JP2005174593A - Opening and closing object operating device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an opening and closing object operating device high in security. <P>SOLUTION: This opening and closing object operating device gives an action direction to the opening and closing object in order to solve problems, and which carries out prescribed signal conversion by receiving power supply, and is provided with one or more circuit elements installed at a position which has such a high possibility that an outside force by injustice action is applied, and with a detecting means to detect that the circuit element is destroyed based on a signal characteristic change from the circuit element. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an opening / closing body operating device, for example, an opening / closing device such as a shutter, a door, a window, an overhead door, a gate, a gate (for example, a gate of a parking lot), a roll screen (for example, a light shielding film), a blind, an awning device, etc. It is what.

  For example, there is a management shutter such as a heavy shutter for the purpose of preventing intrusion by a third party. In general, since the components of such a management shutter are made of steel by an administrator's operation, it is difficult to open and close the shutter by a human hand, and an operation instruction from an opening / closing body operating device in the vicinity of the management shutter In response to the signal, the management shutter opens and closes.

  The opening / closing body operating device has an operation switch for instructing the “opening operation”, “stopping operation”, and “closing operation” of the management shutter. When the operation switch is pressed by the administrator, an operation instruction signal is given to the control device connected to the opening / closing body operating device, and the control device controls the operation mode of the management shutter in response to the operation instruction signal. .

Thus, the opening / closing body operating device is important as an operation instruction for the operation mode of the management shutter. Therefore, conventionally, the opening / closing body operating device houses an operation switch in a box having a lid with a key that can be opened and closed, and the prevention of operation by a third party and safety are maintained (see Patent Document 1 below). .
Japanese Patent Laid-Open No. 10-162678

  However, for the purpose of entering the building or mischief, the malicious act of inserting a tool into the slight gap between the lid and the box and opening the lid, despite the fact that the lid of the opening / closing body operating device is locked, is malicious. May be done by a third party.

  Such problems related to fraudulent behavior are not only caused by a malicious third party operating the management shutter and allowing entry into the building, but also because the management shutter has a role in preventing entry, etc. When important storage items and dangerous goods are stored, if they are stolen by a malicious third party, they are not only stolen but also developed into other crimes and the damage is expanded. There is also a risk of doing so.

  Moreover, since the material of the lid part of the opening / closing body operating device is relatively soft, it is easily targeted by a malicious third party.

  From such a viewpoint, it is desired to increase the security of the opening / closing body operating device.

  Therefore, even when the lid portion of the opening / closing body operating device is pry open, it is considered as one countermeasure to prevent the operation instruction from being performed by the operation switch.

  Further, the above-described problem occurs not only in the management shutter but also in other opening / closing bodies that can be controlled in operation by an operation instruction from the opening / closing body operating device.

  The present invention has been made in consideration of the above points, and an opening / closing body capable of further enhancing the security of the opening / closing body operating device even when an external force is applied to the opening / closing body operating device due to an illegal act or the like. An operation device is to be provided.

  In order to solve this problem, an opening / closing body operating device according to the present invention is an opening / closing body operating device that gives an operation instruction to an opening / closing body, and performs a predetermined signal conversion operation upon receiving power supply. And detecting means for detecting destruction of the circuit element based on at least one circuit element and a change in signal characteristics from the circuit element provided at a position where the possibility of external force due to fraud is high. It is characterized by providing.

  The opening / closing body operating device of the present invention can enhance the security of the opening / closing body operating device even when an external force is applied due to fraud.

  Hereinafter, embodiments of the opening / closing body operating device of the present invention will be described in detail with reference to the drawings.

(A) 1st Embodiment In this embodiment, it is a case where it applies to the opening-and-closing body operating device which detects the opening of the cover of the own apparatus which operates the opening operation | movement of an electric management shutter, a stop operation | movement, and a closing operation. .

(A-1) Configuration of the First Embodiment FIG. 1 is a structural diagram showing a structural image of the opening / closing body operating device according to the present embodiment. 1A is a cross-sectional view showing the structure of the opening / closing body operating device, FIG. 1B is a front view showing the structure of the opening / closing body operating device, and FIG. 1C is the opening / closing body operating device. It is sectional drawing which showed this structure from the upper side.

  FIG. 2 is a block diagram showing the overall configuration of the fraud detection system for the opening / closing body operating device according to the present embodiment.

  First, as shown in FIG. 2, the fraud detection system 100 according to the present embodiment includes at least an opening / closing body operating device 1 and a control device 2. In addition, the control device 2 includes various notification means and functions for notifying that when the lid of the opening / closing body operating device 1 is opened, and the fraud detection system 100 responds to the notification means and functions. It shall have a configuration.

  In the present embodiment, it is assumed that the control device 2 includes an alarm unit (for example, an alarm bell) 3 and an external crime prevention management device 4 and an external display device 5 connected to the control device 2 as notification means. In addition, the alerting | reporting means in this embodiment is mentioned later.

  First, the configuration of the opening / closing body operating device 1 will be described with reference to FIGS. 1 and 2.

  The opening / closing body operating device 1 is installed in the vicinity of the management shutter as a box containing a switch for operating the operation of the management shutter (not shown). The opening / closing body operating device 1 includes an embedded type in which a box is embedded in the wall of the management shutter and an exposed type in which the box is attached to the wall surface, and can be applied to either type.

  The opening / closing body operating device 1 has an open switch 11 for instructing an opening operation of the management shutter, a stop switch 12 for instructing a stop operation, and a close switch 13 for instructing a closing operation.

  The open switch 11, stop switch 12, and close switch 13 correspond to conventionally used operation switches, and for example, a push button switch (PBS) can be applied. Each of the open switch 11, stop switch 12, and close switch 13 is pressed by an administrator to give an operation instruction signal for an open operation, a stop operation, and a close operation to the control device 2.

  Further, as shown in FIG. 1, the opening / closing body operating device 1 includes a lid 14 that can be opened and closed to prevent the opening switch 11, the stop switch 12, and the closing switch 3 from being exposed. The lid 14 is not limited to an open / close type lid as long as it can prevent the operation switch from being exposed, and a lid such as a slide type or a double door type can also be applied.

  The lid 14 has a locking portion 15 that is locked with a key possessed by an administrator or the like. The locking portion 15 has an arm-type lock plate 16 that rotates in conjunction with a key. When the lock plate 16 rotates, the arm portion of the lock plate 16 is locked to the latching portion 18 of the box body. This completes the locking of the lid 14.

  As shown in FIGS. 1A to 1B, the opening / closing body operating device 1 includes the lock plate 16 and the lock plate 16 so as not to contact the lock plate 16 when the lock plate 16 is locked to the hooking portion 18. A diode 19 is provided between the latch portion 18 and the hook portion 18.

  This diode 19 is an example of a circuit element. The circuit element is, for example, an electronic component (including an active component and a passive component) such as a resistor or a capacitor, a CPU, or the like, which can apply predetermined electrical conversion to power supply. Moreover, in this embodiment, it is desirable that the mechanical strength is relatively weak and the element is destroyed when an external force is applied.

  The installation position of the diode 19 is not particularly limited as long as the diode 19 itself is relatively easily destroyed by prying it open. In the present embodiment, the lock plate 16 is deformed and deformed by prying the lid 14. The position where the diode 19 itself can be crushed and destroyed by the lock plate 16 is set.

  That is, it is a position where the diode 19 can be indirectly broken through some medium by applying an external force (pricking) by an illegal act to the lid 14. Of course, the position where the external force by the cheating act with respect to the opening / closing body operating device 1 may be directly applied may be sufficient.

  In the present embodiment, the opening / closing body operating device 1 is described as including one diode 19.

  Next, with reference to FIG. 3, the main circuit configuration of the opening / closing body operating device 1 according to the present embodiment is shown. FIG. 3 shows a case where an AC power source (AC power source) 110 is used as the power source. In FIG. 3, the supply voltage from the AC power supply 110 is a positive potential when the A side potential is higher than the B side potential, and is negative when the B side potential is higher than the A side potential. Set to potential.

  The diode 19 is installed on the power supply line from the AC power supply 110 and is connected in series with the operation switches 11 to 13 so as to pass only a positive potential.

  Each of the operation switches 11 to 13 is installed on a power supply line from the AC power supply 110 and is connected to the circuit element destruction detection unit 120 having the corresponding input circuits 120A to 120C.

  The circuit element destruction detection unit 120 gives a change in the output voltage according to the supply voltage from the AC power supply 110 and the outputs from the operation switches 11 to 13 to the voltage detection unit 26 of the control device 2, thereby destroying the diode 19. Is to be detected.

  The circuit element destruction detection unit 120 includes input circuits 120A to 120C corresponding to the operation switches 11 to 13, respectively.

  Each of the input circuits 120A to 120C includes a diode 121a that receives a positive voltage supplied from the AC power supply 110, an output line ((1) in FIG. 3) that outputs a voltage corresponding to the supplied positive voltage waveform, A diode 121b that is provided in a connection line through the diode 19 and receives a negative voltage from the AC power supply 110 when there is no diode 19, and an output line that outputs a voltage corresponding to the supplied negative voltage waveform ( 3 includes (2)).

  Each of the input circuits 120 </ b> A to 120 </ b> C gives a voltage change of the output line (1) and the output line (2) to the voltage detection unit 26, so that the output line (1) and the output line (2) It is detected that the diode 19 is destroyed based on how it is changed.

  That is, when the diode 19 is broken and disconnected, the input circuits 120A to 120C are not supplied with the supply voltage from the AC power supply 110, and the voltages of the output line (1) and the output line (2) are always LO. It becomes the state of.

  The voltage detector 26 detects that the output voltage from each of the input circuits 120A to 120B has become LO, and detects that the diode 19 has been destroyed.

  Moreover, each input circuit 120A-120C gives the output voltage of the output line (1) and output line (2) to the voltage detection part 26 when the diode 19 will be in a short circuit state so that it may demonstrate below.

  Since the diode 19 is connected in series with the operation switches 11 to 13 and the power supply line, when it is broken by an external force, the diode 19 is normally disconnected as described above, and the voltage detector 26 is connected to each input circuit 120A to 120A. The breakdown of the diode 19 can be detected based on the output voltage of the output line (1) and the output line (2) of 120C.

  In this case, even if each of the operation switches 11 to 13 is operated, a supply voltage to each of the operation switches 11 to 13 is not supplied and an operation instruction signal is not given to the control device 2, so that a third party can operate Even if the switches 11 to 13 are operated, the opening / closing body does not operate.

  However, when the destroyed diodes 19 are short-circuited by a third party, or when the diodes 19 are destroyed but are not properly disconnected and are short-circuited, the output voltages of the input circuits 120A to 120B are As shown, the voltage detector 26 detects the destruction of the diode 19 by detecting changes in the output voltages of the input circuits 120A to 120C.

  In the following, when the diode 19 is short-circuited, the voltage detection unit 26 detects the short-circuit state of the diode 19 based on the change in the output voltage of each of the input circuits 120A to 120C. Detect fraud such as prying open.

  FIG. 4 is a diagram for explaining a change in the output voltage of the input circuits 120A to 120C when the destroyed diode 19 is in the short-circuit state described above. FIG. 4A shows an AC voltage waveform supplied by the AC power source 110 of FIG.

  First, the case where the diode 19 is not destroyed and is normally installed on the power supply line of the AC power supply 110 will be described.

  The diode 19 can pass a positive voltage from the A side of the AC power supply 110. As a result, the input circuit 120A receives supply of a positive voltage from the AC power supply 110 and outputs a voltage from the output line (1) in FIG. 3, but does not output a voltage from the output line (2) in FIG. (See FIG. 4B).

  Further, the diode 19 does not pass the negative voltage of the AC power supply 110. As a result, the input circuit 120A does not receive a negative voltage from the AC power supply 110, and therefore does not output a voltage on both the output lines (1) and (2) in FIG. 3 (see FIG. 4B).

  That is, when the diode 19 is not destroyed and is functioning normally on the power supply line, no voltage is output from the output line (2) of the input circuit 120A in response to the negative voltage from the AC power supply 110. .

  Therefore, when detecting the output voltage of each of the input circuits 120A to 120C as shown in FIG. 4B, the voltage detector 26 detects that the diode 19 is functioning normally without being destroyed.

  On the other hand, the case where the diode 19 has been destroyed but is intentionally short-circuited by a third party, or the case where the diode 19 has been destroyed but could not be disconnected well and is short-circuited will be described.

  When the diode 19 is short-circuited and when a positive voltage is supplied from the AC power supply 110, the input circuit 120A receives the positive voltage supplied from the AC power supply 110 in the same manner as described above, and the input circuit 120A. The voltage is output only from the output line (1).

  However, when a negative power source is supplied from the B side of the AC power source 110, the diode 19 is destroyed and short-circuited, so that the input circuit 120A receives a negative voltage from the AC power source 110 and (2 ) Is output from the output line.

  Also, the output voltages of the input circuits 120B and 120C differ depending on the presence or absence of the diode 19 as in the input circuit 120A.

  Therefore, when detecting the output voltage of each of the input circuits 120A to 120C as shown in FIG. 4C, the voltage detector 26 detects that the diode 19 is in a short circuit state.

  Next, the configuration of the control device 2 will be described. The control device 2 receives operation instruction signals from the operation switches 11 to 13 of the opening / closing body operating device 1, and controls an opening / closing operation of a management shutter (not shown) according to the operation instruction signals. .

  As shown in FIG. 1, the control device 2 includes a voltage detection unit 26, a control unit 21, a motor drive unit 22, an alarm unit 23, a report signal output unit 24, and a display drive unit 25.

  The voltage detection unit 26 monitors the voltage output from each input circuit 120A to 120C of the opening / closing body operating device 1, and based on the output voltage from each input circuit 120A to 120C, whether or not the diode 19 is destroyed. It is to detect whether or not. The voltage detection unit 26 gives an abnormality detection signal to the control unit 21 when detecting that the diode 19 is destroyed.

  In the voltage detector 26, the output voltage of the output line (1) and the output line (2) of each of the input circuits 120A to 120C is output at a predetermined cycle from the output line (1) as shown in FIG. However, when it is detected that no voltage is output from the output line (2), it is determined that the diode 19 is functioning normally without being destroyed.

  In addition, when the voltage detection unit 26 detects that neither the output voltage of the output line (1) or the output line (2) of each of the input circuits 120A to 120C is output, the diode 19 is destroyed and becomes a disconnected state. Detect that it is.

  Furthermore, when the voltage detector 26 detects that the output voltages from the input circuits 120A to 120C appear alternately in a predetermined cycle as shown in FIG. It is detected that the diodes 19 are short-circuited by the three parties or that the diodes 19 are destroyed but cannot be disconnected well and are short-circuited. The short-circuit state of the diode 19 may be detected as long as the voltage detector 26 monitors at least the output line (2) from the input circuits 120A to 120C, and (2) of the input circuits 120A to 120C. ), It may be detected that the diode 19 is broken.

  The voltage detection unit 26 determines that the lid 14 has been pry open by a third party intentionally or the like by detecting the disconnection state or the short circuit state of the diode 19.

  In the present embodiment, the control device 2 is shown as including the voltage detection unit 26. However, the voltage detection unit 26 is provided at a position where the opening / closing body operating device 1 can provide output voltages from the input circuits 120A to 120C. You may make it prepare.

  The control unit 21 controls each function of the control device 2, and is constituted by, for example, a microcomputer.

  The control unit 21 receives an operation instruction signal from each of the operation switches 11 to 13 of the opening / closing body operating device 1, and responds to the operation instruction signal to the motor driving unit 22 that drives a motor that performs the operation of the management shutter. An operation instruction signal is given. Thereby, the operation according to the operation instruction signal can be applied to the management shutter.

  When the control unit 21 receives the detection signal from the voltage detection unit 26, the control unit 21 considers that the cover 14 has been opened, invalidates the operation instruction signal from the operation switches 11 to 13 input thereafter, and manages it. Control is performed so as not to open and close the shutter (not shown) (hereinafter referred to as “abnormal operation mode”).

  Due to the abnormal operation mode of the control unit 21, the opening / closing operation of the management shutter by a third party after the lid 14 is opened can be suppressed.

  In general, since the lid 14 of the opening / closing body operating device 1 by a third party is often opened when the management shutter is closed, the abnormal operation mode of the control unit 21 is at least an open switch. It is only necessary that the operation instruction signal for the opening operation from 11 can be invalidated.

  Of course, the control unit 21 may be provided with an operation mode for invalidating the operation instruction signal for the closing operation from the closing switch 13 and an operation mode for invalidating the operation instruction signal for the stopping operation from the stop switch 12. The control unit 21 may include an operation mode in which the operation instruction signal for the open switch 11 is invalidated and the operation instruction signal for the close switch 13 or the stop switch 12 is also invalidated.

  The control unit 21 may include a plurality of operation modes as described above, and may be selected according to the purpose of use of the user. For example, the control device 2 includes an operation mode determination button (not shown) for determining a plurality of operation modes of the control unit 21 as described above, and the control unit 21 activates the operation mode selected by the user's operation. Like that.

  The motor drive unit 22 controls the motor 3 that executes the operation of the management shutter under the control of the control unit 21. Under the control of the motor drive unit 22, the motor 3 performs an opening operation, a stopping operation, and a closing operation of the management shutter.

  In addition, although this embodiment demonstrates as the control apparatus 2 is provided with the motor drive part 22, the arrangement position of the motor drive part 22 is not limited to this.

  The alarm unit 23 sounds an alarm buzzer when the voltage detection unit 26 detects a voltage from the input circuits 11A to 13A due to destruction of the diode 19 under the control of the control unit 21. For example, an alarm device or the like Applicable. Further, the alarm unit 23 may output a pre-recorded alarm phrase such as “abnormally opened”, for example, along with the sound of the alarm buzzer.

  In addition, although this embodiment demonstrates as the control apparatus 2 is provided with the alarm part 23, the arrangement position of the alarm part 23 is not limited to this.

  The notification signal output unit 24 is controlled by the control unit 21 when the voltage detection unit 26 detects a change in the output voltage from the input circuits 120A to 120C due to destruction of the diode 19. A reporting signal for reporting that there has been an abnormal release is sent to the crime prevention management device 4 that manages crime prevention.

  When the voltage detector 26 detects a change in the output voltage from the input circuits 120 </ b> A to 120 </ b> C due to destruction of the diode 19 under the control of the controller 21, the display driver 25 drives the display 5 and the lid 14 is It controls to display on the display that it has been opened.

  Next, the motor 3, the crime prevention management device 4 and the display device 5 connected to the control device 2 will be described.

  The motor 3 opens, stops, and closes a management shutter (not shown) under the control of the motor drive unit 22. The motor 3 corresponds to an existing one that operates a shutter.

  The security management device 4 manages the security of the management shutter and the opening / closing body operating device 1. The crime prevention management device 4 is installed in, for example, a management office such as a building where a management shutter is installed, a security company that guards entry into the building, or a store that manufactures and sells shutters.

  When the voltage detector 26 detects a change in output voltage from the input circuits 120 </ b> A to 120 </ b> C due to destruction of the diode 19 under the control of the display driver 25, the display 5 displays that fact. The display unit 5 performs, for example, lighting / flashing of a red lamp when an abnormality occurs.

(A-2) Operation of the First Embodiment Next, the operation of the fraud detection system 100 of the present embodiment will be described.

  As shown in FIG. 1, the opening / closing body operating device 1 includes a diode 19 in the hooking portion 18 of the box body.

  When the lid 14 of the opening / closing body operating device 1 is locked, the lock plate 16 is rotated in conjunction with the key of the lock portion 15, and the arm portion of the lock plate 16 is locked to the latch portion 18 to complete the lock.

  At this time, as shown in FIGS. 1A to 1C, the diode 19 is not in contact with the lock plate 16 and is positioned between the arm portion of the lock plate 16 and the latching portion 18.

  First, the case where the locking part 15 of the opening / closing body operating device 1 is unlocked and the lid 14 is opened using a predetermined key as usual will be described.

  As described above, since the diode 19 is not in contact with the lock plate 16, even if the lock plate 16 is rotated by a predetermined key, the diode 19 is not crushed and destroyed.

  As described above, when the diode 19 is functioning normally without being destroyed, the output state of the circuit element destruction detection unit 120 when the operation switches 11 to 13 are operated is as follows.

  An AC voltage is supplied from the AC power source 110 to the input circuits 120A to 120C as a supply voltage. In FIG. 3, the supply voltage of the AC power supply 110 is a positive voltage when the A side potential is higher than the B side potential, and a negative voltage when the B side potential is higher than the A side potential. .

  When a positive voltage is supplied from the AC power supply 110, the input circuits 120A to 120C are applied with a positive voltage from the AC power supply 110, and have a positive voltage waveform from the output line (1) of the input circuits 120A to 120C. The corresponding voltage is output, and no voltage is output from the output line (2) of the input circuits 120A to 120C.

  Further, when a negative voltage is supplied from the AC power source 110, the diode 19 does not pass the negative voltage of the AC power source 110, and thus the negative voltage is not supplied from the AC power source 110. In this case, the diode 19 in FIG. No voltage is output on the output lines 1) and 2) (see FIG. 4B).

  Therefore, when the diode 19 is functioning normally without being destroyed, as shown in FIG. 4B, a predetermined period corresponding to a positive voltage is output from the output line (1) of each of the input circuits 120A to 120C. Only the voltage is applied to the voltage detector 26.

  When the output voltage of each of the input circuits 120A to 120C is given to the voltage detection unit 26, the voltage detection unit 26 monitors the change in the output voltage of each of the input circuits 120A to 120C, and the change in the output voltage is shown in FIG. When it is detected that the diode 19 is detected, the voltage detector 26 determines that the diode 19 is functioning normally without being destroyed.

  Next, a case where the lid 14 of the opening / closing body operating device 1 is opened with a tool or the like by a malicious third party intentionally will be described.

  When the lid 14 is pry open by the intention of a third party, the arm portion of the lock plate 16 is locked to the latching portion 18, so that the lock plate 16 is deformed and the diode 19 is crushed as shown in FIG. And destroyed.

  When the diode 19 is broken and disconnected, the supply voltage from the AC power supply 110 is not supplied to the input circuits 120A to 120C, and the output voltages of the output lines (1) and output lines (2) of the input circuits 120A to 120C. Are both LO, and no voltage is output to the voltage detector 26 of the control device 2.

  When none of the voltages of the input circuits 120A to 120C are output, the voltage detection unit 26 of the control device 2 detects that the diode 19 is broken and is in a disconnected state, and that the lid 14 has been opened. Detect.

  Also, when the diode 19 is destroyed by a third party's intentional opening, and then a short circuit between the diodes 19 is performed by a third party, or when the diode 19 is not successfully disconnected and becomes a short circuit state The output state of the circuit element destruction detection unit 120 when each of the operation switches 11 to 13 is operated is as follows.

  When a positive voltage is supplied from the AC power supply 110, the input circuits 120A to 120C are applied with a positive voltage from the AC power supply 110, and have a positive voltage waveform from the output line (1) of the input circuits 120A to 120C. The corresponding voltage is output.

  Further, when a negative voltage is supplied from the AC power supply 110, the diode 19 is short-circuited due to destruction, so that the input circuits 120A to 120C are supplied with the negative voltage from the AC power supply 110, and (2) in FIG. ) In accordance with the negative voltage waveform is output from the output line (see FIG. 4C).

  When the output voltage of each of the input circuits 120A to 120C is given to the voltage detector 26, the voltage detector 26 monitors the change in the output voltage, and when the voltage change as shown in FIG. It is detected that 19 is short-circuited.

  As described above, the output voltages of the input circuits 120A to 120C differ depending on the presence or absence of the diode 19, and the output voltage from the input circuits 120A to 120C is monitored by the voltage detection unit 26 of the control device 2, and the input circuits 120A to 120C. The opening of the lid 14 is detected according to the change in the output voltage of 120C.

  Next, when the voltage detector 26 determines that the diode 19 is destroyed and the diode 19 is disconnected, or when the diode 19 is determined to be short-circuited, The operation will be described.

  The operation of the control device 2 will be described with reference to the flowchart of FIG.

  When monitoring by the voltage detection unit 26 is started (S1), the voltage detection unit 26 monitors output voltages from the input circuits 120A to 120C (S2).

  In the voltage detection unit 26, the output voltages of the input circuits 120A to 120C are determined, and it is determined that none of the voltages from the output lines (1) and (2) of the input circuits 120A to 120C are output. (S3), it is detected that the diode 19 is broken and the diode 19 is disconnected (S4).

  Further, when the output voltage is detected from the output line (2) of each of the input circuits 120A to 120C (S3), the voltage detector 26 detects that the diode 19 is destroyed and the diode 19 is in a short-circuited state. (S4).

  When the diode 19 is destroyed by the voltage detection unit 26 and the diode 19 is disconnected or short-circuited, a detection signal is given from the voltage detection unit 26 to the control unit 21 (S5).

  When a detection signal is given from the voltage detection unit 26 to the control unit 21 (S6), the control unit 21 invalidates the subsequent operation instruction signals from the operation switches 11 to 13 and issues an operation instruction to the motor drive unit 22. The operation mode is switched to the abnormal operation mode so as not to exist (S7).

  Further, in the control unit 21, the destruction of the diode 19 is regarded as opening of the lid 14, and an abnormality detection signal indicating that the lid 14 has been opened by the control unit 21 is sent to the alarm unit 23, the notification signal output unit 24, and the display drive. Is given to the unit 25 (S8, S9).

  In the alarm unit 23, when an abnormality detection signal is received, an alarm buzzer is sounded (S10).

  In addition, when the abnormality detection signal is received in the notification signal output unit 24, the reception of the abnormality detection signal is received and the crime prevention of the management shutter, the opening / closing body operating device 1 or the building where the management shutter is installed is managed. A notification signal indicating that the lid 14 has been pry open is transmitted to the security management device 4 (S11).

  The notification signal may include, for example, the management ID number of the management shutter that has been opened, the opening time, and the like.

  Further, when the display drive unit 25 receives the abnormality detection signal, a drive instruction is given to display on the display 5 that the lid 14 has been opened (S12). In response to the drive instruction from the display drive unit 25, the display 5 turns on a red lamp, for example.

  The alarm unit 23, the report output unit 24, and the display unit drive unit 25 are subjected to predetermined release processing by the administrator who has found that the peg has been opened by these reporting means (S13), the alarm buzzer is stopped, the red lamp is turned on, etc. The lighting is stopped and the like is completed (S14).

  On the other hand, when the abnormality detection signal is given from the control unit 21 to the alarm unit 23, the notification signal output unit 24, and the display driver 25, the abnormal operation mode of the control unit 21 is canceled under a predetermined release method (S15). ), The abnormal operation mode ends (S16).

  The method for canceling the abnormal operation mode of the control unit 21 is, for example, initialization by turning on the power again after turning off the power, initialization by pressing a reset key (not shown), or after a predetermined time (for example, dealing with an illegal state). Automatic release etc. after the elapse of time considering the end time can be applied.

(A-3) Effect of the First Embodiment As described above, according to the present embodiment, the circuit configuration including the circuit element that can be easily destroyed is provided, and the circuit element is externally applied to the opening / closing body operating device 1. It is possible to detect that the external force has been received according to the change in the output voltage from the circuit configuration due to the destruction of the circuit element when an external force is intentionally generated by a third party. it can.

  Thereby, the security with respect to the opening / closing body operating device can be increased inexpensively and easily.

(B) Modification of the first embodiment As a fraudulent act on the opening / closing body operating device 1 by a third party, a hole is made in the lid 14 with an electric drill or the like, a wire or the like is inserted into the hole, and the open switch 11 is pressed. There is also an act of opening the management shutter.

  The diode 19 described above may be installed at least on the portion of the lid 14 corresponding to the open switch 11 so as to cope with such an action.

  For example, the diode 19 is installed on the back side of the lid 14 corresponding to the position of the open switch 11, or the structure of the lid 14 is made hollow, and the diode 19 is formed in the hollow portion of the lid 14 corresponding to the position of the open switch 11. You may make it equip.

  Of course, the number of diodes 19 may be plural, and may be provided in a portion corresponding to the position of the stop switch 12 or the closed switch 13.

(C) Other Embodiments (C-1) Although the above-described first embodiment has been described with respect to the management shutter opening / closing body operating device, it can be widely applied to other opening / closing body opening / closing body operating devices.

(C-2) If the electrical circuit (FIG. 3) of the opening / closing body operating device 1 described in the first embodiment described above can change the output voltage in accordance with the change in the supply voltage due to the destruction of the circuit element, It is not limited to this.

  Moreover, although the alternating voltage was used as a supply voltage in FIG. 3, it can be applied even when the supply power is a direct voltage. Further, a resistor, a capacitor, a CPU, or the like may be used as the circuit element.

  For example, when a resistor is applied as a circuit element, the input circuit may determine that the resistor has been destroyed when the supply voltage value from the power supply via the resistor becomes a predetermined value or more.

(C-3) In the first embodiment described above, a new circuit element (diode 19 in the embodiment) is provided in the existing circuit. However, a circuit element included in the existing circuit may be used. Good.

(C-4) Moreover, the circuit element which can be destroyed includes an attachment portion between the box body and the wall to which the box body is attached, and an attachment portion (decorative plate: 17 in FIG. 1) to which the box body and the operation switches 11 to 13 are attached. You may make it prepare for.

  Thereby, in order for a third party to disconnect the wiring of the operation switches 11 to 13, the opening / closing body operating device 1 itself and the mounting portion 17 of the operation switches 11 to 13 are removed, and then the wiring of the operation switches 11 to 13 is short-circuited. Thus, the same effects as those of the above-described embodiment can be obtained even for illegal acts such as manipulation.

(C-5) Moreover, the structure of the locking part 15 and the lock plate 16 which were demonstrated in FIG. 1 is not limited to this.

  For example, the lock plate 16 may be slid and locked without being interlocked with a key.

  In addition, when an external force is applied to the opening / closing body operating device 1 in order to assist destruction of the circuit element, the shape of the lock plate 16 is changed, for example, by providing a protrusion. Also good.

(C-6) In the above-described first embodiment, the case where one diode is provided has been described. However, a plurality of diodes may be provided. In this case, in order to cope with a short circuit due to the intention of a third party, for example, a structure in which a plurality of diodes are arranged close to each other or a structure in which each diode is wired with a thin line is prevented. It is preferable to adopt a configuration that can be complicated or complicated. As a result, when an external force is applied to any one of the diodes, it becomes complicated to break or short-circuit all the diodes, and intentional or other short-circuits can be prevented or complicated.

(C-7) The circuit configuration diagram of the opening / closing body operating device in FIG. 3 is an example, and is not limited thereto. For example, in FIG. 3, the diode is described as being connected in series with the operation switches 11 to 13 on the power supply line. However, the circuit element destruction detection circuit is connected to each operation switch 11 to 13 in parallel and independently. The voltage state from the diode may be monitored as in the case described in detail in the description of the first embodiment.

It is a block diagram which shows the structure of the opening / closing body operating device which concerns on 1st Embodiment. It is a block diagram which shows the whole structure of the fraud detection system which concerns on 1st Embodiment. It is a circuit diagram of the opening-and-closing body operation device concerning a 1st embodiment. It is explanatory drawing explaining operation | movement of the input circuit which concerns on 1st Embodiment. It is a block diagram which shows the structure of the opening / closing body operating device which concerns on 1st Embodiment. It is a flowchart which shows operation | movement of the control apparatus which concerns on 1st Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Opening / closing body control apparatus, 2 ... Control panel, 19 ... Diode, 11 ... Open switch,
DESCRIPTION OF SYMBOLS 12 ... Stop switch, 13 ... Close switch, 21 ... Control part, 26 ... Voltage detection part.

Claims (4)

An opening / closing body operating device for giving an operation instruction signal to the opening / closing body,
At least one or more circuit elements, which perform a predetermined signal conversion operation in response to power supply, and are provided at a position where an external force due to fraud is likely to be applied;
An opening / closing body operating device comprising: detecting means for detecting that the circuit element is destroyed based on a change in signal characteristics from the circuit element.   2. The opening / closing body operating device according to claim 1, wherein when an external force is applied to the circuit element, the opening / closing body operating device is broken by using a constituent member of the opening / closing body operating device as a medium.   3. The opening / closing body operating device according to claim 1, wherein the detection unit invalidates the operation instruction signal for the opening / closing body after detecting the destruction of the circuit element. 4.   The opening / closing body operating device according to any one of claims 1 to 3, wherein the circuit element is a diode.

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