JP2009108645A - Electric lock device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent unauthorized invasion of an intruder, without driving a motor, even if voltage is impressed on a conductor of a cable from a cutting place, when the intruder cuts the cable of an electric lock device. <P>SOLUTION: This electric lock device has a user information authenticating part 12, the motor 30 arranged inside a door and locking and unlocking an electric lock, a control part 13 generating a predetermined control signal for controlling the motor 30 so as to unlock the electric lock when user information is normally authenticated, a motor driving part 14 driving the motor in response to the control signal from the control part 13, a pulse generating part 15 generating a predetermined pulse signal in response to the control signal from the control part 13, a switch 22 arranged in the vicinity of the motor 30 and connected in series to at least one of a power line for connecting the motor 30 and the motor driving part 14, and a switch control part 23 arranged in the vicinity of the motor and turning on the switch 22 only when receiving the pulse signal from the pulse generating part 15. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an electric lock device installed on a door of an individual room of a building such as an apartment.

  For example, as described in Patent Document 1, an electric lock device provided with a magnetic card reader or the like is conventionally used at the door of an individual room such as an apartment or a hotel. By the way, in order to further improve security, an electric lock device using a personal identification number, fingerprint authentication of a finger, vein authentication, etc. in addition to an unlock key such as a magnetic card has been put into practical use. In such an electric lock device, for example, a motor installed on the inside of the door is driven from an operation unit installed on the outside of the door to rotate the thumb turn, thereby locking and unlocking the electric lock. The configuration of a conventional electric lock device is shown in FIG.

  The conventional electric lock device shown in FIG. 4 includes a control-side board 50 installed inside the operation unit and a motor-side board 60 installed on the motor 70 side, and the control-side board 50, the motor-side board 60, Are connected to the connectors 51 and 61 by a cable 71. The control-side board 50 determines whether or not to unlock the user information authentication unit 52 by comparing the user information read by the user information authentication unit 52 with the user information set in advance. When it is determined that the electric lock is to be unlocked, the control unit 53 controls the driving of the motor to unlock the electric lock, and the motor driving unit 54 drives the motor in response to a control signal from the control unit 53. ing.

  Generally, locking and unlocking in the electric lock device are performed by rotating and rotating the motor 70 forward and backward. Since the electric lock is installed in a drive unit or the like inside the door, a small, light, and inexpensive DC motor is used as the motor 70, and a predetermined drive from the motor drive unit 54 via the cable 71 is used. Electric power is supplied to the motor 70.

  By the way, in the conventional electric lock device, when an intruder improperly unlocks the electric lock and tries to enter the inside of the building, the housing of the operation unit is destroyed, the cable 71 is cut, By connecting a battery to the core of the cable 71 and applying a predetermined voltage, it was possible to drive the motor and unlock the electric lock.

JP-A-8-240045

  The present invention has been made to solve the above-described problems of the conventional example. Even if an intruder cuts the cable, connects a battery to the core wire of the cable from the cut position, and applies a voltage, the motor An object of the present invention is to provide an electric lock device that can prevent unauthorized entry of an intruder without being driven.

In order to achieve the above object, the invention of claim 1 is an electric lock device comprising:
A user information authentication unit that is installed near the door and authenticates information about the user who is trying to open the door;
A motor installed on the door for locking and unlocking the lock;
The user information read by the user information authentication unit is compared with preset user information to determine whether or not to unlock, and when it is determined to unlock, the electric lock is released. A control unit that generates a predetermined control signal to control the motor to lock;
A motor drive unit that drives the motor in response to a control signal from the control unit;
A pulse generator that generates a predetermined pulse signal in response to a control signal from the controller;
A switch provided in the vicinity of the motor and connected in series to at least one of power lines connecting the motor and the motor drive unit;
A switch control unit is provided in the vicinity of the motor and turns on the switch only when a pulse signal from the pulse generation unit is received.

The invention of claim 2 is the electric lock device according to claim 2,
At least the control unit, the motor drive unit, and the pulse generation unit are provided on the same control side substrate,
The switch and the switch control unit are provided on a motor-side substrate provided in the vicinity of the motor,
The control-side board and the motor-side board are connected to each other through a connector and a cable.

The invention of claim 3 is the electric lock device according to claim 1 or 2,
The power line connecting the motor and the motor driving unit and the signal line connecting the pulse generating unit and the switch control unit are wire harnesses in which a plurality of electric wires are bundled into one.

The invention of claim 4 is an electric lock device,
A user information authentication unit that is installed near the door and authenticates information about the user trying to open the door,
A motor installed on the door for locking and unlocking the lock;
The user information read by the user information authentication unit is compared with user information set in advance to determine whether or not to unlock, and when it is determined to unlock, the electric lock is unlocked. A control unit that generates a predetermined control signal to control the motor to lock;
A pulse generator that generates a predetermined pulse signal in response to a control signal from the controller;
A motor driving unit provided in the vicinity of the motor and driving the motor in accordance with a control signal from the control unit;
A switch provided in the vicinity of the motor drive unit, and connected in series to at least one of signal lines connecting the control unit and the motor drive unit;
A switch control unit is provided in the vicinity of the motor and turns on the switch only when a pulse signal from the pulse generation unit is received.

The invention of claim 5 is the electric lock device according to claim 4,
At least the control unit and the pulse generation unit are provided on the same control side substrate,
The switch, the switch control unit, and the motor driving unit are provided on a motor side substrate provided in the vicinity of the motor,
The control-side board and the motor-side board are connected to each other through a connector and a cable.

The invention of claim 6 is the electric lock device according to claim 4 or 5,
The signal line connecting the control unit and the motor drive unit and the signal line connecting the pulse generation unit and the switch control unit are a wire harness in which a plurality of electric wires are bundled together or a plurality of electric wires are bundled in one. It is a flexible flat cable.

The invention of claim 7 is the electric lock device according to any one of claims 4 to 6,
The control signal is a signal of 2 bits or more, and the voltage of the terminal of the motor driving unit connected to the signal line provided with the switch is at a high level when the switch is off. When turned on, it goes low,
The motor driving unit rotates the motor in a direction to unlock the electric lock only when the voltage of the terminal becomes low level.

  According to the invention of claim 1, even if an intruder cuts the power line connecting the motor and the motor drive unit and connects the battery to the core of the power line to supply power to the motor, a predetermined pulse signal is generated. Otherwise, the switch will not turn on, so no power is supplied to the motor, the electric lock is not unlocked, and the door is not opened. This switch is provided in the vicinity of the motor, that is, in a place where an intruder cannot directly operate, and cannot be turned on unless a predetermined pulse signal is output. However, since a predetermined pulse signal is not generated from the pulse generator, the intruder cannot unlock the electric lock and enter the room.

  In general, when an intruder attempts to unlock the electric lock from the outside and enter the room, it is considered that the control-side board installed outside the door is destroyed. According to the second aspect of the present invention, since the pulse generation unit is provided on the control side substrate, when the control side substrate is destroyed, no pulse signal is generated from the pulse generation unit, and the switch is turned on. It never happens. Therefore, no electric power is supplied to the motor, the electric lock is not unlocked, and the door is not opened.

  According to the invention of claim 3, since the power line connecting the motor and the motor driving unit and the signal line connecting the pulse generating unit and the switch control unit are bundled together as a wire harness, the motor and the motor driving unit are connected. When the power line to be connected is cut, the signal line connecting the pulse generation unit and the switch control unit is also cut at the same time. Therefore, electric power is not supplied to the motor, the electric lock is not unlocked, and the door is not opened.

  According to the invention of claim 4, since the motor drive unit is provided in the vicinity of the motor, the intruder cuts the power line connecting the motor and the motor drive unit, and directly supplies the motor with the electric lock. It cannot be unlocked. Even if the control signal can be applied to the signal line connecting the control unit and the motor drive unit, the switch is not turned on unless a predetermined pulse signal is generated. The lock is not unlocked. This switch is also provided in the vicinity of the motor, that is, in a place where an intruder cannot directly operate, and cannot be turned on unless a predetermined pulse signal is output. However, since a predetermined pulse signal is not generated from the pulse generator, the intruder cannot unlock the electric lock and enter the room.

  In general, when an intruder attempts to unlock the electric lock from the outside and enter the room, it is considered that the control-side board installed outside the door is destroyed. According to the invention of claim 5, since the pulse generation unit is provided on the control side substrate, when the control side substrate is destroyed, no pulse signal is generated from the pulse generation unit, and the switch is turned on. It never happens. Therefore, electric power is not supplied to the motor, the electric lock is not unlocked, and the door is not opened.

  According to the invention of claim 6, the signal line connecting the control unit and the motor drive unit and the signal line connecting the pulse generation unit and the switch control unit are a wire harness in which a plurality of electric wires are bundled or a plurality of electric wires. Since these flexible flat cables are bundled together, when the wire harness or flexible flat cable is cut, the signal line connecting the control unit and the motor drive unit and the signal line connecting the pulse generation unit and the switch control unit are cut simultaneously. Therefore, electric power is not supplied to the motor, the electric lock is not unlocked, and the door is not opened.

  According to the invention of claim 7, the control signal is a signal of 2 bits or more, so that the circuit configuration of the electric lock device can be simplified and the motor can be easily controlled. There is a demerit that the motor can be driven by appropriately combining the voltages of the terminals of the motor drive unit. However, the voltage of the terminal of the motor drive unit connected to the signal line provided with the switch is high level when the switch is off, low level when the switch is on, and the motor drive unit is Since the motor is set to rotate in the direction to unlock the electric lock only when the voltage at the terminal becomes low level, the direction in which the electric lock is locked even if the motor rotates And the electric lock is never unlocked. Therefore, the intruder cannot unlock the electric lock and enter the room.

  In any of the above cases, it is theoretically possible to turn on the switch by cutting the signal line connecting the pulse generation unit and the switch control unit and applying a predetermined pulse signal to the signal line. However, normally, an intruder does not have a pulse generator, and even if he has a pulse generator, the frequency, pulse width, and number of pulses of a predetermined pulse signal are unknown. Therefore, the intruder cannot unlock the electric lock and enter the room, and security is maintained. Even if an intruder tries to find the frequency, pulse width, number of pulses, etc. of a predetermined pulse signal, it takes time to find it. Therefore, in the meantime, it is considered that an intruder is detected by another sensor or the like, or the intruder gives up the intrusion and escapes.

(First embodiment)
An electric lock device according to a first embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG. 1 is a diagram illustrating a configuration example of an electric lock device installed on a door of an individual room such as an apartment, and FIG. 2 is a block diagram illustrating the electrical configuration.

  The electric lock device 1 according to the first embodiment includes a control-side substrate 10 installed in the operation unit 3 outside the door, a motor 30 provided in the drive unit 4 inside the door, and the vicinity of the motor 30. The control side board 10 and the motor side board 20 are connected to the connectors 11 and 21 by the cable 31. Inside the drive unit 4, the motor 30 is connected via a gear or the like so that the thumb turn 5 can be rotationally driven. The control-side board 10 determines whether to unlock the user information authentication unit 12 by comparing the user information read by the user information authentication unit 12 with the user information set in advance. When it is determined to unlock, the control unit 13 that generates a predetermined control signal to control the motor 30 so as to unlock the electric lock, and the motor is driven according to the control signal from the control unit 13 The motor drive unit 14 and a pulse generation unit 15 that generates a predetermined pulse signal in response to a control signal from the control unit 13 are configured. The power supply is not shown.

  The user information authenticating unit 12 is a device for authenticating information about a user who is going to open the door. For example, an unlock key such as a magnetic card reader or a non-contact card reader, and a numeric keypad for inputting a personal identification number, for example. Or it is comprised with the recognition apparatus etc. for recognizing a fingerprint or a static pattern. The control unit 13 includes a storage unit such as a ROM or a RAM that stores a control program, user information, and the like, and a calculation unit such as a CPU that executes the control program. The control unit 13 compares the user information read by the user information authentication unit 12 with the user information stored in advance in the storage unit, and outputs a predetermined control signal when the two match. On the other hand, when the user information does not match, the control unit 13 ignores the unlocking operation by the user and does not output a control signal.

  The motor drive unit 14 is configured by a dedicated drive IC or the like corresponding to the type of the motor 30, and a drive signal for normal rotation and reverse rotation of the motor 30 only when a predetermined control signal is output from the control unit 13. And is supplied to the motor 30 via the cable 31. As the motor 30, a DC servo motor with simple control and wiring is used, but other types of motors such as a brushless DC motor can also be used.

  The pulse generator 15 is composed of, for example, an oscillator for generating a rectangular pulse having a predetermined frequency, a predetermined voltage, and a predetermined width, and generates a predetermined rectangular pulse signal in accordance with a control signal from the control unit 13. This rectangular pulse signal may be generated continuously during the unlocking operation of the electric lock, or may be generated for a predetermined number of pulses prior to the unlocking operation of the electric lock. The frequency and width of the rectangular pulse signal may be unique for each electric lock device, or may be constant regardless of the electric lock device. Further, the frequency and width of the rectangular pulse signal may be changed every certain period. Further, the pulse generation unit 15 may be configured integrally with the control unit 13 to generate a pulse signal using a clock that operates the CPU.

  The motor-side substrate 20 is provided in the vicinity of the motor 30, and a switch 22 connected in series to at least one of the power lines connecting the motor 30 and the motor driving unit 14 thereon and a pulse from the pulse generating unit 15. A switch control unit 23 that turns on the switch 22 only when a signal is received is provided. The switch control unit 23 is a decoder composed of, for example, a timer and a CPU. The switch control unit 23 demodulates the frequency, voltage, and width of the pulse signal transmitted from the pulse generation unit 15 via the cable 31, and uses a predetermined rectangular pulse signal. It is determined whether or not there is. Then, the switch 22 is turned on only when it is a predetermined rectangular pulse signal. Note that the switch 22 may be provided only on one of the power lines, or may be provided on two or more power lines. However, if the switch 22 is provided in at least one of the power lines, the object of the present invention can be achieved.

  When a legitimate user unlocks the electric lock and tries to open the door, the user information read by the user information authentication unit 12 matches the user information stored in advance in the storage unit. The control unit 13 outputs a predetermined control signal for unlocking the electric lock. As a result, the pulse generator 15 generates a predetermined pulse signal, and the switch controller 23 turns on the switch 22. In addition, the motor drive unit 14 outputs a drive signal so that the motor 30 is rotated forward in order to unlock the electric lock. At this time, since the switch 22 is on, the motor 30 is driven to rotate forward, the thumb turn 5 is rotated in the unlocking direction, the ted bolt 6 is pulled into the door 2, and the electric lock is unlocked. When it is confirmed that the door is closed by a sensor (not shown), the control unit 13 outputs a control signal for locking the electric lock, and the motor drive unit 14 drives the drive signal so as to reverse the motor 30. Is output. Then, the thumb turn is rotated in the locking direction, the ted bolt 6 projects outward from the door 2, and the electric lock is locked.

  On the other hand, when an unauthorized user attempts to unlock the electric lock and open the door, the user information read by the user information authentication unit 12 matches the user information stored in the storage unit in advance. Therefore, the control unit 13 ignores the unlocking operation by the user and does not output a predetermined control signal for unlocking the electric lock. When the intruder forcibly unlocks the electric lock, the intruder opens the cover of the control side substrate 10 and cuts the cable 31 connecting the motor 30 and the motor drive unit 14, and the core wire of the cable 31 from the cut portion. It is thought that power is supplied by connecting a battery to the (power line). However, according to the first embodiment, the switch 22 is configured not to be turned on unless a predetermined pulse signal is generated from the pulse generator 15, and the user read by the user information authentication unit 12. Since the information does not match the user information stored in advance in the storage unit, the control unit 13 does not output a predetermined control signal, and the pulse generation unit 15 does not generate a predetermined pulse signal. Therefore, even if it is going to supply electric power to the motor 30 from the cutting part of the cable 31, since the switch 22 remains in an OFF state, electric power is not supplied to the motor 30, and the electric lock is not unlocked. Since the switch 22 is provided in the vicinity of the motor 30, that is, a place where the intruder cannot directly operate, the intruder cannot turn on the switch 22. As a result, the intruder cannot unlock the electric lock and enter the room.

  In addition, since the pulse generation unit 15 is provided on the control side substrate 10, if the intruder destroys the control side substrate 10 of the operation unit 3 outside the door, the pulse generation unit 15 is also destroyed, and the pulse signal is It is never generated. Further, since the power line connecting the motor 30 and the motor driving unit 14 and the signal line connecting the pulse generating unit 15 and the switch control unit 23 are bundled as one wire harness in the cable 31, the motor 30 and the motor driving unit 14 are bundled together. Is disconnected, the signal line connecting the pulse generator 15 and the switch controller 23 is also disconnected at the same time. As a result, the switch 22 is not turned on, electric power is not supplied to the motor 30, and the electric lock is not unlocked. As described above, according to the configuration of the first embodiment, since the safety measures for preventing the motor 30 from being illegally driven are provided, the electric lock capable of preventing the intruder from illegal intrusion. A device is obtained.

(Second Embodiment)
An electric lock device according to a second embodiment of the present invention will be described with reference to FIG. In the electric lock device 1 according to the second embodiment, as compared with the case of the first embodiment, the motor drive unit 24 is provided on the motor side substrate 20, and the switch 22 is connected to the control unit 13 and the motor drive. The point 31 and the cable 31 that are connected in series to at least one of the signal lines that connect the control unit and the cable 31 are a signal line that connects the control unit 13 and the motor drive unit 24 and a signal line that connects the pulse generation unit 15 and the switch control unit 23. There is a difference in that it is a wire harness that bundles a plurality of electric wires into one or a flexible flat cable that bundles a plurality of electric wires into one. The other points are the same as in the case of the first embodiment, and a description thereof will be omitted.

  According to the second embodiment, since the motor drive unit 24 is provided in the vicinity of the motor 30, an intruder cuts the power line connecting the motor 30 and the motor drive unit 24 and supplies power directly to the motor 30. The electric lock cannot be unlocked. Even if a control signal can be applied to the signal line connecting the control unit 13 and the motor drive unit 24, the switch 22 is not turned on unless a predetermined pulse signal is generated. Is not applied and the electric lock is not unlocked. This switch 22 is also provided in the vicinity of the motor 30, that is, in a place where an intruder cannot directly operate, and cannot be turned on unless a predetermined pulse signal is output. However, since a predetermined pulse signal is not generated from the pulse generator 15, the intruder cannot unlock the electric lock and enter the room. Further, since the cable 31 is a wire harness in which a plurality of electric wires are bundled into one or a flexible flat cable in which a plurality of electric wires are bundled into one, when the wire harness or the flexible flat cable is cut, the control unit 13 and the motor The signal line connecting the driving unit 24 and the signal line connecting the pulse generating unit 15 and the switch control unit 23 are cut simultaneously. Therefore, electric power is not supplied to the motor 30 and the electric lock is not unlocked.

  Here, by setting the control signal output from the control unit 13 to, for example, a 2-bit signal (01, 11, etc.), the circuit configuration of the electric lock device can be simplified and the motor 30 can be controlled. It has the advantage of being easy. On the other hand, when the control signal is a 2-bit signal, there is a demerit that the motor 30 can be driven by appropriately combining the voltages of the terminals of the motor drive unit 24. Therefore, the voltage of the terminal of the motor drive unit 24 connected to the signal line provided with the switch 22 is, for example, a high level when the switch 22 is off, and a low level when the switch 22 is on, The motor drive unit 24 is set so that the motor 30 is rotated in the direction of unlocking the electric lock only when the voltage at the terminal becomes low level. The electric lock can be configured to rotate in the locking direction and the electric lock is never unlocked. As a result, the intruder can be prevented from unlocking the electric lock and entering the room. The control signal is not limited to such a 2-bit signal and may be a 3-bit or more signal.

  In either case of the first embodiment or the second embodiment, the signal line connecting the pulse generator 15 and the switch controller 23 is cut, and a predetermined pulse signal is applied to the signal line, thereby switching the switch. Although it is theoretically possible to turn on the intruder, the intruder usually does not have a pulse generator, and even if he has a pulse generator, the frequency of a predetermined pulse signal, The pulse width and the number of pulses are unknown. Therefore, the intruder cannot unlock the electric lock and enter the room, and security is maintained. Furthermore, even if an intruder tries to find out the frequency, pulse width, number of pulses, etc. of a predetermined pulse signal, it takes time to find out. Therefore, in the meantime, it is considered that an intruder is detected by another sensor or the like, or the intruder gives up the intrusion and escapes.

  As described above, according to the present invention, even if the configuration is relatively simple and inexpensive, for example, a very simple configuration using a DC motor that can be driven by a battery and a 2-bit control signal, an unauthorized intruder can unlock it. Thus, an electric lock device excellent in security can be obtained.

  In the description of the above embodiment, an example in which the operation unit 3 and the control-side substrate 10 inside thereof, the user information authentication unit 12, the control unit 13 and the like are directly provided on the door 2 is shown. It is not limited, You may provide these in the wall surface etc. of the door vicinity. Further, the example in which the thumb turn 5 is rotationally driven by the motor 30 has been shown, but the present invention is not limited to this, and the motor 30 is installed inside the door 2 and the Ted bolt 6 and the like are directly driven by the motor. You may comprise.

The figure which shows the example of 1 structure of the electric lock apparatus installed in the door. The figure which shows the block structure of the electric lock apparatus which concerns on 1st Embodiment of this invention. The figure which shows the block structure of the electric lock apparatus which concerns on 2nd Embodiment of this invention. The figure which shows the block structure of the conventional electric lock apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Electric lock device 2 Door 3 Operation part 4 Drive part 5 Thumb turn 6 Ted bolt 10 Control side board 12 User information authentication part 13 Control part 14 Motor drive part 15 Pulse generation part 20 Motor side board 22 Switch 23 Switch control part 24 Motor Drive unit 30 Motor 31 Cable

Claims (7)

A user information authentication unit that is installed near the door and authenticates information about the user trying to open the door,
A motor installed on the door for locking and unlocking the lock;
The user information read by the user information authentication unit is compared with user information set in advance to determine whether or not to unlock, and when it is determined to unlock, the electric lock is unlocked. A control unit that generates a predetermined control signal to control the motor to lock;
A motor drive unit that drives the motor in response to a control signal from the control unit;
A pulse generator that generates a predetermined pulse signal in response to a control signal from the controller;
A switch provided in the vicinity of the motor and connected in series to at least one of power lines connecting the motor and the motor drive unit;
An electric lock device, comprising: a switch control unit that is provided in the vicinity of the motor and that turns on the switch only when a pulse signal from the pulse generation unit is received. At least the control unit, the motor drive unit, and the pulse generation unit are provided on the same control side substrate,
The switch and the switch control unit are provided on a motor-side substrate provided in the vicinity of the motor,
The electric lock device according to claim 2, wherein the control side board and the motor side board are connected to each other via a connector and a cable.   The power line connecting the motor and the motor driving unit and the signal line connecting the pulse generating unit and the switch control unit are wire harnesses in which a plurality of electric wires are bundled into one. Item 3. The electric lock device according to Item 2. A user information authentication unit that is installed near the door and authenticates information about the user trying to open the door,
A motor installed on the door for locking and unlocking the lock;
The user information read by the user information authentication unit is compared with user information set in advance to determine whether or not to unlock, and when it is determined to unlock, the electric lock is unlocked. A control unit that generates a predetermined control signal to control the motor to lock;
A pulse generator that generates a predetermined pulse signal in response to a control signal from the controller;
A motor driving unit provided in the vicinity of the motor and driving the motor in accordance with a control signal from the control unit;
A switch provided in the vicinity of the motor drive unit, and connected in series to at least one of signal lines connecting the control unit and the motor drive unit;
An electric lock device comprising: a switch control unit that is provided in the vicinity of the motor and that turns on the switch only when a pulse signal from the pulse generation unit is received. At least the control unit and the pulse generation unit are provided on the same control side substrate,
The switch, the switch control unit, and the motor driving unit are provided on a motor side substrate provided in the vicinity of the motor,
The electric lock device according to claim 4, wherein the control-side board and the motor-side board are connected via a connector and a cable, respectively.   The signal line connecting the control unit and the motor drive unit and the signal line connecting the pulse generation unit and the switch control unit are a wire harness in which a plurality of electric wires are bundled together or a plurality of electric wires are bundled in one. 6. The electric lock device according to claim 4 or 5, wherein the electric lock device is a flexible flat cable. The control signal is a signal of 2 bits or more, and the voltage of the terminal of the motor driving unit connected to the signal line provided with the switch is at a high level when the switch is off. When turned on, it goes low,
7. The motor drive unit according to claim 4, wherein the motor driving unit rotates the motor in a direction to unlock the electric lock only when the voltage of the terminal becomes a low level. The electric lock device according to item.

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