JP2010226664A - Load control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a load control system for preventing occurrence of inconvenience in registration work. <P>SOLUTION: A control section 20 of one operation terminal 2B periodically (for example, each several seconds) and repeatedly transmits packets for notifying that an operation mode is a registration mode from a signal transmission section 22 to all operation control terminals 1 and all other operation terminals 2A from switching of the operation mode to the registration mode to re-switching to an operation mode. When other operation terminals 2A operate a mode selection switch, the control section 20 does not switch from the operation mode to the registration mode during reception of packets for notifying the registration mode. Thus, the plurality of operation terminals 2A, 2B are not simultaneously switched to the registration mode, thus preventing a wrong correspondence (control target group) from being registered in the plurality of operation terminals 2A, 2B. <P>COPYRIGHT: (C)2011,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. 13, 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. 14A 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 (FIG. 14B). 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 apparatus 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. 14 (a), access is made to a certain control terminal 103, a return of monitoring data indicating the load state is requested, and the access from the access control terminal 103 to this is requested. The connected load state is returned to the transmission control apparatus 100 as monitoring data (FIG. 14B). 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. 14 (c)).

  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. 14C 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.

  In the above conventional example, the control terminal 103 for controlling the load 104 and the operation terminal 102 having the operation switches S1,... For controlling the load 104 do not directly transmit the transmission signal Vs, but transmit it. The system configuration is a so-called centralized control type that transmits via the control device 100. For this reason, if the transmission control apparatus 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.

  On the other hand, the present applicant has an operation control terminal equipped with an operation switch for controlling the load connected to the load and an operation switch, and is registered in advance when the operation switch is operated. An operation terminal that transmits a control command for controlling the load to the operation control terminal, and the operation control terminal receives the control command transmitted from the operation terminal and A so-called distributed control type load control system for controlling a certain load is proposed. In such a distributed control type system configuration, since the control command is directly transmitted between the operation terminal and the operation control terminal via the signal line, the signal line is disconnected or the operation terminal is Even if a failure occurs, the entire system does not become inoperable. As a result, the introduction cost can be suppressed and the stability of the system can be improved as compared with a centralized control type conventional system.

  Here, also in the distributed control type load control system, it is necessary to previously register the correspondence relationship between the operation switch and the load with respect to the operation terminal. In the conventional system already proposed by the present applicant, when a specific operation is performed on the operation terminal, the entire system (operation terminal and operation control terminal) enters the registration mode, and the operation control terminal in the registration mode. By operating the operation switch, it is registered as a load to be controlled by the operation terminal.

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

  However, in the registration work of the conventional system described above, when a new terminal (operation terminal or operation control terminal) is added to the system already in the registration mode, or the power is turned on after shifting to the registration mode. In the case of (started up), these terminals have a problem in that the registration operation is not performed without knowing that the system is in the registration mode.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a load control system capable of preventing the occurrence of problems in registration work.

  According to a first aspect of the present invention, in order to achieve the above object, one or a plurality of operation control terminals connected to one or more loads to be controlled, respectively, and a signal line to the one or more operation control terminals The operation control terminal and the operation terminal are assigned identification codes unique to each of the operation control terminals and the operation control terminals. Via an operation input receiving means for receiving an operation input by the operation switch, a control means for controlling a load that is an object to be controlled in accordance with an operation input received by the operation input receiving means, and a signal line A transmission means for transmitting packets to and from the operation terminal, the operation terminal having one or more operation switches and receiving an operation input by the operation switch; A storage unit that stores a correspondence relationship between the operation input received by the reception unit and the identification codes of one or more operation control terminals, acquires each identification code corresponding to the operation input with reference to the storage unit, and loads A control means for generating a control command for control and transmitting the control command and a packet including the identification code acquired from the storage means from the transmission means via a signal line. If the transmission means receives the packet transmitted through the signal line through the signal line and the identification code included in the received packet matches the identification code assigned to itself, the control command included in the packet is used. A load control system in which the control means controls a load that is a control target of the control means, and an operation control terminal and a control means for the operation terminal And an operation mode for controlling the load according to the operation of the operation switch, and a registration mode for registering and storing the correspondence in the storage means of the operation terminal, and any one of the operation terminals When a specific operation input is received by the operation input receiving means, the control means of the operation terminal unit generates a control command for switching its operation mode and switching the operation mode of the operation control terminal unit. A packet including a control command is transmitted from the transmission means to all the operation control terminals and all other operation terminals via the signal line, and the control means of the operation control terminal that has received the control command has its own control command. The control means of the operation terminal device, which is the transmission source of the packet including the control command for switching the operation mode, switches the operation mode. The packet for notifying that the operation mode is the registration mode is switched from the transmission means to all the operation control terminals and all other operation terminals until the operation mode is switched again after switching to the recording mode. It is characterized in that it is periodically and repeatedly transmitted.

  According to the first aspect of the present invention, the control means of any operation terminal device that has been switched from the operation mode to the registration mode by a specific operation input until the operation mode is switched to the registration mode and then to the operation mode again. In the meantime, since the packet for notifying that the operation mode is the registration mode is periodically transmitted from the transmission means, the packet is added even in a terminal device (operation terminal device or operation control terminal device) added or activated later. Can be determined that the system is in the registration mode. For example, the control means of the operation control terminal can receive the packet and switch to the registration mode. As a result, it is possible to prevent the occurrence of problems in registration work.

  According to a second aspect of the present invention, in the first aspect of the present invention, the control means of the other operation terminal that is not the transmission source of the packet including the control command for switching the operation mode is provided in each operation terminal. When the specific operation input is received by the operation input receiving means in the operation mode, the operation mode is switched to the registration mode unless the transmission packet is regularly received by the transmission means, and the notification If the transmission means periodically receives the packet for transmission, the notification means is made to notify the error without switching the operation mode to the registration mode.

  According to the invention of claim 2, it is possible to prevent an erroneous correspondence relationship from being registered in a plurality of operation terminals.

  According to a third aspect of the present invention, in the first or second aspect of the present invention, when the control means of the operation control terminal unit does not regularly receive the notification packet by the transmission means in the registration mode, the operation mode is changed to the operation mode. It is characterized by switching to.

  According to the invention of claim 3, for example, when the operation terminal that is the transmission source of the packet including the control command fails and the packet for notification is not transmitted, the control means of the operation control terminal automatically Switching to the operation mode can prevent the system from shutting down.

  According to a fourth aspect of the present invention, in any one of the first to third aspects of the present invention, at least one of the one or more operation terminals is connected to one or more loads to be controlled. The control means of the operation terminal is characterized by controlling the load that is the control target of the operation terminal according to the operation input received by the operation input receiving means.

  According to the invention of claim 4, since the load connected to the operation terminal can be directly controlled by operating the operation switch of the operation terminal, the usability is improved.

  According to the present invention, it is possible to prevent the occurrence of problems in registration work.

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. (A), (b) is explanatory drawing of the packet in the same as the above. It is a sequence diagram for operation | movement description same as the above. It is a sequence diagram for operation | movement description same as the above. It is a sequence diagram for operation | movement description in the registration mode same as the above. It is a sequence diagram for operation | movement description in the registration mode same as the above. It is a sequence diagram for operation | movement description in the registration mode same as the above. It is a system block diagram which shows Embodiment 2 of this invention. It is a sequence diagram for operation | movement description same as the above. It is a sequence diagram for operation | movement description 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.

  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 composed of a plurality of (two in the illustrated example) connected operation terminals 2. 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, no load is connected to the operation terminal 2 and it has a plurality (three or two in the illustrated example) of operation switches S51 to S53, S61 to S62, and any one of the operation switches S51,. A function (hereinafter referred to as remote control) of causing one of the operation control terminals 1 to control the load L as its control target by transmitting a packet (described later) including a control command via the signal line Ls when operated. Called a control function).

  The operation control terminal 1 is embedded in a wall of a building such as a house using a mounting frame and a flash plate used for an embedded wiring device.

  A circuit block diagram of the operation control terminal 1 is shown in FIG. The signal transmission unit 12 encodes and digitally modulates a packet having the format shown in FIG. 4A, transmits the packet via the signal line Ls, and digitally demodulates and decodes the packet received via the signal line Ls. The transmission destination and transmission source are identified by a unique identification code assigned to each operation control terminal 1. The identification code may be a physical address unique to the hardware assigned by the hardware manufacturer, such as a MAC address, or an address arbitrarily assigned by the user. In short, it is only necessary that the same identification code is not assigned to a plurality of operation control terminals 1 and operation terminals 2 in 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 (energization) from the commercial AC power supply AC to the load L according to the control signal in the operation control terminals 1A and 1B having an individual blinking function, and dimming and blinking. In the operation control terminals 1C and 1D having functions, in addition to the above-mentioned on / off function, the light output per unit time from the commercial AC power supply AC to the load L is adjusted according to the control signal, so that the optical output of the load L is adjusted. Has the function to increase or decrease. The on / off of power supply (energization) can be realized by a conventionally known method using a relay, and the adjustment of the amount of power supply can also be realized by a phase control method using a conventionally known triac. Illustration and description of the detailed configuration are omitted.

  The storage unit 13 includes an electrically rewritable nonvolatile semiconductor memory (for example, an EEPROM or a flash memory), and stores information such as a multicast address to be described later, a load identification code for identifying a plurality of loads L, and the like. . However, when an identification code unique to the operation control terminal 1 is arbitrarily assigned by the user, the identification code is also stored in the storage unit 13. 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,. .., And the drive circuit turns on and off the light emitting elements LD 11,... According to a control signal output from the control unit 10. 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 encodes and digitally modulates a packet having the format shown in FIG. 4A, transmits the packet via the signal line Ls, and digitally demodulates and decodes the packet received via the signal line Ls. The transmission destination and the transmission source are identified by a unique identification code.

  The operation input receiving unit 21 monitors the operation states of the operation switches S51, S52, S531, S61, and S62, receives an operation input when the operation switches S51,... Are operated, and corresponds to each operation switch S51,. Outputs an operation signal. 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 is composed of a rewritable nonvolatile semiconductor memory (for example, an EEPROM or a flash memory), and an identification code of the operation control terminal 1 belonging to a group or a pattern group (described later) corresponding to the operation switches S51,. Information such as the multicast address, the identification code of the other operation terminal 2 and the state of the load L to be collectively controlled is stored.

  The operation display unit 24 displays the operation state of the load L corresponding to the operation switches S51,..., And drives the light emitting elements LD51, LD52, LD53, LD61, LD62 and the light emitting elements LD51,. A drive circuit (not shown) is included, and all loads L that are targets of collective control (to be described later) such as group control and pattern control are operating (lighting) in accordance with a control signal output from the control unit 20. The drive circuit turns off the light emitting elements LD51,..., And the drive circuit turns on the light emitting elements LD51, LD when at least part of the load L that is the target of group control or pattern control is not operating (turned off). Turn on…. Note that the light emitting elements LD51,... Of the operation display unit 24 are disposed in the vicinity of the corresponding operation switches S51,. 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, the batch control will be briefly described. The collective control includes group control and pattern control (also called “scene control” when the load L is an illumination load). The group control refers to the loads L belonging to the same group in the same operation state. The pattern control is a control method that collectively controls loads L belonging to the same pattern group to an operation state set for each load L. In the present embodiment, the operation switches S51 to S53 of one operation terminal device 2A correspond to group control, and the operation switches S61 and S62 of the other operation terminal device 2B correspond to pattern control. For example, the group control corresponding to the operation switch S51 is connected to all the operation control terminals 1A to 1D belonging to the group in the group to which all the operation control terminals 1A to 1D connected to the signal line Ls belong. In this control, the load L is turned on or off all at once, and the identification code of the operation control terminals 1A to 1D belonging to the group is stored in the storage unit 23 of the operation terminal 2A in association with the operation switch S51. ing. The pattern control corresponding to the operation switch S61 is performed in the first pattern group to which all the operation control terminals 1A to 1D belong, for example, two loads L of the operation control terminal 1A and two loads of the operation control terminal 1B. Control for turning on L, dimming and lighting the load L of the operation control terminal 1C at a dimming level of 50%, and dimming and lighting the load L of the operation control terminal 1D at 70% (first pattern control) In the storage unit 23 of the operation terminal 2B, the identification codes of the operation control terminals 1A to 1D belonging to the first pattern group and the control content (dimming level) for each load L are associated with the operation switch S61. It is remembered. Further, the pattern control corresponding to the operation switch S62 is a dimming operation in which the load L of the operation control terminal 1C is dimmed at a dimming level of 70% in the second pattern group to which the two operation control terminals 1C and 1D belong. Control (second pattern control) for dimming and lighting the load L of the control terminal 1D at 30% (operation pattern terminal 1C belonging to the second pattern group in the storage unit 23 of the operation terminal 2B) , 1D identification code and control content (dimming level) for each load L are stored in association with the operation switch S62. However, it can be arbitrarily selected which group or pattern group of the operation control terminals 1A to 1D belongs to the collective control. In addition, the operation terminal 2 stores the state of the load L notified from the operation control terminals 1A to 1D in the storage unit 23 as described later.

  Next, an operation of collectively controlling a plurality of loads L (group control and pattern control) using the operation terminal device 2 will be described.

  First, the group control operation by the operation terminal 2A will be described with reference to the sequence diagram of FIG. When the operation switch S51 of the operation terminal 2A 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 stores the correspondence relationship stored in the storage unit 23. , The identification codes of the operation control terminals 1A to 1D associated with the operation signal (operation input by the operation switch S51), and the load L of the control target connected to the operation control terminals 1A to 1D Status (latest status). If the states of the loads L acquired from the storage unit 23 are all the same, that is, if all the loads L are in the lit state or unlit state, the control unit 20 is in the opposite state (in the lit state, the unlit and unlit states) If the load L is not in the same state, for example, if only one of the loads L is in the on state and the remaining load L is in the off state, all the commands are generated. A control command for setting the load L to the same state (lighted state or unlit state) is generated. Further, the control unit 20 sets the generated control command in the data, creates a packet in which the multicast address is set in the destination address and the identification code is set in the transmission source address, and the packet is transmitted from the signal transmission unit 22 to the signal. Transmit via line Ls. As shown in FIG. 4B, the control command includes the command content (load control in this case), the identification codes of the operation control terminals 1A to 1D to be controlled, and the control content of the load L (in this case). On or off). A packet in which a multicast address is set as a destination address is received by all terminals (operation control terminal 1 and operation terminal 2) that constitute the load control system of the present embodiment.

  In the operation control terminals 1A to 1D, the signal transmission unit 12 receives the packet and passes the packet to the control unit 10. In the control unit 10, the control command included in the received packet includes its own identification code. For example, a control signal for turning on or off the load L is output to the load driving unit 14 in accordance with the control content corresponding to the identification code. 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. Further, in the control unit 10, after a predetermined standby time (a different time for each of the operation control terminals 1A to 1D) has elapsed after receiving the control command, the control unit 10 is set to the source address of the packet including the control command. A packet in which the identification code of the operation terminal 2A is set as the destination address, the identification code of itself is set as the transmission source address, and the state of the controlled load L (lit or extinguished) is set to data (load status notification Packet) is generated and transmitted from the signal transmission unit 12 via the signal line Ls. Furthermore, the control part 10 changes the display of the own operation | movement display part 15 according to the state of the load L after control.

  On the other hand, in the operation terminal device 2A, the signal transmission unit 22 receives the packet and passes it to the control unit 20, and the control unit 20 causes the storage unit 23 to store the state of the load L included in the received packet. When receiving the load status notification packet from all the operation control terminals 1A to 1D belonging to the group corresponding to the operation switch S51, the control unit 20 changes the display of the operation display unit 24, for example, all the load L When is turned on, the light emitting element LD51 is turned off. When all the loads L are turned off, the light emitting element LD51 is turned on. Thus, by turning off the light emitting element LD51, it is displayed that all the loads L that are controlled objects are in an operating state (lighted state), and by turning on the light emitting element LD51, all the loads L that are controlled objects are displayed. If the non-operating state (light-off state) is displayed, all the loads L to be controlled are in the operating state without providing display means (light emitting elements) for individually displaying the operating states of the respective loads L. Since whether or not it is in the (lighting state) can be confirmed by the display of the light emitting element LD51, there is an advantage that it is possible to easily determine whether or not collective control is necessary.

  Here, when the load state notification packet cannot be received from any one of the operation control terminals 1A to 1D, the control unit 20 of the operation terminal 2A has not received the load state notification packet (for example, 1D) is set as a destination address, and a packet in which a control command for requesting notification of a load state is set as data is transmitted from the signal transmission unit 22 via the signal line Ls. Then, if a load state notification packet is returned from the operation control terminal 1D that has received the packet requesting the load state notification, the control unit 20 of the operation terminal 2A stores the notified state of the load L in the storage unit. 23, if the load status notification packet is not returned, the control unit 20 of the operation terminal 2A displays that an abnormality has occurred by a method such as blinking the light emitting element LD51 of the operation display unit 24. To do. Further, after receiving the load state notification packet from the operation control terminals 1A to 1D, the control unit 20 sends a control command for transferring the latest load L state acquired by the packet to the other operation terminal 2B. Generate and set the control command for transfer in the data, and set the second multicast address (multicast address for the operation terminal 2 only and not the operation control terminals 1A to 1D) as the destination address. A packet for transfer having its own identification code set in the source address is transmitted from the signal transmission unit 22 via the signal line Ls. In the other operation terminal 2B that has received the transfer packet, the state of the load L after control transferred by the packet is stored in the storage unit 23 together with the state of the load L before control. Here, the ACK packet for confirmation of reception is returned in unicast from the other operation terminal 2B that has received the transfer packet to the operation terminal 2A that is the transmission source of the packet. For other operation terminals 2B that could not be received, a transfer packet is unicasted again from the transfer source operation terminal 2A.

  Next, the operation of pattern control (second pattern control) by the operation terminal 2B will be described with reference to the sequence diagram of FIG. When the operation switch S62 of the operation terminal 2B 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 stores the correspondence relationship stored in the storage unit 23. , The identification codes of the operation control terminals 1C and 1D associated with the operation signal (operation input by the operation switch S62), and the load L of the control target connected to the operation control terminals 1C and 1D The control content (light control level) is acquired. In accordance with the control content (second pattern control) acquired from the storage unit 23, the control unit 20 performs dimming lighting of the load L of the operation control terminal 1C at a dimming level of 70%, and controls the operation control terminal 1D. Generates a control command for dimming and lighting the load L at 30%, sets the generated control command as data, sets a multicast address as the destination address, and creates a packet with its own identification code set as the source address The signal transmission unit 22 transmits the signal via the signal line Ls. This control command does not include the identification codes and control contents of the operation control terminals 1A and 1B that do not belong to the second pattern group.

  In the operation control terminals 1 </ b> A to 1 </ b> D, the signal transmission unit 12 receives the packet and passes it to the control unit 10. In the control unit 10 of the operation control terminals 1A and 1B, the control command included in the received packet does not include its own identification code, so the load L is not controlled and the current load L state (lighted or A packet (load state notification packet) set to data is generated and transmitted from the signal transmission unit 12 via the signal line Ls. On the other hand, since the control unit 10 of the operation control terminals 1C and 1D includes its own identification code in the control command included in the received packet, the control content (dimming level) corresponding to the own identification code is used. A control signal for dimming the load L is output to the load driving unit 14. The load drive unit 14 adjusts 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, in the control unit 10 of the operation control terminals 1C and 1D, the identification code of the operation terminal 2B set in the transmission source address of the packet including the control command after a predetermined standby time has elapsed after receiving the control command. Is set as the destination address, the identification code of itself is set as the source address, and the load state notification packet in which the state of the load L after control (dimming level) is set as data is generated to generate the signal transmission unit 12 The signal is transmitted via the signal line Ls. Furthermore, the control part 10 changes the display of the own operation | movement display part 15 according to the state of the load L after control.

  In the operation terminal device 2B, the signal transmission unit 22 receives the packet and passes it to the control unit 20. The control unit 20 stores the state of the load L included in the received packet in the storage unit 23. When receiving the load state notification packet from all the operation control terminals 1C and 1D belonging to the second pattern group corresponding to the operation switch S62, the control unit 20 turns on the light emitting element LD62 of the operation display unit 24. Displays that the second pattern control is being executed. Furthermore, after receiving the load state notification packet from the operation control terminals 1A to 1D, the control unit 20 sends a control command for transferring the latest load L state acquired by the packet to the other operation terminal 2A. Generate and set the transfer control command in the data, set the second multicast address as the destination address, and set the transfer packet having the identification code as the source address from the signal transmission unit 22 to the signal line Send via Ls. The other operating terminal 2A that has received the transfer packet stores the state of the load L before the control and the state of the load L after the control transferred by the packet in the storage unit 23. Since the first pattern control operation is basically the same as the second pattern control operation, the description thereof is omitted.

  As described above, in the load control system of the present embodiment, it is possible to directly control the load L to be controlled connected to the operation control terminal 1 by operating the operation switches S11 of the operation control terminal 1. It is also possible to remotely control the load L of the operation control terminal 1 connected to the operation terminal 2 via the signal line Ls by operating the operation switch S51 of the operation terminal 2. In addition, since the operation terminal 2 and the operation control terminal 1 directly transmit a packet including a control command via the signal line Ls, the signal line Ls is disconnected or the operation control terminal 1 or the operation terminal 2 is connected. If one of them fails, the entire system will not become inoperable. Furthermore, when remotely controlling the loads L of the plurality of operation control terminals 1 from a remote location, the control control terminal 1 is not individually transmitted with a packet including a control command (unicast transmission), but the control Since packets including commands are multicast-transmitted to a plurality of operation control terminals 1, all the loads L to be controlled can be controlled at the same time, and as a result, stability compared to a centralized control type conventional system In addition, the load control response can be improved.

  Next, referring to the sequence diagrams of FIGS. 7 and 8 for the procedure for registering the correspondence relationship of the collective control (group in group control and pattern group in pattern control) to the operation terminal 2, which is the gist of the present invention. However, a case where the second pattern group is registered in the operation terminal 2B will be described as an example. The “operation mode” described below is a normal operation mode in which the individual control and collective control described above are performed.

  First, when a mode switch (not shown) provided in the operation input receiving unit 21 of the operation terminal 2B is operated, an operation signal (operation input) for mode switching is output from the operation input receiving unit 21 to the control unit 20. Then, the control unit 20 that has received the operation signal switches its own operation mode from the operation mode to the registration mode. However, when switching the operation mode, it is not always necessary to provide a switch dedicated to mode switching (mode switching switch). For example, one of the operation switches to be registered (S62 in this case) is operated by long pressing. Thus, the operation input receiving unit 21 may output a mode switching operation signal to the control unit 20.

  When the operation switch S62 of the operation terminal 2 is operated in the registration mode, an operation signal is output to the control unit 20 from the operation input receiving unit 21 that has received the operation input of the operation switch S62, and the control unit 20 displays the operation display unit 24. To notify the user that the second pattern group corresponding to the second pattern control corresponding to the operation switch S62 is being registered by blinking the light emitting element LD62 corresponding to the operation switch S62. To do. Further, the control unit 20 also generates a control command for instructing switching to the registration mode in the control unit 10 of the operation control terminal 1, sets the multicast address as the destination address including the control command, and sets it as the source address. A packet in which its own identification code is set is transmitted from the signal transmission unit 22 via the signal line Ls.

  In the operation control terminal 1 that has received the packet, the control unit 10 switches the operation mode from the operation mode to the registration mode in accordance with the instruction of the control command. In the registration mode, it is possible to select participation / non-participation in the second pattern group that is the target of the second pattern control by long-pressing the operation switches S11,. Since non-participation in the control target group (in this case, the second pattern group) is selected at the time of shifting to the registration mode, first, the operation switch S31 of the operation control terminal 1C participating in the second pattern group is selected. Is operated (long press operation). Then, when an operation signal is output from the operation input receiving unit 11 that has received the operation input of the operation switch S31 to the control unit 10, the control unit 10 switches the selection of participation / non-participation to the second pattern group to participation, A packet having the switched selection result (participation in the second pattern group) as data is unicasted from the signal transmission unit 12 via the signal line Ls with the identification code of the operation terminal 2B set as the destination address. . The control unit 20 of the operation terminal device 2B temporarily stores in the storage unit 23 the selection result for the control target group (second pattern group) received from the operation control terminal device 1C. In addition, the control unit 10 of the operation control terminal 1C outputs a control signal and blinks the light emitting element LD31 of the operation display unit 15 at a relatively long period when participation in the second pattern group is selected. When the non-participation in the second pattern group is selected, the control signal is output and the light-emitting element LD31 of the operation display unit 15 blinks in a relatively short period to select whether the user participates or does not participate. Inform the situation. However, the method of displaying the participation / non-participation selection status is an example, and the present invention is not limited to this.

  Subsequently, the operation switch S41 of the operation control terminal 1D participating in the second pattern group is operated (long press operation). Then, when an operation signal is output from the operation input receiving unit 11 that has received the operation input of the operation switch S41 to the control unit 10, the control unit 10 switches the selection of participation / non-participation to the second pattern group to participation, A packet having the switched selection result (participation in the second pattern group) as data is unicast transmitted from the signal transmission unit 12 via the signal line Ls with the identification code of the operation terminal 2 set as the destination address. . In the control unit 20 of the operation terminal device 2B, the selection result for the control target group (second pattern group) received from the operation control terminal device 1D is temporarily stored in the storage unit 23. In addition, the control unit 10 of the operation control terminal 1D notifies the user of the participation / non-participation selection status using the light emitting element LD41 of the operation display unit 15 similarly to the operation control terminal 1C.

  After the operation of selecting the participation in the second pattern group is completed in the operation control terminals 1C and 1D, if the user operates the mode switch of the operation terminal 2B, the operation input receiving unit 11 transfers to the control unit 20 A mode switching operation signal (operation input) is output. The control unit 20 that has received the operation signal, based on the selection result temporarily stored in the storage unit 23, assigns the identification codes of the two operation control terminals 1C and 1D selected to participate to the control target group (first number). 2 is stored (registered) in the storage unit 23 as an identification code belonging to (2 pattern group), and then the operation mode is switched from the registration mode to the operation mode. Further, the control unit 20 of the operation terminal device 2B generates a control command instructing the control unit 10 of the operation control terminal device 1 to shift from the registration mode to the operation mode, and includes the control command and multicasts to the destination address. A packet in which an address is set and a self-identification code is set as a transmission source address is transmitted from the signal transmission unit 22 via the signal line Ls. Then, the control unit 10 of the operation control terminal 1 that has received the packet switches the operation mode from the registration mode to the operation mode in accordance with the instruction of the control command. However, when switching from the registration mode to the operation mode, the control unit 10 of the operation control terminal 1 has nothing in the storage unit 13 (regardless of participation / non-participation in the second pattern group). (Identification code, etc.) Not stored. When the registration mode is switched to the operation mode, the control unit 20 of the operation terminal device 2B and the control unit 10 of the operation control terminal device 1 output control signals to display the light emitting elements LD11,. Turn on or off. In addition, when the identification code of the operation control terminal 1 is registered for a control target group other than the second pattern group, the description can be omitted because the same procedure can be used.

  Subsequently, after operating the operation switches S32, S33, S42, and S43 of the operation control terminals 1C and 1D in the operation mode to adjust the brightness (dimming level) of the load L, the operation switch S62 of the operation terminal 2B is adjusted. Is pressed for a long time, the control unit 20 of the operation terminal 2B acquires from the storage unit 23 the identification codes of the operation control terminals 1C and 1D belonging to the second pattern group corresponding to the operation switch S62. A packet in which a control command for requesting notification of the current load L state (dimming level) is set in data and each identification code is set as a destination address is unicast from the signal transmission unit 22 via the signal line Ls. To transmit.

  The control unit 10 of the operation control terminals 1C and 1D that has received the packet sets the current load L state (dimming level) stored in the storage unit 13 as data and sets the operation of the request source as the destination address. The packet in which the identification code of the terminal 2B is set and the identification code of the terminal 2B is set as the transmission source address is unicast transmitted from the signal transmission unit 12 via the signal line Ls.

  Then, the control unit 20 of the operation terminal 2B that has received the packet from each operation control terminal 1C, 1D sets the dimming level set in the packet data for each load L in the second pattern control. The contents of control are stored in the storage unit 23. However, the operation terminal 2A that performs group control does not need to determine the control content (dimming level) for each load L, and thus the above-described operation is unnecessary.

  Here, when the plurality of operation terminals 2A and 2B are simultaneously switched to the registration mode, the selection result of participation / non-participation in the control target group in the operation control terminal 1 overlaps with each operation terminal 2A and 2B. May be registered. Therefore, while any one of the operation terminals 2 is switched to the registration mode and the registration work is being performed, it is desirable that the other operation terminals 2 do not switch to the registration mode. Further, when another operation control terminal 1 is activated in a state where the operation control terminal 1 connected to the signal line Ls is switched to the registration mode in accordance with an instruction from the operation terminal 2, an operation activated later Since the control unit 10 of the control terminal 1 has not received an instruction from the operation terminal 2 to switch to the registration mode, the registration operation cannot be performed without switching to the registration mode. Therefore, it is necessary to instruct the control unit 10 of the operation control terminal 1 that is activated in a state where the operation terminal 2 and the operation control terminal 1 are switched to the registration mode to switch to the registration mode.

  Therefore, in this embodiment, the control unit 20 of the operation terminal 2 (for example, 2B) that is the transmission source of the packet including the control command for switching the operation mode switches the operation mode to the registration mode and then switches to the operation mode again. Until this time, a packet for notifying that the operation mode is the registration mode is periodically sent from the signal transmission unit 22 to all the operation control terminals 1 and all the other operation terminals 2 (for example, 2A). It is repeatedly transmitted (for example, every few seconds). Hereinafter, with reference to the sequence diagram of FIG. 9, an operation from when the control unit 20 of the operation terminal 2 </ b> B switches the operation mode to the registration mode until it switches to the operation mode again will be described.

  When a mode switching switch provided in the operation input receiving unit 21 of the operation terminal 2B is operated and an operation signal for mode switching is output from the operation input receiving unit 21 to the control unit 20, the control unit 20 performs its own operation. When the mode is switched from the operation mode to the registration mode and the operation switch S62 of the operation terminal 2 is further operated, a control command for instructing (notifying) switching to the registration mode is generated, and the destination address includes the control command. A packet in which a multicast address is set and a transmission source address is set to its own identification code is transmitted from the signal transmission unit 22 via the signal line Ls. Further, the control unit 20 of the operation terminal 2B periodically multicasts a packet notifying that it is in the registration mode from the signal transmission unit 22 via the signal line Ls at a constant time interval (for example, several seconds).

  The control unit 10 of the operation control terminal 1 receives the control command included in the packet, switches the operation mode from the operation mode to the registration mode, and starts counting by the counter (clocking). Here, when one of the operation control terminals 1 (for example, the operation control terminal 1B) is activated after the first packet instructing switching to the registration mode is transmitted from the operation terminal 2B, the operation immediately after the activation is performed. The control unit 10 of the control terminal 1B is in the operation mode. However, when a registration mode notification packet periodically multicast transmitted from the operation terminal device 2B is received after activation, the control unit 10 of the operation control terminal device 1B also receives the control command included in the packet to change the operation mode. The operation mode can be switched to the registration mode. In this case, in the storage unit 13 of the operation control terminal 1B started later, multicast addresses stored in the other operation control terminals 1A,... And the storage units 13 and 23 of the operation terminal 2 are stored in advance. Need to be. However, the registration mode notification packet may be broadcasted by setting the broadcast address as the destination address instead of the multicast address.

  Here, the control unit 10 of the operation control terminal 1 retriggers the counter every time it receives a registration mode notification packet periodically multicast from the operation terminal 2B. When the count value (time) of the counter exceeds a certain time longer than the time interval for multicast transmission of the registration mode notification packet, the multicast transmission of the registration mode notification packet from the operation terminal 2B is interrupted. The operation mode is switched from the registration mode to the operation mode. Therefore, even when the operation terminal 2B that is the transmission source of the registration mode notification packet fails and the packet is not transmitted, the control unit 10 of the operation control terminal 1 automatically switches to the operation mode. This can prevent the system from shutting down.

  In the situation where one operation terminal 2B has already been switched to the registration mode, when the mode change switch is operated on the other operation terminal 2A, the operation input signal from the operation input receiving unit 21 is received. The control unit 20 starts counting (counting) the counter when the operation signal is received, and the counter count value (time) is a constant that is sufficiently longer than the time interval for multicast transmission of the registration mode notification packet. If the registration mode notification packet is received before the time is exceeded, switching from the operation mode to the registration mode is not performed, and if the registration mode notification packet is not received even if the count value of the counter exceeds the predetermined time, the operation is performed. Switch from mode to registration mode. In addition, when the control unit 20 of the operation terminal 2A does not switch from the operation mode to the registration mode, the control unit 20 controls the operation display unit 24 to blink the light emitting elements LD51 to LD53 at an early cycle, thereby registering the registration mode. Notification of failure in switching to (error notification). However, the error notification method is not limited to this. For example, an error may be notified by providing a separate buzzer and sounding the buzzer.

  Thus, in the present embodiment, since the plurality of operation terminals 2A and 2B are not switched to the registration mode at the same time, an erroneous correspondence (control target group) is registered in the plurality of operation terminals 2A and 2B. Can be prevented.

  By the way, in the situation where the control unit 20 of any one of the operation terminals 2 (for example, 2B) and the control unit 10 of the operation control terminal 1 are switched to the registration mode, another operation terminal 2 (for example, 2A) ), The control unit 20 of the other operation terminal 2A does not generate a packet including a control command for remote control (group control). That is, in the situation described above, if traffic increases due to a packet including a control command for remote control by another operation terminal device 2A, registration between the operation terminal device 2B and the operation control terminal device 1 occurs. The packet transmission including the control command for remote control by the other operation terminal 2A is prohibited so as not to cause such trouble. If the trouble due to the increase in traffic is not taken into account, the control unit 10 of the operation control terminal 1 may discard the remote control control command received from the other operation terminal 2A in the registration mode. .

  On the other hand, even in a situation where the mode is switched to the registration mode, it is possible to directly control the load L which is the control target of the operation control terminal 1 by operating the operation switches S11,. This is because, when directly controlling the load L that is the subject of control, there is no possibility that the registration work will be hindered by an increase in traffic as in the case of remote control.

(Embodiment 2)
FIG. 10 shows a system configuration diagram of the present embodiment. The load control system of the present embodiment is configured such that the load L can be directly controlled by connecting the load L to the operation terminal 2 described in the first embodiment. In other words, the load control system of this embodiment includes an operation control terminal (second operation control terminal) 1B to 1D that does not have a remote control function, and an operation control terminal (first operation control terminal) that has a remote control function. Instrument) 1A. However, since the basic configuration of the present embodiment is the same as that of the first embodiment, the same components are denoted by the same reference numerals, and illustration and description thereof are omitted as appropriate.

  The second operation control terminals 1B to 1D all have the same configuration as the operation control terminals 1B to 1D in the first embodiment. In addition, the first operation control terminal 1A corresponding to the operation terminal 2 of the first embodiment basically has the same configuration as the second operation control terminals 1B to 1D, and therefore has a detailed configuration. All illustrations and descriptions are omitted.

  In the first operation control terminal 1A, the operation switch S51 corresponds to the group control described in the first embodiment, and the operation switches S52 and S53 correspond to the first and second pattern controls described in the first embodiment, respectively. Identification codes of the second operation control terminals 1B to 1D belonging to the group that is the target of the group control and the first and second pattern groups that are the target of the first and second pattern control, and for each load L Are stored in the storage unit 13 in association with the operation switches S51 to S53.

  Next, the group control operation by the first operation control terminal 1A will be described with reference to the sequence diagram of FIG. When the operation switch S51 of the first operation control terminal 1A is operated, 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 is stored in the storage unit 13. Are connected to the second operation control terminals 1B to 1D and the identification codes of the second operation control terminals 1B to 1D associated with the operation signal (operation input by the operation switch S51). The state (latest state) of the load L to be controlled is acquired. If the states of the loads L acquired from the storage unit 13 are all the same, that is, if all the loads L are in the lit state or unlit state, the control unit 10 is in the opposite state (in the lit state, the unlit and unlit states). If the load L is not in the same state, for example, if only one of the loads L is in the on state and the remaining load L is in the off state, all the commands are generated. A control command for setting the load L to the same state (lighted state or unlit state) is generated. Further, the control unit 10 sets the generated control command in the data, creates a packet in which the multicast address is set in the destination address and the identification code is set in the source address, and the packet is transmitted from the signal transmission unit 12 to the signal. Transmit via line Ls.

  In the second operation control terminals 1B to 1D, the signal transmission unit 12 receives the packet and passes it to the control unit 10, and the control unit 10 includes its own identification code in the control command included in the received packet. If so, a control signal for turning on or off the load L is output to the load driving unit 14 in accordance with the control content corresponding to the identification code. 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, the control unit 10 sets a transmission source address of a packet including the control command after a predetermined standby time (a different time for each of the second operation control terminals 1B to 1D) has elapsed after receiving the control command. A packet in which the identification code of the first operation control terminal 1A is set as the destination address, the identification code of itself is set as the transmission source address, and the state of the load L after control (lighted or extinguished) is set in the data (Load status notification packet) is generated and transmitted from the signal transmission unit 12 via the signal line Ls. Furthermore, the control part 10 changes the display of the own operation | movement display part 15 according to the state of the load L after control.

  On the other hand, in the first operation control terminal 1A, the signal transmission unit 12 receives the packet and passes it to the control unit 10, and the control unit 10 stores the state of the load L included in the received packet in the storage unit 13. . When receiving the load state notification packet from all the second operation control terminals 1B to 1D belonging to the group corresponding to the operation switch S51, the control unit 10 changes the display of the operation display unit 15, for example, When the load L is turned on, the light emitting element LD51 is turned off, and when all the loads L are turned off, the light emitting element LD51 is turned on. When the load state notification packet cannot be received from any of the second operation control terminals 1B to 1D, the control unit 10 of the first operation control terminal 1A cannot receive the load state notification packet. A packet in which an identification code of an operation control terminal (for example, 1D) is set as a destination address and a control command for requesting notification of a load state is set as data is transmitted from the signal transmission unit 12 via the signal line Ls. Then, if a load state notification packet is returned from the second operation control terminal 1D that has received the packet requesting the load state notification, the control unit 10 of the first operation control terminal 1A notifies the load L that has been notified. If the load state notification packet is not returned, the control unit 10 of the first operation control terminal 1A blinks the light emitting element LD51 of the operation display unit 15 or the like. Displays that an abnormality has occurred.

  Next, the pattern control (second pattern control) operation will be described with reference to the sequence diagram of FIG. When the operation switch S53 of the first operation control terminal 1A is operated, 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 is stored in the storage unit 13. The identification codes of the second operation control terminals 1C and 1D associated with the operation signal (operation input by the operation switch S53) and the second operation control terminals 1C and 1D are connected with reference to the corresponding relationship. The control content (light control level) for the load L to be controlled is acquired. The control unit 10 performs dimming lighting of the load L of the second operation control terminal 1C at a dimming level of 70% according to the control content (second pattern control) acquired from the storage unit 13, and performs the second operation control. A control command for dimming and lighting the load L of the terminal 1D at 30% is generated, the generated control command is set as data, a multicast address is set as a destination address, and a self-identification code is set as a source address A packet is created and transmitted from the signal transmission unit 12 via the signal line Ls. This control command does not include the identification code and control content of the second operation control terminal 1B that does not belong to the second pattern group.

  In the second operation control terminals 1 </ b> B to 1 </ b> D, the signal transmission unit 12 receives the packet and passes it to the control unit 10. In the control unit 10 of the second operation control terminal 1B, the control command included in the received packet does not include its own identification code, so the load L is not controlled and the current load L state (lighted or A packet (load state notification packet) set to data is generated and transmitted from the signal transmission unit 12 via the signal line Ls. On the other hand, the control unit 10 of the second operation control terminals 1C and 1D includes its own identification code in the control command included in the received packet. ), A control signal for dimming the load L is output to the load driving unit 14. The load drive unit 14 adjusts 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, in the control unit 10 of the second operation control terminals 1C and 1D, the first operation control terminal set to the transmission source address of the packet including the control command after a predetermined standby time has elapsed after receiving the control command. 1A sets the identification code of the device 1A as the destination address, sets its own identification code as the transmission source address, and generates a load state notification packet in which the state of the load L after control (dimming level) is set to data The signal transmission unit 12 transmits the signal via the signal line Ls. Furthermore, the control part 10 changes the display of the own operation | movement display part 15 according to the state of the load L after control.

  In the first operation control terminal 1A, the signal transmission unit 12 receives the packet and passes it to the control unit 10, and the control unit 10 causes the storage unit 13 to store the state of the load L included in the received packet. When receiving the load state notification packet from all the second operation control terminals 1C and 1D belonging to the second pattern group corresponding to the operation switch S53, the control unit 10 turns on the light emitting element LD53 of the operation display unit 15. Then, it is displayed that the second pattern control is being executed. Since the first pattern control operation is basically the same as the second pattern control operation, the description thereof is omitted.

  Also in the present embodiment, as in the first embodiment, when a mode changeover switch (not shown) is operated in the first operation control terminal 1A having a remote control function (collective control function), the first operation control terminal The control unit 10 of 1A switches the operation mode from the operation mode to the registration mode, and multicasts a packet including a control command instructing switching to the registration mode from the signal transmission unit 12 via the signal line Ls. Then, the control unit 10 of the second operation control terminals 1B to 1D that has received the packet switches the operation mode from the operation mode to the registration mode. In the registration mode, a procedure for registering the identification codes of the second operation control terminals 1B to 1D in the control target group of the first operation control terminal 1A, for periodically registering the registration mode from the first operation control terminal 1A. The procedure for multicast transmission of packets, the operation of the control unit 10 of the second operation control terminals 1B to 1D when receiving the registration mode notification packet and when the packet is no longer received, etc. Since it is the same as that of the first embodiment, detailed description is omitted. Here, when there are a plurality of first operation control terminals 1 having a remote control function (collective control function), any one of the first operation control terminals 1 switched to the registration mode by the operation of the mode switch is selected. In all other first operation control terminals 1, the control unit 10 switches to a registration mode in which the former first operation control terminal 1 is a registration source, and the second operation control terminals 1B to 1D. Similarly to the above, participation / nonparticipation in the control target group can be selected by operating the operation switch.

DESCRIPTION OF SYMBOLS 1 Operation control terminal 2 Operation terminal S11, S21-S22, S31-S33, S41-S43, S51-S53, S61-S62 Operation switch L Load (lighting load)
Ls signal line

Claims (4)

One or more operation control terminals connected to one or more loads to be controlled, respectively, and one or more operation terminals connected to the one or more operation control terminals via signal lines And the operation control terminal and the operation terminal are assigned a unique identification code to each terminal,
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. A control means, and a transmission means for transmitting a packet between the operation terminal via a signal line,
The operation 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 identification code of the one or more operation control terminals. The storage means storing the correspondence relationship, the respective identification codes corresponding to the operation inputs with reference to the storage means, and the control command for generating a control command for controlling the load, and the identification obtained from the control command and the storage means Control means for transmitting a packet including a code from the transmission means via a signal line,
In the operation control terminal, the packet transmitted from the operation terminal via the signal line is received by the transmission means, and if the identification code included in the received packet matches the identification code assigned to itself, the packet A load control system in which the control means controls a load to be controlled in accordance with a control command included in the control command,
The operation control terminal and the control means of the operation terminal are of two types: an operation mode for controlling the load according to the operation of the operation switch, and a registration mode for registering and storing the correspondence in the storage means of the operation terminal. The operation unit has an operation mode, and when a specific operation input is received by the operation input reception unit of any of the operation terminal units, the control unit of the operation terminal unit switches its own operation mode and the operation mode of the operation control terminal unit A control command for switching the control command is generated, and a packet including the control command is transmitted from the transmission means to all the operation control terminals and all other operation terminals via the signal line. The control means of the received operation control terminal switches its operation mode,
The control means of the operating terminal, which is the transmission source of the packet including the control command for switching the operation mode, confirms that the operation mode is the registration mode from the time when the operation mode is switched to the registration mode until the operation mode is switched again. A load control system, wherein a packet for notification is periodically and repeatedly transmitted to all operation control terminals and all other operation terminals by a transmission means.   Each operation terminal is provided with a notification means for notifying an error, and the control means of other operation terminal that is not the transmission source of the packet including the operation mode switching control command accepts the specific operation input in operation mode. If the notification packet is not periodically received by the transmission means, the operation mode is switched to the registration mode, and the notification packet is periodically received by the transmission means. 2. The load control system according to claim 1, wherein the error notification is sent to the notification means without switching the operation mode to the registration mode.   The load control according to claim 1 or 2, wherein the control means of the operation control terminal switches the operation mode to the operation mode when the transmission means does not periodically receive the notification packet in the registration mode. system.   At least one of the one or more operation terminals is connected to one or more loads to be controlled, and the control means of the operation terminal responds to an operation input received by the operation input receiving means. The load control system according to any one of claims 1 to 3, wherein a load that is a control target of the load is controlled.

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