JP2009105493A - Load control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a load control system capable of suppressing a cost for introduction and improving the stability of the system, compared to a conventional central control type system. <P>SOLUTION: A load L to be controlled connected to an operation control terminal 1 can be directly controlled by operating operation switches S11,... of the operation control terminal 1. Also, the load L can be remotely controlled by operating operations switches S51-S53 of an operation terminal 2 connected to the operation control terminal 1 via a signal line Ls. In addition, since a control command is directly transmitted via the signal line Ls between the operation terminal 2 and the operation control terminal 1, the system can be prevented from being unable operation as a whole even if the signal line Ls is disconnected or the operation terminal 2 is in failure. As a result, the introduction cost can be suppressed compared to the conventional central control type system, and the stability of the system can be improved. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a load control system that controls a load by operating an operation switch.

  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. 8, in this system, the transmission control apparatus 100 is provided with a plurality of operation terminals 102 having operation switches S1,... Via a two-wire signal line Ls, an illumination load (hereinafter abbreviated as a load). 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. 9A 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 ( ± 24 V) time division multiplexed signal, and data is transmitted by pulse width modulation (FIG. 9B). 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. 9C 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.
Japanese Patent Laying-Open No. 2003-37879 (paragraphs 0002-0010, FIGS. 6 to 8)

  In the conventional example, the control terminal 103 that controls the load 104 and the operation terminal 102 that receives an operation input for controlling the load do not directly transmit the transmission signal VS but via the transmission control device 100. It is a so-called centralized control system configuration for transmission. Therefore, if the transmission control device 100 fails or the signal line Ls is disconnected, the entire system becomes inoperable. In addition, when a load to be controlled is newly added, a control terminal that controls the load and an operation terminal that receives an operation input must be added to the system, which increases the introduction cost.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a load control system in which the introduction cost can be suppressed and the stability of the system can be improved as compared with a centralized control type conventional system. is there.

  In order to achieve the above object, the invention of claim 1 is connected to an operation control terminal to which one or more loads to be controlled are connected, and to one or more operation control terminals via a signal line. 1 to a plurality of operation terminals, an address for signal transmission is assigned to each operation control terminal and the operation terminal, and the operation control terminal includes one to a plurality of operation switches. A signal is transmitted between the operation input receiving means for receiving the operation input, the control means for controlling the load that is the control target of the operation input received by the operation input receiving means, and the operation terminal via the signal line. And an operation terminal having one or more operation switches and receiving a signal between the operation input receiving means for receiving an operation input by the operation switch and the operation control terminal via a signal line. A transmission means for sending, a storage means for storing a correspondence relationship between an operation input received by the operation input receiving means and an address assigned to one or more operation control terminals, and when an operation input is received by the operation input receiving means The storage means is referred to, an address corresponding to the operation input is obtained, a control command for controlling the load connected to the operation control terminal is generated, and the control command is transmitted from the transmission means via the signal line. Control means for transmitting to the address acquired from the storage means, and in the operation control terminal, if the destination address matches the address assigned to itself, it is transmitted from the operation terminal via the signal line. The control command is received by the transmission means, and the control means controls the load that is controlled by the control means according to the received control command. And butterflies.

  According to the first aspect of the present invention, it is possible to directly control the load to be controlled connected to the operation control terminal by operating the operation switch of the operation control terminal. It is possible to control the load remotely by operating the operation switch of the operation terminal connected via the signal line, and direct control between the operation terminal and the operation control terminal via the signal line. Since the command is transmitted, the entire system does not become inoperable even if the signal line is disconnected or the operation terminal is broken. As a result, it is possible to provide a load control system in which the introduction cost can be suppressed and the stability of the system can be improved as compared with the centralized control type conventional system.

  According to a second aspect of the present invention, in the first aspect of the invention, the control means of the operation control terminal determines whether or not the content of the control command received from the operation terminal corresponds to the load that is the control target of the control command. The load is controlled when it is determined that it corresponds, and the load is not controlled when it is determined that it does not correspond.

  According to the invention of claim 2, for example, when there are two types of loads, a dimmable lighting load and a non-dimmable lighting load, an operation control terminal that controls a non-dimmable lighting load as a control target When a control command for instructing the dimming level is transmitted to the control unit, the control means of the operation control terminal does not control a lighting load that cannot be dimmed, so that a malfunction of the load can be prevented.

  According to a third aspect of the present invention, in the first or second aspect of the present invention, a plurality of loads are connected to at least one operation control terminal, and the operation control terminal stores a identification code for identifying each load. The address of the operation control terminal connected to the plurality of loads and the identification codes of the plurality of loads connected to the operation control terminal correspond to the operation input. The stored control means of the operation terminal includes an identification code of the load to be controlled when generating a control command for the operation control terminal to which a plurality of loads are connected.

  According to the invention of claim 3, a plurality of loads connected to one operation control terminal can be individually remotely controlled from the operation terminal.

  According to a fourth aspect of the present invention, in the invention according to any one of the first to third aspects, a multicast address is stored in the storage means of the operation control terminal as an address assigned to the operation control terminal, and the control of the operation terminal is performed. The means sets the multicast address as the destination address of the control command generated when the operation input is accepted by the operation input accepting means, transmits the multicast address via a signal line from the transmission means, and stores the operation control terminal Stores the operation state of the load associated with the multicast address, and the control means of the operation control terminal unit determines that the destination address of the control command matches the multicast address stored in the storage means. It is characterized by controlling the load that is controlled by itself so that the associated operating state is achieved. .

  According to the invention of claim 4, when a plurality of loads connected to different operation control terminals are collectively controlled by one operation input in the operation terminal, control is performed for each operation control terminal. Since there is no need to transmit commands by unicast, an increase in traffic can be suppressed.

  According to a fifth aspect of the present invention, in any one of the first to third aspects of the present invention, the storage means of the operation terminal stores a single multicast address corresponding to a plurality of operation inputs in common, and An identifier for identifying an operation input is stored in association with the multicast address, and the storage unit of the operation control terminal stores one or more multicast addresses and one or more identifiers associated with the multicast addresses. , Storing the operation state of the load associated with the multicast address and the identifier, and the control means of the operating terminal refers to the storage input when the operation input is received by the operation input receiving means. A control command including an identifier corresponding to the The control means of the operation control terminal unit is included in the control command when the destination address of the control command matches the multicast address stored in the storage means. It is characterized by controlling a load that is an object of control so as to be in an operation state associated with an identifier.

  According to the invention of claim 5, when a plurality of loads connected to different operation control terminals are collectively controlled by one operation input in the operation terminal, control is performed for each operation control terminal. Since there is no need to transmit commands by unicast, an increase in traffic can be suppressed. Further, the number of multicast addresses used can be reduced as compared with the invention of claim 4.

  According to a sixth aspect of the present invention, in the fifth aspect of the present invention, the storage means of the operation terminal unit includes one or more operations for controlling the load when one operation input is received by the operation input reception unit of the operation terminal unit. When the control terminal and the one or more operation control terminals that control the load when another operation input is received by the operation input receiving means of the operation terminal, the one operation input and the one One multicast address is stored in association with another operation input in common.

  According to invention of Claim 6, there exists an effect | action similar to Claim 5.

  The invention of claim 7 is the invention according to any one of claims 1 to 6, wherein the control means of the operation control terminal receives a control command from the operation terminal and controls the load, and then waits in advance. When time elapses, a response signal in which the source address of the control command is set as the destination address is transmitted from the transmission means via the signal line.

  According to the invention of claim 7, the reliability of transmission is improved by returning a response signal from the operation control terminal that has received the control command to the operation terminal that is the transmission source of the control command.

  The invention of claim 8 is the invention of claim 4 or 5, wherein the storage means of the operation control terminal stores a unique address individually assigned to each operation control terminal, and the storage means of the operation terminal A unique address of a plurality of operation control terminals to which a multicast address is assigned and an operation state of a load for each operation control terminal associated with the multicast address are stored in association with each other. The control means receives the control command from the operation terminal, controls the load so as to be in the operation state stored in the storage means according to the control command, and then transmits the information on the operation state to the source of the control command. An address is set as a destination address, and transmission is performed via a signal line from a transmission means.

  According to the eighth aspect of the present invention, whether or not the operation state of the load is correctly controlled in each operation control terminal by the control means of the operation terminal based on the operation state information sent from the operation control terminal. Can know.

  The invention according to claim 9 is the invention according to any one of claims 1 to 8, wherein the operation control terminal corresponds to an operation input received by the operation input receiving means and an address assigned to another operation control terminal. Is stored in the storage means, and when the operation input is received by the operation input receiving means, the control means refers to the storage means to acquire an address corresponding to the operation input and is connected to the operation control terminal. A control command for controlling the load being generated is generated, and the control command is transmitted from the transmission means to the address acquired from the storage means via the signal line.

  According to the ninth aspect of the present invention, it is possible to remotely control a load to be controlled by another operation control terminal by operating the operation switch of the operation control terminal without using the operation terminal.

  A tenth aspect of the invention includes the power feeding device that superimposes a direct current on the signal line according to any one of the first to ninth aspects, and the operation control terminal and the operation terminal are superimposed on the signal line. And a power source creating means for receiving the direct current and creating an operating power source for each means.

  According to the invention of claim 10, the workability can be improved because it is not necessary to wire the operation control terminal and the power supply line for supplying power to the operation terminal separately from the signal line.

  According to the eleventh aspect of the present invention, in order to achieve the above object, a plurality of operation control terminals, each of which is connected to one or more loads to be controlled, are connected to each other via signal lines, and each operation control is performed. An address for signal transmission is assigned to the terminal, and the operation control terminal has one or more operation switches, an operation input receiving unit that receives an operation input by the operation switch, and an operation input that is received by the operation input receiving unit. The storage means storing the correspondence relationship with the addresses assigned to other operation control terminals, the transmission means for transmitting signals to and from other operation control terminals via signal lines, and the operation input reception means The address corresponding to the operation input is acquired with reference to the function for controlling the load that is controlled by the operation input and the storage means, and the address Generates a control command for controlling the load connected to the other operation control terminal to which is assigned and transmits the control command from the transmission means to the address acquired from the storage means via the signal line And a control means having a function.

  According to the eleventh aspect of the present invention, it is possible to directly control the load to be controlled connected to the operation control terminal by operating the operation switch of the operation control terminal. It is also possible to remotely control the load of other operation control terminals connected to the operation control terminal via the signal line by operating the operation switch of the apparatus, and the operation control terminals are connected to the signal line. Since the control command is transmitted directly via the signal line, the entire system does not become inoperable even if the signal line is disconnected or any of the operation control terminals fails. As a result, it is possible to provide a load control system in which the introduction cost can be suppressed and the stability of the system can be improved as compared with the centralized control type conventional system.

  According to the present invention, it is possible to provide a load control system in which the introduction cost can be suppressed and the stability of the system can be improved as compared with a centralized control type conventional system.

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

(Embodiment 1)
FIG. 1 shows a system configuration diagram of this embodiment. The load control system of the present embodiment includes a plurality of (four in the illustrated example) operation control terminals 1 each connected to a load L, and each operation control terminal 1 via a two-wire signal line Ls. It is comprised with the operating terminal 2 connected. The load L is, for example, an illumination load, and is connected to a commercial AC power supply AC via a power supply line Lp. However, the load L to be controlled by the load control system according to the present invention is not limited to the lighting load, and for example, general electrical equipment such as an air conditioner, a ventilation fan, and an electric curtain can be controlled. .

  The operation control terminal 1 in the present embodiment has a single operation switch S11 and a function of turning on or off one load L when the operation switch S11 is operated (hereinafter referred to as an individual blinking function). The operation control terminal 1A having a plurality of (two in the illustrated example) operation switches S21, S22 and a plurality of (two in the illustrated example) loads L corresponding to the respective operation switches S21, S22 are connected, respectively. Operation control terminal 1B having an individual blinking function for individually lighting or extinguishing two loads L according to operation of operation switches S21 and S22, a plurality (three in the illustrated example) of operation switches S31 to S33, S41 to S43 When the operation switches S31 and S41 are operated, the load L is turned on or off and one of the operation switches S32 and S42 is operated. Operation control terminals 1C and 1D having a function of increasing the light output of the load L and decreasing the light output of the load L when the other operation switches S33 and S43 are operated (hereinafter referred to as a dimming / flashing function). There are three types. However, when the three types of operation control terminals 1 are described separately, the symbols “1A”, “1B”, “1C”, and “1D” are used, and all types of operation control terminals 1 are commonly used. In the description, the reference numeral “1” is used.

  On the other hand, a load is not connected to the operation terminal device 2, and a packet (described later) including a control command via the signal line Ls when a plurality of (three in the illustrated example) operation switches S51 to S53 are operated. ) To cause any one of the operation control terminals 1 to control the load L that is the control target of the operation control terminal 1 (hereinafter referred to as a remote control function).

  The operation control terminal 1 and the operation terminal 2 have an external shape conforming to a wide handle type switch (see JIS C 8304) standardized by Japanese Industrial Standard, and are also standardized by Japanese Industrial Standard. A mounting frame (a dedicated mounting frame for JIS C 8304) and a wide handle type switch plate (see JIS C 8316) are used to be embedded in a wall of a building such as a house.

  A circuit block diagram of the operation control terminal 1 is shown in FIG. The signal transmission unit 12 transmits a transmission signal obtained by encoding and digitally modulating a packet having the format shown in FIG. 4 through the signal line Ls and digitally demodulating the transmission signal received through the signal line Ls. The transmission destination and the transmission source are identified by a unique address (unique address) assigned to each operation control terminal 1. The unique address may be a physical address unique to the hardware assigned by the hardware manufacturer, such as a MAC address, or may be an address arbitrarily assigned by the user, In short, the same address need not be assigned to a plurality of terminals (operation control terminal 1 and operation terminal 2) of the same system (same network). A packet to be transmitted includes a preamble for establishing synchronization, a control bit for setting the type of data, data such as a destination address, a source address, a control command, and a checksum for error detection. In this embodiment, multiplex transmission is performed by a conventionally known CSMA / CD method.

  The operation input reception unit 11 monitors the operation state of the operation switches S11,..., Receives operation inputs when the operation switches S11,... Are operated, and outputs operation signals corresponding to the operation switches S11,. However, for the same operation switch S11,..., For example, a short press operation and a long press operation may be distinguished and different operation signals (operation inputs) may be output. The control unit 10 includes a CPU as a main component, receives an operation signal output from the operation input receiving unit 11, and outputs a control signal corresponding to the acquired operation signal to the load driving unit 14. The load drive unit 14 has a function of turning on and off the power supply from the commercial AC power supply AC to the load L in accordance with a control signal in the operation control terminals 1A and 1B having an individual blinking function, and a dimming blinking function. In the operation control terminals 1C and 1D, in addition to the above-described on / off function, a function of increasing / decreasing the light output of the load L by adjusting the power supply amount per unit time from the commercial AC power supply AC to the load L according to the control signal. have. The power supply can be turned on / off by a conventionally known method using a relay, and the adjustment of the power supply amount can also be realized by a phase control method using a triac known in the art. Illustration and description are omitted.

  The storage unit 13 is composed of a rewritable nonvolatile semiconductor memory (for example, EEPROM), and stores information such as a unique address, a multicast address described later, and identification codes for identifying a plurality of loads L. The operation display unit 15 displays an operation state (lit or extinguished) of the load L that is a control target of the operation display unit 15, and is a drive circuit that drives the light emitting elements LD 11,. The drive circuit lights the light emitting elements LD11 when the load L operates (lights up) according to the control signal output from the control unit 10, and the load L stops (lights off). ), The drive circuit turns off the light emitting elements LD11,. The light emitting elements LD11,... Of the operation display unit 15 are disposed in the vicinity of the corresponding operation switches S11,. The power supply unit 16 creates an operating power supply for each unit by converting AC power fed from the commercial AC power supply AC through the power line Lp into DC power.

  Here, the operation in which the operation control terminal 1 controls the load L, which is its control target, will be described. When the operation switch S11 is operated in the operation control terminal 1A, an operation signal is output from the operation input receiving unit 11 to the control unit 10, and the control unit 10 that receives the operation signal inverts the operation state of the load L (load A control signal for turning off when L is lit and turning on when the load L is turned off is output to the load driving unit 14. The load driving unit 14 reverses the operation of the load L by turning on or off the relay according to the control signal received from the control unit 10. In addition, the control unit 10 outputs a control signal to the load driving unit 14, and then reverses the state of the light emitting element LD11 to the operation display unit 15 (turns off if turned on, turns on if turned off). In response to the control signal, the drive circuit of the operation display unit 15 turns off or turns on the light emitting element LD11. In the operation control terminal 1B, when one operation switch S21 is operated, the operation state of one load L and the state of the light emitting element LD21 corresponding to the operation switch S21 of the operation display unit 15 are reversed. When the operation switch S22 is operated, the operation state of the other load L and the state of the light emitting element LD22 corresponding to the operation switch S22 of the operation display unit 15 are reversed.

  When the operation switches S31 and S41 are operated in the operation control terminals 1C and 1D, the operation state of the load L and the state of the light emitting element LD21 corresponding to the operation switch S21 of the operation display unit 15 are reversed. When the operation switches S32 and S42 are operated while the load L is lit, an operation signal is output from the operation input receiving unit 11 to the control unit 10, and the control unit 10 that has received the operation signal receives the load L. A control signal for increasing the light output (light control level) is output to the load driving unit 14. The load driving unit 14 increases the power supply amount per unit time for supplying power to the load L via the drive circuit in accordance with the control signal received from the control unit 10. Further, when the operation switches S33 and S43 are operated while the load L is lit, an operation signal is output from the operation input receiving unit 11 to the control unit 10, and the control unit 10 that has received the operation signal receives the load L. A control signal for reducing the light output (light control level) is output to the load driving unit 14. The load drive unit 14 reduces the power supply amount per unit time for supplying power to the load L via the drive circuit in accordance with the control signal received from the control unit 10. However, the light output (dimming level) may be increased or decreased after the load L is turned on when the operation switches S32, S42 or S33, S43 are operated with the load L turned off. When the operation switch S31, S41 is operated to turn off the load L in the control unit 10, the dimming level at the time of turning off is stored in the storage unit 13, and the operation switch S31, S41 is operated next. Reads out the previous dimming level stored in the storage unit 13 and outputs a control signal to the load driving unit 14 for setting the amount of power supply corresponding to the dimming level to the previous light output (dimming level). Can be reproduced immediately.

  A circuit block diagram of the operation terminal 2 is shown in FIG. The signal transmission unit 22 transmits a transmission signal obtained by encoding and digitally modulating a packet having the format shown in FIG. 4 through the signal line Ls and digitally demodulating the transmission signal received through the signal line Ls. The transmission destination and the transmission source are identified by a unique address (unique address) assigned to the operation terminal device 2.

  The operation input receiving unit 21 monitors the operation states of the operation switches S51, S52, and S53, receives operation inputs when the operation switches S51 to S53 are operated, and outputs operation signals corresponding to the operation switches S51 to S53. To do. The control unit 20 includes a CPU as a main component, takes in an operation signal output from the operation input receiving unit 21, and generates a control command corresponding to the taken-in operation signal. The storage unit 23 includes a rewritable nonvolatile semiconductor memory (for example, EEPROM), and stores information such as group numbers and pattern numbers corresponding to the operation switches S51 to S53.

  The operation display unit 24 displays a group control or pattern control (described later) status (executed or not executed) corresponding to the operation switches S51 to S53, and is a light emitting element LD51, LD52, LD53 such as an LED. And a drive circuit (not shown) for driving the light emitting elements LD51 to LD53, and when the group control or the pattern control is executed according to the control signal output from the control unit 20, the drive circuit is the light emitting element LD51. Are turned on, and when the group control or pattern control is not executed (when not executed), the drive circuit turns off the light emitting elements LD51,. The light emitting elements LD51 to LD53 of the operation display unit 24 are disposed in the vicinity of the corresponding operation switches S51 to S53 as shown in FIG. The power supply unit 25 creates an operating power supply for each unit by converting AC power supplied from the commercial AC power supply AC through the power line Lp into DC power.

  Here, group control and pattern control will be briefly described. Group control is a control method that collectively controls loads L belonging to the same group to the same operation state, and pattern control is a method in which loads L belonging to the same pattern group are set for each load L. This is a control method that controls the operation state collectively. In the present embodiment, the operation switch S51 corresponds to group control, and the operation switches S52 and S53 each correspond to pattern control. The group control corresponding to the operation switch S51 is, for example, all the operation control terminals belonging to the group in the group to which all the operation control terminals 1 (1A, 1B, 1C, 1D) connected to the signal line Ls belong. The storage unit 24 controls the operation signal S (operation input) for the operation switch S51 and the address (first multicast) for transmitting the control command collectively to the group. Address) is stored in association with each other. However, as will be described later, the user can arbitrarily select whether each operation control terminal 1 belongs to a group that is a target of group control. Further, the pattern control corresponding to the operation switch S52 is performed by turning off the load L of the operation control terminal 1A in the first pattern group to which all the operation control terminals 1 (1A, 1B, 1C, 1D) belong. Control for turning on two loads L of the terminal device 1B, dimming lighting of the load L of the operation control terminal device 1C at a dimming level of 50%, and dimming lighting of the load L of the operation control terminal device 1D at 70% (first) In the storage unit 24, an operation signal (operation input) corresponding to the operation switch S52 and an address (second multicast) for transmitting control commands collectively to the first pattern group are stored in the storage unit 24. Address) is stored in association with each other. Further, the pattern control corresponding to the operation switch S53 is performed by dimming and lighting the load L of the operation control terminal 1C at a dimming level of 70% in the second pattern group to which the operation control terminals 1C and 1D belong. Control (second pattern control) for dimming and lighting the load L of the device 1D at 30%. The storage unit 24 collects the operation signal corresponding to the operation switch S53 and the second pattern group all together. An address for transmitting the control command (third multicast address) is stored in association with each other.

  On the other hand, in the storage unit 13 of the operation control terminal 1 (1A, 1B, 1C, 1D), the multicast address corresponding to the group to which it belongs and the pattern group, and the operation state (lit or unlit, adjusted) at each multicast address. Are stored in association with each other.

  Next, the operation | movement which performs group control and pattern control of the some load L using the operation terminal device 2 is demonstrated.

  First, when the operation switch S51 of the operation terminal 2 is operated, an operation signal is output from the operation input receiving unit 21 to the control unit 20, and the control unit 20 that has received the operation signal is stored in the storage unit 23. The first multicast address associated with the operation signal is acquired with reference to the correspondence relationship, the acquired first multicast address is set as the destination address, and the load L is turned on or off collectively. A packet in which the control command is set to data is transmitted from the signal transmission unit 22 via the signal line Ls.

  In the operation control terminal 1 storing the first multicast address in the storage unit 13, the signal transmission unit 12 receives the packet and passes it to the control unit 10, and the control unit 10 includes the received packet. In response to the control command, it outputs a control signal for turning on or off the load L that is its own control object to the load driving unit 14. The load driving unit 14 turns on or off the load L by turning on or off the relay according to the control signal received from the control unit 10. In addition, in the control unit 10, after a predetermined standby time (a different time for each operation control terminal 1) has elapsed since the control command was received, the control command transmission source address (address of the operation terminal 2) is set. A response signal (ACK packet) set to the destination address is transmitted from the signal transmission unit 12 via the signal line Ls.

  On the other hand, when the operation terminal 2 receives response signals returned from all the operation control terminals 1 belonging to the group, the control unit 20 inverts the state of the light emitting element LD51 with respect to the operation display unit 24 (lights off or goes off). The operation control terminal 1 belonging to the group is set as a control target by outputting a control signal for turning off the light from the lighting) and turning on or off the light emitting element LD51 by the drive circuit of the operation display unit 24 according to the control signal. The operating state of the load L is displayed.

  Next, when the operation switch S52 of the operation terminal 2 is operated, an operation signal is output from the operation input receiving unit 21 to the control unit 20, and the control unit 20 that has received the operation signal is stored in the storage unit 23. Control for acquiring the second multicast address associated with the operation signal with reference to the corresponding correspondence, setting the acquired second multicast address as the destination address, and executing the first pattern control A packet in which the command is set to data is transmitted from the signal transmission unit 22 via the signal line Ls.

  In the operation control terminal 1 that stores the second multicast address in the storage unit 13, the signal transmission unit 12 receives the packet and passes it to the control unit 10, and the control unit 10 includes the received packet. It controls the operating state of the load L, which is its own control object, according to the control command. That is, the operation control terminal 1A turns off the load L, the operation control terminal 1B turns on both of the two loads L, and the operation control terminal 1C lights up the load L at a dimming level of 50%. The operation control terminal 1 </ b> D outputs a control signal for dimming and lighting the load L at 70% from the control unit 10 to the load driving unit 14. The load driving unit 14 turns on or off the relay according to the control signal received from the control unit 10 to turn on or off the load L, or controls the phase of the triac to adjust the amount of power supply per unit time. L is dimmed. Even if the operation switch S52 is operated again during the execution of the first pattern control, the operation state of the load L does not change because the first pattern control is executed according to the above-described procedure.

  Further, when the operation switch S53 of the operation terminal 2 is operated, an operation signal is output from the operation input receiving unit 21 to the control unit 20, and the control unit 20 that has received the operation signal is stored in the storage unit 23. A control command for acquiring a third multicast address associated with the operation signal with reference to the correspondence relationship, setting the acquired third multicast address as a destination address, and executing the second pattern control Is set to be transmitted from the signal transmission unit 22 via the signal line Ls.

  In the operation control terminal 1 (1C, 1D) storing the third multicast address in the storage unit 13, the signal transmission unit 12 receives the packet and passes it to the control unit 10, and the control unit 10 receives the packet. In accordance with a control command included in the received packet, it controls the operating state of the load L that is its own control target. That is, in the operation control terminal 1C, the load L is dimmed and lit at a dimming level of 70%, and in the operation control terminal 1D, a control signal for dimming and lighting the load L at 30% is sent from the control unit 10 to the load driving unit. 14 to output. The load drive unit 14 controls the phase of the triac in accordance with the control signal received from the control unit 10 and adjusts the amount of power supplied per unit time, thereby dimming the load L. Even if the operation switch S53 is operated again during execution of the second pattern control, the operation state of the load L does not change because the second pattern control is executed according to the above-described procedure.

  As described above, in the load control system of the present embodiment, the load L of the control target connected to the operation control terminal 1 is directly controlled by operating the operation switches S11,. In addition, the load L can be remotely controlled by operating the operation switches S51 to S53 of the operation terminal 2 connected to the operation control terminal 1 via the signal line Ls. Since the control command is directly transmitted between the control terminal 2 and the operation control terminal 1 via the signal line Ls, the entire system becomes inoperable even if the signal line Ls is disconnected or the operation terminal 2 fails. There is nothing. As a result, the introduction cost can be suppressed and the stability of the system can be improved as compared with the conventional centralized control type system. Further, the control unit 10 of the operation control terminal 1 determines whether or not the content of the control command received from the operation terminal 2 corresponds to the load L that is the control target of the operation control terminal 1, and if it determines that it corresponds, the load L If the load L is not controlled, the load L is not controlled. For example, when there are two types of illumination loads, a dimmable illumination load and a non-dimmable illumination load, the non-dimmable illumination load The control unit 10 of the operation control terminal 1 may control a lighting load that cannot be dimmed when a control command for instructing the dimming level is transmitted to the operation control terminal 1 whose control target is to be controlled. Therefore, the malfunction of the load can be prevented. Further, identification codes for identifying a plurality of loads L connected to one operation control terminal 1B are stored in the storage unit 13 of the operation control terminal 1B and the storage unit 23 of the operation terminal 2, respectively. For example, the load L can be individually assigned to a pattern group in pattern control, and the control unit 20 of the operation terminal device 2 generates a pattern control control command for the operation control terminal device 1B. By including the identification code of L, a plurality of loads L connected to one operation control terminal 1B can be individually remotely controlled from the operation terminal 2.

  By the way, in the present embodiment, when a control command for group control or pattern control is transmitted from the operation terminal 2 to a plurality of operation control terminals 1, each operation control terminal 1 is used as a destination address of a packet including the control command. Since the multicast address determined for each control is used instead of the unique address assigned to each control terminal, the unique address is set as the destination address for each operation control terminal 1 and the control command is transmitted by unicast. There is an advantage that an increase in traffic can be suppressed as compared with.

  Here, a procedure for setting group control and pattern control in the operation control terminal 1 and the operation terminal 2 will be described.

  First, when a mode switch (not shown) provided in the operation input receiving unit 21 of the operation terminal 2 is operated, an operation signal is output from the operation input receiving unit 11 to the control unit 20 and the operation signal is received. The control unit 20 shifts the operation mode from the operation mode to the setting mode.

  And when setting the group control, the operation switch S51 of the operation terminal device 2 may be operated in the setting mode. When an operation signal is output to the control unit 20 from the operation input receiving unit 11 that has received the operation input of the operation switch S51, the control unit 20 outputs a control signal to the operation display unit 24 to correspond to the operation switch S51. By blinking the LD 51, the user is notified that the group control corresponding to the operation switch S51 is being set. Further, the control unit 20 generates a control command for instructing the control unit 10 of the operation control terminal 1 to shift to the group control setting mode, and sends a packet including the control command from the signal transmission unit 12 to the signal line Ls. And broadcast to all the operation control terminals 1 via However, the control command includes the first multicast address associated with the operation signal (operation input) of the operation switch S51 in advance.

  In all the operation control terminals 1 that have received the packet, the control unit 10 shifts to the group control setting mode according to the instruction of the control command. In the setting mode, it is possible to select participation / non-participation in the group that is the target of group control by long-pressing the operation switches S11,... (For example, 2 seconds or more). That is, when joining the group is selected at the time of transition to the setting mode, and there is a load L that is not desired to be included in the group control target, the user presses the operation switch S11,... Corresponding to the load L. Just press and hold. Here, when participation in the group is selected in the control unit 10, a control signal is output to cause the light emitting elements LD11,... Of the operation display unit 15 to blink at a relatively long period, and non-participation in the group is selected. When this is done, a control signal is output to cause the light emitting elements LD11,... Of the operation display unit 15 to blink at a relatively short period, thereby informing the user of the participation / nonparticipation selection status.

  If the user operates the mode changeover switch of the operation terminal 2 after the selection of participation / non-participation in the group is completed in all the operation control terminals 1, the control unit 20 of the operation terminal 2 is in the setting mode. A control command to notify the end is generated, and a packet including the control command is broadcast from the signal transmission unit 12 to all the operation control terminals 1 via the signal line Ls. In all the operation control terminals 1 that have received the packet, the control unit 10 returns from the setting mode to the operation mode according to the instruction of the control command. At this time, the control unit 10 of the operation control terminal 1 If the participation to is selected, the first multicast address notified from the operation terminal 2 is associated with the control content (group control), and the identification code of the load L is associated when a plurality of loads L are connected. If the non-participation in the group is selected, nothing is stored in the storage unit 13. When returning from the setting mode to the operation mode, the control unit 20 of the operation terminal device 2 and the control unit 10 of the operation control terminal device 1 output control signals to turn on the light emitting elements LD11,. Or turn it off.

  However, in the case where all loads L of all operation control terminals 1 connected to the operation terminal 2 via the signal line Ls are joined to the group, the first multicast address is assigned to all operation control terminals. If it is stored in advance in the storage unit 13 (for example, at the time of manufacture), group control for all the operation control terminals 1 can be performed without performing the setting operation as described above.

  Moreover, what is necessary is just to operate the operation switch S52 of the operation terminal device 2 in setting mode, when setting the 1st pattern control. When an operation signal is output to the control unit 20 from the operation input receiving unit 11 that has received an operation input of the operation switch S52, the control unit 20 outputs a control signal to the operation display unit 24 to correspond to the operation switch S52. By blinking the LD 52, the user is notified that the first pattern control corresponding to the operation switch S52 is being set. Further, the control unit 20 generates a control command instructing the control unit 10 of the operation control terminal 1 to shift to the first pattern control setting mode, and sends a packet including the control command from the signal transmission unit 12. Broadcast to all the operation control terminals 1 via the signal line Ls. However, the control command includes the second multicast address associated with the operation signal (operation input) of the operation switch S52 in advance.

  In all the operation control terminals 1 that have received the packet, the control unit 10 shifts to the first pattern control setting mode in accordance with the instruction of the control command. In the setting mode, by long-pressing the operation switches S11,..., Participation / non-participation in the first pattern group that is the target of the first pattern control is selected and the control content (lighting of the load L / Off, dimming level) can be set. At the time of transition to the setting mode, when participation in the first pattern group is selected and there is a load L that is not desired to be included in the first pattern control target, the user performs an operation corresponding to the load L. The switch S11,. Here, when participation in the first pattern group is selected, the control unit 10 outputs a control signal to cause the light emitting elements LD11,... Of the operation display unit 15 to blink at a relatively long period. When non-participation in the pattern group is selected, a control signal is output to cause the light-emitting elements LD11,... I know.

  In a state where participation in the first pattern group is selected, the control unit 10 is operated in a time shorter than the long press operation by operating the operation switches S11, S21, S22, S31, and S41, so that the control unit 10 is loaded. And the operation state of the load L can be reversed, and the user may select an operation state (lit or extinguished) corresponding to the control content of the first pattern control. Furthermore, in the operation control terminals 1C and 1D, the operation switches S32, S33, S42, and S43 are operated so that the control unit 10 controls the load driving unit 14 to change the dimming level of the load L. The user can adjust the operation state (dimming level) corresponding to the control content of the first pattern control.

  If the user operates the mode changeover switch of the operation terminal 2 after the operation of selecting the participation / non-participation in the first pattern group and the adjustment operation of the operating state of the load L are completed in all the operation control terminals 1. The control unit 20 of the operation terminal 2 generates a control command for notifying the end of the setting mode, and sends a packet including the control command to all the operation control terminals 1 from the signal transmission unit 12 via the signal line Ls. Then broadcast. In all the operation control terminals 1 that have received the packet, the control unit 10 returns from the setting mode to the operation mode according to the instruction of the control command. At this time, the control unit 10 of the operation control terminal 1 If the participation in one pattern group is selected, the second multicast address notified from the operation terminal 2 and the control content (the operation state of the load L), and if a plurality of loads L are connected, the load The identification code of L is associated and stored in the storage unit 13, and nothing is stored in the storage unit 13 if non-participation in the first pattern group is selected. When returning from the setting mode to the operation mode, the control unit 20 of the operation terminal device 2 and the control unit 10 of the operation control terminal device 1 output control signals to turn on the light emitting elements LD11,. Or turn it off. Further, when setting the second pattern control, the case where the first pattern control is set except that the multicast address notified from the operation terminal 2 to the operation control terminal 1 is the third multicast address. The description is omitted because it is common to the procedure.

  As described above, in the present embodiment, setting operations for group control and pattern control can be performed only by the operation control terminal 1 and the operation terminal 2, so that setting is performed using a dedicated setting device as in the conventional example. There is an advantage that the setting work can be simplified compared to the case.

  Here, the operation display unit 24 of the operation terminal 2 is configured by a liquid crystal display and its driving circuit instead of the light emitting elements LD51 to LD53 and its driving circuit, and the operation input receiving unit 21 is combined with the liquid crystal display. You may comprise. However, the basic operation of the operation terminal 2 configured in this way is the same as that of the operation terminal 2 described above.

  In the present embodiment, the operation terminal 2 is illustrated as a terminal for remotely controlling the load L. However, the operation terminal 2 is not necessarily added to the present system. For example, when the operation switch S11,... Of the operation control terminal 1 is operated, the control unit 10 transmits a packet including a control command to another operation control terminal 1, and the other operation that has received the packet. You may make it the control part 10 of the control terminal 1 control the operation state of the load L which is its control object according to a control command. In this case, the operation signals of the operation switches S11,. It is necessary to memorize it.

  By the way, when a unique multicast address is set for each control content of the collective control (group control and pattern control) as described above, the address may be exhausted when the number of control content of the collective control increases. Therefore, even if the control contents are different, for the collective control in which the operation control terminals 1 participating in the group or the pattern group are the same, the same multicast address is assigned and the collective control to which the same multicast address is assigned is assigned. You may make it allocate the code | symbol (control number) which identifies the control content. For example, in the above-described example, the same operation control terminals 1A, 1B, and 1C are used for the group that is the target of the group control for simultaneously turning on / off the load and the first pattern group that is the target of the first pattern control. , 1D are assigned, the same multicast address is assigned to these two groups, the control number “1” is assigned to the group control, and the control number “2” is assigned to the first pattern control. Can be assigned. In addition, for the second pattern control, the operation control terminal 1 (1C, 1D) participating in the second pattern group that is the control target is not the same as the first pattern group. A multicast address different from the multicast address assigned to is assigned. FIG. 5A shows a correspondence data table stored in the storage unit 23 of the operation terminal 2. The same multicast address “FE0A” is assigned to the group control and the first pattern control described above. At the same time, “1” is assigned to the group control, “2” is assigned to the first pattern control, and another multicast address “FE0B” is assigned to the second pattern control. ing. Note that “target device 1”, “target device 2”, “target device 3”, and “target device 4” in FIG. 5A participate in the group control group and the first and second pattern groups. The operation control terminal 1 is shown and does not represent each operation control terminal 1 individually.

  Here, in FIG. 5A, for each control (group control and first and second pattern control), a unique address of the target device (identification for identifying a plurality of loads L in the operation control terminal 1B). Although the codes “01” and “02” are included (the same applies hereinafter) and the control content (the operating state of the load L) are stored, it is not always necessary to store these pieces of information. That is, as shown in FIG. 5B, a data table indicating a multicast address, a control number, and an operation state corresponding to each control may be stored in the storage unit 13 of each operation control terminal 1 that is a target device. For example, it is not necessary to store the unique addresses and operation states of the target devices 1 to 4 in the data table of the operation terminal device 2. However, as shown in FIG. 5 (a), if the unique address and control content of the target device are stored for each control, the operation state information is included from the operation control terminal 1 that is the target device 1 to 4. By transmitting the response signal, the control unit 20 of the operation terminal device 2 correctly controls the operation state of the load L in each operation control terminal device 1 based on the operation state information sent from the operation control terminal device 1. For example, if it is determined that the control is not correctly performed, it is possible to take measures such as transmitting a control command again. If a unique multicast address is set for each control content of the collective control (group control and pattern control), the item “control number” in the data table shown in FIG. 5B is unnecessary.

(Embodiment 2)
FIG. 6 shows a system configuration diagram of Embodiment 2 of the present invention. In the present embodiment, the power supply device 3 that superimposes a direct current on the signal line Ls is added to the system, and the power generation units 17 and 26 that receive the direct current superimposed on the signal line Ls and create an operating power supply for each unit are provided. The operation control terminal 1 and the operation terminal 2 are respectively provided with features. However, since other configurations and operations are the same as those in the first embodiment, the same components are denoted by the same reference numerals, and illustration and description thereof are omitted as appropriate.

  The power feeding device 3 includes a step-down circuit that steps down a 100-volt or 200-volt AC voltage supplied from a commercial AC power source AC to several tens to several volts, and an AC / AC that converts the AC voltage stepped down by the step-down circuit into a DC voltage. A DC converter, a switching regulator that stabilizes the DC output of the AC / DC converter, a superposition circuit that superimposes the DC voltage / DC current stabilized by the switching regulator on the signal line Ls, and the like. However, since these components can be realized by a conventionally well-known technique, illustration and description of the detailed configuration are omitted.

  On the other hand, the power generation units 17 and 26 of the operation control terminal 1 and the operation terminal 2 are transmitted via the signal line Ls by a low-pass filter (not shown) connected to the signal line Ls as shown in FIG. The operation power supply (DC power supply) of each part is created by separating the transmission signal (packet) and DC voltage / DC current. The signal transmission units 12 and 22 receive the transmission signal separated from the DC voltage / DC current superimposed on the signal line Ls by a high-pass filter.

  Thus, according to the present embodiment, there is an advantage that the workability can be improved because it is not necessary to wire the power supply line for supplying power to the operation control terminal 1 and the operation terminal 2 separately from the signal line Ls.

1 is a system configuration diagram showing Embodiment 1 of the present invention. It is a circuit block diagram of the operation control terminal device same as the above. It is a circuit block diagram of the operation terminal device same as the above. It is explanatory drawing of the packet in the same as the above. (A), (b) is operation | movement explanatory drawing same as the above. It is a system block diagram which shows Embodiment 2 of this invention. It is the circuit block diagram which abbreviate | omitted some operation control terminals and operation terminals in 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. It is a flowchart for description of continuous polling same as the above.

Explanation of symbols

1 (1A-1D) Operation control terminal 2 Operation terminal S11, S21-S22, S31-S33, S41-S43 Operation switch L Load (lighting load)
Ls signal line

Claims (11)

An operation control terminal connected to one or more loads to be controlled, and one or more operation terminals connected to the one or more operation control terminals via a signal line. An address for signal transmission is assigned to the terminal unit and the operation terminal unit,
The operation control terminal has one or more operation switches, an operation input receiving unit that receives an operation input by the operation switch, and controls a load that is an object to be controlled according to the operation input received by the operation input receiving unit. Comprising a control means and a transmission means for transmitting a signal to and from the operation terminal via a signal line;
The operation terminal includes one or more operation switches, an operation input receiving unit that receives operation inputs from the operation switches, a transmission unit that transmits a signal to the operation control terminal via a signal line, A storage unit that stores a correspondence relationship between an operation input received by the input reception unit and an address assigned to one or more operation control terminals, and a reference to the storage unit when the operation input is received by the operation input reception unit An address that obtains an address corresponding to the operation input and generates a control command for controlling a load connected to the operation control terminal, and obtains the control command from a storage unit via a signal line from a transmission unit Control means for sending to the address,
In the operation control terminal, if the destination address matches the address assigned to itself, the control command transmitted from the operation terminal via the signal line is received by the transmission means, and according to the received control command A load control system, wherein the control means controls a load which is a control target of the control means.   The control means of the operation control terminal determines whether or not the content of the control command received from the operation terminal corresponds to the load that is the control target of the operation control terminal. 2. The load control system according to claim 1, wherein the load is not controlled when the determination is made. A plurality of loads are connected to at least one operation control terminal, and the operation control terminal includes storage means for storing an identification code for identifying each load,
The storage means of the operation terminal stores the addresses of the operation control terminals connected to a plurality of loads and the identification codes of the plurality of loads connected to the operation control terminals corresponding to the operation inputs. The load control system according to claim 1 or 2, wherein the control means of the terminal includes an identification code of the load to be controlled when generating a control command for the operation control terminal connected with a plurality of loads. A multicast address is stored in the storage means of the operation control terminal as an address assigned to the operation control terminal,
The control means of the operation terminal is configured to set the multicast address as a destination address of a control command generated when the operation input is received by the operation input receiving means, and transmit the signal via the signal line from the transmission means.
The storage means of the operation control terminal stores the operating state of the load associated with the multicast address,
When the destination address of the control command matches the multicast address stored in the storage means, the control means of the operation control terminal unit is the load that is the control target of itself so that the operation state associated with the multicast address is obtained. The load control system according to any one of claims 1 to 3, wherein the load control system is controlled. The storage means of the operation terminal stores a plurality of operation inputs in association with one multicast address in common and stores an identifier for identifying the plurality of operation inputs in association with the multicast address,
The storage means of the operation control terminal stores one or more multicast addresses, one or more identifiers associated with the multicast address, and the operation state of the load associated with the multicast address and the identifier,
The control means of the operation terminal generates a control command including an identifier corresponding to the operation input by referring to the storage means when the operation input is received by the operation input receiving means, and sends the control command to the multicast address Is set as the destination address and transmitted via the signal line from the transmission means,
When the destination address of the control command matches the multicast address stored in the storage unit, the control unit of the operation control terminal unit controls itself so that the operation state associated with the identifier included in the control command is established. The load control system according to claim 1, wherein a load that is a target is controlled.   The storage means of the operation terminal includes one or more operation control terminals that control the load when one operation input is received by the operation input reception means of the operation terminal, and another operation input of the operation terminal. When one or a plurality of operation control terminals that control the load when received by the operation input accepting unit are the same, one multicast address is commonly used for the one operation input and the other operation input. 6. The load control system according to claim 5, wherein the load control system stores the information in correspondence.   The control means of the operation control terminal receives a control command from the operation terminal, controls the load, and transmits a response signal in which the control command transmission source address is set as the destination address when a predetermined waiting time has elapsed. The load control system according to any one of claims 1 to 6, wherein the load is transmitted from the means via a signal line. The storage means of the operation control terminal stores a unique address individually assigned to each operation control terminal,
The storage means of the operation terminal associates the unique address of the plurality of operation control terminals to which the multicast address is assigned with the operation state of the load for each operation control terminal associated with the multicast address. Remember,
The control means of the operation control terminal receives the control command from the operation terminal, controls the load so as to be in the operation state stored in the storage means according to the control command, and then controls the information on the operation state 6. The load control system according to claim 4, wherein the command transmission source address is set as a destination address, and the transmission means transmits the command via a signal line.   The operation control terminal stores the correspondence between the operation input received by the operation input receiving unit and the address assigned to the other operation control terminal unit in the storage unit, and when the operation input is received by the operation input receiving unit, The control means obtains an address corresponding to the operation input with reference to the storage means, generates a control command for controlling the load connected to the operation control terminal, and sends the control command to the signal line from the transmission means. 9. The load control system according to claim 1, wherein the load control system is configured to transmit to an address acquired from the storage unit via the storage unit. A power supply device that superimposes a DC current on the signal line;
The operation control terminal and the operation terminal are each provided with a power generation means for generating an operating power supply for each means in response to a direct current superimposed on the signal line. Load control system as described in. A plurality of operation control terminals, each of which is connected to one or more loads to be controlled, are connected to each other via a signal line, and an address for signal transmission is assigned to each operation control terminal,
The operation control terminal includes one or more operation switches, an operation input receiving unit that receives an operation input by the operation switch, an operation input received by the operation input receiving unit, and an address assigned to another operation control terminal. The load that is the object of control according to the operation input received by the operation input received by the storage means storing the correspondence, the transmission means for transmitting a signal between the other operation control terminals via the signal line, and the operation input receiving means And a control command for controlling the load connected to the other operation control terminal to which the address is assigned, while acquiring the address corresponding to the operation input with reference to the storage means And a control unit having a function of transmitting the control command to the address acquired from the storage unit via the signal line from the transmission unit. Load control system, characterized in that.

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