JP2006254151A - Operation terminal of control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an operation terminal of a control system capable of simply and easily setting communication address. <P>SOLUTION: This switch unit 13 is provided with an SWU (switching unit) communication terminal part 31 for connecting a communication line, consisting of a pair signal lines connected to a supervisory and controlling device, capable of controlling the operations of a plurality of illuminating devices; an SWU transmitting and receiving part 32 for communicating with the supervisory and control device via the SWU communication terminal part 31 and the communication line, an input part 34, including a plurality of switching elements 341 arranged in one direction for receiving an input operation; a switching part 37 and an allocating part 332 for setting a communication address, in each of the plurality of switch elements 341 in either one direction row sequence or a sequence reverse to the row sequence; and an SWU control part 33 for transmitting a signal for controlling the operation of a load device corresponding to a communication address of a switching element 341 from the SWU transmitting and receiving part 32 to the supervisory and the control device, when the switching element 341 is operated. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention is used in a control system including a plurality of load devices such as lighting fixtures and a control device that controls the plurality of load devices, and transmits a plurality of signals for controlling the operation of the load device to the control device. The present invention relates to an operation terminal of a control system including the switch element.

  For example, when on / off control is performed on a load device such as a lighting device, the on / off control can be performed by providing a switch such as a cut-off switch on the power line from the distribution board to the load device. However, when the number of load devices increases, it is necessary to route a large number of power lines, resulting in poor workability and maintenance manageability. Further, it is not preferable to perform control such as group control for performing on / off control of a plurality of lighting devices in one group, or pattern control for controlling in a predetermined pattern for each group. Therefore, a monitoring control system in which a relay, a monitoring control slave unit, a monitoring control master unit, and an operation switch are provided between a distribution board and a load device has been developed. It is disclosed.

  FIG. 9 is a block diagram illustrating a configuration of the illumination monitoring control system according to Non-Patent Document 1. As illustrated in FIG. In FIG. 9, the illumination monitoring control system 500 includes one or more illumination devices 501 that are examples of load devices, a remote control relay 502 provided corresponding to the illumination device 501, and one or more terminal units (hereinafter referred to as a “unit”). , A transmission unit 504, and a switch unit 505. The T / U 503, the transmission unit 504, and the switch unit 505 are a common signal line. The communication lines 506 are communicably connected to each other. In the example shown in FIG. 9, eight lighting devices 501-1 to 501-8 are shown, and eight remote control relays 502-1 to 502-8 are provided accordingly. Here, in this specification, when referring generically, it shows with the reference symbol which abbreviate | omitted the suffix, and when referring to an individual structure, it shows with the reference symbol which attached the suffix.

  The remote control relay 502 turns on / off the power supplied from the power line to the lighting device 501 under the control of the T / U 503, and changes the on / off operation state (on / off state) of the lighting device 501 to the on / off operation state (on / off state). Is output to the T / U 503.

  The T / U 503 individually controls the on / off of the remote control relay 502 according to the signal received from the transmission unit 504 via the communication line 506 and sets the on / off state of the remote control relay 502 (in other words, the lighting device 501 is turned on / off). This is a monitoring control slave unit that transmits to the transmission unit 504 via the communication line 506. The T / U 503 is configured to drive one or a plurality of remote control relays 502. In the example shown in FIG. 9, one T / U 503 can drive four remote control relays 504. The illumination monitoring and control system 500 includes a T / U 503-1 that drives the remote control relays 501-1 to 501-4 and a T / U 503-2 that drives the remote control relays 501-5 to 501-8.

  The switch unit 505 is an operation display terminal that is operated (on / off operation) or the like by an operator and displays the lighting / extinguishing state of the lighting device 501. For example, one or a plurality (8 in FIG. 9) accepts the operation of the operator. Display switches DS (DS-1 to DS-8) each provided with a light emitting element such as a light emitting diode which is provided in the vicinity of the switch SW and displays a light-on / off state. 8). Each switch SW is assigned an address (switch address) of the switch SW. When the switch SW is operated, a notification that the operation has been performed (switch state) and the address of the own device are displayed. The included signal is transmitted to the transmission unit 504 via the communication line 506, and various lighting devices 501 are individually controlled, group controlled, and pattern controlled by each switch SW. Control is possible.

  The transmission unit 504 controls the energization of the lighting device 501 via the T / U 503 and the remote control relay 502 according to the signal transmitted from the switch unit 505 via the communication line 506 and monitors the on / off state of the lighting device 501. It is a supervisory control master unit. The transmission unit 504 associates the switch address of each switch SW of the switch unit 505 with the address (load address) of the lighting device 501 assigned to each lighting device 501, and the on / off state of the remote control relay 502 (lighting) An operation state table indicating the lighting / extinguishing state of the device 501 is stored. When the switch SW of the switch unit 505 is operated by the operator and receives a signal including the switch address of the switch SW, the transmission unit 504 searches the correspondence table for one or more lighting devices 501 to be controlled based on the switch address. Then, the current operation state of the searched lighting device 501 is searched from the operation state table, and the remote controller corresponding to this lighting device 501 is set so that the lighting device 501 is in an operation state opposite to the current operation state. The energization of the lighting device 501 is controlled by controlling the relay 502 on and off. The load address is composed of, for example, a number (load channel) assigned to the T / U 503 and a number (load number) assigned to the connection terminal (connection port) of the T / U 503 that connects the remote control relay 502. Yes.

  The above signal transmitted through the communication line 506 will be described. The signal transmitted from the transmission unit 504 to the T / U 503 and the switch unit 505 is, for example, a start pulse signal indicating the start of signal transmission as shown in FIG. ST, a mode data signal MD indicating a signal mode, an 8-bit address data signal AD for calling each T / U 503 and the switch unit 505, a control data signal CD for controlling a load device, and error control This is a ± 24V AC time-division multiplexed signal comprising a checksum data signal CS and a reply standby signal WT from the T / U 503 and the switch unit 505, so that data is transmitted by pulse width modulation. It has become.

  On the other hand, each T / U 503 and the switch unit 505 compare the address data signal AD of the signal transmitted via the communication line 506 with an address set in advance in the own device, and if the signals match, In addition to taking in the control data signal CD, in the period of the return standby signal WT, a monitoring data signal such as a switch state, monitoring data, load operation confirmation data, etc. is obtained by connecting a low resistance between the communication lines 506. Reply with a signal. Such an operation is performed for each switch unit 505 and T / U 503 at predetermined intervals. When data to be transmitted is generated from the switch unit 505 or T / U 503, the switch unit 505 or T / U 503 transmits an interrupt signal Vi synchronized with the start pulse signal ST as shown in FIG. 10B. To 504. When the transmission unit 504 receives the interrupt signal Vi, the transmission unit 504 transmits a signal in which the mode data signal MD is set to the address confirmation mode to the communication line 506, so that the terminal (switch unit 505 or T / U503) is detected and accessed, and a monitoring data signal is returned.

  In order to perform such communication, it is necessary to assign a switch address as a communication address to each switch SW-1 to SW-8 of the switch unit 505 as described above. 601 (see FIG. 9) was used. The setting tool 601 includes, for example, a display unit 611 such as an LCD, an input unit 612 that inputs a switch address, an optical signal transmission / reception unit 613 that transmits / receives an optical signal, and a micro that controls these according to the function, for example The optical signal transmission / reception unit 613 of the setting tool 601 is brought close to the optical signal transmission / reception unit W provided in the switch unit 505, and includes a switch address input from the input unit 612. By transmitting a signal to the switch unit 505, the switch address is stored in the storage unit of the switch unit 505, and the switch address of each switch SW is set.

On the other hand, another example of the switch unit 505 used in such an illumination monitoring control system 500 is disclosed in Patent Document 1, for example. This patent document generates operation data based on an operation, and is connected to a transmission unit as a central controller and a control terminal for controlling the operation of a load via a two-wire signal line. Terminal for remote monitoring control system that controls the operation of the load according to the operation data by transmitting the transmission signal including the address data specifying each terminal in a time division manner and accessing each terminal individually A substantially flat body having a circuit board having a switch element, a cover on the front surface of the body and having an operation piece for appropriately pressing the switch element by elastic deformation, and a front surface of the cover A decorative cover having an insertion portion corresponding to the operation piece, and a substantially rectangular shape having flexibility in the thickness direction so that the operation piece can be operated on the front surface of the decorative cover. In a terminal for operation comprising an approximately sheet-shaped nameplate provided with an operation portion, a portion corresponding to the approximate center of the operation portion of the nameplate is formed in a substantially circular shape in the insertion portion of the decorative cover. A terminal for operating the remote monitoring control system is disclosed.
"Multi-transmission full 2-wire remote control", Matsushita Electric Works, Ltd., May 2004, WWCT1B186, p16, p47, p48 Japanese Patent Laid-Open No. 9-018969

  By the way, in the background art, it is necessary to use the setting tool 601 for setting the switch address. For this reason, users such as installers are required to have a certain skill to use the setting tool 601. In addition, a setting tool 601 has to be prepared.

  The present invention has been made in view of the above-described circumstances, and an object thereof is to provide an operation terminal of a control system that can easily and easily set a communication address.

  To achieve the above object, an operation terminal of a control system according to an aspect of the present invention is connected to a communication line including a pair of signal lines connected to a control device capable of controlling the operation of a plurality of load devices. A communication terminal unit, a transmission / reception unit that communicates with the control device via the communication terminal unit and the communication line, a plurality of switch elements arranged in one direction for receiving an input operation, and an arrangement order in the one direction And an address setting unit that sets a communication address for each of the plurality of switch elements in any one of the reverse order of the one-way arrangement order, and the communication address of the switch element when the switch element is operated And a control unit that transmits a signal for controlling the operation of the load device corresponding to the control unit from the transmission / reception unit to the control device.

  In the operation terminal of the control system, the address setting unit sets a communication address to be set for each of the plurality of switch elements in the arrangement order in the one direction or in the reverse order to the arrangement order in the one direction. And a switching unit that switches whether to set the communication unit, and an allocating unit that allocates a communication address to each of the plurality of switch elements according to the setting of the switching unit.

  Further, in the operation terminal of the control system described above, the communication terminal unit includes three terminals, and the address setting unit is configured according to a combination of terminals of the communication terminal unit to which the communication line is connected. A communication address is set for each of the plurality of switch elements in any one of an arrangement order in one direction and a reverse order of the arrangement order in the one direction.

  Furthermore, in the operation terminal of the control system according to another aspect of the present invention, the communication terminal unit, the transmission / reception unit, the plurality of switch elements, and the address setting in any of the above-described control system operation terminals. And a cover having a plurality of operation pieces that respectively press the plurality of switch elements by being elastically deformed on the front surface of the body; A decorative cover having a plurality of insertion openings opened on the front surface of the cover and corresponding to the plurality of operation pieces, respectively, and a plurality of operation pieces on the front surface of the decorative cover so that each of the operation pieces can be operated. A substantially sheet-shaped nameplate provided with a plurality of operation portions having flexibility in the thickness direction, and a name sheet held between the decorative cover and the nameplate. For example, the decorative cover is characterized by further having two insertion opening for inserting said name sheet from two directions.

  The operation terminal of the control system having such a configuration can easily and easily set the communication address by the address setting unit without requiring a setting tool.

Embodiments according to the present invention will be described below with reference to the drawings. In addition, the structure which attached | subjected the same code | symbol in each figure shows that it is the same structure, The description is abbreviate | omitted.
(Configuration of the first embodiment)
FIG. 1 is a diagram illustrating a configuration of a monitoring control system according to the embodiment. FIG. 2 is a block diagram illustrating an electrical configuration of the monitoring control device according to the embodiment. FIG. 3 is a block diagram illustrating an electrical configuration of the switch unit according to the first embodiment. FIG. 4 is an exploded perspective view of the switch unit according to the first embodiment. FIG. 5 is a rear view and a rear perspective view of the decorative cover in the switch unit according to the first embodiment. FIG. 5A is a rear view of the decorative cover, and FIG. 5B is a rear perspective view of the decorative cover.

  In FIG. 1, a monitoring control system 1 includes a monitoring control device 11 that is an example of a control device, one or more remote control relays 12 that are examples of relays, and one or more lighting devices 501 that are examples of load devices. The monitoring control device 11 and the switch unit 13 are communicably connected to each other via a communication line 506 including a pair of signal lines. In the example shown in FIG. 1, seven lighting devices 501-1 to 501-7 are provided in the monitoring control system 1, and according to this, the seven remote control relays 12-1 to 12-7 are monitored and controlled. It is attached to the device 11. Further, the state where the remote control relay 12 is mounted on the monitoring control device 11 by the remote control relay 12-8 is shown. In this embodiment, the same reference numerals are given to the same components as those according to the background art, and the description thereof is omitted.

  The monitoring control device 11 controls the energization of the lighting device 501 via the remote control relay 12 by individually turning on and off the remote control relay 12 according to the monitoring data signal transmitted from the switch unit 13 via the communication line 506. In addition, the remote monitoring relay 12 is an apparatus that individually monitors the on / off operation state (on / off state) (in other words, the lighting device 501 on / off operation state (light on / off state)). In other words, the monitoring control device 11 is a device having at least the function of the transmission unit 504 and the function of the T / U 503 according to the background art. Therefore, the monitoring control system 1 using the monitoring control device 11 according to the present invention does not require an installation area and the installation place is more free than the monitoring control system 500 using the transmission unit 504 and T / U 503 according to the background art. The degree has improved. In addition, since there is no need to wire a communication line 506 between the transmission unit 504 and the T / U 503 or individual power lines to the transmission unit 504 and the T / U 503, the monitoring control system 1 according to the present invention is easier. The workability is improved, for example, wiring errors can be suppressed.

  For example, as shown in FIG. 2, the electrical configuration of such a monitoring control device 11 includes a power receiving terminal unit 21, a power supply unit 22, a voltage detection unit 23, a relay control power supply unit 24, and a monitoring control. Device transmission / reception unit (hereinafter abbreviated as “SC transmission / reception unit”) 25, supervisory control device communication terminal unit (hereinafter abbreviated as “SC communication terminal unit”) 26, and one or more relay processing units 27. And a supervisory monitoring control device control unit (hereinafter abbreviated as “SC control unit”) 28 and a supervisory control device storage unit (hereinafter abbreviated as “SC storage unit”) 29. .

  The power receiving terminal unit 21 is a terminal for connecting a power line to receive power supply, and includes three terminals 21-1 to 21-3. The power supply unit 22 is supplied with a voltage from the power receiving terminal unit 21 according to ON / OFF of a power switch (not shown), and is stabilized to a predetermined low voltage such as 5V or 24V by rectifying and stepping down the supplied voltage. The power supply unit 24 for relay control, the SC transmission / reception unit 25, the SC control unit 28, the SC storage unit 29, and the like supply the power to each unit that requires power. The voltage detection unit 23 is a circuit that detects a voltage value supplied from the power supply unit 22 to the SC control unit 28 and outputs the detected value to the SC control unit 28. The relay control power supply unit 24 is a circuit that stabilizes the voltage supplied from the power supply unit 22 to a voltage value necessary for controlling the remote control relay 12 and supplies the voltage to the remote control relay 12 via the relay processing unit 27. . The SC transceiver unit 25 is a circuit that communicates with the switch unit 13 via the communication line 506. The SC communication terminal unit 26 is a terminal for connecting a pair of signal lines in the communication line 506, and includes two terminals 26-1 and 26-2.

  The signal in the communication between the monitoring control device 11 and the switch unit 13 is the same as the background art signal shown in FIG. That is, the signals transmitted from the supervisory controller 11 to the switch unit 13 are, as shown in FIG. 10A, a start pulse signal ST, a mode data signal MD, an address data signal AD, and a control data signal CD. This is a ± 24V AC time-division multiplexed signal comprising a checksum data signal CS and a reply standby signal WT from the switch unit 14, and data is transmitted by pulse width modulation. Yes. On the other hand, the switch unit 13 compares the address data signal AD of the above signal transmitted via the communication line 506 with the address set in advance in its own device, and if it matches, the control data signal CD of the signal is obtained. In addition, during the period of the return standby signal WT, monitoring data signals such as switch status, monitoring data, and load operation confirmation data are returned as a current mode signal obtained by connecting a low resistance between the communication lines 506. The transmission / reception unit 25 performs such an operation on the switch unit 13 at predetermined intervals based on the control of the control unit 28, and when data to be transmitted from the switch unit 13 is generated, the switch unit As shown in FIG. 10B, 13 transmits an interrupt signal Vi synchronized with the start pulse signal ST to the monitoring control device 11. Upon receiving this interrupt signal Vi, the supervisory control device 11 detects the switch unit 13 that generated this interrupt signal Vi by transmitting a signal in which the mode data signal MD is set to the address confirmation mode to the communication line 506. Access and return the monitoring data signal.

  The relay processing unit 27 is connected to the remote control relay 12, drives the remote control relay 12 on and off based on the control of the SC control unit 28, and detects the on / off state of the remote control relay 12 (in other words, the lighting device 501 is turned on / off). To the SC control unit 28. In the relay processing unit 27, a number (circuit number) for specifying and identifying the relay processing unit 27 is set in advance. For example, 1 to 8 is assigned to each of the relay processing units 27-1 to 27-8. The circuit number is set. The SC control unit 28 is configured to include, for example, a microprocessor and its peripheral circuits, and manages control according to the function of each unit in the monitoring control device 11. The SC control unit 28 is transmitted from the switch unit 13 via the communication line 506. A circuit that controls the energization of the lighting device 501 by individually driving the remote control relay 12 on and off by the relay processing unit 27 according to the monitoring data signal, and individually monitors the on / off state of the remote control relay 12 by the relay processing unit 27. is there. The SC storage unit 29 includes various programs such as a remote control relay control program for controlling the remote control relay 12, and various data such as data necessary for execution of various programs such as address information and control information, and data generated during the execution. Remember. The address information is information indicating a correspondence relationship between the address (load address) of the lighting device 501 assigned to each lighting device 501 and the switch address of each switch element 341 (see FIGS. 3 and 4) of the switch unit 13. Generated for each load address. The control information is information indicating a correspondence relationship between a load address and a control target in the lighting device 501 of the load address, and is generated for each load address. In this embodiment, the load address is the circuit number set in advance in the relay processing unit 27.

  Returning to FIG. 1, the remote control relay 12 turns on / off the power supply from the power line to the lighting device 501 under the control of the monitoring control device 11, and outputs the on / off state to the monitoring control device 11 as the lighting / light-off state of the lighting device 501. To do. The remote control relay 12 includes, for example, a terminal electrically connected to the monitoring control device 11, a relay circuit that turns on and off the lighting device 501 in accordance with a control signal input from the terminal, and an on / off state of the relay as a terminal. An output circuit and an engaging claw for engaging with the monitoring control device 11 are provided, and are configured to be detachable from the monitoring control device 11. Since the remote control relay 12 is directly connected to the monitoring control device 11 with a terminal, no wiring is required between the remote control relay 12 and the monitoring control device, so the monitoring control system 1 according to the present invention is easier to construct. In addition, workability such as wiring errors being suppressed is improved.

  The switch unit 13 is an operation terminal of the monitoring control system 1 that is operated (on / off operation) or the like by an operator and displays the lighting / extinguishing state of the lighting device 501. For example, as shown in FIG. 3, the switch unit 13 includes a switch unit communication terminal unit (hereinafter abbreviated as “SWU communication terminal unit”) 31 and a switch unit transmission / reception unit (hereinafter abbreviated as “SWU transmission / reception unit”). 32, a switch unit control unit (hereinafter abbreviated as “SWU control unit”) 33, an input unit 34, a reset unit 35, and a switch unit storage unit (hereinafter abbreviated as “SWU storage unit”). 36), a switching unit 37, and a display unit 38.

  The SWU communication terminal unit 31 is a terminal for connecting a pair of signal lines in the communication line 506 connected to the monitoring control device 11, and includes two terminals 31-1 and 31-2. The SWU transmission / reception unit 32 is a circuit that communicates with the monitoring control device 11 via the communication line 506, generates a signal of the above format based on the data from the SWU control unit 33, sends the signal to the communication line 506, and performs communication. The signal in the above format from the line 506 is converted into data in a format that can be processed by the SWU control unit 33. The reset unit 35 resets the SWU control unit 33 when the system is started.

  The input unit 34 is a circuit that receives an operation by the operator and outputs a message indicating that the operation has been received to the SWU control unit 33, and includes a plurality of switch elements 341 arranged in one direction and their peripheral circuits. The switch element 341 is, for example, a push button switch or a tact switch. The number of the switch elements 341 is determined according to the specification. In the present embodiment, eight switch elements 341-1 to 341-8 are provided in order to be able to accept eight input operations.

  The display unit 38 is a circuit for displaying an operation state (on / off state) corresponding to each of the switch elements 341-1 to 341-8 based on the control of the SWU control unit 33. The display unit 38 includes, for example, eight light emitting elements 381-1 to 381-8 and peripheral circuits provided corresponding to the switch elements 341-1 to 341-8, respectively. For example, a light emitting diode is used as the light emitting element 381, and the light emitting color can be changed according to the operation state, for example, red in the on state and green in the off state.

  The SWU control unit 33 is configured to include, for example, a microprocessor and its peripheral circuits, and manages control according to the function of each unit in the switch unit 13. Functionally, the SWU control unit 33 switches according to the setting of the switching unit 37. An assigning unit 332 that assigns a switch address to each of 341-1 to 341-8 and stores it in the SWU storage unit 36, and a monitoring control device based on the switch address corresponding to the switch element 341 according to the operation of the switch element 341 11 is instructed to turn on / off the lighting device 501 corresponding to the switch element 341 and to turn on / off the light emitting element 381 of the display unit 38 according to the operation of the switch element 341. .

  The SWU storage unit 36 includes various programs such as a switch unit control program for controlling the switch unit 13, an allocation program for allocating switch addresses to the switch elements 341-1 to 341-8 according to settings of the switching unit 37, and In addition, various data such as data necessary for execution of various programs such as address setting information and data generated during the execution are stored. The address setting information is information indicating the correspondence between the switch element 341 and the switch address assigned to the switch element 341, and is generated for each switch element 341.

  The switching unit 37 sets the switch address set to each of the switch elements 341-1 to 341-8 in the unidirectional arrangement order of the switch elements 341-1 to 341-8 or in the reverse order to the unidirectional arrangement order. It is a circuit for switching whether to set. The switching unit 37 includes, for example, a switch element 371 that switches the electrical connection of the contact a to one of the contact b and the contact c, and resistance elements 372 and 373, and the contact a of the switch element 371 is: The contact b of the switch element is connected to the input port P1 of the SWU control unit 33 and connected to the driving power source Vcc via the resistance element 372. The contact c of the switch element is connected to the input port of the SWU control unit 33. This circuit is connected to P2 and connected to the drive power supply Vcc via the resistance element 373. The switch element 371 is, for example, a slide switch or a toggle switch.

  Such a switch unit 13 is structurally configured to include a body 41, a cover 42, a decorative cover 43, a name sheet 44, and a name plate 45, for example, as shown in FIG.

  The substantially flat body 41 is a base of the switch unit 13 and includes a base body 41-1 and a circuit board 41-2. The circuit board 41-2 includes the above-described SWU communication terminal unit 31, SWU transmission / reception unit 32, SWU control unit 33, input unit 34, reset unit 35, SWU storage unit 37, switching unit 37, and display described with reference to FIG. This is a printed wiring board on which each circuit of the unit 38 is mounted. On the circuit board 41-2, the switch elements 341-1 to 341-8 of the input unit 34 are sequentially arranged in one direction at predetermined intervals, and the switch elements 341-1 to 341- are arranged. The light emitting elements 381-1 to 381-8 are sequentially arranged in one direction at a predetermined interval so as to correspond to FIG. The base body 41-1 is made of, for example, resin and has a substantially rectangular parallelepiped shape with a front opening having a thickness that can be accommodated by the circuit board 41-2. On the bottom surface of the base body 41-1, in the first embodiment, as can be seen by referring to FIGS. 6B and 6D described later, the terminals 31-1, 31- of the SWU communication terminal unit 31 are provided. 2 is formed with a connection hole for enabling connection of the communication line 506 and an operation hole for enabling the operation knob 3711 of the changeover switch 371 in the switching unit 37 to be operated from the outside.

  The cover 42 has a plurality of operation pieces 422-1 to 422-8 that cover the opening of the body 41 and press the switch elements 341-1 to 341-8 by elastic deformation, and is made of a resin material. It is formed in a substantially flat plate shape. The operation piece 422 is substantially L-shaped, and is elastically deformed in a cantilever manner by being separated from the cover 42 while leaving one end thereof, and the other end is forward of the front surface of the cover 42. A protruding portion that protrudes somewhat is formed. That is, the switch element 341 can be operated by applying a pressing force to the convex portion from the front of the operation piece 422, and when the pressing force is released from the convex portion of the operating piece 422, the operation piece 422 is returned to its original position by elasticity. Have been to return to. The cover 42 has a plurality of cover display holes 421-1 to 421-8 through which the light emitting elements 381-1 to 381-8 of the circuit board 41-2 are exposed. The cover 42 is attached to the body 41 by attachment pieces 423-1 to 423-4 (attachment pieces 423-2 and 423-4 are not shown).

  The decorative cover 43 is on the front surface of the cover 42 to make up the switch unit 13, is formed in a substantially flat plate shape with a resin material, and is detachably attached to the cover 42. As can be seen by referring also to FIG. 5, the decorative cover 43 has a plurality of insertion holes 436-1 to 436-8 that open at positions corresponding to the respective operation pieces 422-1 to 422-8, It has a plurality of decorative cover display holes 431-1 to 431-8 that open at positions corresponding to the cover display holes 421-1 to 421-8, respectively. A recess 434 is formed on the front surface of the decorative cover 43 so as to be lower than the front surface by a thickness corresponding to the thickness of the name sheet 44. Yes. It should be noted that two substantially rectangular name sheet insertion openings 432-1 and 432-2 each having a taper 435-1 and 435-2 at both ends of the recess 434 are formed. is there.

  The name sheet 44 is used to distinguish the switch elements 341-1 to 341-8 and is formed of a resin material in a substantially rectangular shape. In the name sheet 44, division lines 441-1 to 441-7 are described in order to provide a plurality of sections 442-1 to 442-8 corresponding to the respective switch elements 431-1 to 431-8, A distinction between the switch elements 341-1 to 341-8 is described by writing characters or the like in the respective sections 442-1 to 442-8.

  The nameplate 45 is provided on the front surface of the decorative cover 43 to make makeup and protect the operation pieces 422-1 to 422-8 so that the operation pieces 422-1 to 422-8 can be operated. Attached with adhesive or the like. The name plate 45 has a plurality of substantially circular operation hill portions 453-1 to 453-8 having flexibility in the thickness direction at positions corresponding to the operation pieces 422-1 to 422-8. The operation hill portion 453 has a step in the peripheral portion so as to protrude somewhat from the front surface of the nameplate 45. The nameplate 45 has display windows 451-1 to 451-8 at positions corresponding to the decorative cover display holes 431-1 to 431-8, respectively. The display window 451 is formed to be transparent or translucent so that light from the light emitting element 381 can pass therethrough. The nameplate 45 has a plurality of name windows 452-1 to 452-8 at positions corresponding to the name sheet 44 and corresponding to the respective sections 442-1 to 442-8 of the name sheet 44. The name window 452 is formed to be substantially transparent so that characters written on the name sheet 44 can be read from the outside.

Next, the operation of this embodiment will be described.
(Operation of the first embodiment)
FIG. 6 is a diagram for explaining setting of a switch address in the switch unit according to the first embodiment. 6A is a front view of the switch unit, and FIG. 6B is a rear view of the switch unit in the case of FIG. 6A. FIG. 6C is a front view of the switch unit in the case of upside down with respect to FIG. 6A, and FIG. 6D is a rear view of the switch unit in the case of FIG. is there.

  For example, as shown in FIG. 1, the installer arranges the monitoring control system 1 using the lighting device 501, the monitoring control device 11, the remote control relay 12, the switch unit 13, and the communication line 506. As shown in FIGS. 1 and 6A, the operation hills 453-1 to 453-8 for operating the switch elements 341-1 to 341-8 are arranged on the right side in one direction from top to bottom. In addition, the switch unit 13 is disposed on a wall, for example, and the name sheet 44 is inserted from the sheet insertion port 432-1. The name sheet 44 is inserted into a gap between the decorative cover 43 and the nameplate formed by the concave portion 434 of the decorative cover 43 and is held by the decorative cover 43 and the nameplate. When assigning 1 to 8 switch addresses to each of the switch elements 341-1 to 341-8, as shown in FIG. 6B, the operation knob 3711 of the switch element 371 in the switching unit 37 is turned up. Switch.

  By switching the operation knob 3711, the contact a of the switch element 371 is connected to the contact b, a low level signal is input to the input port P1 of the SWU control unit 33, and the high level is input to the input port P2. A signal is input.

  In response to these signals, the assigning unit 332 of the SWU control unit 33 assigns 1 to 8 switch addresses to the switch elements 341-1 to 341-8, and this correspondence is stored in the SWU storage unit 36 as address setting information. Remember.

  In this way, when the switch addresses 341-1 to 341-8 are assigned switch addresses 1-8, when the operation hill 453-1 is pushed, the operation piece 422-1 is elastically deformed. Then, the switch element 341-1 is operated, and the input operation is input from the switch element 341-1 to the SWU controller 33. In response to this input, the SWU control unit 33 transmits an interrupt signal Vi synchronized with the start pulse signal ST to the monitoring control device 11 as shown in FIG.

  When this interrupt signal Vi is received, the SC control unit 28 of the supervisory control device 11 transmits a signal in which the mode data signal MD is set to the address confirmation mode to the communication line 506, whereby the switch that has generated this interrupt signal Vi. The unit 13 is detected and accessed. As a result, the SWU control unit 33 of the switch unit 13 retrieves the switch address 1 corresponding to the switch element 341-1 from the address setting information of the SWU storage unit 36, and returns a monitoring data signal using the retrieved switch address 1. To do.

  When this reply is received, the SC control unit 28 of the monitoring control device 11 retrieves the load address 1 (circuit number 1) corresponding to the switch address 1 included in the reply from the address information in the SC storage unit 29, and this retrieval is performed. Based on the control information, the relay processing unit 27-1 corresponding to the load address 1 (circuit number 1) is operated so as to be in an operation state opposite to the current operation state. As a result, a control signal is output from the relay processing unit 27-1 to the remote control relay 12, and the lighting device 501-1 is turned on and off when the remote control relay 12-1 operates. For example, if the lighting device 501-1 is turned off, the lighting device 501-1 is turned on.

  Further, when the switch unit 13 is provided with 8 to 1 switch addresses assigned to the switch elements 341-1 to 341-8, as shown by a broken line in FIG. 37, the operation knob 3711 of the switch element 371 is switched downward.

  By switching the operation knob 3711, the contact point a of the switch element 371 is connected to the contact point c, a high level signal is input to the input port P1 of the SWU control unit 33, and the low level signal is input to the input port P2. A signal is input.

  In response to these signals, the assignment unit 332 of the SWU control unit 33 assigns 8 to 1 switch addresses to the switch elements 341-1 to 341-8, and this correspondence is stored in the SWU storage unit 36 as address setting information. Remember.

  In this way, when the switch address of 8 to 1 is assigned to each of the switch elements 341-1 to 341-8, when the operation hill portion 453-8 is pushed, the switch unit 13 and the monitoring control device 11 are By operating in the same manner as described above, the lighting device 501-1 is turned on and off.

  As described above, the switch unit 13 according to the present invention simply and easily switches the switch elements 341-1 to 341-by simply switching the switch elements 371 of the switching unit 37 without using a setting tool as in the background art. Each of 8 can be selectively assigned a switch address of 1-8 or a switch address of 8-1.

  On the other hand, as shown in * of FIG. 1 and FIG. 6 (C), the operation hill portions 453-8 to 453-1 for operating the switch elements 341-8 to 341-1 respectively in one direction from top to bottom. The switch units 13 are arranged on, for example, a wall so as to be arranged on the left side, and the name sheet 44 is inserted from the sheet insertion port 432-2. The name sheet 44 is inserted into a gap between the decorative cover 43 and the nameplate formed by the concave portion 434 of the decorative cover 43 and is held by the decorative cover 43 and the nameplate. When assigning 1 to 8 switch addresses to each of the switch elements 341-8 to 341-1, as shown in FIG. 6D, the operation knob 3711 of the switch element 371 in the switching unit 37 is turned up. Switch.

  By switching the operation knob 3711, the contact point a of the switch element 371 is connected to the contact point c, a high level signal is input to the input port P1 of the SWU control unit 33, and the low level signal is input to the input port P2. A signal is input.

  In response to these signals, the assignment unit 332 of the SWU control unit 33 assigns 8 to 1 switch addresses to the switch elements 341-1 to 341-8, and this correspondence is stored in the SWU storage unit 36 as address setting information. Remember.

  Thus, when the switch hill portion 453-8 is pushed when the switch addresses 1 to 8 are assigned to the switch elements 341-8 to 341-1, the switch unit 13 and the monitoring control device 11 are By operating in the same manner as described above, the lighting device 501-1 is turned on and off.

  Thus, the switch unit 13 according to the present invention is one, and the operation hill portions 453-1 to 453-8 may be arranged so as to line up on the right side, or the operation hill portions 453-8 to 453-1. Can be arranged in a line so that they are arranged on the left side, and the switch addresses can be assigned to the switch elements 341 in order from the top in any arrangement method. And since the name sheet insertion ports 432-1 and 432-2 are formed on the top and bottom and the name sheet 44 can be inserted from two directions, the name sheet 44 can be inserted from above by any of the above arrangement methods. Can be inserted easily. Moreover, since the taper 435-1 and 435-2 are provided, it can be easily inserted into the gap between the decorative cover 43 and the nameplate formed by the concave portion 434 of the decorative cover 43.

  In particular, when the operation hill portion 453 is operated with a right hand, the display window 451 and the name are arranged with the switch unit 13 so that the operation hill portions 453-1 to 453-8 are arranged in a line on the right side. Since the operation can be performed while looking at the window 452, the operation hill portion 453 can be reliably operated so that the desired lighting device 501 is turned on and off. And when operating the operation hill part 453 with a left-handed hand, the display window 451 and the name window 452 are arranged by arranging the switch unit 13 so that the operation hill parts 453-1 to 453-8 are arranged in a line on the left side. Since the operation can be performed while viewing, the operation hill portion 453 can be reliably operated so that the desired lighting device 501 is turned on and off. Thus, one switch unit 13 according to the present invention can be used for both right-handed use and left-handed use.

Next, another embodiment will be described.
(Configuration of Second Embodiment)
In the first embodiment, each of the switch elements 341-1 to 371-8 is assigned a switch address of 1 to 8 according to the arrangement order thereof, or the switch elements 341-1 to 371-8 Whether to assign the switch addresses 1 to 8 in the reverse order to the arrangement order is determined by the setting of the switching unit 37. In the second embodiment, the number of terminals of the SWU communication terminal unit is set to three. In this embodiment, a pair of signal lines in 506 is determined by the combination of the terminals to be connected.

  Therefore, the monitoring control system according to the second embodiment is the monitoring control system according to the first embodiment, except that the switch unit 15 according to the second embodiment is used instead of the switch unit 13 shown in FIG. Same as 1. Therefore, the monitoring control device, the remote control relay, the lighting device, and the communication line according to the second embodiment are the same as the monitoring control device 11, the remote control relay 12, the lighting device 501, and the communication line 506, respectively, according to the first embodiment. Therefore, the description thereof is omitted.

  FIG. 7 is a block diagram illustrating an electrical configuration of the switch unit according to the second embodiment. The switch unit 15 is an operation terminal of a monitoring control system that is operated by an operator (on / off operation) and the like and displays the lighting / extinguishing state of the lighting device 501. For example, as shown in FIG. 7, the switch unit 15 includes a SWU communication terminal unit 51, a SWU transmission / reception unit 52, a SWU control unit 53, an input unit 54, a reset unit 55, a SWU storage unit 56, and a display. Part 58. As described above, the switch unit 13 according to the first embodiment and the switch unit 15 according to the second embodiment differ only in the method of specifying the switch address assignment method, and therefore the input unit 54 according to the second embodiment. The reset unit 55, the SWU storage unit 56, and the display unit 58 are the same as the input unit 34, the reset unit 35, the SWU storage unit 36, and the display unit 38 according to the first embodiment, respectively, and thus description thereof is omitted. .

  The SWU communication terminal unit 51 is a terminal for connecting a pair of signal lines in the communication line 506 connected to the monitoring control device 11, and designates how to assign a switch address, and includes three terminals 51- 1, 51-2, 51-3. The SWU transmission / reception unit 52 is a circuit that communicates with the monitoring control device 11 via the communication line 506, generates a signal of the above format based on the data from the SWU control unit 53, sends the signal to the communication line 506, and The signal in the above format from the communication line 506 is converted into data in a format that can be processed by the SWU control unit 53. When the pair of signal lines of the communication line 506 is connected to the terminals 51-1 and 51-2 of the SWU communication terminal unit 51, the SWU transmission / reception unit 52 uses the input / output ports Q1 and Q2 to switch the SWU communication terminal. Signals are input / output to / from the terminals 51-1 and 51-2 of the unit 51, and data is input / output to / from the input / output ports P3 and P4 of the SWU control unit 53 using the input / output ports R1 and R2. On the other hand, when the pair of signal lines of the communication line 506 is connected to the terminals 51-2 and 51-3 of the SWU communication terminal unit 51, the SWU transmission / reception unit 52 uses the input / output ports Q2 and Q3 to switch the SWU. Signals are input / output to / from the terminals 51-2 and 51-3 of the communication terminal unit 51, and data is input to and output from the input / output ports P4 and P5 of the SWU control unit 53 using the input / output ports R2 and R3.

  The SWU control unit 53 is configured to include, for example, a microprocessor and its peripheral circuits, and manages control according to the function of each unit in the switch unit 15, and functionally, an input / output port P3 to which data is input, An address setting unit 532 that assigns a switch address to each of the switch elements 341-1 to 341-8 according to the combination of P4 and P5 and stores the switch address in the SWU storage unit 56, and a switch element 341 according to the operation of the switch element 341 The signal processing unit 531 communicates with the monitoring control device 11 based on the corresponding switch address to instruct the lighting device 501 to turn on and off, and to turn on and off the light emitting element 381 of the display unit 38 according to the operation of the switch element 341 With.

  And the structure of such a switch unit 15 is the above-mentioned SWU communication terminal part 51, SWU transmission / reception part 52, SWU control part 53, input part 54, reset part 55, SWU memory | storage part 56, and display on the circuit board 41-2. As shown in FIGS. 8B and 8D to be described later, the terminals 51-of the SWU communication terminal unit 51 are provided on the bottom surface of the base body 41-1 where the circuits of the unit 58 are mounted. It is the same as the structure of the switch unit 13 according to the first embodiment described with reference to FIG. 4 except that a connection hole for enabling connection of the communication line 506 is formed at 1 to 51-3. Since there is, explanation is omitted.

Next, the operation of this embodiment will be described.
(Operation of Second Embodiment)
FIG. 8 is a diagram for explaining setting of a switch address in the switch unit according to the second embodiment. FIG. 8A is a front view of the switch unit, and FIG. 8B is a rear view of the switch unit in the case of FIG. 8A. FIG. 8C is a front view of the switch unit in the case of upside down with respect to FIG. 8A, and FIG. 8D is a rear view of the switch unit in the case of FIG. 8C. is there.

  For example, as shown in FIG. 1, the installer arranges the monitoring control system 1 using the lighting device 501, the monitoring control device 11, the remote control relay 12, the switch unit 15, and the communication line 506. As shown in FIGS. 1 and 8A, operation hill portions 453-1 to 453-8 for operating the switch elements 341-1 to 341-8, respectively, are arranged on the right side in one direction from top to bottom. In addition, the switch unit 15 is disposed on a wall, for example, and the name sheet 44 is inserted from the sheet insertion port 432-1. When the switch addresses 1 to 8 are assigned to the switch elements 341-1 to 341-8, as shown in FIG. 8B, the terminals 51-1 and 51-2 of the SWU communication terminal unit 51 are used. A pair of signal lines in the communication line 506 is connected to the first line.

  Due to the connection of the communication line 506, signals from the communication line 506 are input to the input / output ports Q1 and Q2 from the terminals 51-1 and 51-2 of the SWU communication terminal unit 51, and the above processing is performed to input / output ports Input from R1 and R2 to the input / output ports P3 and P4 of the SWU controller 53. When data based on signals from the communication line 506 is input from the input / output ports P3 and P4, the address setting unit 532 of the SWU control unit 53 has 1 to 8 for each of the switch elements 341-1 to 341-8. A switch address is assigned, and this correspondence is stored in the SWU storage unit 56 as address setting information.

  In this way, when the switch hill part 453-1 is pushed when the switch addresses 1-8 are assigned to the switch elements 341-1 to 341-8, the switch unit 15 and the monitoring control device 11 are By operating in the same manner as in the first embodiment, the lighting device 501-1 is turned on and off.

  In addition, when 8 to 1 switch addresses are assigned to the switch elements 341-1 to 341-8 in the arrangement state of the switch unit 15, as shown by a broken line in FIG. A pair of signal lines in the communication line 506 are connected to the terminals 51-2 and 51-3 of the terminal unit 51.

  With the connection of the communication line 506, the signal from the communication line 506 is input to the input / output ports Q2 and Q3 from the terminals 51-2 and 51-3 of the SWU communication terminal unit 51, and the above processing is performed to input / output ports. Input from R2 and R3 to the input / output ports P4 and P5 of the SWU controller 53. By inputting data based on signals from the communication line 506 from the input / output ports P4 and P5, the address setting unit 532 of the SWU control unit 53 has 8 to 1 to each of the switch elements 341-1 to 341-8. A switch address is assigned, and this correspondence is stored in the SWU storage unit 56 as address setting information.

  Thus, when the switch address of 8-1 is assigned to each of the switch elements 341-1 to 341-8 and the operation hill portion 453-8 is pushed, the switch unit 15 and the monitoring control device 11 are By operating in the same manner as in the first embodiment, the lighting device 501-1 is turned on and off.

  Thus, the switch unit 15 according to the present invention is a combination of the terminals 51-1 to 51-3 of the communication terminal unit 51 that connects the pair of signal lines in the communication line 506 without using a setting tool as in the background art. 1 to 8 or 8 to 1 can be selectively assigned to each of the switch elements 341-1 to 341-8 simply and easily.

  On the other hand, as shown in * of FIG. 1 and FIG. 8 (C), the operation hill portions 453-8 to 453-1 for operating the switch elements 341-8 to 341-1 respectively are in one direction from top to bottom. The switch units 13 are arranged on, for example, a wall so as to be arranged on the left side, and the name sheet 44 is inserted from the sheet insertion port 432-2. Then, a pair of signal lines in the communication line 506 are connected to the terminals 51-2 and 51-3 of the SWU communication terminal unit 51.

  With the connection of the communication line 506, the signal from the communication line 506 is input to the input / output ports Q2 and Q3 from the terminals 51-2 and 51-3 of the SWU communication terminal unit 51, and the above processing is performed to input / output ports. Input from R2 and R3 to the input / output ports P4 and P5 of the SWU controller 53. By inputting data based on signals from the communication line 506 from the input / output ports P4 and P5, the address setting unit 532 of the SWU control unit 53 has 8 to 1 to each of the switch elements 341-1 to 341-8. A switch address is assigned, and this correspondence is stored in the SWU storage unit 56 as address setting information.

  Thus, when the switch hill part 453-8 is pushed when the switch addresses 1 to 8 are assigned to the switch elements 341-8 to 341-1, the switch unit 15 and the monitoring controller 11 are By operating in the same manner as in the first embodiment, the lighting device 501-1 is turned on and off.

  Thus, the switch unit 15 according to the present invention is one, and the operation hill portions 453-1 to 453-8 may be arranged so that the operation hill portions 453-1 to 453-8 are arranged in a line on the right side. Can be arranged in a line so that they are arranged on the left side, and the switch addresses can be assigned to the switch elements 341 in order from the top in any arrangement method. Moreover, the switch unit 15 is one and can respond to right-handed use or left-handed use. And since the name sheet insertion ports 432-1 and 432-2 are formed on the top and bottom and the name sheet 44 can be inserted from two directions, the name sheet 44 can be inserted from above by any of the above arrangement methods. Can be inserted easily. Moreover, since the taper 435-1 and 435-2 are provided, it can be easily inserted into the gap between the decorative cover 43 and the nameplate formed by the concave portion 434 of the decorative cover 43.

  In the second embodiment, the pair of signal lines in the communication line 506 is connected to the terminals 51-1 and 51-2 of the SWU communication terminal unit 51 or the terminals 51-2 and 51 of the SWU communication terminal unit 51. Depending on whether the switch elements 581-1 to 581-8 are assigned to the switch elements 581-1 to 581-8, the switch addresses 1 to 8 or 8 to 1 are assigned. A combination of these may be used. For example, whether a pair of signal lines in the communication line 506 are connected to the terminals 51-1 and 51-2 of the SWU communication terminal unit 51 or to the terminals 51-1 and 51-3 of the SWU communication terminal unit 51 Accordingly, it may be determined that 1 to 8 switch addresses or 8 to 1 switch addresses are assigned to the switch elements 581-1 to 581-8, respectively.

  In the first and second embodiments, the plurality of switch elements 381 and 581 are arranged in the vertical direction (vertical direction and vertical direction) as shown in FIG. 1, but the horizontal direction (horizontal direction and horizontal direction). ). In this case, according to the designation of how to assign the switch address, the switch address is assigned to each of the plurality of switch elements 381 and 581 in order from right to left, or the switch address is assigned in order from left to right.

It is a figure showing composition of a supervisory control system concerning an embodiment. It is a block diagram which shows the electrical structure of the monitoring control apparatus which concerns on embodiment. It is a block diagram which shows the electrical structure of the switch unit which concerns on 1st Embodiment. It is a disassembled perspective view of the switch unit which concerns on 1st Embodiment. It is the rear view and back perspective view of a decorative cover in the switch unit concerning a 1st embodiment. It is a figure for demonstrating the setting of the switch address in the switch unit which concerns on 1st Embodiment. It is a block diagram which shows the electrical structure of the switch unit which concerns on 2nd Embodiment. It is a figure for demonstrating the setting of the switch address in the switch unit which concerns on 2nd Embodiment. It is a block diagram which shows the structure of the illumination monitoring control system which concerns on a nonpatent literature 1. It is a wave form diagram of the signal transmitted / received between a transmission unit, a terminal unit, and a switch unit.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Monitoring control system 11 Monitoring control apparatus 12 Remote control relay 13, 15 Switch unit 31, 51 Switch unit communication terminal part 32, 52 Switch unit transmission / reception part 33, 53 Switch unit control part 34, 54 Input part 36, 56 Switch unit memory | storage part 37 switching unit 38 display unit 43 decorative cover 44 name sheet 45 name plate 331 signal processing unit 332 allocation unit 341, 371, 541 switch element 372, 373 resistance element 381, 581 light emitting element 432 name sheet insertion port 434 recess 435 taper 532 address setting Part

Claims (4)

A communication terminal unit for connecting to a communication line comprising a pair of signal lines connected to a control device capable of controlling the operation of a plurality of load devices;
A transmission / reception unit that communicates with the control device via the communication terminal unit and the communication line;
A plurality of switch elements arranged in one direction to accept input operations;
An address setting unit configured to set a communication address in each of the plurality of switch elements in any one of the one-direction arrangement order and the one-direction arrangement order reversely;
A control unit that transmits a signal for controlling an operation of a load device corresponding to a communication address of the switch element from the transmission / reception unit to the control device when the switch element is operated. System operation terminal. The address setting unit
A switching unit for switching whether to set the communication address to be set in each of the plurality of switch elements in the order of the one direction or in the reverse order of the order of the one direction;
The operation terminal of the control system according to claim 1, further comprising: an assigning unit that assigns a communication address to each of the plurality of switch elements according to the setting of the switching unit. The communication terminal unit consists of three terminals,
The address setting unit may include the plurality of the one-way arrangement order and the one-direction arrangement order in reverse order depending on a combination at a terminal of the communication terminal unit to which the communication line is connected. The operation terminal of the control system according to claim 1, wherein a communication address is set for each of the switch elements. A circuit board having the communication terminal unit, the transmission / reception unit, the plurality of switch elements, the address setting unit, and the control unit in the operation terminal of the control system according to any one of claims 1 to 3. A substantially flat body provided,
A cover having a plurality of operation pieces respectively pressing the plurality of switch elements by being elastically deformed on the front surface of the body;
A decorative cover having a plurality of insertion openings opened on the front surface of the cover corresponding to the plurality of operation pieces, respectively;
A substantially sheet-shaped nameplate provided with a plurality of operation portions having flexibility in the thickness direction so that the plurality of operation pieces can be respectively operated on the front surface of the decorative cover;
A name sheet held between the decorative cover and the nameplate;
The operation terminal of the control system, wherein the decorative cover further includes two insertion openings for inserting the name sheet from two directions.

Images