JP4447307B2 - Electric lock control system and electric lock operation restriction device - Google Patents

Description

  The present invention relates to a control system such as, but not limited to, an electric lock control system, and particularly controls an electric lock installed on the indoor side by an operation / control device installed on the outdoor side. In an electric lock control system, an electric lock control system and an electric lock operation restricting device for holding an electric lock in a state before the occurrence of an abnormality when an abnormality occurs in an operation / control device installed outside the room It is.

  2. Description of the Related Art Conventionally, for example, an electric lock device is known as a device for operating indoor equipment from the outdoor side. Conventionally, as an electric lock device generally used, an electric lock is embedded in a door, an operation unit for inputting an ID code or the like is arranged on the outside of the door, and the electric lock is controlled on the indoor side of the door. Some control units and power supply units are arranged. In such an electric lock device, if the control unit verifies the ID code or the like input at the operation unit and the verification is OK, the control unit transmits an unlock signal to the electric lock to unlock the electric lock. .

  However, in the conventional electric lock device, since the operation unit is provided on the outdoor side and the control unit is provided separately on the indoor side, control elements such as a casing, a circuit board, and a microcomputer are produced as individual devices. As a result, there is a problem in that the production cost of the equipment increases, the wiring structure between the equipments becomes complicated, and the number of work steps increases, resulting in an increase in cost.

  For this reason, for example, an electric lock device as shown in Patent Document 1 is known as a device for reducing the cost by integrally configuring the operation portion and the control portion of the electric lock and arranging the operation portion on the outdoor side of the door. ing.

  In the electric lock device described in Patent Document 1, a control unit and an operating device are integrally provided on the gate side (outside of the door) to simplify the wiring structure, thereby reducing the cost. That is, as shown in FIG. 5, the electric lock 2, the operation device of the electric lock 2, and the control unit of the electric lock are provided on the gate 1 side as the operation device / control unit 5. A power supply unit 6 is disposed outdoors near the gate 1 and AC commercial power is supplied to the power supply unit 6. The power supply unit 6 and the control unit are connected by a low-voltage power line 7 and low-voltage direct current converted by the power supply unit 6 is supplied to the control unit. An indoor release button 8 that turns the contact on and off by operating the button is mounted in the house 3, and the indoor release button 8 and the control unit are connected by a signal line L via the power supply unit 6.

JP-A-8-260778

  However, in the electric lock device disclosed in Patent Document 1, since the control unit for controlling the unlocking of the electric lock is installed on the outdoor side together with the operation unit, the control unit and the casing containing the operation unit are opened. However, there is a problem that the wiring between the electric lock and the control unit can be exposed to the outdoor side by peeling off the casing itself from the installation location. For this reason, there is a possibility that the electric lock may be illegally unlocked from the outside of the room by applying a predetermined voltage / current to the wiring between the electric lock and the control unit or by disconnecting the wiring. It was.

  Therefore, in the case where the operation unit and the control unit are installed on the outside of the room as the present invention, the indoor device is not illegally operated even if the outdoor device has mischief or intentional destruction. An object of the present invention is to provide an electric lock control system that is configured as described above and that does not impair the crime prevention effect, and an electric lock operation restriction device that prevents unauthorized operation of the electric lock.

In order to solve the above problems, an invention according to claim 1 of the present application includes an operation / control device installed on an outdoor side, an operation restriction device installed indoors and connected to the operation / control device, and An electric lock control system comprising an electric lock of a type that is unlocked in response to energization connected to an operation restriction device, and controls the electric lock by operating the operation / control device,
The operation / control device
A control signal line and an abnormal signal line connected to the operation restriction device;
Detecting means for detecting an abnormality of the operation / control device;
Via the control signal line sends the unlock signal to the electric lock on the basis of a predetermined input operation, and a control unit which Ru abolished chromatic voltage signal to the abnormality signal lines on the basis of the abnormality detection ,
The operation restriction device is:
When a voltage signal is input from the abnormal signal line, the control signal line and the electric lock are maintained in a connected state, and when the voltage signal of the abnormal signal line disappears, the control signal line and the electric lock are electrically connected. A limiting means for releasing the connection state with the lock is provided .

The invention according to claim 2 of the present application is the electric lock control system according to claim 1, wherein the limiting means is connected to the abnormal signal line and is excited by a voltage signal input from the abnormal signal line. in, wherein the Rukoto provided with excitation means for maintaining between them in the connected state the connection path between the electric lock and the control signal line as the closed state.

Further, the invention according to claim 3 of the present application is the electric lock control system according to claim 2, wherein the restricting means is further provided by exciting the exciting means as a connection path between the exciting means and the abnormal signal line. A first abnormal signal line connection path that is closed, and a second abnormal signal connection path that is closed when there is an operation input of the recovery means,
When the voltage signal of the abnormal signal line disappears, the excitation is released, the first abnormal signal line connection path is opened, and when a voltage signal is input, there is an operation input of the recovery means. first abnormality signal line connection path the excitation means via the second abnormal signal connection path is energized and wherein Rukoto a closed state.

  Further, the invention according to claim 4 of the present application is the electric lock control system according to any one of claims 1 to 3, wherein the detection means is removed from a place where the operation / control device is installed, and / or It is characterized by detecting the opening of the casing containing the operation / control device.

In the invention according to claim 1 of the present application, the operation / control device installed on the outdoor side, the operation restriction device installed on the indoor side and connected to the operation / control device, and the operation restriction device are connected. An electric lock control system comprising an electric lock of a type that is unlocked when energized, and controls the electric lock by operating the operation / control device, and includes a control signal line and an abnormal signal line from the operation / control device. Connect the wiring that transmits different signals to the operation restriction device that is a relay machine, and transmit the abnormality to the operation restriction device by erasing the voltage signal supplied to the abnormality signal line at normal time, and the control signal line Since the connection between the electric lock and the electric lock is cut off, even if both the abnormal signal line and the control signal line are disconnected by planning the outdoor operation / control device , the control signal line is The connection with the electric lock is interrupted. Since is the locked state of the electric lock is maintained, it becomes possible to prevent the unlocking fraudulently electric lock.

In the invention according to claim 2, the connection path between the control signal line and the electric lock is closed by being excited by a voltage signal connected to the abnormal signal line and inputted from the abnormal signal line. since the configuration Ru provided with excitation means for maintaining between them in a connected state as a state, by the disappearance of even chromatic voltage signal both abnormality signal lines and the control signal line is disconnected, the connection between the control signal line and the electric lock Is blocked and the locked state of the electric lock is maintained, so that it is possible to prevent the electric lock from being illegally unlocked .

In the invention according to claim 3, the limiting means further includes a first abnormal signal line connection path that is closed by excitation of the excitation means as a connection path between the excitation means and the abnormal signal line. And a second abnormal signal connection path that is closed when there is an operation input of the recovery means, and when the voltage signal of the abnormal signal line disappears, the excitation is released and the first abnormal signal is When the line connection path is in an open state and a voltage signal is input, if there is an operation input of the restoration means, the excitation means is excited via the second abnormal signal connection path, and the first abnormal signal line connection path Since the door is closed , the connection path with the blocked electric lock can be safely restored from the indoor side, and the convenience maintenance can be improved.

  Further, in the invention according to claim 4, a configuration for detecting the removal from the installation surface of the operation / control device installed on the outdoor side or the opening of the housing to block the connection path between the electric lock and the control unit By doing so, it is possible to prevent the planning action on the control unit of the operation control device and the planning action on the connection path between the control unit and the electric lock, and the unauthorized unlocking of the electric lock can be prevented.

  Hereinafter, an electric lock control system and an electric lock operation restriction device of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of an electric lock control system according to the present invention, FIG. 2 is a circuit diagram showing a configuration of a restricting means (operation restricting device) in FIG. 1, and FIG. It is a flowchart which shows the operation | movement procedure of this control system. FIG. 4 is a circuit diagram showing the limiting means (operation limiting device) of another embodiment of the electric lock control system according to the present invention.

  As shown in FIG. 1, an electric lock control system 10 according to a first embodiment of the present invention includes an operation / control device 20 provided on the outdoor side, a power supply device 40 provided on the indoor side, and operation restrictions on the electric lock. The device 30 is generally configured by a restriction means 31 and an electric lock 50 provided at an entrance / exit door 60 such as a living room, and the operation / control device 20 is operated to lock and unlock the electric lock 50.

  The electric lock 50 according to the present embodiment may be an electric lock that is unlocked in response to an energization or control signal, such as a motor-type electric lock, an instantaneous electrolysis lock-type electric lock, or an energization-type unlocking electric lock. The electric lock 50 may be automatically locked when the closing of the doorway door 60 is detected, or may be manually operated by a thumb turn or key.

  The power supply device 40 is connected to a commercial power supply and supplies power to the operation / control device 20 and the limiting means 31. In addition, the power supply device 40 may be comprised with the battery. The restricting means 31 is an electromagnetic relay that connects the operation / control device 20 and the electric lock 50. The operation / control device 20 includes a detection unit 23 that detects an abnormality, an input unit 22 that inputs an ID code or the like to perform an unlocking operation of the electric lock 50, and a CPU that includes an electric lock via a restriction unit 31. A control unit 21 that controls 50 is integrally provided, and is used by being installed on an outdoor wall surface in the vicinity of the entrance door 60. In addition, the operation / control device 20 includes a display unit (not shown) made of an LED, an LCD, an organic EL, or the like.

  The detection means 23 detects the opening of the casing and lid of the operation / control device 20 and the removal of the operation / control device 20 from the installation surface, and outputs an abnormality. Means for detecting the opening of the lid or removal from the installation surface include a limit switch and a magnet provided on the lid and the main body (housing main body) to detect the separation between the lid and the main body, an infrared light projecting unit, A light receiving unit is provided facing the lid side and the main body side to detect the separation between the lid and the main body, or the elastic switch installed on the main body side is pressed with the lid in the closed state to separate the lid from the main body. What is detected can be used, and these means are conventionally realized and used in various fields.

  The input unit 22 includes a numeric keypad for inputting a personal identification number that is an ID code. Here, the ID code input to the input unit is not limited to the PIN, but the information on the card and biometric information such as fingerprints, palm prints, irises, voice prints, etc. Any information that can confirm the qualification of what is to be locked is acceptable. Further, in this example, since an example in which a personal identification number is input as an ID code has been described, the input unit is configured to include a numeric keypad. However, when the input ID code has a different form, a card reader, an imaging unit, etc. The input ID code is configured to be readable.

  The control unit 21 collates the ID code input to the input unit 22 and sends a predetermined voltage signal via the control signal line 2L1 to the electric lock 50 via the restriction means 31 as an unlock signal. The electric lock 50 is energized and unlocked by this unlocking signal. The control unit 21 always sends a predetermined voltage signal to the limiting means 31 via the abnormal signal line 2L2, and when the abnormal output from the detection means 23 is received, the voltage signal on the abnormal signal line 2L2 disappears. As a result, an abnormal signal is transmitted to the limiting means 31. The control unit 21 may send an abnormal signal to a security device (not shown) on the indoor side when receiving an abnormal output from the detection means 23.

  Next, the restricting means 31 which is the electric lock operation restricting device 30 will be described with reference to the circuit diagram of FIG. FIG. 2 is a circuit diagram for explaining the outline of the limiting means 31. An abnormal signal line 2L2 and a control signal line 2L1 are connected to the limiting means 31 from the control unit 21. The abnormality signal line 2L2 acts as an abnormality detection means for the operation restriction device 30 for the electric lock, and the control signal line 2L1 acts as a lock connection means for the operation restriction device 30 for the electric lock. A voltage signal is applied from the control unit 21 to the abnormal signal line 2L2, and the abnormal signal line 2L2 is connected to the excitation unit 312 via any one of the switches SW1, SW2, and SW3. The exciting means 312 acts as a connecting means for the operation restriction device 30 for the electric lock. The control signal line 2L1 is a connection path between the control unit 21 and the electric lock 50, and is connected to the signal line 2L to the electric lock 50 via SW4. The signal line 2L is connected to a connection terminal of an electric lock, particularly an input terminal for a control signal, and acts as a lock connection means of the operation restriction device 30 for the electric lock.

  The operation of the limiting means 31 will be described below. First, when the power supply device 40 is turned on and a power supply voltage is applied from the power supply device 40, the timer means 311 is activated to close the switch SW1 for 1 second. Note that the timer means 311 operates in the same manner by receiving the power supply voltage of the power supply device 40 even when power is restored after a power failure.

  When the switch SW1 is closed, the excitation means 312 is excited by the voltage signal input from the abnormal signal line 2L2. Excitation of the excitation means 312 is held by a self-holding circuit (not shown). When the exciting means 312 is excited, the switches SW2 and SW4 are closed and the connection path between the control unit 21 and the electric lock 50 is maintained in the closed state. Further, when the switch SW2 is closed, the excitation of the excitation unit 312 is maintained even when the timer unit 311 finishes counting one second and the switch SW1 is opened. At this time, when an unlock signal is input from the control unit 21 to the control signal line 2L1, the unlock signal is transmitted to the electric lock 50, and the electric lock 50 is unlocked.

  When the detection unit 23 outputs abnormality detection in the operation / control device 20, the control unit 21 transmits the abnormal signal to the limiting unit 31 by eliminating the voltage signal to the abnormality signal line 2L2. Therefore, in the limiting means 31, the excitation of the excitation means 312 is released and the switches SW2 and SW4 are opened. When the switch SW4 is opened, the connection path between the control unit 21 and the electric lock 50 is blocked. If the limiting means 31 cuts off the control signal line 2L1 due to an abnormality in the operation / control device 20, then even if a voltage signal is input from the abnormality signal line 2L2 by normalizing the abnormality in the operation / control device 20 Since the switches SW1, SW2 and SW3 of the means 31 are kept open, the exciting means 312 is not excited, and the control signal line 2L1 is kept cut off. In this state, even if an unlock signal is input from the control unit 21 to the control signal line 2L1, the unlock signal is not transmitted to the electric lock 50, so the electric lock 50 is not unlocked and maintains the locked state.

  Normalization of the restricting means 31 (closing the switch SW4 and connecting the control signal line 2L1) is a state where the operation / control device 20 is normalizing (closing the lid, attaching to the installation location), that is, This is performed by pressing the recovery button 32 and closing the switch SW3 in a state where a voltage signal is input to the abnormal signal line 2L2. When the switch SW3 is closed, the excitation means 312 is excited by the voltage signal of the abnormal signal line 2L2, the switches SW2 and SW4 are closed, and the control signal line 2L1 is maintained in the connected state.

  FIG. 3 is a flowchart showing the operation of the electric lock control unit system according to the present invention. The operation procedure of the control unit 21 of the operation / control apparatus 20 will be described below with reference to the flowchart of FIG. First, in step S10, the control unit 21 determines whether the control signal line 2L1 is connected to the electric lock 50, that is, whether the limiting unit 31 is connected to or disconnected from the control signal line 2L1. If it is in the shut-off state, the control unit 21 displays an abnormality on a display unit (not shown) provided in the operation / control device 20 in step S11.

  Next, in step S12, the control unit 21 determines whether or not there is an abnormal output from the detection means 23. When the abnormal output is received (YES in step S12), the voltage signal to the abnormal signal line 2L2 is lost in step S13. An abnormal signal is transmitted to the limiting means 31. If there is no abnormal output from the detection means 23 (NO in step S12), the control unit 21 proceeds to the process in step S14. In step S <b> 14, the control unit 21 determines whether an ID code is input from the user via the input unit 22.

If the ID code from the user is not input to the input unit 22 in step S14 (NO in step S14), the control unit 21 returns to the process of step S10, and if the ID code is input (YES in step S14). The control unit 21 collates the ID code input in step S15 with the code registered and stored in advance. If the collation result of the ID code is OK (authentication result that the user has a registered unlocking qualification) ( YES in step S15), the control unit 21 unlocks the control signal line 2L1 in step S16. Send a signal. The electric lock 50 receives the release signal from the control signal line 2L1 and unlocks the lock.

  On the other hand, when the verification of the ID code by the control unit 21 is NG (authentication result that the user does not have unlocking qualification) (NO in step S15), the display unit (not shown) is displayed in step S17. Display of verification NG, for example, “Registered ID code does not exist. Please confirm ID code and input again” is displayed. When the processes of step S13, step S16, and step S17 are completed, the control unit 21 returns to the initial state.

  Although not shown in the flowchart of FIG. 3, when the restricting means 31 is in the shut-off state, that is, when an abnormality occurs in the operation / control device 20, the user operates the operation / control device as described above. After normalizing 20, the electric lock is unlocked using a key or the like to enter the room, and the recovery button 32 of the restricting means 31 is pressed to restore the present control system (electric lock system) 10.

  Thus, when the outdoor operation / control device 20 detects an abnormality due to mischief or the like, the connection path (control signal line 2L1) between the control unit 21 and the electric lock 50 is blocked by the limiting means 31 on the indoor side. The electric lock 50 maintains the locked state. Therefore, even if a voltage is improperly applied to the control signal line 2L1 connected to the outdoor operation / control device 20, it is impossible to unlock the electric lock 50.

  In this example, the restricting means 31 is configured to energize the exciting means 312 by closing the switch SW1 when energized from the power supply device 40 via the timer means 311. However, the present invention is not limited to this. It is not a thing. For example, the power supply device 40 is configured to supply power only to the operation / control device 20, and when the user depresses the recovery button 32 on the indoor side when the power is turned on, excitation is performed with a voltage signal of the abnormal signal line 2L2. The switches 312 and SW4 may be closed by exciting the means 312. As a result, it is not necessary to connect the power supply device 40 and the restricting means 31, and it is not necessary to provide the restricting means 31 with the switch SW1 or the timer means 311. It will be simplified, and it will be possible to further reduce the cost.

  FIG. 4 is a circuit diagram showing another embodiment of the electric lock control system and the electric lock operation limiting device according to the present invention. 4, components corresponding to those in FIG. 2 are denoted by the same reference numerals as those in FIG. 2 for easy understanding. This embodiment is different from the first embodiment in that an energized locking type electric lock is adopted as the electric lock 50. The energized locking type electric lock holds the locked state during energization and unlocks when there is no voltage. In this embodiment, the operation / control unit 20 always sends a voltage signal to the electric lock 50 via the control signal line 2L1 during the electric lock and maintains the locked state. If the ID code input from the user is OK, the voltage signal to the control signal line 2L1 is lost and the electric lock 50 is unlocked.

  The operation of the restricting means 31A (electric lock operation restricting device 30) in this embodiment will be described below. When a power supply voltage is applied from the power supply device 40, the timer means 311 is activated to close the switch SW1 for 1 second. Note that the timer means 311 operates in the same manner when power is restored after a power failure. When the switch SW1 is closed, the excitation means 312 is excited by the voltage signal input from the abnormal signal line 2L2. When the excitation means 312 is excited, the switch SW2 is closed and the switch SW4 is switched to the control signal line 2L1 side (control unit 21 side) to maintain the connection path between the control unit 21 and the electric lock 50 in the closed state. Further, when the switch SW2 is closed, the excitation of the excitation unit 312 is maintained even when the timer unit 311 finishes counting one second and the switch SW1 is opened. In this state, when an unlock signal is output from the control unit 21, the unlock signal is transmitted to the electric lock 50, and the electric lock 50 is unlocked.

When the detection unit 23 outputs an abnormality detection in the operation / control device 20, the control unit 21 transmits the abnormal signal to the limiting unit 31A by eliminating the voltage signal to the abnormal signal line 2L1. Therefore, in the limiting means 31A, the excitation of the excitation means 312 is released, the switch SW2 is opened, and SW4 is switched to the power supply device 40 side. When the switch SW4 is switched to the power supply device 40, the connection path between the control unit 21 and the electric lock 50 is cut off. If the limiting means 31A cuts off the control signal line 2L1 due to the abnormality of the operation / control apparatus 20, even if the abnormality of the operation / control apparatus 20 is normalized thereafter, the switches SW1, SW2, SW3 of the control (switching) means remains excitation device 312 is cut off the control signal line 2L1 without excitation is maintained because it is still open. In this state, even if the unlock signal is output from the control unit 21, the unlock signal is not transmitted to the electric lock 50, and the electric lock 50 is energized from the power supply device 40 via the switch SW4 and maintains the unlocked state. .

  Normalizing the limiting means 31A (switching the switch SW4 to the control unit 21 side to bring the control signal line 2L1 into a connected state) is normalized by the operation / control device 20 (closure of the lid, attachment to the installation location). In a state where a voltage signal is input to the abnormal signal line, the restoration button 32 is pressed to close the switch SW3. When the switch SW3 is closed, the excitation means 312 is excited by the voltage signal of the abnormal signal line 2L2, the switch SW2 is closed, and the SW4 is switched to the control unit 21 side to maintain the control signal line 2L1 in the connected state. .

  Accordingly, when it is detected that the outdoor operation / control device 20 is in an abnormal state due to mischief or the like, an energization path for maintaining the electric lock 50 in the locked state is connected from the outdoor control unit 21 to the indoor side. By switching to the power supply device 40, the locked state can be maintained. Therefore, it is impossible to unlock the electric lock 50 even if the control signal line 2L1 connected to the outdoor operation / control device 20 is cut to lose the voltage signal.

  In this example, the restricting means 31 and 31A are configured to energize the exciting means 312 by closing the switch SW1 when energized from the power supply device 40 via the timer means 311. Is not to be done. For example, the switch SW2 and SW4 may be closed by exciting the excitation means 312 with the voltage signal of the abnormal signal line 2L2 when the user depresses the recovery button 32 on the indoor side when the power is turned on. This eliminates the necessity of providing the switch means SW1 and the timer means 311 in the restricting means 31 and 31A, thereby simplifying the configuration of the restricting means 31 and 31A and further reducing the cost.

  As described above, according to the electric lock control system of the present invention, the operation unit and the control unit can be installed on the outdoor side as an integrated device, and the cost of the device can be reduced. . And even if there is a mischievous or intentional destructive action on the equipment installed outside the room, it is configured so that the equipment in the room will not be illegally operated, so it is possible to provide an electric lock control system that does not impair the crime prevention effect. It becomes like this. Further, according to the electric lock operation restriction device of the present invention, when the detecting means for detecting an abnormality detects an abnormality of the control unit, the connection path between the electric lock and the control unit is cut off. The operation of the electric lock by the operation can be prevented.

It is a block diagram which shows one embodiment of the electric lock control system which concerns on this invention. It is a circuit diagram which shows the structure of the limiting means in FIG. It is a flowchart which shows the operation | movement procedure of the electric lock control system of FIG. It is a circuit diagram which shows the other embodiment of the electric lock control system which concerns on this invention. It is a schematic block diagram which shows the structure of the conventional electric lock system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Electric lock control system 20 ... Operation / control apparatus 21 ... Control part 22 ... Input part 23 ... Detection means 2L1 ... Control signal line 2L2 ... Abnormal signal line L ... · Signal line 30 · · · operation limiting device 31 · · · limiting means 311 · · timer means 312 · · excitation means 32 · · · recovery means (recovery button)
40 ... Power supply device 50 ... Electric lock 60 ... Entrance door

Claims (4)

An operation / control device installed on the outdoor side, an operation restriction device installed on the indoor side and connected to the operation / control device, and an electric lock of the type unlocked by being energized connected to the operation restriction device An electric lock control system for controlling the electric lock by operating the operation / control device,
The operation / control device
A control signal line and an abnormal signal line connected to the operation restriction device;
Detecting means for detecting an abnormality of the operation / control device;
Via the control signal line sends the unlock signal to the electric lock on the basis of a predetermined input operation, and a control unit which Ru abolished chromatic voltage signal to the abnormality signal lines on the basis of the abnormality detection ,
The operation restriction device is:
When a voltage signal is input from the abnormal signal line, the control signal line and the electric lock are maintained in a connected state, and when the voltage signal of the abnormal signal line disappears, the control signal line and the electric lock are electrically connected. An electric lock control system comprising limiting means for releasing a connection state with a lock. The restricting means is connected to the abnormal signal line and excited by a voltage signal input from the abnormal signal line, thereby closing the connection path between the control signal line and the electric lock and connecting the two. electric lock control system according to claim 1 comprising excitation means, characterized in Rukoto to maintain state. The limiting means further includes a first abnormal signal line connection path that is closed by excitation of the excitation means and an operation input of the recovery means as a connection path between the excitation means and the abnormal signal line. And a second abnormal signal connection path that is closed,
When the voltage signal of the abnormal signal line disappears, the excitation is released, the first abnormal signal line connection path is opened, and when a voltage signal is input, there is an operation input of the recovery means. electric lock control system according to claim 2 in which the first abnormality signal line connection path the excitation means via the second abnormal signal connection path is energized and wherein Rukoto a closed state.   4. The detection unit according to claim 1, wherein the detection unit detects removal of the operation / control device from a place where the operation / control device is installed and / or opening of a housing that houses the operation / control device. The electric lock control system according to item.

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