JP2005208962A - Guarding apparatus and guarding method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a guarding apparatus and a guarding method in which work from the external is difficult and locking/unlocking can be also detected to detect the opening/closing of a window, a door or the like. <P>SOLUTION: In the guarding apparatus 1 for detecting whether a door 102 is closed or not by a result whether magnetism from an electromagnet 22 formed on the door 102 can be detected by a magnetism detection element 32 arranged on the wall 101 side or not, a power transmission coil 33 is arranged on the wall 101 and a power receiving coil 23 magnetically coupled with the power transmission coil 33 and capable of supplying an excited current to the electromagnet 22 is arranged on the door 102 so that the magnetism detection element 32 can be turned on/off in response to an alternating current I supplied to the power transmission coil 33. Since the on/off operation of the magnetism detection element 32 corresponds to the waveform of the alternating current I, a work preventing effect can be improved by devising the waveform. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a security device and a security method used to detect opening / closing of doors and windows, or movement of safes and other items.

Conventionally, sensors using permanent magnets have been used as security sensors for detecting opening and closing of doors, windows, and the like. A conventional sensor of this type includes, for example, a permanent magnet attached to a movable member of a door or window, a hall element attached to a fixed member such as a wall so as to face the permanent magnet, or a magnetic detection such as a reed switch. It is configured to take out a security signal by turning on and off the magnetic sensing element by approaching and leaving the permanent magnet according to the opening and closing of the door or window (for example, patent document) 1).
JP-A-6-124630

  However, a conventional security sensor using a permanent magnet can keep the magnetic sensing element on regardless of whether the door is opened or closed by, for example, bringing another permanent magnet close to the magnetic sensing element. Since it is possible, it is possible to easily disable the notification by opening and closing the door and window, and some improvement is desired from the viewpoint of reliability.

  In addition, since the operation part of the locking mechanism for windows and doors is often provided on the side of these movable members, when a conventional security sensor using a magnet is installed, the open / closed state of the window or door is detected. Although it is possible, it is difficult to configure to detect opening and closing including the locked state of windows and doors.

  An object of the present invention is to provide a security device and a security method that can solve the above-described problems in the prior art.

  In order to solve the above-described problem, according to the present invention, the movable member is moved to the fixed member depending on whether or not the magnetism from the magnetism generating device provided on the movable member side can be detected by the magnetic detection element provided on the fixed member side. It is a security device that detects whether or not it is in a required positional relationship, an electromagnet provided as the magnetic generator on the movable member side, a power transmission coil provided on the fixed member side, A power receiving coil provided on the movable member side for magnetically coupling with the power transmission coil and supplying an exciting current to the electromagnet, and turning on and off the magnetic sensing element in response to the current supplied to the power transmission coil A security device characterized in that it can be driven is proposed.

  According to the present invention, there is also provided a security method for determining whether or not the movable member has a required positional relationship with respect to the fixed member, wherein the electromagnet is provided on the movable member side and the electromagnet is driven. Whether the magnetism generated by the electromagnet in response to the excitation current can be detected by the magnetic sensing element. Based on this, a security method is proposed in which it is determined whether or not the movable member has a required positional relationship with respect to the fixed member.

  For example, by passing an alternating current through the power transmission coil, an excitation current can be passed through the electromagnet via the power receiving coil that is magnetically coupled to the power transmission coil. Here, the magnetic sensing element can be turned on and off in response to the state of the current supplied to the power transmission coil by, for example, intermittently alternating current in a predetermined pattern.

  Accordingly, the magnetic sensing element can be driven on and off according to a specific pattern only when the movable member is in the required positional relationship with the fixed member, and someone brings a permanent magnet or the like closer to the magnetic sensing element. Depending on the situation, this security device cannot be neutralized, and extremely reliable security can be performed.

  According to the present invention, in the security device for detecting a locked / unlocked state of a lock provided on an opening / closing member for opening / closing an opening of a building or the like, further provided on the opening / closing member side, An electrical element whose electrical conduction state is determined in accordance with a locked / unlocked state before the lock; an electromagnet and a receiving coil which are provided on the opening / closing member side and are loop-connected to the electrical element; and A power transmission coil and a magnetic sensing element provided on the side, and in response to a current supplied to the power transmission coil, an excitation current is passed from the power receiving coil to the electromagnet through the electrical element, thereby generating magnetism. A security device is proposed in which the magnetic detection element detects whether or not the magnetic detection element has been detected.

  Since the conduction state of the electrical element is determined in response to the locking / unlocking operation of the lock provided on the opening / closing member, the excitation current to the electromagnet can be controlled according to the locking / unlocking state. Therefore, the locking / unlocking state of the lock is detected on the opening side depending on whether or not magnetism from the electromagnet can be detected by the magnetic detection element without requiring an arrangement between the opening side and the opening / closing member side. be able to.

  ADVANTAGE OF THE INVENTION According to this invention, the device for security and the security method suitable as an opening / closing sensor of a window and a door which are difficult to work from the outside, and are reliable can be provided.

  Moreover, the locked / unlocked state of the locks such as windows and doors can be electrically detected without wiring between the two in a fixed example having an opening.

  Hereinafter, an example of an embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 1 shows an embodiment in which the security device according to the present invention is used for detecting opening and closing of a door. In FIG. 1, 101 is a wall (fixed member), 102 is a door (movable member), and the door 102 is attached to the wall 101 by a hinge member 103 so that the door 101 can open and close the opening 101A of the wall 101. It has become.

  In order to detect the open / closed state of the door 102, the security device 1 according to the present invention is provided. The security device 1 includes a magnetism generating unit 2 attached to the door 102 and a magnetism detecting unit 3 attached to the wall 101. The magnetism generating unit 2 is configured by housing an electromagnet 22 and a power receiving coil 23 in a casing 21, and a solenoid coil 22 </ b> A of the electromagnet 22 is connected to a winding 23 </ b> A of the power receiving coil 23.

  On the other hand, the magnetic detection unit 3 includes a casing 31 in which a magnetic detection element 32 for detecting magnetism from the electromagnet 22 and a power transmission coil 33 are accommodated. In the illustrated example, the magnetic detection element 32 uses a reed switch, and the pair of output terminals 32 </ b> A and 32 </ b> B of the magnetic detection element 32 are connected to the guard signal generator 4.

  Reference numeral 5 denotes an AC power supply, and a pair of output lines 5A and 5B of the AC power supply 5 are connected to a pair of input terminals 33Aa and 33Ab of the winding 33A of the power transmission coil 33. The AC current I is supplied to the winding 33A.

  As can be seen from FIG. 1, when the door 102 is closed, the magnetism generating unit 2 and the magnetism detecting unit 3 are arranged so that the power transmitting coil 33 and the power receiving coil 23 face each other and a required magnetic coupling occurs between them. Are attached to the door 102 and the wall 101.

  Therefore, when the door 102 is closed, the alternating current I from the alternating current power source 5 flows into the winding 33A of the power transmission coil 33, so that the secondary winding is applied to the winding 23A of the power receiving coil 23 facing the winding 33A. A current is generated, and this secondary current flows through the solenoid coil 22A of the electromagnet 22 as an excitation current EI. As a result, the electromagnet 22 is energized, thereby generating a magnetic field. As described above, the power transmission coil 33 and the power reception coil 23 that are magnetically coupled constitute a magnetic coupling element, and thereby, power can be sent from the wall 101 side to the door 102 side without wiring between them.

  In a state where the door 102 is closed, the magnetism generating unit 2 and the magnetism detecting unit 3 are positioned and installed so that the magnetism detecting element 32 and the electromagnet 22 face each other. When a magnetic field is generated from the electromagnet 22, Thereby, the magnetic detection element 32 is closed.

  FIG. 2A shows an example of a waveform of the alternating current I supplied from the alternating current power source 5. As can be seen from FIG. 2A, the alternating current I has an energization pattern in which the energization is stopped for the time T after flowing for the time T. Therefore, as shown in FIG. 2B, the magnetic sensing element 32 is turned on and off according to the energization pattern of the alternating current I. That is, the magnetic sensing element 32 can be driven on and off in response to the current supplied to the power transmission coil 33.

  Returning to FIG. 1, the security signal generator 4 determines whether the on / off operation of the magnetic detection element 32 matches the intermittent pattern of the alternating current I, and when it is determined that they do not match. Only the alarm signal K is output. The warning signal K is sent to a transmitter of a machine security device (not shown), and when the warning signal K is output after the security start, the warning signal is sent to the security center.

  In the above-described embodiment, the case where a reed switch is used as the magnetic detection element 32 has been described. However, as the magnetic detection element 32, other known appropriate magnetic detection elements such as a Hall element may be used. is there. Further, the intermittent pattern of the alternating current I is not limited to the example of FIG. 2A, and may be an appropriate intermittent pattern, or the envelope waveform of the alternating current I may be an appropriate waveform. .

  FIG. 3 shows a main part of a modification of the embodiment shown in FIG. In the embodiment shown in FIG. 1, the winding 23A and the solenoid coil 22A are directly connected, and the secondary current from the winding 23A flows directly to the solenoid coil 22A as the exciting current EI. However, as shown in FIG. 3, the winding 23 </ b> A and the solenoid coil 22 </ b> A are connected via the pressure-sensitive element 6, and a predetermined pressure is applied to the pressure-sensitive element 6 when the door 102 is completely closed. Thus, the pressure sensitive element 6 is attached to the door 102 so that the resistance value of the pressure sensitive element 6 decreases only when the door 102 is completely closed, and is sufficient to turn on the magnetic sensing element 32. An exciting current EI can also be configured to flow through the solenoid coil 22A.

  According to the configuration shown in FIG. 3, since the magnetic detection element 32 performs the on / off operation shown in FIG. 2B only when the door 102 is completely closed, the opening / closing of the door 102 is more reliably determined. can do.

  The example in which the security device of the present invention is used for door opening / closing determination has been described above, but the present invention is not limited to this, and can be similarly applied to window opening / closing determination, safe movement determination, and the like. . That is, the present invention can be widely used to detect or determine whether or not the movable member has a required positional relationship with respect to the fixed member.

  Further, in the modification shown in FIG. 3, the pressure sensing element 6 is provided between the solenoid coil 22A and the winding 23A, and the excitation current EI flows to the solenoid coil 22A only when the door 102 is completely closed. I did it. However, when the security device 1 of FIG. 1 is used for detecting opening / closing of a window, in the configuration shown in FIG. 3, a crescent lock locking confirmation sensor is provided instead of the pressure sensitive element 6 so that the crescent lock is locked. If the exciting current EI flows through the solenoid coil 22A only when the window is closed, the on / off operation shown in FIG. 2B is detected magnetically only when the window is closed and locked. It can be performed by the element 32.

  For example, the lock confirmation sensor may be configured such that a magnet sensor is provided in the movable part of the crescent lock and a magnet is embedded in the fixed part, or a push switch or the like is provided on the movable part side. In other words, an appropriate electrical element is provided on the window or door to determine the electrical continuity state depending on whether the lock provided on the window or door is in the locked state or the unlocked state. If the element, the power receiving coil 23, and the electromagnet 22 are connected in a loop so that the electrical element is in a conductive state (on state) only when the lock is locked, the electromagnet 22 is connected to the power transmission coil 33. When a required excitation current is supplied, the magnetism generated from the electromagnet 22 can be detected by the magnetic detection element 32, and it can be confirmed that the lock is locked. In this case, the alternating current I supplied to the power transmission coil 33 may have a waveform as shown in FIG. 2A, but is not limited thereto, and may be a continuous sinusoidal alternating current. .

The figure which shows embodiment at the time of using the apparatus for security by this invention for the opening / closing detection of a door. The wave form diagram for demonstrating operation | movement of the apparatus for security shown in FIG. The figure which shows the principal part of the modification of embodiment shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Security device 2 Magnetic generation unit 3 Magnetic detection unit 4 Security signal generation device 5 AC power supply 6 Pressure sensitive element 21, 31 Casing 22 Electromagnet 23 Receiving coil 32 Magnetic detection element 33 Power transmission coil 101 Wall 102 Door I AC current EI Excitation Current

Claims (5)

Whether or not the movable member is in the required positional relationship with respect to the fixed member is detected based on whether or not magnetism from the magnetic generator provided on the movable member side can be detected by a magnetic sensing element provided on the fixed member side. A security device that does
An electromagnet provided as the magnetic generator on the movable member side;
A power transmission coil provided on the fixed member side;
A power receiving coil provided on the movable member side for magnetically coupling with the power transmitting coil and supplying an exciting current to the electromagnet;
An apparatus for security, wherein the magnetic sensing element can be turned on and off in response to a current supplied to the power transmission coil. A security method for determining whether or not a movable member is in a required positional relationship with respect to a fixed member,
An electromagnet is provided on the movable member side, an excitation current for driving the electromagnet is supplied from the fixed member side to the movable member side using a magnetic coupling element, and the electromagnet is generated in response to the excitation current. A security method characterized in that it is determined whether or not the movable member has a required positional relationship with respect to the fixed member based on whether or not magnetism can be detected by the magnetic sensing element.   The magnetic coupling element includes a power transmission coil provided on the fixed member side and a power reception coil provided on the movable member side, and the excitation current is extracted from the power reception coil by supplying a current to the power transmission coil. The security method according to claim 2 which was made. In a security device for detecting the locking / unlocking state of a lock provided on an opening / closing member for opening / closing an opening of a building or the like,
An electrical element that is provided on the side of the opening and closing member and in which an electrical conduction state is determined according to the locking / unlocking state of the lock;
An electromagnet and a receiving coil which are provided on the side of the opening and closing member and are loop-connected to the electrical element;
A power transmission coil provided on the opening side and a magnetic sensing element;
In response to a current supplied to the power transmission coil, an excitation current is passed from the power receiving coil to the electromagnet via the electrical element, and thereby the magnetic detection element detects whether or not magnetism has occurred. A security device characterized by that.   The security device according to claim 4, wherein the electrical element is a switch element operated in accordance with a locked / unlocked state of the lock.

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