JP2017046191A - Operation terminal unit and monitoring control system using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an operation terminal unit that facilitates the setting work of addresses, and a monitoring control system using the same.SOLUTION: An operation terminal unit 2 includes plural switches, a storage unit 23, and a controller 22, and is electrically connected to a transmission unit via a signal line 7. A unique address is set for each of the plural switches. The storage unit 23 stores addresses which are respectively set for the plural switches. The controller 22 has at least a normal mode and a setting mode. When any one of the plural switches is operated in a normal mode, the controller 22 transmits an operation signal containing the address of an operated switch to the transmission unit via the signal line 7. In the set mode, the controller 22 selects a switch as an address setting target out of the plural switches according to a selection signal.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an operation terminal and a monitoring control system using the same.

  Conventionally, an operation switch (operation terminal) that receives a user operation, a transmission unit that performs signal transfer control, and an output relay terminal that outputs a contact signal to a load device are connected via a multiplex transmission line. A remote control system is also provided (see, for example, Patent Document 1).

  The operation switch includes a plurality of operation units operated by a user who uses the load device, and a transmission / reception unit that receives address data transmitted from the optical address setting device. Is set.

JP 2008-294834 A

  In the remote control system described in Patent Document 1 described above, there is a problem that the address setting operation becomes complicated when the number of operation units included in the operation switch increases.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide an operation terminal device that facilitates an address setting operation and a monitoring control system using the operation terminal device.

  The operation terminal of the present invention includes a control unit having a plurality of switches each having a unique address, a storage unit storing the addresses set in the plurality of switches, and at least a normal mode and a setting mode And is electrically connected to the parent device via a signal line. In the normal mode, when any one of the plurality of switches is operated in the normal mode, the control unit An operation signal including the address is transmitted to the parent device via the signal line, and the control unit selects a switch to be set for the address among the plurality of switches according to a selection signal in the setting mode. select.

  The supervisory control system of the present invention is configured such that when any one of the plurality of switches is operated by being electrically connected to the slave unit including the operation terminal unit and the slave unit via the signal line. A master unit that receives the operation signal transmitted from the slave unit.

  The operation terminal of the present invention has an advantage that it is easy to perform an address setting operation.

  The supervisory control system of the present invention has an advantage that the address setting operation is facilitated.

It is a schematic block diagram of the operating terminal which concerns on embodiment of this invention. 1 is a schematic configuration diagram of a monitoring control system according to an embodiment of the present invention. It is explanatory drawing explaining operation | movement of the operating terminal which concerns on embodiment of this invention. It is a front view of an operation terminal concerning an embodiment of the present invention. It is a flowchart explaining operation | movement of the operating terminal which concerns on embodiment of this invention.

  The following embodiments relate to an operation terminal and a monitoring control system using the same, and particularly to an operation terminal including a plurality of switches and a monitoring control system using the operation terminal.

  Hereinafter, the operation terminal 2 and the monitoring control system 10 according to the embodiment of the present invention will be specifically described with reference to the drawings. However, the configuration described below is merely an example of the present invention, and the present invention is not limited to the following embodiment. Therefore, various modifications other than this embodiment can be made according to the design and the like as long as they do not depart from the technical idea of the present invention.

  As shown in FIG. 2, the monitoring control system 10 of this embodiment includes a transmission unit 1 as a parent device and a plurality (two in this embodiment) of operation terminals 2 as child devices. The monitoring control system 10 of the present embodiment further includes a plurality (two in the present embodiment) of control terminals 3. The transmission unit 1, the operation terminal 2 and the control terminal 3 are electrically connected to each other by a two-wire signal line 7.

  As shown in FIG. 2, a plurality (four in the present embodiment) of relays 4 are electrically connected to each control terminal 3 via a connection line 8. Each relay 4 is electrically connected between a corresponding lighting fixture 5 and a power source. Each relay 4 switches between a state in which power is supplied to the corresponding lighting fixture 5 and a state in which power supply to the corresponding lighting fixture 5 is stopped according to the output from the control terminal 3. That is, the control terminal 3 controls the energization state of the load (the lighting fixture 5 in this embodiment) electrically connected to the relay 4 by controlling the relay 4. 2, illustration of the relay 4 and the lighting fixture 5 electrically connected to the left control terminal 3 is omitted.

  Each operation terminal 2 and each control terminal 3 are set with unique addresses, and the transmission unit 1 recognizes the operation terminal 2 and the control terminal 3 individually using these addresses. Here, when a plurality of switches 211 to 218 are provided in one operation terminal device 2, a unique address is set to each of the plurality of switches 211 to 218. When a plurality of relays 4 are connected to one control terminal 3, a unique address is set for each of the plurality of relays 4.

  In the monitoring control system 10 of this embodiment, data is transmitted and received by a transmission signal composed of, for example, a bipolar (± 24V) time division multiplexed signal. The transmission unit 1 periodically transmits a transmission signal including address data changed cyclically to the signal line 7. On the other hand, when the address data included in the transmission signal matches its own address, the operation terminal 2 and the control terminal 3 take in the control data included in the transmission signal. Then, the operation terminal 2 and the control terminal 3 return the monitoring data as a current mode signal in the signal return period of the transmission signal.

  For example, the operation terminal 2 returns the operation state of the switches 211 to 218 provided therein as monitoring data. The control terminal 3 returns the control state (ON / OFF of the relay 4) of the corresponding lighting fixture 5 as monitoring data. The current mode signal is a signal represented by a change in current caused by switching between a state where the signal lines 7 are opened and a state where a low impedance is connected between the signal lines 7.

  According to the monitoring control system 10 having the above configuration, when any of the switches 211 to 218 is operated in the operation terminal device 2, an operation signal is transmitted from the operation terminal device 2 through the signal line 7 to the master unit (transmission unit 1). Will be sent to. The operation signal here is a signal generated in the operation terminal device 2 in response to the on / off of the switches 211 to 218, and is a current mode signal transmitted from the operation terminal device 2 to the transmission unit 1.

  The transmission unit 1 that has received the operation signal from the operation terminal 2 transmits a control signal for controlling the relay 4 whose address corresponds to the operated switch to the control terminal 3 via the signal line 7. The control signal here is a signal for turning on / off the relay 4 and is a signal transmitted from the transmission unit 1 to the control terminal 3.

  By the way, in the operation terminal device 2 of this embodiment, as shown in FIG. 3, the address setting device 6 is used for the address setting operation described above. That is, the operation terminal device 2 has a communication function with the address setting device 6, and the addresses of the plurality of switches 211 to 218 are input using the address setting device 6. In the present embodiment, the communication method between the operation terminal device 2 and the address setting device 6 is optical communication using infrared as a communication medium.

  As shown in FIG. 3, the address setting device 6 includes a display unit 61 and an operation unit 62 having a plurality of switches 621. In FIG. 3, when any one of the switches 621 is operated, the address input fields of the switches 211 to 214 are displayed on the display unit 61. Further, when another switch 621 is operated, an address is input to the address input field of the switches 211 to 214. For example, in FIG. 3, “2-1” is input to the address input field of the switch 211, “2-2” is input to the address input field of the switch 212, “2-3” is input to the address input field of the switch 213, and address input is the switch 214. “2-4” is entered in the column.

  As shown in FIG. 1, the operation terminal device 2 of the present embodiment includes an operation unit 21, a control unit 22, and a storage unit 23. The operation terminal device 2 according to the present embodiment further includes a display unit 24, a first communication unit 25, and a second communication unit 26.

  The operation unit 21 includes a plurality (eight in this embodiment) of switches 211 to 218 (see FIG. 4) operated by the user. When any of the plurality of switches 211 to 218 is operated, the operation unit 21 outputs an electrical signal corresponding to the operated switch to the control unit 22. Here, in this embodiment, as shown in FIG. 4, the switches 211 to 214 belong to the group G1, and the switches 215 to 218 belong to the group G2, and address setting is performed in units of groups.

  The control part 22 consists of microcomputers (microcomputer), for example, and operate | moves according to the program previously memorize | stored in the memory | storage part 23. FIG. The control unit 22 includes a normal mode for controlling the energization state of the load (the lighting fixture 5 in the present embodiment) according to the operation states of the plurality of switches 211 to 218, and a setting mode for setting addresses for the plurality of switches 211 to 218. And have.

  The control unit 22 has a function of transmitting an operation signal including the address of the operated switch to the transmission unit 1 when any one of the plurality of switches 211 to 218 is operated in the normal mode. . In addition, the control unit 22 has a function of selecting, in the setting mode, a switch that is an address setting target among the plurality of switches 211 to 218 according to a selection signal. Further, the control unit 22 has a function of displaying a switch that is an address setting target by blinking the display unit 24 in the setting mode.

  The storage unit 23 includes a nonvolatile memory such as a ROM (Read Only Memory) or a flash memory, for example, and stores an operation program of the control unit 22 and addresses set in each of the plurality of switches 211 to 218. Further, the storage unit 23 outputs the addresses of the switches 211 to 218 to the control unit 22 in accordance with a control signal from the control unit 22.

  The display unit 24 includes a plurality of (eight in the present embodiment) LEDs 241 to 248. The plurality of LEDs 241 to 248 are provided in one-to-one correspondence with the plurality of switches 211 to 218. When the operation mode of the control unit 22 is the normal mode, the lighting state of each of the plurality of LEDs 241 to 248 changes according to the energization state of the corresponding load (the lighting fixture 5 in this embodiment). That is, the load control state corresponding to the operation of the switches 211 to 218 corresponding to the LEDs 241 to 248 is displayed by the lighting state of the LEDs 241 to 248. The lighting state here is the light emission color (for example, red, green) of the LEDs 241 to 248, the lighting, extinguishing, and blinking of the LEDs 241 to 248, and the blinking pattern.

  Further, when the operation mode of the control unit 22 is the setting mode, the LED corresponding to the switch whose address is to be set among the plurality of LEDs 241 to 248 blinks. For example, when the switches 211 to 214 included in the group G1 are the address setting targets, the LEDs 241 to 244 corresponding to the switches 211 to 214 blink. When the switches 215 to 218 included in the group G2 are the address setting targets, the LEDs 245 to 248 corresponding to the switches 215 to 218 blink.

  The first communication unit 25 includes, for example, a light receiving element that receives an infrared signal (optical signal) output from the address setting device 6 and a light emitting element that transmits an infrared signal. The first communication unit 25 outputs the address data included in the infrared signal received by the light receiving element to the control unit 22, and the control unit 22 selects the address corresponding to each of the switches 211 to 218 based on the received address data. Are stored in the storage unit 23 in association with each other. Here, in the present embodiment, the first communication unit 25 constitutes a reception unit.

  The second communication unit 26 performs communication with the communication unit of the transmission unit 1 electrically connected via the signal line 7. That is, the second communication unit 26 receives a transmission signal periodically transmitted from the communication unit of the transmission unit 1, and when the address data included in the transmission signal matches its own address, The included control data is captured and output to the control unit 22. When the control unit 22 receives the control data from the transmission unit 1, the control unit 22 generates monitoring data including the operation states of the switches 211 to 218 of the operation unit 21, and transmits the generated monitoring data from the second communication unit 26 to the transmission unit 1. Send it. That is, in the transmission unit 1, the operation state of the switches 211 to 218 can be known from the monitoring data sent from the second communication unit 26.

  FIG. 4 is a front view of the operation terminal 2 of the present embodiment. In the following description, unless otherwise specified, the vertical direction and the horizontal direction in FIG. 4 are the vertical direction and horizontal direction of the operation terminal 2, and the direction perpendicular to the sheet of FIG. The front is the front). However, these directions are not intended to limit the usage form of the operation terminal 2.

  As shown in FIG. 4, the operation terminal 2 has a case 20 that is formed in a square shape when viewed from the front. A first communication unit 25 is disposed at the center of the case 20, and a center panel 219 is disposed in front of the first communication unit 25. That is, the first communication unit 25 is covered with the center panel 219. In the case 20, a plurality (eight in this embodiment) of switches 211 to 218 are arranged around the first communication unit 25 so as to surround the first communication unit 25. Each of the plurality of switches 211 to 218 includes a push button switch housed in the case 20 and an operation handle 220 disposed in front of the push button switch. Each push button switch is turned on and off by a push operation of the corresponding operation handle 220.

  Each of the center panel 219 and the plurality of operation handles 220 is formed in a square shape having substantially the same shape when viewed from the front. The center panel 219 and the plurality of operation handles 220 are arranged in a matrix of N × N (N is an odd number not less than 3; in this embodiment, N = 3) on the front surface of the case 20. As a result, the front surface of the case 20 is filled with the center panel 219 and the plurality of operation handles 220. The center panel 219 and the plurality of operation handles 220 are all made of synthetic resin having electrical insulation. In the present embodiment, the center panel 219 is transparent to light (infrared rays) used as a communication medium between the operation terminal device 2 and the address setting device 6.

  In the case 20, a plurality of (eight in the present embodiment) LEDs 241 to 248 are disposed around the first communication unit 25 so as to surround the first communication unit 25. For example, in FIG. 4, the LED 241 corresponding to the switch 211 is disposed at the lower right corner of the operation handle of the switch 211, and the LED 243 corresponding to the switch 213 is disposed at the upper right corner of the operation handle of the switch 213. The LED 245 corresponding to the switch 215 is disposed at the upper left corner of the operation handle of the switch 215, and the LED 247 corresponding to the switch 217 is disposed at the lower left corner of the operation handle of the switch 217. Further, the LED 242 corresponding to the switch 212 is disposed at a midpoint of the line connecting the LED 241 and the LED 243, and the LED 244 corresponding to the switch 214 is a midpoint of the line connecting the LED 243 and the LED 245. Is arranged. In addition, the LED 246 corresponding to the switch 216 is disposed at a midpoint of the line connecting the LED 245 and the LED 247, and the LED 248 corresponding to the switch 218 is a midpoint of the line connecting the LED 247 and the LED 241. Is arranged.

  Next, the operation of the operation terminal 2 of the present embodiment will be specifically described with reference to the flowchart shown in FIG.

  The control unit 22 of the operation terminal device 2 determines whether or not there is an input signal (step S1). In the present embodiment, for example, a signal that is input when one of the switches 211 to 218 is pressed for 2 seconds or longer is used as an input signal. That is, the control unit 22 determines that there is an input signal when any switch is pressed for 2 seconds or longer, and determines that there is no input signal when any switch is not pressed for 2 seconds or longer.

  When determining that there is no input signal in Step S1 (No in Step S1), the control unit 22 executes the normal mode. In the normal mode, when any one of the plurality of switches 211 to 218 is operated, the control unit 22 transmits an operation signal corresponding to the operated switch to the transmission unit 1.

  When the control unit 22 determines that there is an input signal in Step S1 (Yes in Step S1), the operation mode is switched from the normal mode to the setting mode (Step S3). When the operation mode becomes the setting mode, the control unit 22 selects a group including the operated switch as an address setting target (step S4). For example, in FIG. 4, when the switch 211 is pressed for 2 seconds or longer, the group G1 including the switch 211 is selected as an address setting target. In other words, the switches 211 to 214 included in the group G1 are selected as addresses to be set. In FIG. 4, when the switch 215 is operated, the group G2 including the switch 215 is selected as an address setting target. In other words, the switches 215 to 218 included in the group G2 are selected as the address setting targets.

  Next, the control unit 22 blinks the display unit 24 to display the address setting target (step S5). For example, in FIG. 4, when the group G1 is selected as the address setting target, the control unit 22 blinks the LEDs 241 to 244 corresponding to the switches 211 to 214, and the switches 211 to 214 are the address setting targets. To display. In FIG. 4, when the group G2 is selected as the address setting target, the control unit 22 blinks the LEDs 245 to 248 corresponding to the switches 215 to 218, and the switches 215 to 218 are the address setting targets. To display. Thereafter, the control unit 22 continues to blink the display unit 24 until an address is input by the address setting device 6 (No in Step S5 and Step S6).

  When the address is input from the address setting device 6 (Yes in step S6), the control unit 22 stores the input address in the storage unit 23 in association with the switch to be set (step S7). When the address setting is completed in step S7, the control unit 22 switches the operation mode from the setting mode to the normal mode, and executes the normal mode until there is an input signal again. Here, in this embodiment, the selection signal is constituted by the input signal.

  By the way, the addresses of the switches 211 to 218 stored in the storage unit 23 can be read from the storage unit 23 by the address setting unit 6 via the first communication unit 25. For example, when a command signal for reading the addresses of the switches 211 to 214 is transmitted from the address setting device 6 to the operation terminal device 2, the control unit 22 of the operation terminal device 2 sets the addresses of the switches 211 to 214 according to the command signal. Read from the storage unit 23. Then, the control unit 22 outputs the read addresses of the switches 211 to 214 to the first communication unit 25 and causes the first communication unit 25 to transmit to the address setting unit 6. As a result, as shown in FIG. 3, the addresses “2-1” to “2-4” of the switches 211 to 214 are displayed on the display unit 61 of the address setting device 6. Here, in the present embodiment, the first communication unit 25 constitutes an output unit.

  In addition, when the light receiving elements and the light emitting elements constituting the first communication unit 25 are mounted on the substrate, the mounting area on the substrate increases as the number of the first communication units 25 increases. Therefore, when there is one first communication unit 25 as in the present embodiment, it is possible to widen the empty space on the substrate, and as a result, it is possible to widen the design width.

  In the above embodiment, the case where there are two operation terminals 2 and two control terminals 3 included in the monitoring control system 10 is illustrated, but the operation terminal 2 and control terminals included in the monitoring control system 10 are illustrated. Each of 3 may be one, or three or more. Further, the number of operation terminals 2 and the number of control terminals 3 may be the same as in the above embodiment, or may not be the same.

  Moreover, in the said embodiment, although the case where the number of the relays 4 electrically connected to the control terminal 3 is four is illustrated, the number of the relays 4 may be one, two or three, or five or more. Good.

  Moreover, in the said embodiment, although the optical communication which used infrared rays for the communication medium is employ | adopted as a communication system between the operation terminal device 2 and the address setting device 6, it is not restricted to this structure, for example, visible light or A communication method using radio waves as a communication medium may be employed. Further, the address setting device 6 may be electrically connected to the operation terminal 2 by an electric wire and transmit address data to the operation terminal 2 through the electric wire. That is, the operation terminal device 2 and the address setting device 6 may be configured to perform wired communication.

  Moreover, the load controlled when the control terminal 3 turns on and off the relay 4 is not limited to the lighting fixture 5 and may be a load such as a ventilating fan or an air conditioner.

  In the above embodiment, the display unit 24 is configured by the plurality of LEDs 241 to 248. For example, the display unit 24 is configured by a 7-segment display (Seven-Segment Display) or a liquid crystal display (LCD). May be.

  Further, in the above embodiment, the case where the input signal (ON signal) that is input when the switch is pressed and held is the selection signal is illustrated, but the input is performed by operating one switch a plurality of times. A plurality of input signals may be selection signals. In addition, a plurality of input signals that are input by operating a plurality of switches included in the same group may be selection signals.

  As described above, the operation terminal 2 of the present embodiment includes the plurality of switches 211 to 218, the storage unit 23, and the control unit 22, and is electrically connected to the parent device (transmission unit 1) by the signal line 7. It is connected to the. Each of the plurality of switches 211 to 218 is set with a unique address. The storage unit 23 stores addresses set in the plurality of switches 211 to 218, respectively. The control unit 22 has at least a normal mode and a setting mode. When any one of the plurality of switches 211 to 218 is operated in the normal mode, the control unit 22 transmits an operation signal including the address of the operated switch to the parent device via the signal line 7. In the setting mode, the control unit 22 selects an address setting target switch among the plurality of switches 211 to 218 according to the selection signal. According to the above configuration, since it is only necessary to set an address for a switch selected as an address setting target, there is an advantage that an address setting operation is facilitated even when the number of switches is large.

  Further, like the operation terminal 2 of the present embodiment, the plurality of switches 211 to 218 are preferably divided into a plurality of groups G1 and G2. In this case, each of the plurality of groups G1 and G2 includes two or more switches among the plurality of switches 211 to 218. The control unit 22 selects an address setting target in units of groups. According to the above configuration, the address setting is performed in units of groups, and there is an advantage that the address setting operation is facilitated.

  Further, like the operation terminal 2 of the present embodiment, the selection signal is an input signal that is input to the control unit 22 from a switch that is operated when any one of the plurality of switches 211 to 218 is operated. Is preferred. In this case, when an input signal is input, the control unit 22 selects an address setting target so as to include the operated switch. According to the above configuration, an address setting target can be selected by an input signal from the operated switch to the control unit 22.

  Moreover, it is preferable to further include a display unit 24 that displays an address setting target, like the operation terminal 2 of the present embodiment. According to the above configuration, the address setting target can be notified to the operator by displaying the address setting target on the display unit 24. Then, it is possible to reduce duplication of addresses by notifying the operator of the address setting target.

  Moreover, it is preferable to provide further the receiving part (1st communication part 25) which receives the optical signal containing an address like the operation terminal 2 of this embodiment. In this case, when the receiving unit receives the optical signal, the control unit 22 stores the address included in the optical signal in the storage unit 23 as the address of the switch whose address is to be set. According to the above configuration, the address included in the optical signal received by the receiving unit can be set for the switch selected as the address setting target.

  Moreover, it is preferable that the number of receiving units is one as in the operation terminal 2 of the present embodiment. According to the said structure, compared with the case where there are two or more receiving parts, the operation terminal device 2 can be reduced in size.

  Moreover, it is preferable to further include an output unit (first communication unit 25) that outputs address information including addresses set in the plurality of switches 211 to 218, like the operation terminal device 2 of the present embodiment. . According to the above configuration, the addresses set in the plurality of switches 211 to 218 can be read after the addresses are set.

  The monitoring control system 10 according to the present embodiment includes a slave unit including the operation terminal 2 and a master unit (transmission unit 1). The parent device is electrically connected to the child device via the signal line 7 and receives an operation signal transmitted from the child device when any one of the plurality of switches 211 to 218 is operated. According to the above configuration, by using any one of the operation terminals 2 described above, it is possible to provide the monitoring control system 10 that facilitates the address setting operation.

1 Transmission unit (base unit)
2 Operation terminal (slave unit)
7 signal line 10 monitoring control system 22 control unit 23 storage unit 24 display unit 25 first communication unit (reception unit, output unit)
211-218 Switch G1, G2 Group

Claims (8)

A plurality of switches each having a unique address; a storage unit for storing the addresses set in the plurality of switches; and a control unit having at least a normal mode and a setting mode. Is electrically connected to the machine,
In the normal mode, when any one of the plurality of switches is operated, the control unit transmits an operation signal including the address of the operated switch to the base unit via the signal line. And
The control unit is an operation terminal device that selects a switch to be set for the address among the plurality of switches according to a selection signal in the setting mode. The plurality of switches are divided into a plurality of groups,
Each of the plurality of groups includes two or more switches among the plurality of switches,
The operation terminal according to claim 1, wherein the control unit selects the setting target of the address in units of groups. The selection signal is an input signal input to the control unit from the switch operated when any one of the plurality of switches is operated,
The operation terminal according to claim 1 or 2, wherein when the input signal is input, the control unit selects the address setting target so as to include the operated switch.   The operation terminal according to claim 1, further comprising a display unit that displays a setting target of the address. A receiver that receives an optical signal including the address;
The said control part makes the said memory | storage part memorize | store the said address contained in the said optical signal as an address of the switch which is the setting object of the said address, when the said receiving part receives the said optical signal. The operation terminal device according to item 1.   The operation terminal according to claim 5, wherein the number of receiving units is one.   The operation terminal according to any one of claims 1 to 6, further comprising an output unit that outputs address information including the address set in each of the plurality of switches. A handset comprising the operation terminal according to any one of claims 1 to 7,
A master unit that is electrically connected to the slave unit by the signal line and receives the operation signal transmitted from the slave unit when any one of the plurality of switches is operated. Monitoring control system.

Images