JP2004293151A - Electronic locking device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electronic locking device which supplies door locking/unlocking power by virtue of electromagnetic induction of a coupled transformer, on a non-contact basis. <P>SOLUTION: According to the configuration of the electronic locking device, a primary unit 9 equipped with a primary side of the coupling transformer 10 is set on a door frame, and a secondary unit 11 equipped with a secondary side of the coupled transformer 10 is set on a door, and by virtue of the electromagnetic induction, power necessary for locking/unlocking the door is supplied from the primary unit 9 to the secondary unit 11 on a non-contact basis. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic lock control device that electrically locks and unlocks a door.
[0002]
[Prior art]
A so-called electronic lock device for electrically locking and unlocking a door has been well known. As the electronic lock device, for example, by attaching a locking / unlocking mechanism for mechanically operating a dead bolt of a door, and by remotely outputting an operation command of the locking / unlocking mechanism, the dead bolt is operated by the locking / unlocking mechanism. For example, a device that locks or unlocks a door is fried as an example (see, for example, Patent Document 1).
[0003]
[Patent Document 1]
JP-A-6-50039 (page 3, FIG. 1)
[0004]
[Problems to be solved by the invention]
However, the electronic lock device requires a power supply cord for supplying power to the locking / unlocking mechanism, and the power supply cord is connected to the door support shaft through the inside of the door from the open side of the door where the locking / unlocking mechanism is installed. Side, and from there it is often connected to a fixed power supply (commercial power supply, etc.) outside the door, which required considerable labor and cost for the construction work.
[0005]
In such a case, each time the door is opened and closed, the power supply cord may be drawn around, or may be repeatedly bent at a certain point of the power supply cord, whereby the power supply cord may be deteriorated or damaged. There was also a danger of a disconnection accident.
[0006]
In order to solve such a problem, a method has conventionally been adopted in which a battery is provided in a locking / unlocking mechanism installed on a door, and the power required for locking / unlocking is obtained by using the battery power supply. In this case, an AA battery is generally used as the battery in consideration of the miniaturization of the device. However, the AA battery requires frequent battery replacement work due to power consumption. Was inconvenient.
[0007]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an electronic lock device in which a power supply cord does not cause a disconnection accident or the like due to opening and closing of a door, and does not require any battery replacement work. .
[0008]
[Means to solve the problem]
The electronic lock device according to claim 1, wherein a primary unit having a primary side of a coupling transformer is installed on a door frame side, and a secondary unit having a secondary side of the coupling transformer is installed on a door side. A power supply device for supplying electric power from the primary unit to the secondary unit in a non-contact manner by an electromagnetic induction action of the coupling transformer; and a door utilizing the power supplied to the secondary unit by the power supply device. And a control device for switching between unlocking and unlocking.
[0009]
According to the electronic lock device of the first aspect, since it is not necessary to supply the power for locking or unlocking by the power supply cord, it is possible to prevent the power supply cord from being damaged by the opening and closing of the door and being damaged or deteriorated. It can be reliably prevented.
[0010]
Further, according to the electronic lock device of the first aspect, it is not necessary to secure the power for locking or unlocking by using the battery, so that there is no need to replace the battery.
[0011]
The electronic lock device according to claim 2 is the electronic lock device according to claim 1, wherein the control device transmits a signal between the primary unit and a second signal transmission / reception circuit provided in the secondary unit. A first signal transmission / reception circuit for transmitting and receiving, and a drive stop circuit for switching drive / stop of the power supply device according to an output of the first signal transmission / reception circuit; A key state detection circuit that outputs lock information to the second signal transmission / reception circuit, an encryption input circuit for inputting an encryption for unlocking, determining whether the encryption input from the encryption input circuit is correct or not, A determination circuit for outputting a result to the second signal transmission / reception circuit, a timer circuit for measuring a predetermined time, and a switching circuit for switching locking / unlocking according to the output of the second signal transmission / reception circuit are provided. .
[0012]
According to the electronic lock device of the second aspect, the open / closed state of the door, the locked / unlocked state, and the like can be reliably grasped, and power can be supplied to the secondary unit only when necessary. Power consumption can be prevented.
[0013]
According to a third aspect of the present invention, in the non-contact power source apparatus according to the second aspect, the control device supplies power from the first signal transmission / reception circuit to the second signal transmission / reception circuit to the secondary unit. The second signal transmission / reception circuit periodically transmits a confirmation signal as to whether or not it is possible, and the timer circuit measures a predetermined time in a situation where the confirmation signal is received from the first signal transmission / reception circuit. Upon completion, or when an information signal indicating that the input password is correct is output from the determination circuit, a signal indicating that power to the secondary unit can be supplied to the first signal transmission / reception circuit is returned. The first signal transmission / reception circuit is configured to switch between driving / stopping the drive stop circuit depending on whether a return signal has been received from the second signal transmission / reception circuit.
[0014]
According to the electronic lock device of the third aspect, it is possible to reliably prevent forgetting to lock, which is useful for crime prevention, and also enables easy unlocking by inputting a correct password.
[0015]
The electronic lock device according to claim 4 is the electronic lock device according to claim 2, wherein the control device is configured to, when the second signal transmitting / receiving circuit does not receive the confirmation signal from the first signal transmitting / receiving circuit. No signal is transmitted to the first signal transmitting / receiving circuit.
[0016]
According to the electronic lock device of the fourth aspect, it is possible to reliably prevent the unnecessary transmission and reception of the signal according to the opening / closing state of the door.
[0017]
The electronic lock device according to a fifth aspect is the electronic lock device according to the second to fourth aspects, wherein the control device includes a unit that detects a human body present near a door, and a light source that illuminates a keyhole. The signal transmitting / receiving circuit of the present invention, in a situation where the confirmation signal is received from the first signal transmitting / receiving circuit, a signal indicating a locked state from the key state detecting circuit and a signal indicating that a human body has been detected from the human body detecting means. When the signal is output, the light source is turned on until a signal indicating the unlocked state is output from the key state detection circuit.
[0018]
According to the electronic lock device of the fifth aspect, by illuminating the keyhole of the key cylinder, it is possible to reliably prevent troublesome opening of the key at night or the like.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a perspective view showing a state in which an electronic lock device A of the present invention is installed on a flash type door 1. In FIG. 1, reference numeral 2 denotes a door opening / closing operation handle (hereinafter, room) Outer handle).
[0020]
Reference numeral 3 denotes a latch bolt which operates by operating the outdoor handle 2 and an indoor handle to be described later, so that the latch bolt 3 can be moved into and out of a latch hole 5 formed in the door frame 4 from the open side of the door 1. A deadbolt is shown which moves in and out of a key receiving hole 7 formed in the vicinity of the latch hole 5 by a turning operation of a thumb turn (see FIG. 2) for manually locking and unlocking.
[0021]
Reference numeral 8 denotes a key cylinder provided with a key insertion hole 8a used for manually locking or unlocking the door 1 from the outside of the door. Reference numeral 9 denotes a primary core (see FIG. 3) constituting a coupling transformer 10 (see FIG. 3). (Not shown) and a primary unit provided with a primary winding 10a wound therearound and attached to the door frame 4 so as not to swing.
[0022]
Numeral 11 denotes a secondary core (not shown) which is opposed to the primary core with a predetermined gap when the door 1 is closed, and a secondary winding wound around the secondary core. This is a secondary unit provided with a wire 10b (see FIG. 3), and is non-swingably attached to the open side of the door 1.
[0023]
Reference numeral 12 denotes a person who opens and closes the door 1 (hereinafter, referred to as a user) inserts a key into the insertion hole 8a of the key cylinder 8 and operates the key cylinder 8 to open the door 1 at normal times. A panel device for inputting an unlock code (password) when unlocking the door 1 from outside without operating the key cylinder 8 in place of the locking method.
[0024]
FIG. 2 is a side view showing the open side of the door 1 when the secondary unit 11 is attached. The door 1 has an indoor handle having the same configuration as the outdoor handle 2 at a position symmetrical to the outdoor handle 2. 13 is attached. On the indoor side of the door 1, a thumb turn 14 for manually moving the dead bolt 6 into and out of the key receiving hole 7 is provided.
[0025]
Further, a mechanical mechanism for converting the operation of the thumb turn 14 or the key cylinder 8 into a retracting operation of the latch bolt 3 and the dead bolt 6 and a drive unit for electrically moving the dead bolt 6 by power control are provided. The electronic lock 15 is securely accommodated and fixed in the installation space formed at a predetermined depth from the open side surface of the door 1 toward the inside of the door 1 by using fixing means 16 such as screws.
[0026]
Also, in the vicinity of the electronic lock 15 (above the electronic lock 15 in FIG. 2), similarly to the electronic lock 15, the secondary unit 11 has a predetermined depth from the open side surface of the door 1 toward the inside of the door 1. It is accommodated and fixed in the installation space formed by the fixing means 16 such as a screw.
[0027]
Next, the configuration of the electronic lock device A including the primary unit 9, the secondary unit 11, and the panel device 12 will be described with reference to the block diagram of FIG. In FIG. 3, reference numeral 17 denotes a commercial power supply for supplying power to the primary unit 9 of the electronic lock device A, and reference numeral 18 denotes a circuit for rectifying and smoothing the output of the commercial power supply 17 (rectifying and smoothing circuit).
[0028]
Reference numeral 19 denotes a drive stop circuit for converting the output of the rectifying / smoothing circuit 18 into an alternating current and then applying an alternating current to the coupling transformer 10. Reference numeral 20 denotes a drive stop circuit for transmitting and receiving various signals to and from the secondary unit 11. 1 shows a signal transmission / reception circuit.
[0029]
Reference numeral 21 denotes a rectifying / smoothing circuit connected to the secondary side of the coupling transformer 10, and reference numeral 22 denotes a second signal transmitting / receiving circuit for transmitting and receiving various signals to and from the first signal transmitting / receiving circuit 20. The first and second signal transmission / reception circuits 20, 22 are formed, for example, by winding signal transmission / reception windings 23a, 23b around a primary core and a secondary core (both not shown) of the coupling transformer 10. By applying a modulation signal from each of the signal transmission / reception circuits 20 and 22 to the signal transmission / reception windings 23a and 23b, the signal transmission / reception windings 23a and 23b use the electromagnetic induction of the coupling transformer 10 to transmit and receive signal transmission / reception signals. Is configured to transmit a signal to the windings 23b and 23a.
[0030]
Reference numeral 24 denotes a key lock / unlock detection circuit for detecting the lock / unlock state of the door 1, and is configured, for example, as shown in FIG. That is, the lock / unlock detection circuit 24 sets the limit switch 25 at a position where the switch piece 25a is pressed at the rear end 6a of the dead bolt 6 when the dead bolt 6 is unlocked. In response to the forward / backward operation (locking / unlocking operation), pressing / releasing of the switch piece 25a is reversibly switched to output an information signal indicating a locked state and an unlocked state to the second signal transmitting / receiving circuit 22. It is configured.
[0031]
Reference numeral 26 denotes an output when the second signal transmission / reception circuit 22 receives a signal indicating an unlocked state from the key state detection circuit 24 when the transmission signal of the first signal transmission / reception circuit 20 is received. A timer circuit that receives a command signal and measures a time arbitrarily set in advance is a driving unit (for example, a DC motor such as a brush motor) 27 that moves the dead bolt 6 in and out.
[0032]
28 is a switching circuit for switching the direction of the current supplied to the drive section 27 in accordance with the output of the second signal transmission / reception circuit 22, and 29 is a determination circuit for determining whether the password input from the panel device 12 is correct or not. Is shown. The result of the determination by the determination circuit 29 is input to the second signal transmission / reception circuit 22 as an information signal. In FIG. 3, solid arrows indicate the flow of electric power, and dotted arrows indicate the flow of signals.
[0033]
The advance and retreat of the dead bolt 6 by the drive unit 27 may be realized by the mechanism shown in FIG. That is, FIG. 5 shows an example of a device for converting the rotational operation of the drive unit 27 into a linear operation of the deadbolt 6. Attach.
[0034]
The output shaft 33 of the drive unit 27 is provided with a gear (not shown) at the end, and can be linked with a gear (not shown) inside the reduction mechanism 32 which is non-swingably mounted near the drive unit 27 by the fixing device 31. It is connected to.
[0035]
On the other hand, the dead bolt 6 is engaged with an internal gear (not shown) which constitutes the speed reduction mechanism 32 as one end rack (not shown) as a rack (not shown), and is interlocked and connected. Accordingly, when the driving unit 27 rotates the output shaft 33 forward and backward, the forward and reverse rotation of the output shaft 33 is transmitted to the dead bolt 6 after being sufficiently decelerated by the speed reduction mechanism 32, and Is protruded and retracted from the key receiving hole 7 shown in FIG.
[0036]
Next, the operation of the electronic lock device A will be described. First, when the primary unit 9 and the commercial power supply 17 are connected with a power supply cord (not shown), power is supplied to the primary unit 9 from the commercial power supply 17. As a result, the first signal transmission / reception circuit 20 secures the control power from the commercial power supply 17 and periodically sends a confirmation signal as to whether power can be supplied to the secondary unit 11 to the outside (for example, 5 (Every second).
[0037]
At this time, if the door 1 is closed, the primary unit 9 and the secondary unit 11 are opposed to each other. Therefore, the confirmation signal externally transmitted by the first signal transmission / reception circuit 20 is transmitted to the second signal transmission / reception circuit. The signal is reliably received by the circuit 22.
[0038]
In the second signal transmission / reception circuit 22 that has received the confirmation signal, the output (information signal) of the key state detection circuit 24 indicates the locked state, and the output (information signal) of the determination circuit 29 is the panel device. 12 indicates that the input password is correct, a command signal is sent to the first signal transmission / reception circuit 20 to supply power to the secondary unit 11, and the switching circuit 28 is switched. Then, the driving unit (hereinafter, simply referred to as a motor) 27 is controlled to rotate forward.
[0039]
The first signal transmission / reception circuit 20 that has received the return signal from the second signal transmission / reception circuit 22 drives the drive stop circuit 19 to use the electromagnetic induction of the coupling transformer 10 to transmit the return signal from the primary unit 9. The power is supplied to the secondary unit 11 in a non-contact manner.
[0040]
The power transmitted to the secondary unit 11 is converted into a DC voltage by the rectifying / smoothing circuit 21 and supplied to the switching circuit 28. The DC positive voltage output from the rectifying / smoothing circuit 21 is supplied to a DC power supply (not shown) to generate a control power supply (not shown) for various circuits constituting the secondary unit 11.
[0041]
At this time, the switching circuit 28 performs switching so that the motor 27 rotates forward by the electric power supplied to the secondary unit 11, so that the motor 27 rotates forward by the electric power supplied to the secondary unit 11. Then, the door 1 is shifted from the locked state to the unlocked state.
[0042]
When the door 1 is unlocked, the unlocked state of the door 1 is immediately detected by the key state detection circuit 24 and is input to the second signal transmission / reception circuit 22 as an information signal. 22 confirms that the door 1 has shifted from the locked state to the unlocked state, and transmits a signal to the first signal transmitting / receiving circuit 20 to stop power supply.
[0043]
The first signal transmission / reception circuit 20 receives this signal and controls the drive stop circuit 19 to stop the power supply from the primary unit 9 to the secondary unit 11.
[0044]
To summarize the above operation, when the user inputs a correct password set in advance from the panel device 12 with the door 1 locked, power is supplied from the primary unit 9 to the secondary unit 11 and The switching circuit 28 switches so that the motor 27 rotates forward.
[0045]
Thereby, the electric power supplied to the secondary unit 11 causes the motor 27 to rotate forward to move the deadbolt 6 shown in FIG. 4 into the door 1 and unlock the door 1.
[0046]
When the key state detection circuit 24 is outputting a signal indicating the locked state, if the password is not input from the panel device 12 or if the input password is incorrect, the second signal transmission / reception is performed. The circuit 22 does not send a reply to the confirmation signal to the first signal transmitting / receiving circuit 20. As a result, the first signal transmission / reception circuit 20 stops driving of the drive stop circuit 19 and stops power supply to the secondary unit 11.
[0047]
That is, unless the correct password is input, power is not supplied to the secondary unit 11 and the door 1 keeps the locked state.
[0048]
On the other hand, the second signal transmission / reception circuit 22 has received the confirmation signal from the first signal transmission / reception circuit 20, and the second signal transmission / reception circuit 22 has input the information signal indicating the unlocked state from the key state detection circuit 24. In this case, the second signal transmission / reception circuit 22 starts activation of the timer circuit 26 and measures a predetermined time arbitrarily set in advance.
[0049]
When the timer circuit 26 completes the measurement of the predetermined time, the second signal transmission / reception circuit 22 transmits a reply signal to the confirmation signal to the first signal transmission / reception circuit 20, and sends a switching signal to the switching circuit 28. A switching command is transmitted so that 27 rotates in the reverse direction.
[0050]
The first signal transmitting / receiving circuit 20, which has received the reply signal, drives the drive stop circuit 19 to supply power from the primary unit 9 to the secondary unit 11, and causes the motor 27 to rotate in the reverse direction. 4 is advanced into the key receiving hole 7.
[0051]
When the door 1 is locked, the locked state is immediately detected by the key state detection circuit 24 and output to the second signal transmission / reception circuit 22. Based on this information signal, the second signal transmission / reception circuit 22 confirms that the door 1 has shifted from the unlocked state to the locked state, and transmits an information signal to the first signal transmission / reception circuit 20 to stop power supply. I do.
[0052]
As a result, the first signal transmission / reception circuit 20 stops the drive stop circuit 19 and stops the supply of power from the primary unit 9 to the secondary unit 11.
[0053]
That is, if the unlocking state continues for an arbitrarily set time while the door 1 is closed, power is supplied from the primary unit 9 to the secondary unit 11, and the motor 27 is turned off. By performing the reverse rotation drive, the door 1 is automatically locked, so that forgetting to lock the door 1 can be reliably prevented.
[0054]
In the state where the door 1 is open, the confirmation signal transmitted from the first signal transmission / reception circuit 20 is not received by the second signal transmission / reception circuit 22, so that the second signal transmission / reception circuit 22 naturally outputs the first signal. The first signal transmission / reception circuit 20 does not transmit a reply signal to the transmission / reception circuit 20, and stops driving of the drive stop circuit 19, so that power is wasted from the primary unit 9 to the secondary unit 11 when power supply is unnecessary. Is not supplied.
[0055]
As described above, the electronic lock device A of the present invention can be easily unlocked by inputting a predetermined password from the panel device 12 when the door 1 is in the locked state. If the unlocked state continues for a predetermined time, the lock can be automatically performed.
[0056]
That is, when opening the door 1 when returning home, it is not necessary to insert the key into the insertion hole 8a (see FIG. 1) of the key cylinder 8 and operate the key cylinder 8 to unlock the door. The door 1 can be quickly opened, and is automatically locked even when the door 1 is locked when returning home or going out, which is very effective in crime prevention.
[0057]
Next, a second embodiment of the present invention will be described with reference to FIG. An electronic lock device B shown in FIG. 6 is different from the electronic lock device A (see FIG. 3) in that a sensor (for example, a human body detection sensor using infrared rays or ultrasonic waves) 41 for detecting a human body near the door 1 and a key cylinder are provided. An illumination means 42 having a light source such as a light bulb for illuminating the insertion hole 8a of 8 is provided.
[0058]
In the electronic lock device B, the second signal transmission / reception circuit 22 receives a confirmation signal from the first signal transmission / reception circuit 20 (a confirmation signal as to whether or not power supply to the secondary unit 11 is possible). When the information signal indicating the locked state is input from the state detection circuit 24 and the human body detection unit 41 outputs a signal indicating that the presence of the human body has been detected, the second signal transmission / reception circuit 22 transmits the signal to the illumination unit 42. Thus, a command signal for illuminating the insertion hole 8a of the key cylinder 8 is output until an information signal indicating the unlocked state is input from the key state detection circuit 24.
[0059]
As a result, the key is inserted into the insertion hole 8a, and until the key cylinder 8 is operated or a predetermined password is input from the panel device 12 and the door 1 is unlocked, the insertion hole 8a is illuminated. It is illuminated by means 42, after which the lighting means 42 is turned off when the door 1 is unlocked.
[0060]
That is, in the electronic lock device B, when the human body approaches the door 1, the keyhole (insertion hole) 8a is illuminated by the illumination means 42 until the door 1 is unlocked, and the surrounding brightness such as at night is reduced. In an unsatisfactory situation, it is not possible to grasp the position of the keyhole (insertion hole) 8a, and it is possible to reliably prevent the occurrence of a problem such as taking time to unlock.
[0061]
As described above, the electronic lock devices A and B of the present invention are configured to supply the power for locking and unlocking the door 1 in a non-contact manner by utilizing the electromagnetic induction action of the coupling transformer. The power supply cord for supplying power, for example, was drawn into the inside of the door 1 from the lower end of the door 1 on the support shaft side, and it was not necessary to dispose the power supply cord near the center of the door 1 at all. In this case, it is possible to surely eliminate the problem that the power supply cord is led and damaged or deteriorated, or an accident such as disconnection is caused.
[0062]
【The invention's effect】
The electronic lock device according to the first aspect is configured to supply electric power required for locking and unlocking the door by an electromagnetic induction action of the coupling transformer. It is not necessary to arrange the power cord near the center of the door where the cable is installed, and the opening and closing of the door surely prevents the power supply cord from being routed and causing damage, deterioration, or accidents such as disconnection. Can be convenient.
[0063]
In the electronic lock device according to the second aspect, when the door is open, the power supply from the primary unit to the secondary unit is stopped, so that it is possible to reliably prevent wasteful power consumption, and Is closed, the door 1 can be smoothly and satisfactorily locked and unlocked by the power supplied from the primary unit to the secondary unit, which is effective.
[0064]
According to the third aspect of the present invention, the door can be automatically locked or unlocked when the door is continuously unlocked for a certain period of time or when a user inputs a predetermined password. Even if you forget to lock the door at home or when you return home, you can lock it automatically, and you can unlock the door easily and securely by entering a predetermined password without using a key when returning home, etc. is there.
[0065]
In the electronic lock device according to the fourth aspect, no signal is transmitted from the second signal transmission / reception circuit to the first signal transmission / reception circuit when the door is open, so that the first signal transmission / reception circuit cannot receive signals. Thus, the signal is effectively transmitted from the second signal transmission / reception circuit without waste.
[0066]
Since the electronic lock device according to the fifth aspect is provided with illumination means for illuminating the keyhole when a user approaches the door, the position of the keyhole cannot be grasped in a dark environment, such as at night, so that the lock can be unlocked. It is very convenient to prevent the occurrence of a problem such as troublesome work.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a flash door on which an electronic lock device of the present invention is installed.
FIG. 2 is an enlarged side view of a main part of the flash door on which the electronic lock device is installed, as viewed from an open side.
FIG. 3 is a block diagram illustrating a configuration of the electronic lock device according to the first embodiment of the present invention.
FIG. 4 is a cutaway sectional view of a main part showing an example of a device for detecting a locked / unlocked state of a key in the electronic lock device of the present invention.
FIG. 5 is a side view showing an example of a device for converting a rotary motion of a drive unit of the electronic lock device into a linear motion of a dead bolt.
FIG. 6 is a block diagram illustrating a configuration of an electronic lock device according to a second embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Flush type door 4 Door frame 6 Dead bolt 7 Key hole 9, 9a Primary unit 11, 11a Secondary unit 12 Panel device 15 Electronic lock 18, 21 Rectification smoothing circuit 19 Driving stop circuit 20 First signal transmission / reception Circuit 22 Second signal transmission / reception circuits 23a, 23b Signal transmission / reception winding 24 Key state detection circuit 26 Timer circuit 27 Drive unit (motor)
28 Switching circuit 29 Judgment circuit 41 Human body detecting means 42 Lighting means A, B Electronic lock device

Claims (5)

A primary unit having a primary side of a coupling transformer is installed on a door frame side, and a secondary unit having a secondary side of a coupling transformer configured to be separable from the primary side is installed on a door side. A power supply for supplying electric power from the primary unit to the secondary unit in a non-contact manner by the electromagnetic induction action of the coupling transformer, and a door for the door using the power supplied to the secondary unit by the power supply. An electronic lock device comprising a control device for switching between locking and unlocking. A first signal transmission / reception circuit for transmitting / receiving a signal to / from the primary side unit to / from a second signal transmission / reception circuit provided in the secondary side unit; and the first signal transmission / reception circuit. A drive status stop circuit for switching drive / stop of the power supply device according to the output of the power supply device. The secondary unit includes a key status detection circuit for outputting door lock / unlock information to the second signal transmission / reception circuit. A cipher input circuit for inputting a cipher for unlocking, a judging circuit for judging whether the cipher inputted from the cipher input circuit is correct or not, and outputting the result to a second signal transmitting / receiving circuit; 2. The electronic lock device according to claim 1, further comprising a timer circuit for performing measurement, and a switching circuit for switching between locking and unlocking in accordance with an output of the second signal transmission / reception circuit. The control device periodically transmits a confirmation signal as to whether power can be supplied to the secondary unit from the first signal transmission / reception circuit to the second signal transmission / reception circuit, and the second signal transmission / reception circuit In the situation where the confirmation signal is received from the first signal transmission / reception circuit, when the timer circuit finishes measuring the predetermined time, or when the determination circuit outputs an information signal indicating that the input password is correct. At this time, a signal to the effect that power can be supplied to the secondary unit is returned to the first signal transmission / reception circuit, and the first signal transmission / reception circuit returns a signal from the second signal transmission / reception circuit. 3. The electronic lock device according to claim 2, wherein the driving / stopping of the driving stop circuit is switched according to whether or not a signal is received. Wherein the control device is configured to not transmit any signal to the first signal transmission / reception circuit when the second signal transmission / reception circuit does not receive the confirmation signal from the first signal transmission / reception circuit. The electronic lock device according to claim 2 or 3, wherein: The control device includes means for detecting a human body near a door, and a light source for illuminating a keyhole of the door, and the second signal transmission / reception circuit receives the confirmation signal from a first signal transmission / reception circuit. In this situation, when a signal indicating a locked state is output from the key state detection circuit and a signal indicating that a human body is detected from the human body detection unit, a signal indicating an unlocked state is output from the key state detection circuit. The electronic lock device according to claim 2, wherein the light source is turned on during the period.

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