JPH0424519Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to an electronic still camera that can record still images and reproduce and erase arbitrary still images from among the recorded still images.

[Prior art and its problems]

Conventional electronic still cameras are generally dedicated to recording, and it is considered that a magnetic disk, which is housed in a disk cassette and has a plurality of recording tracks, is used as the recording medium.

However, when such a magnetic disk is used as a recording medium, in order to store a new still image signal on a recording track on which still image signals have already been stored, recording must be performed each time the shutter switch is operated. It is necessary to erase the existing still image signal and record a new still image signal, which not only complicates the structure but also takes time to erase and record. Therefore, it has been considered, for example, to search for unrecorded tracks and record only on the unrecorded tracks, but with this method, for example, after recording still image signals on all tracks, unnecessary The problem was that if you erased a still image and recorded a new one, you would no longer be able to use it in any other way.

In order to overcome this drawback, for example, it would be possible to provide an erase switch, an erase head, etc. so that specified tracks can be erased at will, but it is not possible to provide the camera with a specialized mechanism for erasing as described above. However, this method has the disadvantage that it impairs the portability of the camera, and also has the disadvantage that things that should not be erased may be erased due to erroneous operation.

Furthermore, the method of searching for unrecorded tracks and recording only on the unrecorded tracks has the following drawbacks. In other words, when a magnetic disk with multiple recording tracks is used as a recording medium, it is possible to store still images of one theme or event on each magnetic disk for management purposes.
Or it is convenient during playback. Therefore, even if some unrecorded tracks remain, it is desirable not to include still images other than those related to the theme or event. However, the above-described method of searching for and recording unrecorded tracks has the disadvantage that other still images that are not desired to be recorded may be recorded.

[Purpose of invention]

The present invention was developed in view of the above-mentioned circumstances, and it not only makes it possible to erase recorded still images with an extremely simple configuration, but also prevents the user from accidentally erasing necessary image data or from magnetic disks that they do not want to record. To provide an electronic still camera which prevents erroneous recording of still images.

[Key points of the idea]

In order to achieve the above object, the present invention provides an erasing signal output means for outputting an erasing signal for erasing a still image signal recorded on a recording track of a magnetic disk, and a recorder for recording the still image signal on the magnetic disk. a mode, an erasing signal output means for outputting an erasing signal for erasing a still image signal recorded on a recorded track of the magnetic disk; a recording mode for recording the still image signal on the magnetic disk; and a recording mode of the magnetic disk; a mode changeover switch means for switching and setting an erasing mode for erasing still image signals recorded on a track; a first detecting means for detecting the presence or absence of a claw on the disk cassette; and only when the first detecting means detects the presence of a claw, the image is imaged on the image sensor and processed by the signal processing means. means for supplying the still image signal to the recording head to record it on an unrecorded track of the magnetic disk; Therefore, a second detection means detects the presence or absence of a claw on the disk cassette, and only when the second detection means detects the presence of a claw, the erasure signal outputted from the erasure signal output means is recorded. an erasing means for erasing the still image signal recorded on the recorded track of the magnetic disk by supplying the static image signal to the magnetic disk; Notifying means for notifying the state using an optical display device.

This is how it was done.

[Example of idea]

An embodiment of the present invention will be described below with reference to the drawings. First, the overall configuration of the present invention will be explained with reference to FIG. In the figure, reference numeral 11 denotes a timing signal generation circuit 11 that generates various timing signals using a crystal oscillator 12.
Output to other circuit sections. The system control unit 13 also includes a main mode switch 14, a shutter mode switch 15, and a shutter switch 1.
6. Truck control switch 17a, 1
7b is connected. The main mode switch 14 is composed of, for example, a rotary switch, and switches and designates each mode of recording, reproduction, erasure, and erasure. The above erase mode is a mode in which image information recorded on a magnetic disk, which will be described later, is erased in units of one track (one disk), and the erase mode is a mode in which all tracks of recorded images are erased. A shutter mode switch 15 switches between a mode in which photographs are taken one by one (single) and a mode in which photographs are taken continuously. The shutter switch 16 consists of two switches SW1 and SW2, SW1 is turned on when the shutter button is pressed halfway, and SW2 is turned on when the shutter button is pressed all the way. The above shutter button also serves as an erase button,
In the erase mode, the ON signal of switch SW2 is used as an erase command. The track control switches 17a and 17b are switches for advancing the designated recording track of the magnetic disk by one track or returning by one track. Furthermore, a detection signal from an AE (automatic exposure) sensor 18 is input to the system control unit 13 via an AE circuit 19, and a detection signal from a remote control sensor 21 is input to the system control unit 13 via a remote control receiving unit 22. The remote control that inputs an optical signal to the remote control sensor 21 is configured as shown in FIG. 2, for example. That is, the remote control 20 shown in FIG.
A numeric keypad 201 for instructing the track number, an enter key 202 for instructing data input, a recording key 203 for instructing shutter operation, a track control switch 204 for shifting the recording track,
The shutter button that instructs the slow mode of shutter operation.
A control switch 205 is provided. This shutter/control switch 205 has modes "1" and "2". In mode "1", the shutter operates immediately when the record key 203 is operated, and in mode "2", the shutter operates immediately when the record key 203 is operated. When this happens, the shutter will operate with a certain time delay. This delay mode is used when the remote control operator himself is the subject and it would be a problem if the remote control operator himself was photographed.

Then, the system control unit 13 in FIG.
The servo control unit 2 is operated in response to each switch operation on the camera body side or instructions from the remote control 20.
A control command is given to the head moving mechanism section 25 to drive and control the spindle motor 24, and a control command is given to the head moving mechanism section 25 to control the movement of the recording head 26. The spindle motor 24 rotates a magnetic disk 27 mounted on a camera body (not shown) in accordance with control commands from the servo control section 23. This magnetic disk 27 has 50 tracks on which image data for one field of an NTSC television signal can be recorded, and if the field is recorded, it is possible to write image data equivalent to 50 sheets of silver halide film, for example. It is. In this case, the head moving mechanism section 25 receives a command from the system control section 13 to move one field (one screen) per track.
The movement of the recording head 26 is controlled so as to write the corresponding image data. The head moving mechanism section 2
5 includes a first track detection switch 25 for detecting that the recording head 26 has moved to the first track.
S is provided, and its detection signal is sent to the system control section 13 to preset a track counter provided in the system control section 13 to "1". The mounting portion of the magnetic disk 27 is provided with a disk detection switch 28 for detecting whether or not a disk is attached, and a claw detection switch 29 for determining the presence or absence of a claw provided in the storage cassette of the magnetic disk 27. is sent to the system control section 13. This system control unit 13 is
Based on the detection signal from the claw detection switch 29, it is determined whether information can be written to and erased from the magnetic disk 27.

Further, an LCD (liquid crystal display panel) 30 is connected to the system control section 13. This LCD3
As shown in detail in FIG. 3, numeric/character display sections 301 and 301 (R) display characters such as track number, error, open, etc., which are composed of, for example, four-digit day-shaped segments. ), P (play), E
A main mode display section 302 that displays the (erase) mode, and a shutter mode display section 303 that displays the S (single) or (continuous shooting) mode are provided.

Further, in FIG. 1, reference numeral 31 denotes an imaging lens, and this imaging lens 31 forms an image of externally incident light via an aperture 32 and a shutter 33 onto a solid-state imaging device 34 made of, for example, a CCD, a MOS transistor, or the like. The aperture 32 and shutter 33 are driven by an aperture drive circuit 35 and a shutter drive circuit 36, respectively, which operate based on commands from the system control section 13. Further, the image sensor 34 is driven by a driver 37 that operates according to a timing signal from the timing signal generation circuit 11. The video signal output from the image sensor 34 is sent to a video signal processing circuit 38. This video signal processing circuit 38 converts the video signal from the image sensor 34 into a luminance signal Y+S including a synchronization signal and a color difference signal R.
-Y and B-Y, the luminance signal Y+S is input to the luminance signal processing circuit 39, and the color difference signal R-Y, B-
Y is input to the color difference signal processing circuit 40. The luminance signal processing circuit 39 converts the luminance signal Y+S into an FM signal.
The color difference signal processing circuit 40 converts the color difference signals R-Y and B-Y into line-sequential signals, converts them into _FM signals, and outputs them to the mixing circuit 41 _.
Output to 1. This mixing circuit 41 mixes the output signal Y _FM of the luminance signal processing circuit 39 and the output signal C _FM of the color difference signal processing circuit 40 and outputs the mixed signal to the recording/erasing switching circuit 42 . This recording/erase switching circuit 42
is the output signal of the mixing circuit 41 or the erasing signal source 4 according to the switching signal from the system control unit 13.
3 is selected and outputted to the recording head 26 via the recording amplifier 44 and the recording/reproduction switching circuit 45. The recording head 26 writes image signals on the magnetic disk 27 or erases recorded signals. The recording/reproduction switching circuit 45 selects the recording amplifier 44 side or the reproduction amplifier 46 side according to a command from the system control section 13.

In the reproduction mode, the image signal recorded on the magnetic disk 27 is reproduced by the recording head 26 and sent to the reproduction amplifier 46 via the recording/reproduction switching circuit 45. The output signal of this reproduction amplifier 46 is sent to a YC separation circuit 47 and separated into a luminance FM signal Y _FM and a color FM signal C _FM .
Luminance FM signal Y _FM is luminance signal demodulation circuit 48, color
The FM signal _CFM is sent to the system control section 13 and the color demodulation circuit 49. The luminance signal demodulation circuit 48 demodulates the luminance signal Y+S from the luminance FM signal _YFM and inputs it to the encoder 50, and the color demodulation circuit 49 demodulates the luminance signal Y+S from the luminance FM signal YFM and inputs it to the encoder 50.
FM signal C Demodulates color difference signals R-Y and B-Y from _FM and inputs them to the encoder 50. The encoder 50 encodes the luminance signal Y+S demodulated by the luminance signal demodulation circuit 48 and the color difference signals RY and BY demodulated by the color demodulation circuit 49, and outputs the encoded signals to the superimpose processing circuit 51. The superimpose processing circuit 51 includes an encoder 50
The selected track number sent from the system control section 13 is synthesized with the signal from the system controller 13, and the synthesized signal is output to an external circuit via the output switching circuit 52 and the external output terminal 53. A monitor such as a television receiver, a video printer, or the like is connected to this external output terminal 53. The output switching circuit 52 selects the output signal of the superimpol processing circuit 51 during normal playback operation, but when an arbitrary track number is specified and direct server is being performed. is switched to the ground line side, and the monitor display is maintained at black level. In addition, the color FM signal sent to the system control unit 13
The _CFM is used for empty track detection in empty track search processing and local search processing, which will be described later.

Next, the operation of the above embodiment will be explained. When using the camera, the user first specifies the operating mode by switching the main mode switch 14 from the power-off state to a desired mode position, and then operates the switch according to the operating mode. That is, if you want to take a photo, specify the recording mode using the main mode switch 14, and
Single mode or continuous shooting mode is designated by the shutter mode switch 15, and then the camera is pointed at the subject and the shutter button is operated. If you want to play back images recorded on the magnetic disk 27, use the main mode switch 14 to specify the playback mode, and use the track control switches 17a, 17b or the remote control 20 to select the track number in which the image you want to play is recorded. Specify. If it is desired to further erase the recorded image on the magnetic disk 27, the main mode switch 14 is used to designate the erase mode or erase mode, and then the shutter button is operated.

Accordingly, the processes shown in the flowcharts of FIGS. 4 to 12 are executed in accordance with the various key operations described above. That is, the main mode switch 14
When a desired operation mode is designated by , the power is first turned on and the system control section 13 executes the process shown in the flowchart of FIG.
When the power is turned on, initialization processing is first performed in the system control section 13 as shown in step A1 in FIG. 4, and then reading in response to key input is performed in step A2. Then, as shown in step A3, the magnetic disk 27 is detected based on the detection signal of the disk detection switch 28.
If the magnetic disk 27 is not installed, the program proceeds to step A4 and displays OPEN on the LCD 30 to notify the user that the magnetic disk 27 is not installed. Inform. Thereafter, in step A5, it is checked whether or not the magnetic disk 27 is attached. If the magnetic disk 27 is not attached, the process returns to step A4 and the open display is continued.
When the magnetic disk 27 is mounted in this state, the process proceeds from step A5 to step A6, in which a drive command is given from the system control section 13 to the servo control section 23 to rotate the spindle motor 24 at a predetermined speed. Then, in step A7, a control command is given from the system control section 13 to the head moving mechanism section 25 to move the recording head 26 to the first position of the magnetic disk 27.
Move to track. The movement of the recording head 26 to the first track is detected by the first track detection switch 25S. Then step A8
At this point, it is determined whether or not it is the recording mode based on the setting state of the main mode switch 14, and if it is the recording mode, the process advances to step A9 and an empty track search process, which will be described in detail later, is executed.

On the other hand, if it is determined in step A3 that the magnetic disk 27 is not attached,
Proceeding to step A10, it is determined whether or not the erase mode is in effect. If not, the process proceeds to step A11, where the spindle motor 24 is driven to rotate at a predetermined speed, and then, in step A12, local search processing, which will be described in detail later, is executed. do.

If it is determined that the recording mode is not in step A8 above,
If the empty track search process in A9 is completed, or if the local search process in step A12 is completed, the process advances to step A13 to determine whether or not the recording mode is in effect. This step A13
If it is determined that you are in recording mode,
Recording mode processing, the details of which will be described later, is executed, and if it is determined that the mode is not recording, the process proceeds to step A14, where it is determined whether or not the mode is reproduction mode. If it is determined in this step A14 that the mode is playback mode, the process for playback mode, which will be described in detail later, is executed, and if it is determined that the mode is not playback mode, the process proceeds to step A15 to determine whether or not it is in erase mode. . Also, if it is determined in step A10 that the mode is erase mode, the determination operation in step A15 is performed. If it is determined that the erase mode is in step A15, then erase mode processing, which will be described in detail later, is executed, and if it is determined that the erase mode is not, then erase mode processing, which will be described in detail later, is executed.

Next, the empty track search process in step A9 above,
Step A12 local search processing, recording processing,
The details of the playback process and the erase process (erase mode and erase mode) will be explained.

FIG. 5 shows the details of the empty track search process in step A9. First, in step B1, the recording/reproducing switching circuit 45 is switched to the reproducing amplifier 46, and the reproducing circuit system is turned on. Next, the process proceeds to step B2, where it is determined whether or not the currently designated track is an empty track (if there is no color FM signal _CFM from the YC separation circuit 47, it is an empty track), and if it is not an empty track, the recording head is moved to step B3. 26 one track ahead, then step
Return to B2. Thereafter, the operations of steps B2 and B3 are repeated to advance the recording head 26 to the empty track position, and the empty track search operation is completed.

FIG. 6 shows details of the local search process in step A12 in FIG. 4. First, in step C1, the recording/reproduction switching circuit 45 is switched to the reproduction amplifier 46 side, and the reproduction circuit system is turned on. Next, the process proceeds to step C2, where it is determined whether the currently designated track is an empty track or not.
If the track is not empty, the recording head 26 is advanced by one track in step C3, and then in step C4 it is determined whether the track is empty or not.
Return to Thereafter, steps C3 and C4 are repeated to advance the recording head 26 to the empty track position, and
Ends the empty track search operation. On the other hand, if it is determined in step C2 that the track is empty, the process proceeds to step C5 where it is determined whether or not it is the first track. If it is the first track, the local search process is immediately terminated, but if it is not the first track, the process proceeds to step C6, moves the recording head 26 forward by one track, and then returns to step C2. If all the tracks on the magnetic disk 27 are empty, the recording head 26 is returned to the first track by repeating steps C2, C5, and C6, and the process ends. However, recording head 2
If a track on which an image has been recorded is detected while returning the recording head 6 in the direction of the first track, the process proceeds from step C2 to step C3, and the recording head 2 is returned to the first track direction.
Move 6 one track ahead. Then, the local search process ends after passing through empty track determination step C4. Through the above processing, if all the tracks are empty, the recording head 26 is moved to the first track, and in other cases, the recording head 26 is moved to the first empty track.

Next, the operation for recording photographed images on the magnetic disk 27 will be explained according to the flowchart of FIG. Proceeding from step A13 in FIG. 4 to the recording mode processing flow in FIG. Turn off. Then, after reading the key input in step D2,
Proceed to step D3 to determine whether it is in recording mode or not.
If it is not the recording mode, the process returns to step A3 in FIG. 4, and if it is the recording mode, it is determined in step D4 whether or not the magnetic disk 27 is mounted. If the magnetic disk 27 is not installed, the process returns from step D4 to step A3; if the magnetic disk 27 is installed, the process proceeds to step D5, where it is determined whether or not there is a pawl in the disk cassette based on the signal from the pawl detection switch 29. to decide. If there is no claw, recording on the magnetic disk 27 is prohibited, so an error message (Err) is displayed on the LCD 30 as shown in step D6, and the process returns to step D2. Furthermore, if it is determined in step D6 that there is a claw, the process proceeds to step D7, where it is determined whether the value of the track counter provided in the system control unit 13 has reached "51". If the count value has reached ``51,'' it means that images have been recorded on all tracks, so the process advances to step D8 to display a full ``FULL'' display on the LCD 30, and then returns to step D2. However, if the value of the track counter has not reached "51", the process advances from step D7 to step D9 and the track number is determined.
is displayed on the LCD 30, and then in step D10 it is determined whether there is a remote control input. If there is no remote control input, proceed to step D11, and determine whether shutter switch SW1 is on by operating the shutter button. If not, return to step D2, but if it is on, proceed to step D12.
Then, the shutter sequence processing, which will be described in detail later, is executed. After that, proceed to step D13 and switch the shutter switch SW2 by operating the shutter button.
It is determined whether the shutter switch is turned on or not, and if it is not turned on, the shutter switch is turned on in step D14.
Determine whether SW1 is on. If shutter switch SW1 is on, step
Returning to D13, the processes of steps D13 and D14 are repeated until the shutter switch SW2 is turned on. In this case, if the shutter button is pressed halfway and the shutter operation is canceled, that condition is detected in step D14, and as shown in step D15, the recording circuit system is turned off and the spindle motor 24 is turned off, and the process returns to step D2. . However, if the shutter button is pressed all the way, the shutter switch SW2 is turned on, and the process proceeds from step D13 to step D16, where it is determined whether or not the rotation of the magnetic disk 27 has reached a stable state. Wait until a stable state is reached.

On the other hand, if it is determined in step D10 that there is a remote control input, the process proceeds to step D17, where it is determined whether or not the delay mode is designated by the shutter/control switch 205. If the delay mode is not specified, execute the shutter sequence processing shown in step D18 and proceed to step D18.
The process proceeds to D16, and if the delay mode is designated, the process proceeds from step D17 to step D19 to determine whether or not measurement is in progress. Initially, since no measurement operation has been performed yet, the process proceeds to step D20 to start a timer of, for example, 1 second, and then returns to step D2. After starting the 1 second timer, the determination result in step D19 becomes YES, so proceed to step D21 to determine whether or not time is up.
If the time has not expired, return to step D2.
When the one-second timer finishes its measuring operation, the process advances from step D21 to step D18 to execute the shutter sequence process. After completing this shutter sequence processing, the process proceeds to step D16 as described above.

In step D16, it is determined whether or not the rotation of the magnetic disk 27 has stabilized. When the rotation of the magnetic disk 27 has stabilized, the shutter sequence shown in step D22 is executed, and the photographed image is transferred to the magnetic disk 27. to be recorded. Details of this shutter sequence will be described later. When the shutter sequence processing is completed, it is determined in step D23 whether the count value of the track counter has reached "51", and if the count value has reached "51", the process proceeds to step D24.
``FULL'' is displayed on the LCD 30.
If the track counter value has not reached "51", it is determined whether or not continuous shooting mode is specified as shown in step D25, and if continuous shooting mode is not specified, the process proceeds to step D15. The recording circuit system and spindle motor 24 are turned off.
If the continuous shooting mode is specified, it is determined in step D26 whether or not the shutter switch SW2 is on, and if the shutter switch SW2 is on, the process returns to step D22 to execute shutter sequence processing and take pictures. The image is recorded on the magnetic disk 27. Below is the shutter switch SW2
While it is on, steps D22 to D26 are repeated and the photographing operation is performed continuously. Then, when the shutter switch SW2 is turned off, it is determined that shooting has ended, and the steps start from step D26.
Proceed to D15 and record circuit system and spindle motor 2
Turn off 4. Thereafter, the process returns to step D2 to prepare for the next shutter operation.

Figure 8 shows step D12 in Figure 7 above.
This shows the details of the D18 shutter sequence. In this shutter sequence, first, in step E1, the AE signal from the AE circuit 19 is taken into the system control section 13, the aperture value and shutter speed are calculated based on a predetermined program, and the exposure conditions are locked. Then, the system control unit 13
gives a control signal to the aperture drive circuit 35 from the aperture 3
2 is set to the aperture value based on the above AE lock value. Next, proceeding to step E2, the spindle motor 24 is turned on, and at the same time, in step E3,
The local search process shown in detail in FIG. 6 is executed to search for an empty track. Then step
At step E4, the reproducing circuit system is turned off, and at step E5, the recording circuit system is turned on to complete the shutter sequence process.

FIG. 9 shows details of the shutter sequence at step D22 in FIG. 7 above. In this shutter sequence, first, in step F1, a control signal is applied from the system control section 13 to the shutter drive circuit 36, and the shutter 33 is driven at the shutter speed of the AE lock value set in the shutter sequence. In this case, if the strobe is used, the strobe control is performed as shown in step F2, and then the process proceeds to step F3; if the strobe is not used, the process immediately proceeds from step F1 to step F3 to perform recording processing. That is, when the shutter drive circuit 36 controls the shutter 33 to open as shown in step F1, external incident light forms an image on the image pickup element 34 via the image pickup lens 31 and the diaphragm 32. This image sensor 34 is
The optical image is converted into an electrical video signal and output to the video signal processing circuit 38. The video signal processing circuit 38 separates the input video signal into a luminance signal Y+S including a synchronization signal and color difference signals R-Y, B-Y, and sends the luminance signal Y+S to the luminance signal processing circuit 39.
The color difference signals R-Y and B-Y are input to the color difference signal processing circuit 40. The above luminance signal processing circuit 3
9 and the color difference signal processing circuit 40, the luminance signal Y
+S, color difference signals R-Y, B-Y are converted into FM signals Y _FM and C _FM , respectively, mixed by a mixing circuit 41 to form an FM image signal, and outputted to a recording amplifier 44 via a recording/erasing switching circuit 42. do. The FM image signal amplified by the recording amplifier 44 is sent to the recording head 26 via the recording/reproducing switching circuit 45, and the recording head 26 records the image signal on a designated track of the magnetic disk 27.

When the recording process of one screen worth of image signals obtained by the image pickup device 34 is completed as described above, the process proceeds to the next step F4, where the recording circuit system is turned off, and at the same time, a shutter charge is performed at step F5.
Thereafter, the process proceeds to step F6 to perform an empty track search as shown in detail in Figure 5 above. Next, the reproducing circuit system is turned off as shown in step F7, and the recording circuit system is turned on in step F8.
Then, in step F9, the empty track number searched in step F6 is displayed on the LCD 30, and the shutter sequence processing is completed.

Next, the playback operation will be explained. When reproducing images recorded on the magnetic disk 27, after specifying the reproduction mode with the main mode switch 14, turn the track control switch 17.
a, 17b or by operating the truck control switch 204 on the remote control 20.
Specify the numbers sequentially or use the numeric keypad 2 on the remote control 20.
01 to directly specify the desired track number. If the above playback mode is specified, the fourth
The program proceeds from step A14 in the figure to step G0 in FIG. 10, where it is determined whether the currently selected track is the first track. If it is the first track, the process proceeds to step G1, where the reproducing circuit system is turned on, and the key input is read in step G3. If it is determined in step G0 that it is not the first track, the recording head 26 is moved back one track in step G2, and then the process proceeds to step G3 to read the key input.
Next, the process proceeds to step G4 to determine whether or not the mode is playback mode, and if it is the playback mode, it is further determined at step G5 whether or not the magnetic disk 27 is present. If the determination result in steps G4 and G5 is NO, the process returns to step A3 in FIG. If it is determined in step G5 that a disk is present, the track number is displayed on the LCD 30 in step G6, and then the process proceeds to step G7 to determine whether there is a remote control input. If there is a remote control input, proceed to step G8 to determine whether or not it is a direct search, and if it is a direct search, the specified track number is "50" in step G9.
Determine whether or not the value is less than or equal to the value. The specified track number is "50"
If it is larger, return to step G3, but
If it is less than "50", proceed to step G10 and subtract the current track number from the designated track number. If the result of this subtraction is "+", that is, the specified track number.
is larger than the current track number, step G11
At step G12, the output switching circuit 52 is switched to the ground side to turn off the output circuit, and the recording head 26 is advanced by one track at step G12, and then the process returns to step G3 to repeat the above operation. If the result of the subtraction in step G10 is "-", that is, if the designated track number is smaller than the current track number, the process advances to step G13, where the output switching circuit 52 is switched to the ground side and the output circuit is turned off. At the same time, the recording head 26 is moved back one track in step G14, and then the process returns to step G3 to repeat the above operation. When the designated track number matches the current track number through the processing of steps G11 and G12 or the processing of steps G13 and G14, the process proceeds from step G10 to step G15, where the output switching circuit 5
2 to the superimpose processing circuit 51 side to turn on the output circuit. Thereafter, the system control section 13 sets the track number in the output switching circuit 52 as shown in step G16, and then proceeds to step G16.
Return to G3. In this case, since the output circuit is held in the on state, the image signal read out from the designated track of the magnetic disk 27 by the recording head 26 is reproduced by the reproduction circuit system, and the track is also read by the superimpose processing circuit 51. A number is added to the image, and the image is sent from the external connection terminal 53 to, for example, an external monitor (not shown) and displayed as an image. and,
If the next track number is specified in this state, the recorded image of the specified track is read out and displayed as an image by the above-described operation.

On the other hand, if it is determined in step G7 that the input is not a remote control input, proceed to step G17 and press the truck control switch 17a (+ key).
Determine whether or not the has been operated. Also, step
If G8 determines that it is not a direct search, proceed to step G18 and use the remote control 20.
It is determined whether or not the + key of the track control switch 204 has been operated. If it is determined in step G17 or G18 that the + key has been pressed, proceed to step G19 and start the track.
It is determined whether the number is "50" or not. If it is "50", the final track has already been reached and it is not possible to proceed to the next track, so the process directly proceeds from step G16 onwards. Also, if it is determined in step G19 that the track number is not "50", step G20 is determined.
to determine whether the time is up or not. That is, the truck control switch 17a, 1
7b, 204 is operated, if the operation time is less than 2 seconds, 1
It moves one track at a time, and if the operation is continued for 2 seconds or more, a measurement operation is performed to move the tracks continuously at a timing of 4 HZ, for example. Therefore, the determination result in step G20 above is initially NO, so in this case, step
Proceed to G21 to determine whether measurement is in progress. At this point, the measurement operation has not yet started, so proceed from step G21 to step G22 and record head 2.
After advancing 6 by one track, for example, a 2 second timer is started in step G23, and the process returns to step G3 via step G16. When you start the above timer, it will start measuring, so you will need to continue from step G20 to step G21 until the timer times out.
It circulates through G16 and returns to step G3.
When a time-up is detected in step G20 after 2 seconds have elapsed, the process proceeds to step G24, where it is determined whether it is time to move the truck, that is, whether or not a 4HZ timing signal has been applied, and whether or not the timing signal has been applied. If not, the process directly returns to step G3 via step G16. However, if a timing signal is given, step G25
The program advances the recording head 26 by one track, and then returns to step G3 via step G16. Below, the truck control switch 17a, 2
While 04 (+ key) is operated, the step
At G24, the recording head 26 is moved forward one track each time a 4HZ timing signal is applied.

On the other hand, the determination results of steps G17 and G18 above are
If NO, proceed to steps G26 and G27 and turn on the truck control switches 17b and 2, respectively.
Determine whether or not 04 (- key) has been operated, and if no key has been operated, proceed to step G16.
After that, return to step G3. Step G26 above,
If the determination result of G27 is YES, proceed to step G28 to determine whether the current track number is "1" or not.
If so, continue to step G16.
Return to G3. If it is determined in step G28 that the track number is not "1", proceed to step G29.
-G34, the recording head 26 is moved by performing the same processing as in steps G20-G25. In this case, recording head 2 in steps G31 and G34
In the movement process of step 6, the process of "-1 track" is performed, contrary to the case of steps G22 and G25. As described above, a track on the magnetic disk 27 is selected and an image recorded on the designated track is reproduced.

Next, the operation for erasing the recorded image on the magnetic disk 27 will be explained. There are two modes for erasing recorded images: an erasing mode in which tracks are erased one track at a time, and an erasing mode in which all tracks are erased at once. However, if you want to delete recorded images one track at a time,
First, specify the track number you want to erase in playback mode. Next, the erase mode is designated by the main mode switch 14, and the shutter button, which also serves as an erase button, is operated. If the erase mode is designated, the process proceeds from step A15 in FIG. 4 to the process shown in the flowchart in FIG. 11. In this erase mode process, first, in step H1, the reproducing circuit system is turned off and the spindle motor 24 is also turned off. Next, the program proceeds to step H2, where key inputs are read, step H3, which determines whether the erase mode is in effect, and step H4, which determines whether or not the magnetic disk 27 is mounted. If it is determined in step H3 that the erase mode is not in effect, or if it is determined in step H4 that there is no disk, the process returns to step A3 in FIG. If it is determined in step H4 that there is a disk, the process proceeds to step H5, where it is determined whether or not there is a claw on the disk cassette.
If there is no claw, the process advances to step H6, and after an error is displayed on the LCD 30, the process returns to step H2. If step H5 determines that there is a claw, step
Proceed to H7 to display the track number on the LCD 30, and then proceed to step H8 to turn on the shutter switch.
2 is on. If the shutter switch SW2 is off, the process returns to step H2 and the above operation is repeated. Then, when the shutter switch SW2 is turned on, the steps start from step H8.
Proceeding to H9, the spindle motor 24 is turned on and rotated at about 1/3 to 1/4 of the recording/reproducing speed. Then, in step H10, the erase circuit system is turned on, that is, the recording/erase switching circuit 42 is switched to the erase signal source 43 side, and the erase signal source 43 is turned on, for example, for about 1/20 seconds. The erase signal output from the erase signal source 43 is transmitted to the recording/erase switching circuit 4.
2. The data is sent to the recording head 26 via the recording amplifier 44 and the recording/reproduction switching circuit 45, and the recorded content of the designated track on the magnetic disk 27 is erased by the recording head 26. When the 1/20 second has elapsed, the process proceeds to step H10, where the spindle motor 24 is turned off, and at the same time, the erasing circuit system is turned off at step H12, and the process returns to step H2. This completes the erase mode operation.

Further, when erasing all recorded contents of the magnetic disk 27, the erase mode is designated by the main mode switch 14, and then the shutter button is operated. If the operation mode is designated, the process proceeds from step A15 to the erase mode shown in FIG. That is, as shown in step I1, the regeneration circuit system is turned off and the spindle motor 24 is turned off.
is turned off, and then the key input is read in step I2. Next, the process proceeds to step I3, where it is determined whether or not the erase mode is in effect, and at step I4, it is determined whether or not the magnetic disk 27 is mounted. If it is determined in step I3 above that the erase mode is not in effect, or if it is determined that there is no disk in step I4, proceed to step A3 in Figure 4.
Return to If it is determined in step I4 that a disk is present, the process proceeds to step I5 to determine whether or not there is a claw on the disk cassette. If there is no claw, an error is displayed on the LCD 30 in step I6, and then the process returns to step I2. If it is determined in step I5 that there is a claw, the process proceeds to step I7 where "ALL" is displayed on the LCD 30 to indicate that all tracks will be erased, and then, in step I8, the shutter switch is
2 is turned on, and if it is not turned on, the process returns to step I2 to repeat the above operation and wait. When the shutter switch SW is turned on in this state, the process proceeds from step I8 to step I9 to move the recording head 26 to the first track, and at the same time, as shown in step I10, the spindle motor 24 is turned on and driven at a constant speed. Then, in step I11, the erasing circuit system is turned on for about 1/20 seconds to erase the recorded contents of the first track of the magnetic disk 27 in the same manner as in the erasing mode. When the erasing on the first track is completed, the program proceeds to step 12 to move the recording head 26 to the next track, and in step 13 the track number is displayed on the LCD 30.
Thereafter, in step 14, it is determined whether the track number has reached "51" or not. If it has not reached "51", the process returns to step 11 and the next track is erased. Below, step 11~
Repeat step 14 to erase the recorded contents of each track in sequence. When erasing is completed for all tracks, the track number becomes "51", so the process proceeds from step 14 to step 15, where the spindle motor 24 is turned off, and at step 16, the erasing circuit system is turned off. Then, in step 17, the recording head 26 is moved to the first track, and then the process returns to step 2 to prepare for the next key input. This completes the erase mode operation.

In the above embodiment, only a display means (error display) is provided as a notification means, but a buzzer or the like may be used instead. Further, a monitor such as a color LCD for displaying reproduced images may be provided on the camera body. In this case, the output signal Y+S of the luminance signal demodulation circuit 48 and the output signal R- of the color demodulation circuit 49 are
Color by modulating R, B-Y to R, G, B signals
A circuit for driving the LCD may be added to the circuit of the embodiment.

Further, in the above embodiment, a case was explained in which a mechanical shutter 33 was used, but if the image sensor 34 is configured with a CCD, the accumulation time can be controlled only by driving the CCD, so a mechanical electronic shutter can be used. You can also eliminate it.

[Effect of idea]

As detailed above, according to the present invention, the shutter switch can also be used as an erasing switch, and when the shutter switch is operated, an erasing signal is supplied to the recording head for erasing. , there is no need to provide a dedicated erase switch or head. In addition, in the recording mode, even if there is an unrecorded track, recording is performed only when the presence of a claw on the disk cassette is detected, so that data will be recorded on the unrecorded track of a disk cassette that does not have a claw. Moreover, when erasing, when the absence of a nail is detected, the operation of the erasing circuit is prohibited and the above-mentioned notification means is activated, so that the recorded image information is not erased by mistake. In addition, errors in mode selection, errors in disk selection, etc. can be easily detected through error notification.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention; Fig. 1 is a block diagram showing the overall circuit configuration, Fig. 2 is a diagram showing the key arrangement of the remote control, and Fig. 3 is a diagram showing the LCD.
FIG. 4 is a diagram showing the main flow for explaining the operation, FIG. 5 is a flowchart showing the empty track search operation, FIG. 6 is a flowchart showing the local search operation, and FIG. 7 is a flowchart showing the local search operation. The figure is a flowchart showing the operation in recording mode, No. 8.
Figure 9 is a flowchart showing the operation of the shutter sequence, Figure 9 is a flowchart showing the operation of the shutter sequence, Figure 10 is a flowchart showing the operation in playback mode, and Figure 11 is a flowchart showing operation in erase mode. Flowchart FIG. 12 is a flowchart showing the operation in the erase mode. DESCRIPTION OF SYMBOLS 11... Timing signal generation circuit, 12... Crystal oscillator, 13... System control unit, 14... Main mode switch, 15... Shutter mode switch, 16... Shutter switch, 17
a, 17b...Truck control switch, 18...AE sensor, 19...AE circuit, 20
...Remote control, 201...Numeric keypad, 202...
Enter key, 203...Record key, 204...
Truck control switch, 205... Shutter control switch, 21... Remote control sensor,
22... Remote control receiving section, 23... Servo control section, 24... Spindle motor, 25... Head moving mechanism section, 26... Recording head, 27... Magnetic disk, 28... Disk detection switch, 29
...Claw detection switch, 30...LCD, 31...
Imaging lens, 32...aperture, 33...shutter,
34...Image sensor, 35...Aperture drive circuit, 36
... Shutter drive circuit, 37 ... Driver, 38
...Video signal processing circuit, 39...Brightness signal processing circuit, 40...Color difference signal processing circuit, 41...Mixing circuit, 42...Record/erase switching circuit, 43...Erasure signal source, 44...Recording amplifier , 45... Recording/playback switching circuit, 46... Playback amplifier, 47... YC
Separation circuit, 48... Luminance signal demodulation circuit, 49...
Color demodulation circuit, 50...Encoder, 51...Superimpose processing circuit, 52...Output switching circuit, 53...External output terminal.

Claims (1)

[Claims for Utility Model Registration] A shutter switch that is operated to record an image on an image pickup device, a magnetic disk that is housed in a disk cassette and has a plurality of recording tracks, and an image that is recorded on the image pickup device. and a signal processing means for converting a still image signal into a still image signal, and the still image signal processed by the signal processing means is recorded only on unrecorded tracks of the magnetic disk through a recording head. In the camera, an erasing signal output means for outputting an erasing signal for erasing a still image signal recorded on a recording track of the magnetic disk, a recording mode for recording the still image signal on the magnetic disk, and a recorded state of the magnetic disk. a mode changeover switch means for switching and setting an erasing mode for erasing still image signals recorded on a track; a first detecting means for detecting the presence or absence of a claw on the disk cassette; and only when the first detecting means detects the presence of a claw, the image is imaged on the image sensor and is processed by the signal processing means. means for supplying the processed still image signal to the recording head to record it on an unrecorded track of the magnetic disk; and operating the shutter switch when the erase mode is set by the mode changeover switch means. a second detection means for detecting the presence or absence of a claw on the disk cassette; and a second detection means for detecting the presence or absence of a claw in the disk cassette; an erasing means for erasing the still image signal recorded on the recorded track of the magnetic disk by supplying the still image signal to a recording head; and an erasing means for erasing the still image signal recorded on the recorded track of the magnetic disk; An electronic still camera characterized by comprising: a notification means for notifying the state of the item by an optical display device;