 23 by the input of the recording command signal from the operation unit 16 of the operator. The sound that has been sounded is converted into an audio signal from the microphone 7 and output. The audio signal processing circuit 8 performs level adjustment and AD conversion, and the signal-processed audio signal is sent to the audio signal compression circuit 9. After being input and subjected to audio compression processing, it is input to one input terminal of the multiplexer 10.
At the same time, the video signal of the subject imaged by the imaging device 12 is output from the imaging device 12 and input to the video signal processing circuit 13, where the AGC, color separation, enhancement, coring, gamma Signal processing such as correction, white balance, and AD conversion is performed, and the video signal subjected to the signal processing is displayed on the display unit 15 and input to the video signal compression circuit 14. Signal compression such as MPEG-1 and MPEG-2 is performed, and the compressed video signal is input to the other input terminal of the multiplexer 10.
[0022]
In this way, the operator can perform the imaging operation while confirming the image of the subject being imaged on the display unit 15, and the audio signal and the video signal compressed by the multiplexer 10 are multiplexed and multiplexed. The recording / reproducing signal Fri is stored in the temporary storage memory 11. In this case, when the remaining storage capacity of the temporary storage memory 11 falls below a predetermined value, the alarm lamp 31 blinks to notify the operator that the remaining storage capacity is low.
[0023]
During the reproduction operation, the recording / reproduction signal Fri is read from the temporary storage memory 11 according to the instruction of the control circuit 17 by the input of the reproduction instruction signal from the operation unit 16 of the operator, and the demultiplexer 26 performs time division multiplexing. From the state, the audio signal and the video signal are separated. The audio signal is input to the audio compression / decoding circuit 27. The audio compression / decoding circuit 27 decompresses the audio signal, and then the audio signal is input to the audio signal processing circuit 29. The external signal is removed and the level is adjusted, and the audio signal subjected to signal processing is output as an audio output signal Fo.
[0024]
The video signal separated and output from the demultiplexer 26 is input to the video compression / decoding circuit 28. The video compression / decoding circuit 28 performs video signal decompression processing, and the decompressed video signal is subjected to video signal processing. The video signal processing circuit 30 receives the signal out of the band and adjusts the level in the video signal processing circuit 30, and the signal-processed video signal is displayed on the display unit 15 and output as the video output signal Fv. Is done.
[0025]
As described above, in the present embodiment, when the camera block 1 is used in a state where the camera block 1 and the recording / reproducing drive block 2 are separated from each other by the detachable connector 25 portion, the storage capacity of the temporary storage memory 11 is obtained. A still image or sound of a subject can be recorded. In this case, the heavy recording / reproducing drive block 2 is removed, and the video camera can be used as a video camera that is light in weight and excellent in portability.
For example, when 100 kBytes is used for one still image, it is possible to process 10 still images at a time with 10 storage memories and 2 MBytes when the storage capacity of the temporary storage memory 11 is 1 MByte. Further, when the remaining storage capacity of the temporary storage memory 11 becomes equal to or less than a predetermined amount, the alarm lamp 31 blinks, so that an appropriate imaging process corresponding to the storage capacity of the temporary storage memory 11 can be performed.
[0026]
The present invention is not limited to the embodiment described above. For example, the microphone 7, the audio signal processing circuit 8, and the audio signal compression circuit 9 are housed in the recording / reproducing drive block 2, and the camera block 1 It is also possible to make the configuration more convenient to carry by further reducing the weight.
Further, the level of the sound collected by the microphone 7 is detected by a sensor, and when the sound of a sound level lower than a predetermined level is collected, the drive of the drive 20 is stopped so that the drive sound of the drive 20 does not enter the microphone 7. Is possible.
Furthermore, it is possible to employ a configuration in which a DRAM is used for the temporary storage memory 11 and a power supply for recording and holding is separately provided.
[0027]
【The invention's effect】
According to the present invention, an imaging of a subject by the image pickup means is performed, images signals obtained are more images recording and reproducing hand stage, after being temporarily stored in the secondary storage unit, the main by the drive control means stored in the storage means, and more Nos image Zoshin reproduced from the main storage means, moving or in display of a still image is performed, it is possible to exert the function of overall video camera, the main storage unit The recording drive is limited only when necessary, and it is possible to reduce power consumption, reduce noise, and extend the operating life.
[0028]
Moreover, according to the present invention, since the remaining memory capacity of secondary storage means alarm emitted et al is to decrease to a predetermined storage capacity, that the storage capacity of the auxiliary storage means in response to accurately perform efficient imaging operation It becomes possible.
[0029]
Moreover, according to the present invention, since the remaining storage capacity of the main storage means are displayed by Viewing means, it is possible to perform efficient image pickup operation in response to precisely the memory capacity of the main storage unit.
[0030]
Moreover, according to the present invention, in a state of being connected by the connecting means the camera block and the storage block, is used as a comprehensive video camera, in the state in which the camera block removal of the storage block, the image pickup means, images signal recording and reproducing means The camera block containing only the secondary storage means, the display means and the main control means for controlling the entire operation can be used as a still camera that is lightweight and easy to carry, and can be connected or separated by the connecting means depending on the purpose. With this simple operation, it is possible to selectively use a general video camera and a still camera that is convenient to carry.
[0031]
Moreover, according to the present invention, the main control unit, in the state in which the storage block is attached to the camera block, during the recording operation, images signals by a predetermined storage capacity min stored in the auxiliary storage unit, from the secondary storage unit read and to be stored in the main storage means, by the main control unit, since images signal recording and reproducing hand stage is controlled, when the No. field Zoshin recorded, intermittent recording operation to the main storage unit Therefore, it is not necessary to perform the operation continuously, so that the power consumption during the recording operation for the main storage means can be reduced, and the generation of noise can be reduced.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing a configuration of an embodiment of the present invention.
FIG. 2 is a block diagram showing an overall configuration of the same embodiment;
FIG. 3 is a block diagram showing a configuration of a recording system according to the embodiment.
FIG. 4 is a block diagram showing a configuration of a reproduction system according to the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Camera block, 2 ... Recording / reproduction drive block, 3 ... Optical disk medium, 7 ... Microphone, 8 ... Audio signal processing circuit, 9 ... Audio signal compression circuit, 11 ... Temporary storage memory, 12 ... Image sensor, 13 ... Image | video Signal processing circuit 14 ... Video signal compression circuit 15 ... Display unit 17 ... Control circuit 19 ... Optical pickup 20 ... Drive 21 ... Modulation / demodulation circuit 24 ... Recording / reproduction drive unit 25 ... Removable connector 27 ... Audio compression decoding circuit 28... Video compression decoding circuit 29 29 Audio signal processing circuit 30 30 Video signal processing circuit

Claims (4)

An imaging device in which a camera block and a storage block are connected in a detachable state by a connecting means,
The camera block is
Imaging means for imaging a subject;
Image signal recording / reproducing means for recording / reproducing the image signal;
Sub-storage means for storing image signals;
Main control means for controlling the overall operation,
The storage block is
Main storage means for storing image signals;
A microphone that collects sound,
A sensor for detecting a level of sound collected by the microphone;
Drive control means for controlling the recording / reproducing operation for the main storage means,
The microphone and the sensor are provided only in the storage block,
When the storage block is mounted on the camera block, the main control unit reads the image signal from the sub storage unit by the predetermined storage amount after storing the image signal in the sub storage unit. When the storage block is removed from the camera block and stored in the main storage means, the image signal is stored in the secondary storage means, and the remaining storage capacity of the secondary storage means reaches a predetermined storage capacity. An imaging device characterized by issuing an alarm when the number decreases. The imaging device according to claim 1,
An imaging apparatus comprising: display means for displaying the remaining storage capacity of the main storage means. The imaging device according to claim 1,
The main control means is configured to cause the image signal recording / reproducing means to reproduce the image signal from the main storage means via the sub storage means when the storage block is mounted on the camera block. And a function of controlling the image signal recording / reproducing means so that the image signal is directly reproduced from the sub-storage means when the storage block is detached from the camera block. An imaging device that is characterized. The imaging device according to claim 1 ,
Before SL main control unit, when the voice level where the sensor detects is equal to or less than the predetermined level, an imaging apparatus characterized by stopping the driving of said main storage means.

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