JP2007032009A - Opening/closing device control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an opening/closing device control system which can improve anticrime properties, and which can selectively perform control suitable for a plurality of types of opening/closing devices different in control mode using a single control system. <P>SOLUTION: This opening/closing device control system, which outputs control instructions to control the opening/closing device, comprises: an authentication data input means which enables authentication data to be input from the outside; an operation-signal input means which enables the input of an operation signal for operating the opening/closing device by an operation from the outside; a collation-data storage means for storing preinput collation data; a collation means for collating the authentication data with the collation data; and a controlled-object switching means which enables a controlled object mode to be switched by an operation from the outside. The result of collation by the collation means and/or the control instruction depending on the operation signal are/is output in each control object mode. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a shutter device including an overhead door, a door, a sliding door including a shutter, a window, a roll screen, a blind, an awning device, a gate, a gate, a sliding wall device, etc. The present invention relates to an opening / closing device control system suitable for selectively controlling a device and a door locking device.

Conventionally, an operation unit for opening and closing a shutter device can open and close a plurality of operation buttons (stop, open, close, etc.) and the front side of these operation buttons as described in Patent Document 1, for example. A switch box having a cover that can be covered and locked by a cylinder lock is used.
According to such a switch box, there is a possibility that the operation button may be forcibly operated by a malicious person by destroying the cylinder lock or the lid or penetrating the drill.
Therefore, for example, a system for authenticating a person who operates the shutter device using a card-type door locking device described in Patent Document 2 is required.

However, the conventional card-type door locking device is configured to unlock or lock the electric lock on the condition that the ID card is authenticated, in other words, when there is one input of ID card authentication, This is a configuration for issuing a command for unlocking or locking the lock.
On the other hand, in the shutter device, an operation command corresponding to each operation input is required for a plurality of types of operation inputs such as a stop operation button, an opening operation button, and a closing operation button.
Therefore, the card-type door locking device cannot be used as it is for an authentication system for a shutter device, and an authentication system for a shutter device capable of a plurality of types of operation inputs such as a stop operation, an opening operation, and a closing operation is provided. Need to develop.
In addition, since the authentication system for the shutter device is configured to allow a plurality of types of operation inputs as described above, contrary to the above, this authentication system is used in combination with the door locking device as it is. Have difficulty.
That is, according to the prior art, the authentication system for the door locking device and the authentication system for the shutter device need to be configured separately.
Japanese Patent Laid-Open No. 10-162678 JP 2001-55851 A

  The present invention has been made in view of the above-mentioned conventional circumstances, and the problem to be solved is that it is possible to improve crime prevention and to perform appropriate control for a plurality of types of switchgears having different control modes. An object of the present invention is to provide a switchgear control system that can be selectively performed by a control system.

  In order to solve the above problems, a first invention is a switchgear control system configured to output a control command for controlling a switchgear according to a signal input from the outside, and authentication from the outside Authentication data input means for enabling data input, operation signal input means for enabling input of an operation signal for operating the switchgear by an external operation, and verification data for storing previously input verification data A storage unit; a verification unit that collates the authentication data with the verification data; and a control object switching unit that enables switching of the control target mode by an external operation, and for each control target mode, the verification The control command according to the collation result by the means and / or the operation signal is output.

  Here, the “signal input from the outside” includes a signal from a manually operated switch, a signal transmitted wirelessly or by wire through a remote control operation, a sensing signal from a sensor, and the like.

Specific examples of the control command include a stop signal for stopping the operating opening / closing body, an opening signal for opening the opening / closing body, and a closing signal for closing the opening / closing body. .
Furthermore, other specific examples of the control command include a signal for operating the locking device of the opening / closing device, a signal for operating the unlocking device, and the like.
The control command may be one type of control command or a plurality of types of control commands. For example, in the case of the latter mode, at least one type of control command out of the plurality of types of control commands may be output according to the verification result by the verification unit and / or the operation signal.
For example, in the case of the latter mode, a plurality of types of control commands (for example, a control command for opening / closing the opening / closing member, a control command for closing / closing the opening / closing member, and a stop of the opening / closing member in operation) Of the control command) may include a control command without verification by the verification unit (no verification is required), that is, at least one control command (for example, an opening / closing body) In the case of outputting a control command for opening the operation, it is only necessary that collation by the collating means is necessary.

  The authentication data input means may be any structure that can input a signal for identifying an operator. The authentication data input means may be configured such that an ID number is key-input or magnetic Configuration in which data stored in a card is input, configuration in which data stored in an IC tag (including an IC card) is input, configuration in which a fingerprint is input as data, vein A configuration in which a pattern is input as data, a configuration in which an ID code transmitted by wire or wireless is received, and a configuration in which data stored in a mobile terminal (such as a mobile phone) is input And a configuration in which patterns such as barcodes, holograms, and watermarks are input as data.

  The operation signal input means may be any configuration that can input an operation signal for operating the opening / closing body from the outside. The operation signal input means includes a mechanical switch, a touch panel type switch, a wired switch, and the like. Or the structure using a wireless remote control switch etc., a non-contact sensor, etc. are included.

  The verification data storage means may be any configuration as long as it stores verification data for verification against authentication data input from the outside. The verification data storage means includes an EEPROM (Electrically Erasable Programmable Read-Only Memory). ), Flash memory, other nonvolatile memory, RAM, and the like.

The verification means is a configuration for determining whether or not the authentication data and the verification data are matched to each other, and specifically, can be a microcomputer circuit or the like that functions by a program.
In addition, in the configuration of “verifying the authentication data and the verification data”, part or all of one or both of the authentication data and the verification data is encoded (encrypted), and the data is It includes a configuration for determining whether or not they match when decoded (combined).

  The control object switching means is a structure for switching the control object by the switchgear control system. The control object switching means includes a mechanical switch, a touch panel type switch, a wired or wireless remote control switch. Etc., including the configuration using the above.

  In the second invention, the authentication data input means is an IC tag reader that receives authentication data wirelessly transmitted from the IC tag.

  Here, the IC tag only needs to have a function of transmitting information such as an identification code stored in advance to an adjacent IC tag reader, and the IC tag has a card shape (so-called IC tag). Card), a key-shaped object, a portable terminal with an IC tag function (for example, a mobile phone), and other configurations in which the function is added to or built in an arbitrary object.

  According to a third aspect of the present invention, there is provided a fingerprint sensor that captures a concave / convex pattern of a fingerprint of a fingertip as data by touching the fingertip and outputs the data as an electrical signal.

  In the fourth invention, the control object mode includes a lock device operation mode and a shutter device operation mode, the lock object operation mode is selected by the control object switching means, and the authentication data and When the collation means confirms that the collation data matches, an unlock signal for unlocking the locking device is output as the control command, and the shutter device operation mode is output by the control object switching means. When the verification means confirms that the authentication data matches the verification data, an operation signal based on the signal input by the operation signal input means is output as the control command. It is characterized by that.

  In the fifth aspect of the invention, there is provided a switchgear control system comprising an operation unit disposed on the outdoor side of the switchgear and a control unit disposed on the indoor side of the switchgear. Provided with the authentication data input means and the operation signal input means, and the control unit includes the verification data storage means and the verification means. The authentication data and the operation signal input from the outside are supplied from the operation unit. It transmits to the said control part, The said control command was output from the said control part, It was characterized by the above-mentioned.

Here, “the outdoor side of the switchgear” and “the indoor side of the switchgear” mean the outdoor side and the indoor side of the partition when the space is partitioned by the switchgear.
In addition, the operation unit and the control unit include a mode in which the authentication data and the operation signal are transmitted / received by wire, and a mode in which the authentication data and the operation signal are transmitted / received wirelessly.

  In the sixth invention, the operation unit is provided with an openable / closable lid member, and the control object switching means is in an open / closed state of the lid member when authentication data is input to the authentication data input means. Accordingly, the control target mode is configured to be switched.

  In the seventh invention, the operation unit and the control unit are electrically connected by four electric wires, and two of the four electric wires are used as electric power supply wires, and the remaining two wires are used. Is an electric wire for serially transferring the authentication data and the operation signal from the operation unit to the control unit.

  In the eighth aspect of the invention, a fixing bracket for installing the operation unit is provided, and the fixing bracket can be attached to an existing switch box fixed to the wall surface of the casing on which the switchgear is installed. In addition, the operation unit can be mounted.

Since the present invention is configured as described above, the following effects can be obtained.
According to the first invention, the controlled object mode is selected by an external operation on the controlled object switching means. Then, for each selected control target mode, an appropriate control command corresponding to the collation result and / or the operation signal by the collating means is output.
Therefore, it is possible to improve the crime prevention by collating the authentication data, and it is possible to selectively perform appropriate control for a plurality of types of switchgears having different control modes by a single control system, and the control modes are different. It is possible to provide a control system that can be used in combination with a plurality of types of switching devices.

  Furthermore, according to the second invention, since the IC tag is configured to be recognized in a non-contact manner, the usability is good and the crime prevention property can be further improved.

  In addition, according to the third invention, according to a very simple contact operation, a fingerprint possessed only by a specific operator can be collated, the usability is good, and crime prevention can be further improved. .

  Furthermore, according to the fourth invention, the door locking device and the shutter device having different control operations can be selectively controlled by a single control system, and any device can be selected. The crime prevention property of the apparatus can be maintained well.

  Furthermore, according to the fifth invention, the crime prevention property is further improved by the structure in which the authentication data is transmitted from the operation unit to the control unit and the structure in which the collation data storage means is not disposed on the outdoor side.

  Further, according to the sixth invention, for example, when the controlled object is a door locking mechanism, the authentication data is input with the lid member closed, and when the controlled object is a shutter device, The control object is selected according to the open / closed state of the lid member, such as the authentication data being input with the lid member opened, and an appropriate input operation is performed on the selected control object. it can.

Furthermore, according to the seventh invention, since there are four wires between the operation unit and the control unit, for example, when there is an existing switch box, the wire of the switch box (usually open) The signal wires, the closing signal wires, the stop signal wires, and the COM wires) can be effectively used as they are without replacement.
In addition, the existing switch box mentioned above should just be equipped with the above existing electric wires at least, The external shape and structures other than the said electric wires are not limited.

Furthermore, according to the eighth invention, when there is an existing switch box, it is possible to mount the operation unit effectively without removing the switch box.
The existing switch box according to the eighth aspect of the present invention may be at least a box to which the operation unit is attached, and the external shape of the box and the configuration other than the box are not limited.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
The switchgear control system according to the present embodiment is arranged in or inside an opening part or inside of a housing such as a house, building, warehouse, factory, underground shopping center, tunnel, vehicle loading platform, etc. The shutter device that partitions and opens the space and the door locking device are selectively controlled.

  The switchgear control system 1 includes an operation unit 10 disposed on the outdoor side of the shutter device A and a control unit 20 disposed on the indoor side of the shutter device A. A control command for controlling the shutter device A or the door locking device B is output from the control unit 20 in accordance with the input signal.

  The shutter device A to be controlled by the opening / closing device control system 1 includes an opening / closing body a1 that opens and closes by sliding an end portion in the closing direction, and guides the opening / closing body a1 in the opening / closing direction at both ends in the width direction. Guide rails a2 and a2 and a winding device a3 for winding and unwinding the opening / closing body a1 on the opening direction side thereof.

The opening / closing body a1 is formed by connecting a plurality of so-called slats formed by bending a horizontally long substantially rectangular metal plate so as to rotate between the vertically adjacent slats, and at the lowermost end of these slats, A seat plate member extending in the width direction is connected.
Each guide rail a2 is a member formed so as to surround an end of the opening / closing body a1 in the width direction, and a contact target portion p (for example, a floor surface, the ground, or a frame member) seated by the opening / closing body a1. Etc.) and the winding device a3.
Further, the winding device a3 is an electric shaft that winds and opens the opening / closing body a1 and an electric motor that rotates the winding shaft in both directions via power transmission means such as a chain and a sprocket. A drive source a31, a shutter control panel a32 for controlling the electric drive source a31, and the like are provided.

The door locking device B is a mechanism for locking and unlocking the closed door in response to a signal from the opening / closing device control system 1, and detects the fully closed state of the door to open and close the fully closed signal. It is configured to transmit to the device control system 1.
The structure for locking and unlocking the door may be, for example, a configuration in which the dead bolt is moved in and out by electric (including power by an electromagnetic solenoid or a motor).
The structure for outputting the fully closed signal may be configured such that, for example, a fully closed door is detected by a sensor such as a limit switch, a micro switch, or a proximity switch, and the detected signal is output.

The operation unit 10 includes a main body 11 and a lid member 12 that is opened and closed with respect to the main body 11 (see FIG. 2).
An operation switch 11a such as an open switch 11a1, a stop switch 11a2, and a close switch 11a3 is attached to the surface of the main body 11, and an IC tag reader 10a, which will be described later, is disposed therein.
The opening switch 11a1, the stop switch 11a2, the closing switch 11a3, and the like may be, for example, push button switches, but may be toggle switches or other types of switches.
Further, on the back surface of the main body portion 11, there are provided a hooking hole 11 d for hooking to a fixing bracket 30 described later and a through hole 11 e for inserting a screw b 1 that can be screwed into the fixing bracket 30. (See FIG. 3).

  According to the illustrated example, the lid member 12 is a plate-like member that covers one half of the main body 11, and one side thereof is pivotally supported with respect to the main body 11.

Further, a changeover switch 13 is provided between the lid member 12 and the main body portion 11 so as to output a contact signal when the lid member 12 is closed.
The change-over switch 13 is a contact type switch such as a micro switch or a limit switch, and is fixed in the main body 11 and exposes the actuator portion to the outside. That is, when the lid member 12 is closed, the actuator portion is pressed and outputs a contact signal.
The change-over switch 13 is connected so as to input the contact signal to the IC tag reader 10a in the main body 11, and acts as a control target switching means that enables switching of the control target by the switchgear control system 1. .
That is, according to an example of the present embodiment, when the lid member 12 is closed, the control target is used as a door, and when the lid member 12 is opened, the control target is the shutter device A. The switching is performed by the change-over switch 13.
The change-over switch 13 can be replaced with a non-contact type switch such as a proximity switch or an infrared sensor.
Furthermore, the change-over switch 13 can be replaced with a switch or the like whose contact is switched depending on the brightness of a space or the like.

Next, the IC tag reader 10a in the main body 11 will be described.
The IC tag reader 10a functions as an authentication data input unit that enables input of authentication data from the external IC tag 14.
Further, contact signals of operation switches 11a such as an open switch 11a1, a stop switch 11a2, and a close switch 11a3 are input to the IC tag reader 10a, and these operation switches 11a operate signals for operating the shutter device A. It acts as an operation signal input means for enabling the input of.

More specifically, as shown in FIG. 4, the IC tag reader 10a includes an antenna 11f, a microcomputer 11g, an interface 11h, and the like, and supplies power to the IC tag 14 that is approached by electromagnetic waves transmitted from the antenna 11f. It is configured to receive and receive radio waves transmitted from the IC tag 14.
The IC tag 14 may be in any form such as a card shape or other than a card shape such as a key shape. In this embodiment, the IC tag 14 is a card-shaped IC that is particularly easy to use. A tag (so-called IC card) is used.
The IC tag 14 has an IC chip mounted thereon, and transmits authentication data stored in the memory of the chip to the IC tag reader 10a over radio waves.
The antenna 11f is disposed in the main body 11 so as to receive the radio wave transmitted from the IC tag 14 regardless of the open / closed state of the lid member 12.

The microcomputer 11g of the IC tag reader 10a is an electronic circuit including a CPU, a storage device, etc., and authentication data received from the IC tag 14 by the antenna 11f, an open switch 11a1, a stop switch 11a2, a close switch 11a3, and a changeover switch. A contact signal such as 13 is input, and these input signals are transmitted to the control unit 20 via the interface 11h.
Two wires L1 for communication between the operation unit 10 and the control unit 20 are used by setting the communication method between the operation unit 10 and the control unit 20 to a so-called serial communication method.

Further, when the microcomputer 11g receives the authentication data of the IC tag 14 by the antenna 11f, the microcomputer 11g supplies power to the LED 11j and the buzzer 11k, and the authentication data is received by the light emission of the LED 11j and the alarm sound of the buzzer 11k. To the operator.
In addition, the electric power of this microcomputer 11g is supplied from the control part 20 via the two electric wires L2 and L2.

And the operation part 10 of the said structure is mounted | worn to the housing | casing wall surface which is the installation object of the shutter apparatus A through the fixing bracket 30. FIG.
The fixing bracket 30 can be attached to an existing switch box x fixed to the wall surface of the casing on which the shutter device A is to be installed, and can be attached to the operation unit 10 (see FIG. 3). .

  More specifically, the fixing bracket 30 has a substantially rectangular plate shape, and on the front side thereof, a hook portion 31 for engaging the retaining hole 11d of the main body portion 11 and a screw that penetrates the main body portion 11 are provided. A screw hole 32 for screwing b1 is formed. In addition, an electric wire insertion hole 33 through which the four electric wires L1, L1, L2, and L2 are inserted is formed on the center side of the fixed bracket 30.

The material of the fixing bracket 30 can be synthetic resin, wood, metal, or the like, but stainless steel is used according to a preferred example of the present embodiment.
That is, the sensing distance of the IC tag 14 by the IC tag reader 10a is affected by the material of the member on the back side of the IC tag reader 10a. The inventor of the present application has confirmed that the perceived distance is a relatively short and substantially constant distance when stainless steel is present on the back side of the IC tag reader 10a after an experiment of thought and error.
Therefore, in the present embodiment, by using stainless steel as the material of the fixing bracket 30, the sensing distance of the IC tag 14 by the IC tag reader 10 a is substantially set regardless of the material of the location (the housing wall surface) to which the operation unit 1 is attached. The operability at the time of collation operation is improved.

The fixing bracket 30 having the above-described configuration is fixed to the screw hole x1 of the existing switch box x mounted on the housing wall surface by a plurality of screws b2.
That is, the operator forms a through hole in the fixing bracket 30 so as to coincide with the screw hole x1 of the existing switch box x, and inserts the screw b2 into the through hole, and the screw b2 is inserted into the screw of the switch box x. Screwed into the hole x1.
Note that a plurality of through holes into which the screw b2 can be inserted are provided in the fixed bracket 30 in advance, and any of the through holes is selected, and the screw b2 may be inserted into the selected through hole.

Then, the four electric wires L 1, L 1, L 2, and L 2 on the housing wall surface side are connected to the IC tag reader 10 a in the operation unit 10 through the electric wire insertion hole 33 of the fixing bracket 30. Further, the operation unit 10 is attached to the fixed bracket 30 fixed to the housing wall surface from the front side.
If this mounting operation is described in detail, the latching hole 11 d of the main body 11 is locked to the hook 31 of the fixing bracket 30, and the screw b 1 penetrating through the main body 11 is screwed into the screw hole 32 of the fixing bracket 30. Combined.

  The control unit 20 includes a microcomputer 21 having a CPU and a storage device, an interface 22 for inputting a signal from the operation unit 10 to the microcomputer 21, and inputs and deletes authentication data to the microcomputer 21. A registration switch 23 and an erasure switch 24, a relay circuit 25 for outputting an output signal from the microcomputer 21 as a contact signal to the shutter control panel a32, a power supply circuit 26 for supplying power to the microcomputer 21 and the IC tag reader 10a, etc. Thus, it is disposed on the indoor side of the shutter device A and is mounted on the wall surface of the housing.

The microcomputer 21 constitutes a collation data storage unit that enables a plurality of pieces of collation data to be stored in the storage device. As a storage device for storing the verification data, for example, an EEPROM (Electrically Erasable Programmable Read-Only Memory), a flash memory, other nonvolatile memory, a RAM, or the like is used.
Further, the microcomputer 21 includes a collation unit for collating the authentication data transmitted from the operation unit 10 with the collation data stored in the collation data storage unit based on a program stored in the storage area, and a control target mode. Each function functions as a means for outputting the control command corresponding to the result of the collation by the collation means and / or the operation signal.

  The microcomputer 21 transmits the authentication data captured by the antenna 11f, the operation signal input by the operation switch 11a, the switch signal input by the changeover switch 13, and the like from the microcomputer 11g of the operation unit 10 to the serial transfer method. Receive at.

  Further, the microcomputer 21 receives a door fully closed signal which is information indicating that the door provided with the locking device B is fully closed.

  The microcomputer 21 outputs a predetermined control command to the relay circuit 25 in accordance with the collation result by the collating means, the operation signal from the operation switch 11a, the signal from the changeover switch 13, and the like.

The relay circuit 25 is a circuit including an open relay 25a, a stop relay 25b, a close relay 25c, a door unlocking relay 25d, and the like.
The opening relay 25a, the stop relay 25b, and the closing relay 25c are used to stop the opening / closing body a1 as a contact signal for opening the opening / closing body a1 of the shutter device A in response to a control command from the microcomputer 21 of the control unit 20. And a contact signal for closing the opening / closing body a1 are transmitted to the shutter control panel a32 of the shutter device A, respectively.
Further, the door unlocking relay 25 d transmits a contact signal for unlocking the door locking device B in response to a control command from the microcomputer 21 of the control unit 20.
The door unlocking relay 25d may be, for example, a general relay including an electromagnetic coil and a contact, but may be a semiconductor element (such as a transistor) having a switching function.

Thus, according to the above configuration, the fixing bracket 30 can be fixed to the housing wall surface regardless of the position of the screw hole x1 of the existing switch box x, and the switch box x embedded in the housing wall surface needs to be removed. The mounting workability is good.
In addition, since the operation unit 10 and the control unit 20 are connected by four wires, that is, the communication wires L1 and L1 and the power wires L2 and L2, these four wires are the existing wires. It can be used as it is without changing the electric wire.
That is, in the wiring of the switch box in a normal shutter device, four wires of an open signal wire, a stop signal wire, a close signal wire, and a COM wire are used. These four electric wires can be used effectively as they are.

Next, the operation by the switchgear control system 1 will be described in detail along the flowchart shown in FIG.
The flowchart shown in FIG. 5 shows the operation of the microcomputer 21 when functioning according to a program stored in advance.
First, the microcomputer 21 determines whether or not the authentication data matches the verification data (step 1).
That is, when the IC tag 14 is held over the operation unit 10, the antenna 11f receives the authentication data from the IC tag 14, and the received authentication data is transmitted to the microcomputer 21 via the microcomputer 11g and the interfaces 11h and 22. Is done. Then, the microcomputer 21 compares the received authentication data with the pre-registered collation data, and if the two data match, the microcomputer 21 proceeds to the next step 2; otherwise, the IC 21 Each time the tag 14 is held over the operation unit 10, the process in step 1 is performed.
That is, according to step 1, the microcomputer 21 functions as a collation unit that collates the authentication data and the collation data.
Here, the authentication data and the verification data corresponding to the authentication data may be different data for each control target (the shutter device and the door locking device according to the illustrated example), or for a plurality of control targets. The data may be common data, or may be data in which different data for each control target and data common to a plurality of control targets are mixed.
More specifically, the authentication data and verification data when the control target is a shutter device, and the authentication data and verification data when the control target is a door locking device may be different, It may be common.
In addition, the authentication data and verification data when the control target is a shutter device and the authentication data and verification data when the control target is a door locking device are data in which a common part and a non-common part are mixed. May be.

In the next step 2, the microcomputer 21 functions as the control target switching means, and processing is distributed according to the ON / OFF state of the changeover switch 13.
That is, when the operation unit 10 is used in a state where the lid member 12 is opened and the changeover switch 13 is turned off (or turned on), it is determined that the control target is a shutter device, and the next process is performed in step 3. And
Further, when the operation unit 10 is used in a state in which the lid member 12 is closed and the changeover switch 13 is turned on (or turned off) in a state opposite to the above state, the control target is the door locking device B. It is determined that there is, and the next processing is set as step 13.

  In step 3, the control target mode is set to the shutter operation mode, and the process proceeds to the next step 4.

  In step 4, the operation valid time timer T1 is reset to 0 seconds, counting by the timer is started, and the process proceeds to the next step 5a.

  In step 5a, it is determined whether or not there is a stop signal by operating the stop switch 11a2 of the operation unit 10. If there is a stop signal, the process proceeds to the next step 6a. The process proceeds to step 5b.

In step 6a, a stop command (specifically, coil power of the stop relay 25b) is output from the microcomputer 21 to the stop relay 25b for a predetermined time (for example, 0.5 seconds), and the process proceeds to step 7.
Therefore, the stop relay 25b outputs a contact signal for stopping the opening / closing body a1 to the shutter control panel a32 of the shutter device A for the predetermined time.
The shutter control panel a32 of the shutter device A has a circuit configuration that stops the electric drive source a31 and stops the opening / closing operation of the opening / closing body a1 when the contact signal of the predetermined time is input from the stop relay 25b. Has been.

  In step 5b, it is determined whether or not there is an open signal due to the operation of the open switch 11a1 of the operation unit 10. If there is an open signal, the process proceeds to the next step 6b, and if not, The process proceeds to step 5c.

In step 6b, a stop command (specifically, the coil power of the open relay 25a) is output from the microcomputer 21 to the open relay 25a for a predetermined time (for example, 0.5 seconds). A contact signal for opening the opening / closing body a1 is output to the shutter control panel a32. Then, the processing by the microcomputer 21 proceeds to step 7.
The shutter control panel a32 of the shutter device A is configured to operate the opening / closing body a1 in the opening direction by driving the electric drive source a31 when the contact signal for the predetermined time is input from the opening relay 25a. ing.

  In Step 5c, it is determined whether or not there is an open signal due to the operation of the closing switch 11a3 of the operation unit 10. If there is an open signal, the process proceeds to the next Step 6c. The process proceeds to step 6d.

In step 6c, a stop command (specifically, the coil power of the closing relay 25c) is output from the microcomputer 21 to the closing relay 25c for a predetermined time (for example, 0.5 seconds). A contact signal for closing the opening / closing body a1 is output to the shutter control panel a32. Then, the processing by the microcomputer 21 proceeds to the next step 7.
The shutter control panel a32 of the shutter device A is configured to operate the opening / closing body a1 in the closing direction by driving the electric drive source a31 when the contact signal for the predetermined time from the closing relay 25c is input. ing.

  Further, in step 6d, it is determined whether or not the count by the operation valid time timer T1 has passed a predetermined time (for example, 10 seconds), and if it has elapsed, the process proceeds to step 7; Then, the process returns to step 5a.

  That is, according to the flowcharts after step 4, the stop operation, the opening operation, and the closing operation are made effective only for a predetermined operation effective time, and after the predetermined operation effective time has elapsed, the state of waiting for the collation operation again. It becomes.

In step 13, the control target mode by the microcomputer 21 is set to the door locking device mode, and the process proceeds to the next step 14.
In step 14, the unlock signal (specifically, the coil power of the door unlocking relay 25d) is transmitted from the microcomputer 21 to the door unlocking relay 25d, and the door unlocking relay 25d sends a signal to the door locking device B. Turn on the contact for transmitting.
The door locking device B is configured to unlock the door by a contact signal from the door unlocking relay 25d.

In the next step 15, the door opening / closing operation valid time timer T2 is reset to 0 seconds and starts counting.
Further, in step 16, it is determined whether or not a door full close signal is input to the microcomputer 21. If input, the process proceeds to the next step 17, and if not, the process proceeds to step 18. Transition.

In step 17, the unlocking signal issued from the microcomputer 21 in step 14 is turned off.
More specifically, the coil power supplied from the microcomputer 21 to the door unlocking relay 25d is cut off, and the signal transmission contact of the door unlocking relay 25d is turned off.
Therefore, the door locking device B returns to the locked state.
After step 17, the processing by the microcomputer 21 proceeds to step 7.

That is, after the door locking device B is unlocked in step 14, the door is opened by the operator, and when the door is fully closed, a door fully closed signal is transmitted from the door side to the microcomputer 21. The microcomputer 21 recognizes that the door is fully closed by the door fully closed signal, and cuts off the output of the unlock signal. Therefore, the door locking device B is locked.

Further, in step 18, it is determined whether or not the count by the door opening / closing operation valid time timer T2 has passed a predetermined time (for example, 10 seconds), and if it has passed, the process proceeds to step 17; Returns processing to step 16.
That is, after unlocking the locking device B by a collation operation, the operator opens the door, passes through the opening, and fully closes the door during the predetermined time. After the predetermined time has elapsed, the unlocking signal is turned off and the locking device B is locked. Therefore, the door cannot be opened or closed unless the collating operation is performed again.
The predetermined time is a time that is appropriately set in consideration of door usability and the like, and may be the same as or different from the predetermined time in step 6d described above.
Further, in the flowchart shown in FIG. 5, the step 4 and the step 15 are omitted, and instead, a process for starting the operation effective time timer common to the controlled objects is performed between the step 1 and the step 2. May be. In this case, the processing corresponding to the count of the operation effective time timer common to the control objects may be each of step 6d and step 18.

  In step 7, the process is returned to step 1 again, thereby waiting for a collation operation by the IC tag 14.

Thus, according to the above configuration, when the opening / closing device control stem 1 is used as a control system for the door locking device B, the operation unit 10 is in a state where the lid member 12 is closed (shown in FIG. 2A). State). That is, when the lid member 12 is in the closed state, the opening / closing device control system 1 enters the door locking device operation mode. In the verification operation, the IC tag 14 is held from the outside of the closed lid member 12.
When the opening / closing device control system 1 is used as a control system for the shutter device A, the operation unit 10 is used so that the lid member 12 is opened and closed. That is, when the collating operation or the operation on the operation switch 11a is performed, the lid member 12 is opened, and the opening / closing device control system 1 enters the shutter operation mode.

  Therefore, according to the above configuration, appropriate control for a plurality of opening / closing devices can be selectively performed by the single opening / closing device control system 1 and used in combination with the shutter device A and the door locking device B having different control modes. can do. In addition, since the control operation starts after the authentication data matches the verification data, the crime prevention property is also good.

  The opening / closing device control system 1 can be used in a manner in which only the shutter device A is controlled, and in a method in which only the door locking device B is controlled, and the opening relay 25a, The shutter device A is connected to the output contacts of the stop relay 25b and the closing relay 25c, and the door locking device B is connected to the output contact of the door unlocking relay 25d, so that the shutter device A and the door locking device B are connected. It is possible to use both of them as control objects.

According to the above embodiment, the object to be opened / closed and stopped is the shutter device A, and the object to be locked / unlocked is the door locking device B. It is also possible to use an opening / closing device other than a shutter device that opens and closes electrically (for example, a door, a sliding door including a shutter, a window, a roll screen, a blind, an awning device, a gate, a gate, a sliding wall device, etc.).
Furthermore, the object to be locked may be a locking device other than the door (for example, a shutter, a sliding door including a shutter, a window, a roll screen, a blind, an awning device, a gate, a gate, a sliding wall device, etc.). Is possible.

Further, according to the opening / closing device control system 1, the control object switching means is configured to be turned on / off by opening / closing the lid member 12 by the changeover switch 13 on the operation unit 10 side, but as shown in FIG. The changeover switch 13 may be omitted from the unit 10, and the manual changeover switch 13 ′ may be provided in the control unit 20 so that the control target mode is switched on the control unit 20 side.
Note that the block diagram of FIG. 6 has a configuration in which the changeover switch 13 is replaced with the changeover switch 13 ′ as described above, and therefore, the same reference numerals are assigned to the same portions, and redundant detailed description is omitted.

Further, according to the above-described embodiment, it is configured to determine whether or not the authentication data matches the verification data only once. However, by making this determination multiple times, crime prevention is further improved. It is also possible to do.
More specifically, for example, the shutter device A includes a shutter electric lock that locks the opening / closing body a1 when fully closed or the like, and the shutter electric lock is unlocked by a first verification operation. After the unlocking, the shutter device A can be operated without performing the second verification operation within a predetermined operation valid time, and the second verification operation is performed when the operation valid time is exceeded. In some cases, the shutter device A may be operated.

Moreover, according to the switchgear control system 1 described above, an example in which the IC tag reader 10a that receives authentication data wirelessly transmitted from the IC tag is used as the authentication data input means has been described. As an example, a fingerprint sensor that senses the fingerprint of the fingertip of an operator or the like may be used as the authentication data input unit.
The switching device control system using the fingerprint sensor is not shown in the figure, but in the switching device control system 1, the IC tag 14 and the antenna 11f are omitted and the data read by the fingerprint sensor to the microcomputer 11g. The data may be transmitted from the microcomputer 11g to the microcomputer 21 via the interfaces 11h and 22, and the transmitted data may be collated by the microcomputer 21.
The fingerprint sensor is a well-known sensor that captures the concave / convex pattern of the fingerprint of the fingertip as data by touching the fingertip of an operator or the like and outputs the data as an electrical signal. What is necessary is just to arrange | position in the main body part 11 etc. which are not covered with the inside of the member 12, or the cover member 12.
In addition, fingerprint data of a plurality of operators is registered in advance as collation data in the storage device of the microcomputer 21 on the control unit 20 side.
The processing by the microcomputer 21 in the case of this configuration is that fingerprint data transmitted from the operation unit 10 side is any one of the plurality of fingerprint data registered in advance in step 1 in the flowchart shown in FIG. If they match, the process proceeds to the next step 2; otherwise, it waits for the re-input of fingerprint data.

It is a schematic block diagram which shows an example of the switchgear control system concerning this invention, and the control object of this control system. It is a front view which shows the operation part of the switchgear control system, (a) shows the state which closed the cover member, (b) shows the state which opened the cover member. It is an attachment structure figure of the operation part of the switchgear control system. It is a block diagram of the switchgear control system. It is a flowchart which shows operation | movement of the switchgear control system. It is a block diagram which shows the other example of the switchgear control system concerning this invention.

Explanation of symbols

A: Shutter device B: Door locking device 10: Operation unit 10a: IC tag reader 11a: Operation switch 11a1: Open switch 11a2: Stop switch 11a3: Close switch 12: Lid member 13: Changeover switch 14: IC tag 20: Control Part 25: Relay circuit

Claims (8)

A switchgear control system configured to output a control command for controlling the switchgear according to a signal input from the outside,
An authentication data input means that allows input of authentication data from outside;
An operation signal input means for enabling input of an operation signal for operating the switchgear by an external operation;
Collation data storage means for storing collation data input in advance;
Verification means for verifying the authentication data and the verification data;
Control target switching means that enables switching of the control target mode by an external operation,
The switchgear control system according to claim 1, wherein the control command according to the collation result by the collating means and / or the operation signal is output for each control target mode.   2. The switchgear control system according to claim 1, wherein the authentication data input means is an IC tag reader that receives authentication data wirelessly transmitted from an IC tag.   2. The opening / closing device according to claim 1, wherein the authentication data input means is a fingerprint sensor that takes in the pattern of the concave and convex portions of the fingerprint of the fingertip as data when the fingertip is touched and outputs the data as an electrical signal. Device control system. The control target mode includes a locking device operation mode and a shutter device operation mode,
An unlocking signal for unlocking the locking device when the locking device operation mode is selected by the control object switching unit and the verification unit confirms that the authentication data matches the verification data. Is output as the above control command,
When the shutter device operation mode is selected by the control object switching unit and the verification unit confirms that the authentication data matches the verification data, the signal input by the operation signal input unit is 4. The switchgear control system according to claim 1, wherein an operation signal based on the control command is output as the control command. A switchgear control system comprising an operation unit disposed on the outdoor side of the switchgear and a control unit disposed on the indoor side of the switchgear,
The operation unit includes the authentication data input unit and the operation signal input unit, and the control unit includes the verification data storage unit and the verification unit.
5. The authentication data and the operation signal input from the outside are transmitted from the operation unit to the control unit, and the control command is output from the control unit. The switchgear control system according to item. The operation unit is provided with a lid member that can be opened and closed,
6. The control object switching means is configured to switch the control object mode in accordance with an open / closed state of the lid member when authentication data is input to the authentication data input means. The switchgear control system described.   The operation unit and the control unit are electrically connected by four electric wires, two of the four electric wires are used as electric power supply wires, and the other two are connected from the operation unit to the control unit. 7. The switchgear control system according to claim 5, wherein the authentication data and the operation signal are used as an electric wire for serial transfer. A fixing bracket for installing the operation unit is provided,
6. The fixing bracket can be attached to an existing switch box fixed to a casing wall surface on which an opening / closing device is to be installed, and can be attached to the operation unit. The switchgear control system of any one of thru | or 7.

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