JP4240656B2 - Electrical apparatus and control method thereof, video camera and control method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electric device and a control method thereof, a video camera, and a control method thereof, which are operated by a power source detachable from a main body such as an AC adapter or a battery pack.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in an electric device equipped with a power source that can be attached to and detached from a main body such as an AC adapter or a battery, the power source is attached to a mechanical lock mechanism that can be freely attached and detached by a user. That is, the power supply terminal on the power supply side is held in contact with the power supply terminal on the main body side by spring pressure or a stopper arm, etc., and power is continuously supplied, and the removal can be performed by sliding a mechanical lever, etc. It is a possible structure.
[0003]
Since such a method can be realized with a very simple mechanical structure, it is excellent in cost, and is currently widely used in small electric devices such as video cameras.
[0004]
FIG. 7 is a block diagram showing a main configuration of a conventional video camera. In FIG. 7, reference numeral 501 denotes a camera for taking an image, 502 denotes a cassette tape on which the taken image is recorded, 503 denotes a signal for performing signal processing of the taken image information and sequentially writing the processed data to the cassette tape 502. A processing means 504 is a microcomputer for controlling the entire video camera system.
[0005]
Reference numeral 505 denotes a volatile memory that stores specific screen data among image data processed by the signal processing unit 505 and temporarily stores user setting information such as a recording mode and a title. This is a non-volatile memory that can hold user setting information and the like held in the volatile memory 505 even when the power of the video camera body (VTR body) is turned off.
[0006]
507 is a power source for supplying power to the entire video camera, 508 is a lock mechanism for mechanically locking the power source 507 to the video camera body, 509 is a VTR operation switch group for a user to operate the video camera body, and 510 is Display means for displaying an image of the camera 501 or a reproduced image from the cassette tape 502, 511 is loaded with the cassette tape 502, and a cap stun motor for running the tape, a magnetic head for recording and reproducing, etc. Is a mechanical mechanism equipped with.
[0007]
Conventional video cameras can be broadly divided into two modes: camera mode for shooting with a camera and recording on a cassette tape 502, and VTR mode for playing back images and sound even recorded on a tape. Therefore, the operation of the video camera body will be briefly described below by dividing it into a camera mode and a VTR mode.
[0008]
In the camera mode, the user can record an image captured by the camera 501 on the cassette tape 502 through the signal processing means 503. Recording in the camera mode includes movie recording for recording normal moving images and sounds, and still image recording for continuously recording still images and sounds stored in a memory for a predetermined time.
[0009]
First, the user operates the power switch to put the VTR main unit into the camera mode, operates the zoom switch or the like to determine a desired angle of view by the display means, and presses the recording start / stop key to record. Start. When the recording mode is the normal movie mode, the signal processing unit 503 records the image data output from the camera 501 on the cassette tape 502 in order, thereby recording as a moving image.
[0010]
If the recording mode is the still image recording mode, the signal processing unit 503 once captures the image at the moment when the start / stop key is pressed into the volatile memory 505, and stores the data in this memory for a certain period of time on the cassette tape 502. To record still images. At the time of this still image recording, PPID data representing a still image is recorded for a certain period of time simultaneously with the still image data.
[0011]
This is because a still image search can be performed by searching for the PPID recorded here later. The switches and keys described here are VTR operation means existing in the VTR operation switch group 509. All the microcomputers 504 read the state, and the camera 501, signal processing means 503, and volatile memory 505 are read according to the result. These functions are realized by controlling the mechanical mechanism 511 and the like.
[0012]
On the other hand, in the VTR mode, the user can reproduce the image and sound recorded on the cassette tape 502 and can confirm them by the display means 510. For example, when playing back a tape, when the user sets the power switch to the VTR mode and presses the play key, the signal processing means 503 takes out the image data from the cassette tape 502, performs the signal processing, and outputs it to the display means 510. To play back.
[0013]
When the fast forward / rewind key is pressed, the mechanical mechanism 511 moves the tape at a high speed in the designated direction. As in the camera mode, the switches and keys described here are VTR operation means existing in the VTR operation switch group 509, and all the microcomputers 504 read the state, and according to the result, the camera 501 and the signal processing These functions are realized by controlling the means 503, the volatile memory 505, the mechanical mechanism 511, and the like.
[0014]
[Problems to be solved by the invention]
However, in the above-described conventional electric device, since the AC adapter and the battery can be freely removed by the user, the power is suddenly turned off even when the electric device is in operation / data transfer, It causes various problems. The following is a list of possible problems taking a video camera or the like as an example.
[0015]
(1) When the power supply is removed during FF / REW, the tape travel suddenly stops while the capstan and the pinch roller are pressed and tension is applied, causing tape damage.
[0016]
(2) If the power supply is removed during recording, the power supply suddenly drops before the recording end process is performed, and the recording track at that time is not formed correctly. Further, when recording after turning on the power again, the previously recorded scene and the overwritten scene are not connected correctly.
[0017]
(3) While operating in the camera mode, if the power is removed while the zoom lens is at the wide or telephoto end, it may not be possible to move from the lens position when the power is turned on again.
[0018]
(4) If there are items such as recording mode and title information that can be set by the user and written to the non-volatile memory to maintain the status, the power is turned on before or during the writing to the non-volatile memory after the setting by the user. If is removed, the set items disappear.
[0019]
(5) A video camera or digital camera that captures still images into a volatile memory built into the main unit, transfers the still images to a PC, and rewrites them on a large-capacity medium such as a cassette tape or smart media. In a photographing apparatus such as the above, when the captured still image information is being transferred to another medium or before the power is removed, the captured data is erased.
[0020]
There were problems such as.
[0021]
The present invention has been made to solve the above-described problems, and provides an electric device and a control method thereof, a video camera and a control method thereof that avoid suddenly removing the power supply from the main body. For the purpose.
[0022]
[Means for Solving the Problems]
  To achieve the above objective,The present inventionThenElectrical apparatus and control method thereof, video camera and control method thereofThenextNear to theConstitutionDo.
(1) An electric device that is operated by a detachable power source, the operation control means for controlling the operation of the electric device main body, and the power source attached to the electric device main body in a state in which it cannot be detached from the electric device main body. Locking means for locking, unlocking means for releasing the locked state, operating means for performing an operation input when removing the power supply, and unlocking for controlling the unlocking means according to the operation input Control means, and when the operation input is received, the operation control means performs an operation for resetting the lens position, and the lock release control means is locked by the lock release means after the lens position reset operation is completed. Electrical equipment that releases
(2) An electric device that operates with a detachable power source, the operation control means for controlling the operation of the main body of the electric device, a power source chamber for storing the power source, and a lid for opening and closing a power source insertion port of the power source chamber. A lock unit that locks the lid in a state in which the lid cannot be opened, a lock release unit that releases the locked state, a lid opening instruction member for performing operation input when opening the lid, and the lid opening instruction A lock release control means for controlling the lock release means in response to an operation input by a member, and when the operation input is received, the operation control means performs an operation of resetting the lens position, and resets the lens position. The electrical device that releases the locked state by the unlocking means after the operation is completed.
(3) The electric device according to (1) or (2), wherein the operation control means and the lock release control means are operated by the power of the attached power source.
(4) The electrical device according to (1) or (2), wherein the unlocking unit and the unlocking control unit operate with power from a power source different from the power source attached.
(5) A method of controlling an electric device that operates with a detachable power source, wherein the operation control means controls the operation of the electric device main body, and the power source mounted on the electric device main body is locked from the electric device main body by a locking means. The lock is locked in an unremovable state, the locked state is released by the lock release means, and the lock release control means releases the lock in response to an operation input by the operation means for performing an operation input when removing the power supply. When the operation input is received, the operation control unit performs an operation of resetting the lens position. After the lens position reset operation is completed, the unlock control unit is locked by the unlock unit. A method of controlling an electrical device that releases a state.
(6) A method of controlling an electric device that operates with a detachable power source, wherein the operation of the electric device main body is controlled by an operation control means, and a lid that opens and closes a power supply opening of a power supply chamber that houses the power source is locked. To lock the unlocking means according to an operation input by a lid opening instruction member for inputting an operation when opening the lid. When the operation input is received, the operation control unit performs an operation of resetting the lens position. When the lens position reset operation is completed, the lock release control unit is locked by the lock release unit. For controlling an electric device to release the released state.
(7) A video camera that is operated by a detachable power source, wherein the operation control means for controlling the operation of the video camera body and the power source attached to the video camera body are made undetachable from the video camera body. Locking means for locking, unlocking means for releasing the locked state, operating means for performing an operation input when removing the power supply, and unlocking for controlling the unlocking means according to the operation input Control means, and when the operation input is received, the operation control means performs an operation for resetting the lens position, and the lock release control means is locked by the lock release means after the lens position reset operation is completed. A video camera that cancels the status.
(8) The video camera according to (7), wherein the operation control means and the lock release control means are operated by the power of the attached power source.
(9) The video camera according to (7), wherein the unlocking unit and the unlocking control unit operate with power from a power source different from the power source attached.
(10) A video camera that is operated by a detachable power supply, wherein the operation control means for controlling the operation of the video camera main body and the power supply attached to the video camera main body are in a state in which the video camera main body cannot be detached from the video camera main body. Locking means for locking, unlocking means for releasing the locked state, operating means for performing an operation input when removing the power supply, and unlocking for controlling the unlocking means according to the operation input Control means, and when the operation input is received, the operation control means performs the end of recording on the magnetic tape and the alignment operation of the magnetic tape, and the lock release control means after completion of the recording and alignment operation. Is a video camera that releases the locked state by the unlocking means.
(11) A video camera that is operated by a detachable power supply, wherein the operation control means for controlling the operation of the video camera main body and the power supply attached to the video camera main body are in a state in which the video camera main body cannot be detached. Locking means for locking, unlocking means for releasing the locked state, operating means for performing an operation input when removing the power supply, and unlocking for controlling the unlocking means according to the operation input Control means, and when the operation input is received, the operation control means performs an operation of stopping the feeding of the magnetic tape, and the lock release control means is locked by the lock release means after the stop operation is completed. A video camera that releases the recorded state.
(12) A method for controlling a video camera operated by a detachable power source, wherein the operation of the video camera body is controlled by an operation control means, and the power source mounted on the video camera body cannot be detached from the video camera body The lock state is locked by the lock means, the locked state is released by the lock release means, and the lock release control means releases the lock according to an operation input by the operation means for performing an operation input when removing the power source. When the operation input is received, the operation control unit performs an operation of resetting the lens position. After the lens position reset operation is completed, the unlock control unit is locked by the unlock unit. A video camera control method that releases the status.
(13) A method for controlling a video camera operated by a detachable power source, wherein the operation of the video camera body is controlled by an operation control means, and the power source mounted on the video camera body cannot be detached from the video camera body. The lock state is locked by the lock means, the locked state is released by the lock release means, and the lock release control means releases the lock according to an operation input by the operation means for performing an operation input when removing the power source. When the operation input is received, the operation control means performs the recording end to the magnetic tape and the alignment operation of the magnetic tape, and after the recording end and the alignment operation are completed, the lock release control means A video camera control method for releasing a locked state by the unlocking means.
(14) A method for controlling a video camera operated by a detachable power source, wherein the operation of the video camera body is controlled by an operation control means, and the power source mounted on the video camera body cannot be detached from the video camera body The lock state is locked by the lock means, the locked state is released by the lock release means, and the lock release control means releases the lock according to an operation input by the operation means for performing an operation input when removing the power source. When the operation input is received, the operation control means performs an operation of stopping the feeding of the tape, and the lock release control means is locked by the lock release means after the stop operation is completed. A video camera control method that releases the status.
[0049]
DETAILED DESCRIPTION OF THE INVENTION
This embodiment will be described below with a video camera.
[0050]
(First embodiment)
FIG. 1 is a block diagram showing the configuration of the video camera according to the first embodiment. In FIG. 1, reference numeral 101 denotes a camera for taking an image, 102 denotes a cassette tape (magnetic tape) on which the taken image is recorded, 103 denotes signal processing of the taken image information, and the processed data is sequentially transferred to the cassette tape. Reference numeral 104 denotes a signal processing means for writing into the microcomputer 102, and reference numeral 104 denotes a microcomputer (operation control means) for controlling the entire video camera system. 105 is a volatile memory that stores data of a specific screen among the image data processed by the signal processing means 103 and temporarily stores user setting information such as a recording mode and a title. This is a non-volatile memory that can retain user setting information and the like held in the volatile memory 105 even when the power of the video camera body is turned off.
[0051]
Reference numeral 107 denotes a power release mechanism (operating means) that electrically unlocks the power source and enables the power source to be removed. Reference numeral 108 denotes power source locking / unlocking according to settings from the microcomputer 104. Actuators (locking means and unlocking means), 109 is a power source for supplying power to the entire video camera, and 110 is an auxiliary power source provided in addition to the power source 109.
[0052]
111 is a VTR operation switch for the user to operate the video camera body, 112 is a display means for displaying an image of the camera 101 or a reproduced image from the cassette tape 102, and 113 is a cassette tape 102 loaded with the tape. It is a mechanical mechanism equipped with a capstan motor for running, a magnetic head for recording and reproduction, and the like. Reference numeral 114 denotes a lock mechanism for locking the power source to the video camera body.
[0053]
Also in the video camera in the present embodiment, the same operation as the conventional one is performed in the recording in the camera mode and the reproduction in the VTR mode. Therefore, if the power source is removed during the operation, various problems are caused as described above.
[0054]
A power lock device (power supply attaching / detaching device) in the video camera, which is a feature of this embodiment, will be described below.
[0055]
This device is characterized by mechanically locking a power source such as a battery and electrically controlling the unlocking. In other words, if the video camera itself becomes a problem when the power supply is removed, the microcomputer detects the state, and it is configured to electrically lock so that the user can not remove the power supply. It is.
[0056]
The power lock device is roughly composed of a power removal switch 107, an actuator 108, and a microcomputer 104 for controlling them. In the operation state of the video camera, the microcomputer 104 controls each part of the video camera as described above. During this operation state, the microcomputer 104 generates a command for instructing the actuator 108 to lock the power supply. When the power supply removal switch 107 is operated here, the microcomputer (lock release control means) 104 controls (retracts) each part so that there is no problem even if the power supply of the video camera body is removed, and such a state is obtained. After confirming this, an unlock command is issued to the actuator 108. The actuator 108 receives the command and releases the battery lock mechanism 114, so that the user can remove the battery.
[0057]
FIG. 2 is a flowchart showing the operation procedure of the microcomputer 104 when the battery is removed. This will be described in detail below using this flowchart. This operation is executed according to an instruction from the CPU in the microcomputer 104 based on a program stored in the ROM in the microcomputer 104.
[0058]
First, in step S101, the microcomputer 104 checks whether the power removal switch 107 has been pressed. If not, return to the original and continue normal processing. If it is detected that the button is pressed, in step S202, the video camera checks whether recording is in progress. This confirmation is not limited to the above-described normal moving image recording / still image recording.
[0059]
That is, in either recording mode, when recording is in progress, recording end processing SS103 such as recording current OFF → link operation for recording on the tape is performed. When this recording end operation is completed, the microcomputer 104 next checks the lens position, and if there is a lens at either the tele / wide end, performs a lens position reset S105 so as to avoid it. This is because if the zoom lens is at such an end and the power is turned off and then the power is not turned on for a long time, the power is turned on next time and the zoom lens is moved. This is a process to avoid the problem that does not work properly.
[0060]
Finally, the microcomputer 104 checks whether the mechanical mechanism 113 is in the STOP state. If not in the stop state, the mechanical mechanism 113 is controlled to shift to STOP in step S207. After performing these checks and operations corresponding to the results, the microcomputer 104 issues a lock release command to the actuator 108 which is a power supply lock mechanism, and the power supply can be removed for the first time.
[0061]
When the video camera body is in a state where the power supply must not be removed by the configuration and procedure described above, various problems can be avoided by removing the power supply and electrically locking it. It becomes possible.
[0062]
Next, the configuration and operation of the power lock device will be described in more detail with reference to FIG. FIG. 3 is a circuit block diagram showing the battery lock mechanism according to the first embodiment, and it is assumed that this apparatus is prepared in the vicinity of a space dedicated for battery installation prepared in the video camera body.
[0063]
In FIG. 3, 201 is a microcomputer for controlling the entire apparatus and the video camera (corresponding to the microcomputer 104 in FIG. 1), 202 is a regulator for keeping the power supply voltage constant, 203 is a switch controlled by the microcomputer 201, 204 Is an electromagnet whose operation is turned ON / OFF by the switch 203, 205 is a stopper for locking the battery, and 206 is a spring for biasing the stopper 205 in the direction of the arrow.
[0064]
Reference numeral 207 denotes a battery (corresponding to the power source 109 in FIG. 1), 208 is a terminal attached to the main body side to supply power to the video camera main body by contacting the power terminal of the battery, and 209 can be mechanically removed. A slide lock 210, a power removal switch 210 that is pressed when the slide lock 209 is unlocked, and an AC adapter 211 for supplying power from the auxiliary power source 110 of FIG. Reference numerals 213 and 214 denote resistors, and 215 and 216 denote diodes.
[0065]
Next, the operation of this apparatus will be described in detail. First, when there is neither a power source nor an auxiliary power source, the stopper 205 is urged by a spring 206 in the battery direction (arrow direction) around a fulcrum attached to the main body. This is a state where the battery 207 is locked. When the battery is inserted from this state, the battery slides on a taper formed on the surface of the clasp 205 on the battery side, so that the battery can be properly accommodated in the battery mounting space.
[0066]
In this state, the stopper 205 is housed in a locking groove formed on the exterior of the battery 207, that is, the battery 207 is locked. The user further fixes the battery with a slide lock 209. This operation physically fixes the battery and opens the power supply removal switch 210.
[0067]
When the battery is attached to the video camera main body in this way, power is supplied to the regulator 202 through the power supply terminal 208 on the main body side. Then, the regulator 202 generates a constant voltage 212A adjusted for the battery voltage throughout the video camera including the microcomputer 201. At this time, the signal 212B from the battery removal switch is pulled up to the constant voltage 212A, and thus is in the “H” state. Then, the microcomputer 301 sets the electromagnet ON / OFF switch 203 in the open state, that is, the electromagnet 204 in the OFF state by the signal 212C, and electrically locks the battery 207.
[0068]
Through the operations and actions described above, power is supplied to the video camera body, and the battery 207, which is a power supply source, is electrically locked, and the VTR operation described above is performed in this state. It becomes. Next, the operation when removing the battery 207 will be described.
[0069]
To remove the battery 207, the user first slides the slide lock 209 in the direction of the arrow to physically unlock the battery, and at the same time closes the battery removal switch 210 and sends a signal 212B to the microcomputer 201. Set to “L” state. Upon detecting this state, the microcomputer 201 closes the switch 203 by the signal 212C and turns on the electromagnet 204. Then, the stopper 205 is attracted to the electromagnet 204 by the magnetic force, and the lock applied to the battery 205 is released.
[0070]
However, this unlocking operation is performed according to the procedure described in the description of the flowchart of FIG. 2 in this embodiment, and the unlocking is not performed until the video camera body is in a state where the battery can be removed. It becomes.
[0071]
Here, the role of the auxiliary power supply 111 in FIG. 1 will be described. The auxiliary power supply 111 can supply stable power from the power supply terminal via the AC adapter 211 or the like. When the battery 207 power cannot release the battery lock by the electromagnet 204 and the clasp 205, the auxiliary power supply 111 can supply auxiliary power. The battery can be removed by supplying power to the video camera body.
[0072]
The state in which the battery lock cannot be released means that the power is reduced due to leaving the battery 207 attached to the video camera body for a long time, and the microcomputer 301 cannot operate, or the electromagnet 204 However, it is impossible to attract the clasp 205. The battery 207 and the auxiliary power supply 111 are separated from each other by diodes 215 and 216 attached on the respective power supply lines. When both power supplies are present, the higher one of the voltages is supplied to the regulator 202. It has a configuration.
[0073]
Of course, the auxiliary power source 110 may be a secondary battery charged by the battery 207 during normal use, but the configuration in that case will not be described in detail here.
[0074]
In the configuration of FIG. 3, as a means for electrically locking the power source, an electromagnet 204 and a clasp 205 biased by a spring 206 are used. One of the features is that in order to effectively use the limited power of the battery, it is not until the electromagnet is turned on when the battery is locked in the normal use. One point is that they use electricity.
[0075]
Further, instead of such a mechanism, a small motor and a member that slides by the motor can be used. Also in this case, since the power is used only when the lock is applied or released, the battery can be used effectively.
[0076]
(Second embodiment)
FIG. 4 is a block diagram showing the configuration of the video camera according to the second embodiment. A feature of the present embodiment is that the video camera body includes a digital interface 306 that enables communication with an external device (hereinafter referred to as a PC) 312 such as a personal computer. The digital interface 306 can transmit image and audio data to the external PC 312 via the digital signal line 315, and can simultaneously receive a command for operating the video camera body from the PC 312.
[0077]
Hereinafter, the details of the present embodiment will be described with reference to FIG. The video camera in this embodiment can record normal moving images and still images on the cassette tape 302 through the signal processing means 303 in the camera mode, as in the conventional case. Furthermore, as a new function, there is a memory camera function for holding the still image at the moment when the shutter is released in the volatile memory 305.
[0078]
The volatile memory 305 has a capacity of about 2 [Mbytes]. If all of this capacity is used for storing the still image data, about 20 still images are captured as compressed data. Is possible. The stored still image can be decompressed by the signal processing means 303 and output to the display means 314. It is also possible to record on the cassette tape 302 in the still image recording format by the method described above. Further, the data can be transferred to the external PC 312 via the digital interface 306.
[0079]
In all the VTR and memory camera functions as described above, the microcomputer 304 receives an operation input from the VTR operation switch group 311, and the camera 301, the signal processing unit 303, the volatile memory 305, the digital interface 306, etc. according to the input However, details thereof will not be described here.
[0080]
FIG. 5 is a flowchart showing the control means when the power source is removed in this embodiment. This will be described in detail below using this flowchart. The operation is executed according to an instruction from the CPU in the microcomputer 304 based on a program stored in the ROM in the microcomputer 304.
[0081]
In step S201, the microcomputer 304 first checks whether the power removal switch 307 has been pressed. If it is detected that the button has been pressed, it is checked in step S202 if the video camera body is communicating with the PC 312 via the digital interface 306.
[0082]
If the communication is in progress, communication end processing is performed in step S203, and then in step S204, it is checked whether unprocessed image data remains in the volatile memory 305. The term “unprocessed” as used herein refers to a state in which an image is not sent to the PC 312 through the digital interface 305 after the image is taken into the volatile memory 305 by the method described above, and the image data is also stored on the cassette tape 302. Indicates that no still image is recorded.
[0083]
If there is no unprocessed image, at that time, the actuator 309 is instructed to release the power supply lock, the lock mechanism 314 is released, and the power supply can be removed. On the other hand, if there is an unprocessed image, the microcomputer 304 then issues a warning that there is an unprocessed image on the display means (warning means) 314 via the signal processing means, and at the same time a subsequent processing method. Accept user input.
[0084]
In this embodiment, there are three types of options. The first is a method of recording a still image on a tape. In step S206, the microcomputer 304 checks whether the user input selects an item to be recorded on the tape. If so, the unprocessed image data is sequentially recorded on the cassette tape 302 in step S207. The second and third options are to stop taking out the power and forcibly remove the power even if data remains.
[0085]
In step S208, the microcomputer 304 checks whether or not the user input has selected to ignore the warning and remove the power supply as it is. If so, the power supply is unlocked in step S209 so that the user can remove the power supply. If this is not the case, the removal of the power supply is stopped and the operation returns.
[0086]
Although not described in FIG. 5, after checking the power supply removal switch 307 in step S201 and before instructing the actuator 308 to release the lock in step S209, it is performed in the flowchart of FIG. Similar checks and processing operations can be performed.
[0087]
Also in this embodiment, the auxiliary power supply 310 is used to provide an auxiliary unlocking means when the unlocking becomes impossible due to battery consumption. This is exactly the same as the embodiment.
[0088]
(Third embodiment)
FIG. 6 is a circuit block diagram showing a battery lid lock mechanism according to the third embodiment. A power supply attachment / detachment mechanism for electrically controlling the removal of the battery by locking the battery lid will be described. In FIG. 6, 401 is a battery that is a power source for supplying power to the electrical equipment, 402 is a regulator that adjusts the voltage from the battery 401 to a constant voltage, 403 is a microcomputer that controls the entire electrical equipment, and 404 is attached to the battery insertion port. 405 is a slide lock that opens and closes the battery cover, 406 is a battery removal switch (opening instruction member) that is pressed by the slide lock 407, and 407 is a lock pin for locking the battery cover 404.
[0089]
Reference numeral 408 denotes a motor that controls locking / unlocking of the battery cover by sliding the lock pin 407 laterally via the worm gear, and reference numeral 409 denotes a switch that operates the motor 408.
[0090]
410A is a power supply (supply voltage) of the microcomputer 403 stabilized by the regulator, 410B is a battery removal switch signal for the microcomputer 403 to detect the state of the battery removal switch 406, and 410C is an operation of the motor 408 by the microcomputer 403. A motor control signal 410D for control is a motor forward / reverse switching signal for controlling forward / reverse rotation of the motor.
[0091]
Next, the operation of this power supply attaching / detaching mechanism will be described in detail. First, when a battery is attached to the electric device and the battery lid 404 is mechanically locked by the slide lock 405, power is supplied from the battery 401 to the electric device, and the entire system including the microcomputer 403 operates. Be started. At this time, the slide lock 405 is in a state where the battery removal switch 406 is not depressed. When the microcomputer 403 detects this state by the signal 410B, the motor 408 is operated by the motor control signal 410C and the motor forward / reverse switching signal 410D, and the lock pin 407 is moved in the direction in which the battery cover 404 is locked (rightward in FIG. 6). Move to lock battery lid 404.
[0092]
Conversely, the operation when the battery is taken out will be described. First, when the lock state of the slide lock 405 is released, the battery removal switch 406 is pressed. When this state is detected by the signal 410B, the microcomputer 403 first controls the electric device main body so that the power supply can be removed.
[0093]
The “state in which the power supply can be removed” as used herein naturally varies depending on the electric device to which the present embodiment is applied. Thereafter, the motor 408 is rotated in a direction opposite to the direction in which the battery lid is locked by the motor control signal 410C and the motor forward / reverse switching signal 410D, and the lock pin 407 is released in the direction in which the battery lid 404 is unlocked (leftward in FIG. 6). ) To unlock the battery lid 404.
[0094]
If the battery lid lock / unlock is electrically controlled by the method described above, the problem caused by suddenly disconnecting the power supply of the conventional electric device in the same way as when directly locking the battery is solved in advance. It becomes possible to prevent.
[0095]
Even when the power of the battery decreases and it becomes impossible to operate the video camera, the battery can be taken out using another power source.
[0096]
As described above, in the first to third embodiments, it is possible to avoid the battery of the video camera from being suddenly removed with a simple configuration.
[0097]
In addition, it is possible to prevent data from disappearing by saving control data to a predetermined storage element before the power of the video camera is removed.
[0098]
Further, the image data can be prevented from disappearing by saving the image data to a predetermined storage element before the power of the video camera is removed.
[0099]
In addition, it is possible to avoid the problem that the zoom lens cannot operate when the power is turned on again.
[0100]
Further, when the power is turned on again, it is possible to avoid the problem that the subsequent scene is not correctly connected to the previous scene.
[0101]
In addition, it is possible to prevent tape damage that occurs when the power supply is suddenly removed while the tape tension is applied.
[0102]
In addition, the user can be made aware of a state in which it is impossible to unlock the power supply systematically.
[0103]
【The invention's effect】
As described above, according to the present invention, it is possible to avoid that the power source is suddenly removed from the main body, and it is possible to avoid the problems caused by the power source suddenly dropping. .
[Brief description of the drawings]
FIG. 1 is a block diagram showing the configuration of a video camera according to a first embodiment.
FIG. 2 is a flowchart showing a control operation when a power supply is removed according to the first embodiment.
FIG. 3 is a circuit block diagram showing a battery lock mechanism according to the first embodiment.
FIG. 4 is a block diagram showing a configuration of a video camera according to a second embodiment.
FIG. 5 is a flowchart showing a control operation when a power supply is removed according to the second embodiment.
FIG. 6 is a circuit block diagram showing a battery lid locking mechanism according to a third embodiment.
FIG. 7 is a block diagram showing the configuration of a conventional video camera.
[Explanation of symbols]
101 Camera (lens)
102 cassette tape
104 Microcomputer (operation control means, lock release control means)
105 volatile memory
106 Nonvolatile memory
107 Power supply removal switch (operation means)
108 Actuator (Locking means, unlocking means)
109 power supply
110 Auxiliary power supply

Claims (14)

An electric device that operates with a detachable power source, the operation control means for controlling the operation of the electric device main body, and a lock that locks the power source attached to the electric device main body in a state in which it cannot be detached from the electric device main body Means, unlocking means for releasing the locked state, operating means for performing an operation input when removing the power supply, and unlocking control means for controlling the unlocking means in response to the operation input When the operation input is received, the operation control means performs an operation of resetting the lens position , and after the lens position reset operation is completed, the lock release control means is locked by the lock release means. Electrical equipment characterized by being released. An electric device that operates with a detachable power source, the operation control means for controlling the operation of the main body of the electric device, a power source chamber for storing the power source, a lid for opening and closing a power source insertion port of the power source chamber, the lid and locking means for locking the opening and closing impossible state, and unlocking means for releasing the locked state, the lid opening indication member for operating inputs the lid during open, by the open lid indicating member An unlock control means for controlling the unlock means according to an operation input, and when the operation input is received, the operation control means performs an operation to reset the lens position , and the lens position reset operation is completed. The electric device characterized in that the lock release control means later releases the locked state by the lock release means.   3. The electric device according to claim 1, wherein the operation control means and the lock release control means are operated by the power of the attached power source.   The electric device according to claim 1 or 2, wherein the unlocking means and the unlocking control means operate with electric power of a power source different from the attached power source. A method for controlling an electric device that operates with a detachable power source, wherein the operation control means controls the operation of the electric device main body, and the power source attached to the electric device main body cannot be detached from the electric device main body with a lock means The locked state is unlocked by the unlocking means, and the unlocking means is controlled by the unlocking control means in response to the operation input by the operating means for performing the operation input when removing the power supply. When the operation input is received, the operation control means performs an operation for resetting the lens position , and after the lens position reset operation is completed, the lock release control means releases the locked state by the lock release means. A method for controlling an electrical device, characterized in that: A method of controlling an electric device that operates with a detachable power source, wherein the operation of the electric device main body is controlled by an operation control means, and a lid that opens and closes a power supply opening of a power supply chamber that houses the power source is not opened or closed by a lock means locked to ready to release the unlocking means the locked state, the lock release control said unlocking means in response to operation input by lid opening pointing member for operating inputs the lid when open When the operation input is received, the operation control unit performs an operation of resetting the lens position. After the lens position reset operation is completed, the unlock control unit is locked by the unlock unit. A method for controlling an electric device, wherein the state is released. A video camera that is operated by a detachable power source, the operation control means for controlling the operation of the video camera body, and a lock that locks the power source mounted on the video camera body in a state in which it cannot be detached from the video camera body. Means, unlocking means for releasing the locked state, operating means for performing an operation input when removing the power supply, and unlocking control means for controlling the unlocking means in response to the operation input When the operation input is received, the operation control means performs an operation of resetting the lens position , and after the lens position reset operation is completed, the lock release control means is locked by the lock release means. A video camera characterized by being released. 8. The video camera according to claim 7, wherein the operation control means and the lock release control means are operated by the power of the attached power source. 8. The video camera according to claim 7, wherein the unlocking means and the unlocking control means operate with power from a power source different from the power source attached.   A video camera that operates with a detachable power supply, Operation control means for controlling the operation of the camera body, lock means for locking the power source attached to the video camera body in a state in which it cannot be detached from the video camera body, and unlock means for releasing the locked state And an operation means for performing an operation input when removing the power supply, and an unlock control means for controlling the unlocking means according to the operation input, and the operation control when the operation input is received Means for ending the recording on the magnetic tape and aligning the magnetic tape, and after completing the recording and the alignment operation, the unlocking control means releases the locked state by the unlocking means. Video camera. A video camera that is operated by a detachable power source, the operation control means for controlling the operation of the video camera body, and a lock that locks the power source mounted on the video camera body in a state in which it cannot be detached from the video camera body. Means, unlocking means for releasing the locked state, operating means for performing an operation input when removing the power supply, and unlocking control means for controlling the unlocking means in response to the operation input The operation control means performs an operation of stopping feeding of the magnetic tape when the operation input is received, and the lock release control means is locked by the lock release means after completion of the stop operation. A video camera characterized by canceling. A method of controlling a video camera that operates with a detachable power source, wherein the operation of the video camera body is controlled by an operation control means, and the power source mounted on the video camera body is made undetachable from the video camera body. The lock is locked by the lock means, the locked state is released by the lock release means, and the lock release means is controlled by the lock release control means in response to an operation input by the operation means for performing an operation input when removing the power supply. When the operation input is received, the operation control means performs an operation for resetting the lens position , and after the lens position reset operation is completed, the lock release control means releases the locked state by the lock release means. A method for controlling a video camera, comprising: A method of controlling a video camera operated by a detachable power source, wherein the operation of the video camera body is controlled by an operation control means, and the power source mounted on the video camera body is made undetachable from the video camera body. The lock is locked by the lock means, the locked state is released by the lock release means, and the lock release means is controlled by the lock release control means in response to an operation input by the operation means for performing an operation input when removing the power supply. When the operation input is received, the operation control means ends the recording on the magnetic tape and aligns the magnetic tape, and after the recording ends and the alignment operation is completed, the unlock control means releases the lock. A method for controlling a video camera, comprising: releasing a locked state by means. A method of controlling a video camera that operates with a detachable power source, wherein the operation of the video camera body is controlled by an operation control means, and the power source mounted on the video camera body is made undetachable from the video camera body. The lock is locked by the lock means, the locked state is released by the lock release means, and the lock release means is controlled by the lock release control means in response to an operation input by the operation means for performing an operation input when removing the power supply. Then, when the operation input is received, the operation control means performs an operation for stopping the feeding of the tape, and after the stop operation is completed, the lock release control means releases the locked state by the lock release means. A method for controlling a video camera, comprising:

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