JP2011083051A - Load control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a low-cost load control system which operates only on DC power supply. <P>SOLUTION: Relay units 2a, 2b are supplied with DC power from a DC distribution panel 11, and turns ON/OFF the supply of DC power to DC power lines 20 of a plurality of systems to which DC devices 4 are connected, respectively. A load operation terminal 3 is connected to the relay unit 2a via a power line 21, and operates upon receiving power via the power line 21. The load operation terminal 3 includes an ON/OFF switch for executing ON/OFF operations of a DC device 4 to be controlled, and a communication unit for superimposing a load control signal on the power line 21 and transmitting the signal to the relay units 2a, 2b upon receiving an operation input from the ON/OFF switch. Upon receiving the load control signal, the relay units 2a, 2b turn ON or OFF the power to the corresponding DC power line 20 on the basis of the contents of control of a received load control signal, and operate or stop the DC device 4 connected to the DC power line 20. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a load control system.

  As this type of load control system, a system using a time division multiplex transmission signal as described in Patent Document 1 has been conventionally provided.

  As shown in FIG. 4, in this system, a plurality of operation terminals 102 having operation switches S1,..., An illumination load (hereinafter abbreviated as a load) are connected to the transmission control device 100 via a two-wire signal line Ls. A plurality of control terminals 103 and the like for controlling 104 are connected.

  An individual address (individual address) is set for each of the operation terminal device 102 and the control terminal device 103, and the transmission control device 100 accesses the operation terminal device 102 and the control terminal device 103 using the individual address.

  The transmission control apparatus 100 sends a transmission signal Vs having the format shown in FIG. 5A to the signal line Ls. That is, the transmission signal Vs controls the synchronization signal SY indicating the start of signal transmission, the mode data MD indicating the mode of the transmission signal Vs, the address data AD for calling the operation terminal 102 and the control terminal 103 separately, and the load 104. Control data CD to be transmitted, checksum data CS for detecting a transmission error, and bipolar (consisting of a signal reply period WT that is a time slot for receiving a reply signal (monitoring data) from the operation terminal 102 or the control terminal 103 ( ± 24V) time division multiplexed signal, and data is transmitted by pulse width modulation (see FIG. 5B). In each operation terminal 102 and each control terminal 103, when the address data AD transmitted by the transmission signal Vs received via the signal line Ls matches the preset address, the control data CD is obtained from the transmission signal Vs. At the same time, the monitoring data is returned as a current mode signal (a signal transmitted by short-circuiting the signal line Ls via an appropriate low impedance) in the signal return period WT of the transmission signal Vs.

  When data is transmitted from the transmission control apparatus 100 to a desired operation terminal 102 or control terminal 103, the mode data MD is set as the control mode, and the address of the operation terminal 102 or the control terminal 103 is set as the address data AD. If the transmission signal Vs is sent and this transmission signal Vs is sent to the signal line Ls, the operation terminal 102 or the control terminal 103 matching the address data AD receives the control data CD and monitors (states) the signal return period WT. ) Send back data. The transmission control apparatus 100 confirms that the control data CD has been transmitted to the desired operation terminal 102 or control terminal 103 based on the relationship between the transmitted control data CD and the monitoring data received during the signal reply period WT. The control terminal 103 outputs a load control signal for controlling the load 104 according to the received control data CD, and the operation terminal 102 outputs a display signal for performing an operation confirmation display of the load 104 according to the received control data CD. To do.

On the other hand, the transmission control device 100 normally sends a transmission signal Vs in which the mode data MD is a dummy mode at regular time intervals (referred to as constant polling). In this case, as shown in FIG. 10A, a certain control terminal 103 is accessed to request a return of monitoring data indicating the load state. The connected load state is returned to the transmission control apparatus 100 as monitoring data (FIG. 10B). The transmission control device 100 that has received this reply accesses the address of the operation terminal 102 that has a corresponding relationship with the control terminal 103 and displays the state of the load 104 connected to the corresponding control terminal 103. The control data CD is transmitted from the transmission control device (FIG. 10C).

  In this way, in the constant polling, the operation of accessing the address of the control terminal 103 and the operation terminal 102 having a correspondence relationship with the control terminal 103 is cyclically repeated.

  When any information is to be transmitted to the transmission control device 100 under constant polling, an interrupt signal as shown in FIG. 10C is generated in synchronization with the synchronization signal SY of the transmission signal Vs in the dummy mode. . At this time, the operation terminal 102 sets an interrupt flag to prepare for subsequent information exchange with the transmission control apparatus 100. When the transmission control apparatus 100 receives the interrupt signal, the mode data MD is set to the interrupt polling mode and the upper half of the address data AD (the upper 4 bits if the address data AD is 8 bits) is sequentially increased. In the operation terminal device 102 that has transmitted the transmission signal and generated the interrupt signal, the upper 4 bits of the address data AD of the transmission signal in the interrupt polling mode match the upper 4 bits of the address set in the operation terminal device 102. When transmitting, the lower 4 bits of the address are returned to the transmission control apparatus 100 in the signal reply period WT. In this way, the transmission control apparatus 100 searches for 16 operation terminals 102 that have generated interrupt signals in batches, so that the operation terminal 102 can be found in a relatively short time.

  When the transmission control device 100 acquires the address of the operation terminal 102 that generated the interrupt signal, the mode data MD is set to the monitoring mode, and the transmission signal Vs having the acquired address data AD is sent to the signal line Ls. In response to the transmission signal Vs, the operation terminal 102 returns information to be transmitted in the signal reply period WT. Finally, the transmission control apparatus 100 sends a signal instructing an interrupt reset to the operation terminal 102 that has generated the interrupt signal, and cancels the interrupt flag of the operation terminal 102. As described above, information transmission from the operation terminal device 102 to the transmission control device 100 is performed by four signal transmissions from the transmission control device 100 to the operation terminal device 102 (dummy mode, interrupt polling mode, monitoring mode, allocation mode). Complete). When the transmission control apparatus 100 tries to know the desired operating state of the control terminal 103, it is only necessary to send a transmission signal using the mode data MD as monitoring data.

  When the operation data is generated by the operation of the switch S1,..., The operation data is returned from the operation terminal 102 to the transmission control device 100 as monitoring data, and the transmission signal Vs including the control data CD generated based on the operation data. Is transmitted to the control terminal 103, the control terminal 103 controls (flashes) the load 104. Here, the control terminal 103 returns the monitoring data to the transmission control apparatus 100, and transmits the transmission signal Vs including the control data CD for displaying the operation state to the operation terminal 102 based on the returned monitoring data. In response to this transmission signal Vs, the operation terminal 102 turns on / off an indicator lamp (such as a light emitting diode) that displays the operating state (lighted or turned off) of the load 104.

  By the way, in this type of load control system, the correspondence relationship between the addresses of the switch and the load 104 is managed by the transmission control device 100. Therefore, in the transmission control device 100, a plurality of loads 104 are assigned to one switch address. If the addresses are associated with each other, it is possible to control a plurality of loads 104 collectively with a single switch. Such collective control includes group control and pattern control. In group control, the plurality of loads 104 are controlled to the same control state, and in pattern control, the plurality of loads 104 are controlled to a preset control state. An address (group address or pattern address) determined for collective control is associated with a switch of an operation terminal (not shown) for collective control that performs group control or pattern control, but other configurations are other It is the same as the operation terminal.

When the switch of the operation terminal for collective control is operated and an address (for example, a group address) assigned to the switch is acquired by the transmission control device 100, the transmission control device 100 corresponds to the group address. Control data for controlling a plurality of attached loads 104 is generated and transmitted to the control terminal 103 in order. As a result, the loads 104 belonging to the same group are collectively controlled.

Japanese Unexamined Patent Publication No. 2003-37879 (paragraphs 0002-0010, FIGS. 6 to 8)

  In the load control system described above, the control terminal that controls lighting / lighting off of the lighting load receives the transmission signal transmitted from the transmission control device and switches on / off of the corresponding lighting load. The control terminal provided corresponding to the lighting load requires a communication function, which increases the cost of the entire system. In the load control system described above, the operation terminal and the control terminal use the DC voltage obtained by full-wave rectification of the bipolar (± 24V) transmission signal Vs received via the signal line Ls as the operating voltage. Although it is used, the lighting load is operated with the supply of AC power, and it is not a system that operates only with DC power.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a low-cost load control system that operates only with a DC power supply.

  In order to achieve the above object, a first aspect of the present invention is directed to a plurality of DC power supply units that supply DC power and one or more load devices that are operated by the DC power supply, each connected via a first power line. A power supply control unit that operates or stops the load device of each load circuit by individually turning on / off the DC power supply to the load circuit, and is connected to the power supply control unit via a second power line. A plurality of load operation terminals that operate by receiving power supply via the power supply control unit, wherein the power supply control unit is connected to each of the plurality of load circuits and individually turns on / off the DC power supply to the corresponding load circuit. A first communication means for receiving a load control signal superimposed on the second power line, and a control for turning on / off the power supply by a corresponding power supply switching means based on the load control signal received by the first communication means. And a load operation terminal controls an on / off operation of the load circuit to be controlled and an operation input from the operation means to control the power supply opening / closing means corresponding to the load circuit to be controlled. And a second communication means for superimposing a load control signal to be transmitted on the power line to the power supply control unit.

  According to a second aspect of the present invention, in the first aspect of the invention, when the control means of the power supply control unit turns on / off the power supply by the corresponding power supply opening / closing means based on the load control signal received by the first communication means, A state notification signal for notifying an on / off state of power supply is transmitted from the first communication means to the load operation terminal, and the load operation terminal corresponds to the operation means based on the state notification signal received by the second communication means. It is characterized by comprising status display means for displaying the power supply status to the load circuit.

  According to a third aspect of the present invention, in the second aspect of the present invention, the status display means has a display lamp, and DC power supply to all load circuits among one or more load circuits controlled by the operating means is provided. The display lamp is turned on if it is off, and the display lamp is turned off if the DC power supply to at least one load circuit is on.

  The invention of claim 4 is the invention according to any one of claims 1 to 3, further comprising an abnormality notification unit that transmits an abnormality notification signal to the power supply control unit when an abnormal situation occurs. When the abnormality notification signal is received from the notification unit, only the preset switching control means turns on the DC power supply to the load circuit.

  According to the first aspect of the present invention, the load device operates with a DC power source, and the power supply control unit and the load operation terminal operate with the supply of DC power. Therefore, a load control system that operates only with the DC power source can be realized. Since it is not necessary to provide each load device with an AC-DC converter that converts AC power into DC, conversion loss of AC-DC conversion is eliminated, and power saving can be realized. Further, since it is not necessary to provide a communication function for receiving a load control signal in each load device, an inexpensive general device that does not have a communication function in the load device can be used. An inexpensive load control system that can perform off-control can be provided.

  According to the invention of claim 2, the on / off state of the load circuit which is the control target of the operation means can be confirmed with the load operation terminal, which is suitable when the on / off of the load device installed at a remote place is switched. It is.

  According to the invention of claim 3, the power supply state of one or a plurality of load circuits which are controlled by the operating means can be confirmed with one display lamp, and the display lamp is turned off when at least one load circuit is supplied with power. Therefore, it is possible to confirm the display of the display lamp and perform an operation of stopping the power supply to all the load circuits.

  According to the invention of claim 4, since DC power is fed only to a preset load circuit when an abnormal situation occurs, DC power is supplied only to the necessary load circuit even during an abnormality, and this load circuit is supplied to this load circuit. The connected load device can be operated.

It is a schematic system block diagram of the load control system of this embodiment. It is a block diagram of the electric power feeding control part used for the same as the above. It is a block diagram of the load operation terminal used for the same as the above. It is a system configuration | structure figure which shows a prior art example. It is explanatory drawing of the transmission signal in the same as the above.

  Embodiments of the present invention will be described below with reference to the drawings. In addition, although the following embodiment demonstrates embodiment which applied the load control system to the detached house, it cannot be overemphasized that the load control system of this invention may be applied to an apartment house, a business establishment, etc.

  As shown in FIG. 1, a DC device 4 (for example, an LED lighting device, a ventilation fan, an air conditioner, an audio visual device, etc.) that is a load device that operates by receiving DC power is installed in the house H. A load control system 1 is installed to turn on / off the DC power supply to the DC equipment 4 connected to the plurality of load circuits for each circuit.

  In this load control system 1, an AC-DC converter that converts AC power supplied from a commercial AC power source AC for household use or a fuel cell FC that generates power by a chemical reaction of a substance into DC as a DC power supply unit that supplies DC power. (Not shown), solar cells 8 and storage batteries 9 that generate power by sunlight, and DC power is supplied from these DC power supply units to a plurality of load circuits. In addition, an AC distribution board 7 for distributing AC power supplied from the commercial AC power supply AC or the fuel cell FC to the branch circuit is installed in the house H, and the AC distribution board 7 operates from the AC power supply. AC power is supplied to the AC device 6.

  Here, in this system, a DC distribution board 11 incorporating a control unit 10 and a DC breaker (not shown) is used as a distribution board for distributing DC power supplied from a DC power source to a plurality of load circuits. And are provided. One to a plurality of relay units 2 (2a, 2b in the present embodiment) are connected between the DC distribution board 11 and the plurality of load circuits. Here, when describing each relay unit, it describes with relay unit 2a, 2b, and when performing description common to relay unit 2a, 2b, it describes with relay unit 2.

  DC power is supplied to the relay unit 2 from the DC distribution board 11 via the DC power line 17. Also, a plurality of DC power lines 20 are connected to the relay unit 2, and the DC equipment 4 of each circuit can be turned on and off individually by turning on / off the power supply to the DC power lines 20 of each circuit as will be described later. Can be activated or deactivated.

  The control unit 10 is supplied with AC power from the AC distribution board 7 via the AC power line 13 and has an AC-DC converter (not shown) for converting AC power into DC power having a predetermined voltage value. is doing. Further, the control unit 10 is supplied with DC power from the solar cell 8 via the DC power line 14, and the generated power from the solar cell 8 is DC having a predetermined voltage value by a built-in DC-DC converter (not shown). It is converted into electric power. The control unit 10 outputs the converted DC power to the DC distribution board 11 via the DC power line 16 and charges the storage battery 9 via the DC power line 15. When power supply from the DC power supply unit is stopped due to a power failure or the like, the storage battery 9 starts discharging, and DC power supplied from the storage battery 9 and the solar battery 8 to the control unit 10 is supplied to the DC distribution board 11. Is done. Further, the control unit 10 has a function of transferring data to and from the DC distribution board 11 via the signal line 18, and when an abnormal situation such as a power failure of the commercial AC power supply AC is detected, the occurrence of the abnormal situation is detected. An abnormality notification signal to be notified is output to the DC distribution board 11.

  The DC distribution board 11 has a function as a DC breaker that cuts off DC power, branches the DC power supplied from the control unit 10, and relays the DC power after branching via the DC power line 17. To supply. The DC distribution board 11 is connected to the control unit 10 via the signal line 18 and to each relay unit 2 via the signal line 19, and between the control unit 10 and the relay unit 2. For example, when the control unit 10 detects a power failure of the commercial AC power supply AC and transmits a power failure notification signal to the DC distribution board 11, the power failure notification signal is transmitted to the DC distribution board 11. To the relay units 2a and 2b. The DC distribution board 11 supplies DC power to the DC outlet 12 built in the house H in the form of a wall outlet or floor outlet, for example, via the DC power line 22. If a DC device plug (not shown) is inserted into the DC outlet 12, DC power can be directly supplied to the DC device.

  Each relay unit 2 is connected to a plurality of DC power lines 20, and each DC power line 20 is connected to one to a plurality of DC devices 4 to form a plurality of (for example, four circuits) load circuits. A function of individually turning on / off the DC power supply to the load circuit is provided. In addition, only one relay unit 2a (master unit) of the two relay units 2a and 2b is operated by the load operation terminal 3 operated when turning on / off the power supply state to the corresponding load circuit. It is connected via (second power line). The other relay unit 2b and the relay unit 2a are connected via a communication line 23, and the communication line 23 and the power line 21 are electrically connected inside the relay unit 2a. 2 and the load operation terminal 3 are configured to perform signal transmission via the communication line 23 and the power line 21.

  The load operation terminal 3 operates by receiving DC power supplied from the relay unit 2a, and superimposes a communication signal for transmitting data on a DC voltage (for example, DC 24V) supplied from the relay unit 2a to the power line 21 using a high-frequency carrier wave. Data is exchanged between the relay units 2a and 2b by DBPSK power line carrier communication. The relay units 2 a and 2 b supply DC power (for example, DC 48 V) supplied from the DC distribution board 11 to the DC power lines 20 of each system, and are controlled based on a load control signal input from the load operation terminal 3. By turning on / off the power supply to the target load circuit, the operating state of the DC device 4 connected to the load circuit is switched.

  Here, with reference to FIG.2 and FIG.3, the structure of the relay unit 2 and the load operation terminal 3 is demonstrated in detail.

  As shown in FIG. 2, the relay unit 2 is composed of, for example, a microcomputer and receives DC power from the DC distribution board 11 via the DC power line 17 and a control unit 30 that performs overall control of the relay unit 2. A power receiving unit 31 that supplies operating power to the control unit 30 and the like, and a relay that is provided between the power receiving unit 31 and the DC power line 20 of each system, and that is built in based on an open / close control signal input from the control unit 30 The circuit open / close control units 32a to 32d that turn on / off the power supply to the corresponding DC power line 20 by turning on / off (not shown), and the DC voltage supplied from the power receiving unit 31 are stepped down. While supplying a DC 24V DC voltage to the power line 21 and superimposing a communication signal on the DC voltage using the DBPSK method, the load operation terminal 3 and the DC distribution board 11 are connected to each other. It comprises a communication unit 33 (first communication means) that transmits and receives a communication signal and an electrically rewritable nonvolatile memory (for example, an EEPROM or a flash memory). The power supply state to each load circuit and the identification information of its own device And a storage unit 34 for storing a multicast address, which will be described later, and an on / off switch as an operation unit that is provided for each load circuit and performs an operation for individually turning on / off the power supply to the corresponding load circuit 35a, a registration completion switch 35b for performing a registration mode end operation to be described later, an operation input receiving unit 35 for receiving an operation input from a setting switch 35c for setting whether or not to supply power at the time of a power failure for each load circuit, It consists of indicator lamps such as light-emitting diodes, etc., and indicates the power supply status to each load circuit and the operation status of the relay unit 2. , Off, and a operation display unit 36 for displaying by blinking etc.).

  On the other hand, as shown in FIG. 3, the load operation terminal 3 is a DC power supplied from the relay unit 2 via the power line 21 and a control unit 40 that is composed of, for example, a microcomputer and performs general control of the load operation terminal 3. The DBPSK system communicates with a power receiving unit 41 that receives power, a power supply circuit unit 42 that generates an operating voltage from the DC power received by the power receiving unit 41, and a DC voltage (DC 24V) supplied from the relay unit 2. It consists of a communication unit 43 (second communication means) that transmits and receives communication signals to and from the relay unit 2 by superimposing signals, and an electrically rewritable nonvolatile memory (such as an EEPROM or a flash memory), Information indicating the correspondence between the on / off switch of the own device and the load circuit to be controlled, identification information of the own device, multicast address, etc. Operations from the storage unit 44 for storing, an on / off switch 45a for performing an operation for individually turning on / off the power supply to the load circuit to be controlled, a registration switch 45b for performing a registration mode starting operation described later, and the like It consists of an operation input receiving unit 45 that receives input and a display lamp such as a light emitting diode, for example. The power supply state to the load circuit to be controlled and the operation mode of the own machine are changed by changing the lighting output (lighting, extinguishing, blinking, etc.) And an operation display unit 46 for displaying. The identification information assigned to the relay unit 2 and the load operation terminal 3 may be a physical address unique to the hardware assigned by the hardware manufacturer, such as a MAC address, or used. In other words, the same identification information (address) may not be assigned to the plurality of relay units 2 and the load operation terminal 3 in the same system.

  Here, the operation of this system will be described below.

  First, an operation for associating a load circuit to be controlled with one or more on / off switches 45a included in the load operation terminal 3 will be described.

  When the user operates the registration switch 45 b on any one of the load operation terminals 3, the operation input of the registration switch 45 b is input to the control unit 40 via the operation input receiving unit 45. When receiving an operation input of the registration switch 45b, the control unit 40 switches the operation mode from the normal mode in which the load circuit is turned on / off to the registration mode.

  In the registration mode, when the ON / OFF switch 45a to be set is operated, the operation input of the ON / OFF switch 45a is input to the control unit 40 via the operation input receiving unit 45, and the control unit 40 is operated. For example, by blinking the display lamp corresponding to the on / off switch 45a, it is displayed that the load circuit to be controlled by the on / off switch 45a is being set. Further, the control unit 40 generates a communication signal including a control command for switching the operation mode of the relay unit 2 to the registration mode, using the destination address as the multicast address and the transmission source address as the identification information of the own device. Multicast transmission from 43. In this way, since multicast addresses are set for all relay units 2 and load operation terminals 3 and signal transmission is performed by multicast transmission between all relay units 2 and load operation terminals 3, the multicast address is It is possible to prevent malfunction when the relay unit 2 and the load operation terminal 3 that are not set are additionally connected. If such a problem can be ignored, signal transmission may be performed between the relay unit 2 and the load operation terminal 3 by broadcast transmission.

  When this communication signal is received by the communication unit 33 of each relay unit 2, the control unit 30 of the relay unit 2 changes the operation mode of its own device from the normal mode to the registration mode based on the communication signal received by the communication unit 33. The operation display unit 36 displays that the mode has been switched to the registration mode. When the user operates the on / off switch 35 a corresponding to the desired load circuit in the registration mode, the operation input of the on / off switch 35 a is input to the control unit 30 via the operation input receiving unit 35. When the control unit 30 receives an operation input of the on / off switch 35a, the control circuit 30 controls the load circuit corresponding to the on / off switch 35a by, for example, blinking the display lamp corresponding to the operated on / off switch 35a. Displays that the target has been set. Further, the control unit 30 generates a communication signal including the load number of the selected load circuit, using the source address as identification information of the own device and the destination address as identification information of the load operation terminal 3 that issued the registration request. The communication signal is transmitted by unicast to the load operation terminal 3 that has issued the registration request from the communication unit 33. At this time, in the load operation terminal 3 that has issued the registration request, the communication unit 43 receives the communication signal transmitted from the relay unit 2, and the control unit 40 receives the identification information of the transmission source relay unit 2 included in the communication signal and Based on the load number, a data table in which the on / off switch 35a to be set is associated with the load circuit to be controlled is created, and this data table is temporarily stored. Further, when it is desired to control a plurality of load circuits, the load circuit corresponding to the operated on / off switch 35a can be controlled by operating another on / off switch 35a of the relay units 2a and 2b. A communication signal that is set as a target and for registering the load circuit is transmitted to the load operation terminal 3, and the load operation terminal 3 side associates the setting target on / off switch 35a with the load circuit that is the control target. The table is updated and this data table is temporarily stored.

  After selecting one or a plurality of load circuits as control targets by the above-described operation, when the user operates the registration completion switch 35b of any one of the relay units 2a and 2b, the operation input of the registration completion switch 35b is input to the operation input receiving unit 35. Is input to the control unit 30. When the control unit 30 receives an operation input of the registration completion switch 35b, the control unit 30 generates a communication signal including a control command for switching the operation mode from the registration mode to the normal mode using the destination address as the multicast address, and transmits the communication signal to the communication unit. 33 is transmitted by multicast. The control unit 30 also switches the operation mode from the registration mode to the normal mode, and displays that the operation mode has been switched to the normal mode by the operation display unit 36. On the other hand, in the load operation terminal 3 that has issued the registration request, when the communication unit 43 receives the communication signal transmitted from the relay unit 2, the control unit 40 creates the setting target on / off switch created by the above processing. A data table in which 35a is associated with one or more load circuits to be controlled is stored in the storage unit 44. The control unit 40 of the load operation terminal 3 switches the operation mode from the registration mode to the normal mode, displays that the operation display unit 46 has switched to the normal mode, and ends the registration mode. In the above description, each time the load circuit to be assigned to the on / off switch 35a of the load operation terminal 3 is selected on the relay unit 2a, 2b side in the registration mode, the load number of the selected load circuit is assigned to the load operation terminal. 3, the load number of the load circuit selected on the relay unit 2a, 2b side is temporarily stored, and the load selected when the registration completion switch 35b is pushed on the relay unit 2 side. You may make it notify the load number of a circuit to the load operation terminal 3. FIG.

  As described above, the work of assigning the load circuit to the on / off switch 45a included in the load operation terminal 3 is performed, and when the user performs the above setting operation for all the load operation terminals 3, each load operation is performed. One or more load circuits to be controlled are associated with the on / off switch 45a included in the terminal 3.

  As described above, in this system, various switches provided in the load operation terminal 3 and the relay unit 2 are used, and the on / off switch 35a included in the load operation terminal 3 and the load circuit to be controlled (circuit open / close control units 32a to 32d). ) Are associated with each other, it is not necessary to separately provide a setting device for associating, but using a separate setting device (not shown) for associating, the relay unit 2 and the load operation terminal 3 In addition, the on / off switch 35a included in the load operation terminal 3 may be associated with the load circuit to be controlled.

  Next, an operation for turning on / off the power supply to a desired load circuit using the load operation terminal 3 will be described.

  When the user operates the on / off switch 45a included in the load operation terminal 3 while the relay unit 2 is operating in the normal mode, the operation input of the on / off switch 45a is transmitted to the control unit 40 via the operation input receiving unit 45. Given. The control unit 40 reads the load number of the load circuit associated with the operated on / off switch 45a from the data table stored in the storage unit 44, and collectively supplies power to these load circuits. A communication signal including a control command to be turned on or off is generated, and the communication signal is transmitted from the communication unit 43 to the corresponding relay unit 2.

  In the relay unit 2 that has received this communication signal, the control unit 30 turns on the corresponding circuit open / close control units 32a to 32d collectively based on the load number and the control command included in the communication signal received by the communication unit 33. Alternatively, the power supply to the load circuit to be controlled is turned on or off, and the state notification signal for notifying the on / off state of the power supply to each load circuit is sent from the communication unit 33 to all load operation terminals. Send to 3 by multicast. At this time, in each load operation terminal 3, the communication unit 43 receives the state notification signal transmitted from the relay unit 2, and according to the operation state of the DC device 4 associated with the on / off switch 35a of the own device. The operating state of the DC device 4 is displayed by turning on or off the display lamp provided corresponding to the on / off switch 35a. Therefore, since the load operation terminal 3 side can confirm the on / off state of the load circuit associated with the on / off switch 35a from the lighting output of the display lamp, the on / off state of the DC device 4 installed at a remote location can be confirmed. This is suitable when switching off.

  When one or more load circuits are associated with one on / off switch 35a, the control unit 40 turns on the display lamp when the power supply to all the load circuits is stopped. In addition, when power is supplied to at least one load circuit, the display lamp may be turned off, and the power supply state of one or more load circuits to be controlled can be confirmed with one display lamp. Further, if at least one load circuit is supplied with power, the control unit 40 turns off the display lamps. Therefore, it is possible to confirm the display of the display lamps and perform an operation to stop power supply to all the load circuits. .

  Each relay unit 2 is provided corresponding to each circuit switching control unit 32a to 32d, and has a setting switch 35c (for example, composed of a slide switch) for setting whether to supply power to the corresponding load circuit when an abnormality occurs. Circuit open / close control units 32a to 32d corresponding to a load circuit that supplies power when an abnormality such as a power failure occurs are set. When the control unit 10 serving as the abnormality notification unit detects a power failure of the commercial AC power supply AC, the control unit 10 starts discharging the storage battery 9, and uses the DC distribution panel 11 to discharge the discharge power from the storage battery 9 and the generated power of the solar battery 8. And a power failure notification signal (abnormality notification signal) for notifying the occurrence of a power failure is transmitted to the relay unit 2 via the DC distribution board 11.

  When the communication unit 33 of the relay unit 2 receives this power failure notification signal, the control unit 30 of the relay unit 2 starts a control operation during a power failure based on the abnormality notification signal received by the communication unit 33. That is, the control unit 30 writes the power supply state of each load circuit at the present time (immediately before a power failure occurs) in the storage unit 34, and then turns on only the circuit open / close control units 32a to 32d set by the setting switch 35c. The circuit open / close control unit other than is turned off, and when an abnormality occurs such as during a power failure, for example, only the desired DC device 4 is supplied by supplying DC power only to the load circuit to which the DC device 4 made of LED lighting equipment is connected. Can be operated. Further, when the power failure is restored and the power failure recovery signal is transmitted from the control unit 10 to the relay unit 2 via the DC distribution board 11 (when the power failure notification signal is released), the relay that has received this power failure recovery signal In the unit 2, the control unit 30 reads the power supply state immediately before the occurrence of the power failure from the storage unit 34, and turns on or off each of the circuit opening / closing control units 32a to 32d according to the power supply state immediately before the occurrence of the power failure. The DC device 4 of each load circuit can be operated or stopped immediately before the occurrence.

  The relay unit 2 receives the power failure notification signal from the control unit 10 and turns on only the circuit open / close control units 32a to 32d set by the setting switch 35c to supply DC power only to the corresponding load circuit. In such a state, the load operation terminal 3 can be used to perform an operation of stopping the DC device 4 being fed. That is, when the user operates the on / off switch 35a of the load operation terminal 3 associated with the DC device 4 to be controlled, a communication signal corresponding to the operation of the on / off switch 35a from the load operation terminal 3 corresponds. DC which is transmitted to the relay unit 2 and the relay unit 2 turns off the corresponding circuit opening / closing control unit 32a... According to the control content included in the communication signal. The power supply to the device 4 can be stopped, the consumption of the backup storage battery 9 can be suppressed, and the necessary power source of the DC device 4 can be backed up for a longer period. In this embodiment, a power outage is detected as an abnormal situation, but the output of a receiving unit that receives an earthquake early warning, a fire detector that detects a fire, or a security sensor that detects an intruder in a house is relayed. When connected to the unit 2 and an earthquake, a fire, or an intruder is detected, direct current power may be supplied to a predetermined load circuit to operate the DC device 4 of the load circuit.

1 Load control system 2a, 2b Relay unit (power supply control unit)
3 Load operation terminal 4 DC equipment (load equipment)
10 Control unit (DC power supply)
11 DC distribution board (DC power supply)
20 DC power line (first power line)
21 Power line (second power line)
30, 40 Control unit (control means)
32a to 32d Circuit opening / closing control unit (power supply opening / closing means)
33 Communication unit (first communication means)
34, 44 Storage unit 43 Communication unit (second communication means)
45 Operation input acceptance part 45a On / off switch (operation means)

Claims (4)

A DC power supply for supplying DC power;
The load device of each load circuit is operated by individually turning on / off the DC power supply to the plurality of load circuits respectively connected via the first power line by one or more load devices operating with a DC power supply. Or a power supply control unit to be stopped,
A plurality of load operation terminals connected to the power supply control unit via the second power line and operated by receiving power supply through the power line;
The power supply control unit is connected to each of a plurality of load circuits and receives a load control signal superimposed on the second power line and a power supply opening / closing means for individually turning on / off DC power supply to the corresponding load circuit. 1 communication means, and a control means for turning on / off the power supply by the corresponding power supply opening / closing means based on the load control signal received by the first communication means,
The load operation terminal receives an operation means for performing on / off operation of a load circuit to be controlled, and an operation input from the operation means, and sends a load control signal for controlling a power supply switching means corresponding to the load circuit to be controlled to a power line A load control system comprising: a second communication unit that superimposes the second communication unit and transmits the second communication unit to the power supply control unit. When the power supply is turned on / off by the corresponding power supply opening / closing means based on the load control signal received by the first communication means, the control means of the power supply control unit notifies the on / off state of the power supply. Is transmitted from the first communication means to the load operation terminal,
The load operation terminal includes a state display unit that displays a power supply state to a load circuit corresponding to the operation unit based on a state notification signal received by the second communication unit. Load control system.   The status display means has a display lamp, and if the DC power supply to all the load circuits among one or more load circuits to be controlled by the operation means is off, the display lamp is turned on, and at least one 3. The load control system according to claim 2, wherein when the DC power supply to the load circuit is on, the display lamp is turned off.   An abnormality notification unit that transmits an abnormality notification signal to the power supply control unit when an abnormal situation occurs, and when the control unit of the power supply control unit receives the abnormality notification signal from the abnormality notification unit, only the preset opening / closing control unit is provided. 4. The load control system according to claim 1, wherein DC power supply to the load circuit is turned on.

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