KR101097735B1 - Load Control System - Google Patents

Abstract

The load control system includes a first terminal and a plurality of second terminals connected to the first terminal through a signal line. The second terminal controls the connected second load in response to manual operation of the second switch. The first terminal controls the connected first load in response to manual operation of the first switch. The first terminal generates a packet including the data and the destination address, and outputs the packet to the signal line in response to a manual operation of the fourth switch. The data includes a second identifier indicating a second terminal corresponding to a manually operated fourth switch and a second control command used to control the second # 1 lower. The destination address represents the first multicast address. The second terminal receives a packet having a destination address representing the first multicast address. When the second identifier is included in the data of the received packet, the second terminal acquires a second control command associated with the second identifier from the data and controls the second load corresponding to the acquired second control command.

Description

Load control system {LOAD CONTROL SYSTEM}

The present invention relates to a load control system, and more particularly, to a load control system for controlling a load in response to manual operation of a switch.

Document 1 (Japanese Patent Laid-Open No. JP 2003-37879A) discloses a load control system using time-division multiplexing.

The load control system disclosed in document 1 includes a transmission control device. The transmission control apparatus is connected to a plurality of operation terminals and a plurality of control terminals via a two-wire signal line. The operation terminal includes a switch of a manual operation method, and the control terminal controls the load (for example, the lighting load).

In such a load control system, the control terminal and the operation terminal communicate with each other via the transmission control device. In other words, the load control system becomes a so-called integrated control system.

Therefore, the load control system is unlikely to work properly if the transmission control device fails or a problem occurs in the signal line. In addition, the transmission control device transmits the control data to the control terminal, which is sequentially transmitted. Therefore, when it is desired to control a plurality of loads simultaneously using an operation terminal, each load is likely to be controlled at different timings. In this case, the user may feel uncomfortable.

In order to solve this problem, it is an object of the present invention to provide a load control system that can improve the stability and improve the response performance to control the load.

The load control system according to the invention is for use in controlling a plurality of loads. The load control system of the present invention includes a first terminal and a plurality of second terminals connected to the first terminal through a signal line. The second terminal is connected to the second load respectively. The second terminal includes a second operation unit, a second control unit, a second storage unit, and a second communication unit. The second operation portion includes a second switch of the manual type, and is configured to output second operation information in response to the manual operation of the second switch. The second control unit controls the second load according to the second operation information received from the second operation unit. The second storage unit is configured to store a second identifier uniquely assigned to the second terminal and a first multicast address. The second communication unit is configured to communicate with the first terminal via the signal line. The first terminal is connected to the first load. The first terminal includes a first operation unit, a first control unit, a first storage unit, and a first communication unit. The first operation unit includes a first switch of the manual operation method and a fourth switch of the manual operation method, and outputs first operation information in response to the manual operation of the first switch, and generates a first switch in response to the manual operation of the fourth switch. 4 Output the operation information. The first control unit controls the first load according to the first operation information received from the first operation unit. The first storage unit stores the first multicast address together with the first correspondence information indicating a correspondence relationship between the second control information for determining the state of the second load and the second combination combining the second identifier and the fourth operation information. . The first communication unit communicates with a plurality of second terminals via signal lines. The first communication unit is configured to output a packet having a destination address and data to the signal line. When the first control unit receives the fourth operation information, the first control unit acquires a second combination associated with the received fourth operation information from the first corresponding information stored in the first storage unit. The first control unit generates a second control command used to control the second load based on the obtained second control information of the second combination. The first control unit controls the first communication unit to output a packet having data representing the second identifier and a destination address representing the first multicast address together with the second control command. The second communication unit is adapted to receive a packet having a destination address indicating the first multicast address. The second control section determines whether the packet received by the second communication section includes data having a second control command associated with the second identifier stored in the second storage section. The second control unit acquires the second control command from the data if the received packet includes data having a second control command associated with the second identifier stored in the second storage unit. The second control unit controls the second load corresponding to the acquired second control command.

Preferably, the load control system comprises a plurality of first terminals. The first storage section stores the first multicast address. The first control unit controls the first communication unit to output a packet having a destination address indicating the second multicast address when transmitting the packet to another first terminal. The first communication unit is configured to receive a packet having a destination address indicating the second multicast address. The second communication unit is configured not to receive a packet having a destination address indicating the second multicast address.

More preferably, the first communication unit is adapted to include the source address in the packet. The first control unit is configured to set the first identifier stored in the first storage unit as a source address of a packet having data representing the second control command. The second communication unit is configured to output the packet to the signal line. After the second control unit controls the second load corresponding to the second control command included in the received packet, the second communication unit causes the second communication unit to receive data indicating the second state information indicating the latest state of the second load. A packet having a destination address indicating the source address of the packet is output. The first communication unit is configured to receive a packet having a destination address indicating the first identifier stored in the first storage unit. The first control unit, when the first communication unit receives a packet having data indicating the second control information, the first control unit has a packet having data indicating the second control information received by the first communication unit and a destination address indicating the second multicast address. Control to output

More preferably, the first terminal comprises a first display portion configured to display the state of the second load. The first storage unit is configured to store second state information received by the first communication unit. The first control unit determines whether the second load is in a turn-on state under the control of the first terminal with reference to the second state information stored in the first storage unit, and when the situation is confirmed, under the control of the first terminal. It is arranged to display a collective control state in which the second loads are all turned on.

Preferably, the load control system includes a third terminal connected via a signal line to the first terminal and the plurality of second terminals. The third terminal includes a third operation unit including a third switch of a manual operation method and outputting third operation information in response to the manual operation of the third switch; A third controller; A third storage unit storing a first multicast address together with third correspondence information indicating a correspondence relationship between the third operation information and the third combination; And a third communication unit configured to communicate with the first terminal through a plurality of second terminals via signal lines. The first communication unit and the second communication unit are configured to communicate with the third terminal via the signal line. The third communication unit is configured to output the packet to the signal line. The first storage unit is configured to store a first identifier uniquely assigned to the first terminal. The third combination includes one or more of the first combination and the second combination that combine the first control information and the first identifier to determine the state of the first load. When the third control unit receives the third operation information, the third control unit acquires a third combination associated with the received third operation information from the third correspondence information stored in the third storage unit. If the acquired third combination includes the second combination, the third control unit generates a second control command based on the second control information of the second combination associated with the third operation information. The third control unit controls the third communication unit to output a packet having data representing the second identifier and a destination address representing the first multicast address, to the signal line together with the generated second control command. When the third control unit receives the third operation information, the third control unit acquires a third combination associated with the received third operation information from the third correspondence information stored in the third storage unit. The third control unit, if the acquired third combination includes the first combination, is based on the first control information of the first combination associated with the third operation information, the first control command used to control the first load. Create The third control unit controls the third communication unit to output a packet having data representing the first identifier and a destination address representing the first multicast address to the signal line together with the generated first control command. The first communication unit is adapted to receive a packet having a destination address indicating the first multicast address. The first control unit determines whether the packet received by the first communication unit includes data having a first control command related to the first identifier stored in the first storage unit, and the received packet is stored in the first storage unit. If the data includes the first control command associated with the first identifier, the first control command is acquired from the data, and the first load corresponding to the acquired first control command is controlled.

More preferably, the first communication unit and the third communication unit are configured to include the source address in the packet. The first control unit is configured to set the first identifier stored in the first storage unit as a source address of a packet having data representing the second control command. The third storage unit is configured to store a third identifier uniquely assigned to the third terminal. The third control unit is configured to set the third identifier stored in the third storage unit as a source address of a packet having data representing at least one of the first control command and the second control command. The second communication unit is configured to output the packet to the signal line. The first control unit controls the first load corresponding to the first control command included in the received packet, and then causes the first communication unit to display data indicating first state information indicating the latest state of the first load. A packet having a destination address indicating the source address of the received packet is output. After controlling the second load corresponding to the second control command included in the received packet, the second control unit causes the second communication unit to display data indicating second state information indicating the latest state of the second load; A packet having a destination address indicating the source address of the received packet is output. The first communication unit is configured to receive a packet having a destination address indicating the first identifier stored in the first storage unit. The third communication unit is configured to receive a packet having a destination address indicating a third identifier stored in the third storage unit.

More preferably, after controlling the second load corresponding to the second operation information, the second control unit controls the second communication unit to have data representing the second control information and a destination address representing the first multicast address. Output the packet. The third communication unit is adapted to receive a packet having a destination address indicating the first multicast address.

More preferably, the load control system comprises a plurality of first terminals. The first storage section and the third storage section are configured to store the second multicast address. The first control unit controls the first communication unit to output a packet having a destination address indicating the second multicast address when transmitting the packet to at least one of the other first terminal and the third terminal. The third control unit controls the third communication unit to output a packet having a destination address indicating the second multicast address when transmitting the packet to at least one of the other first terminal and the other third terminal. The first communication section and the third communication section are configured to receive a packet having a destination address indicating a second multicast address. The second communication unit is configured not to receive a packet having a destination address indicating the second multicast address.

Further, when the first communication unit receives a packet including data indicating the second state information, the first control unit receives data indicating the second state information received by the first communication unit and a destination address indicating the second multicast address. Control to output a packet including a. When the third communication unit receives a packet including data representing the first state information or the second state information, the third control unit receives data indicating the first state information or the second state information received by the third communication unit. 2 Control to output a packet including a destination address indicating a multicast address.

More preferably, the first terminal comprises a first display portion configured to display the state of the second load. The first storage unit is configured to store second state information received by the first communication unit. The first control unit determines whether the second load is in a turn-on state under the control of the first terminal with reference to the second state information stored in the first storage unit, and if such a situation is confirmed, under the control of the first terminal. The second load is configured to indicate a collective control state in which all of them are turned on. The third terminal includes a third display unit configured to display the state of the first load and the state of the second load. The third storage unit is configured to store the first state information and the second state information received by the third communication unit. The third control unit may determine whether the first load and the second load are in a third state under the control of the third terminal with reference to the first state information and the second state information stored in the third storage unit, When the third situation is confirmed, the third collective control state is displayed in which both the first load and the second load are turned on under the control of the third terminal.

1 is a configuration diagram showing a load control system according to a preferred embodiment of the present invention.
2 is a block diagram of a first terminal.
3 is a block diagram of a second terminal.
4 is a block diagram of a third terminal.
Fig. 5A is a diagram showing a frame structure of a packet.
FIG. 5B is a diagram illustrating the content of data included in a packet.
6 is a flowchart illustrating the operation of the load control system.
7 is a flowchart illustrating the operation of the load control system.
8 is a flowchart showing the operation of the load control system.

1, a load control system according to a preferred embodiment of the present invention is shown. The load control system is used to control a plurality of loads (L). The load control system includes a first terminal (first operation control terminal 10), a plurality of second terminals (second operation control terminals 20 (20A, 20B, 20C)), and a plurality of third terminals (third operation terminal). (30; 30A, 30B)]. The terminals 10, 20, and 30 are connected to each other via a two-wire signal line 60.

The load L includes a first load L10 and a plurality of second loads L20 (L201, L202, L203, L203, and L204). The first load L10 is connected to the first terminal 10. The second loads L201 and L202 are connected to the second terminal 20A. The second loads L203 and L204 are connected to the second terminals 20B and 20C, respectively.

The loads L10, L20 may be lighting loads, for example. The loads L10 and L20 are connected to the AC power supply 80 through the power line 70. However, the loads L10 and L20 are not limited to the lighting load. The loads L10 and L20 can be electrical devices such as air conditioners, ventilation devices, electric curtains.

As shown in Fig. 2, the terminal 10 includes a control unit (first control unit 11), an operation unit (first operation unit: 12), a communication unit (first communication unit: 13), a storage unit (first storage unit: 14), A load driver (first load driver 15), a display unit (first display unit 16), and a power source (first power source: 17) are included. The first terminal 10 has a function (individual turn-on function / turn-off function) for turning on or off the load L10 in response to a manual operation of the first switch S10.

As shown in FIG. 3, the second terminal 20 includes a control unit (second control unit: 21), an operation unit (second operation unit: 22), a communication unit (second communication unit: 23), and a storage unit (second storage unit: 24). ), A load driver (second load driver 25), a display unit (second display unit 26), and a power source (second power source 27).

The second terminal 20A includes a plurality (two) operation switches (second switches: S20; S201, S202). The second switches S201 and S202 correspond to the loads L201 and L202, respectively. The second terminal 20A turns on or off the load L201 in response to a manual operation of the second switch S201, and turns on or turns the load L202 in response to a manual operation of the second switch S202. Turn it off. That is, the second terminal 20A has a turn on or turn off function separately.

The second terminal 20B includes a plurality (three) of operation switches (second switch: S20; S203, S204, S205). The second terminal 20B turns on or off the load L203 in response to a manual operation of the second switch S203. The second terminal 20B increases the light output (lamp power) of the load L203 in response to the manual operation of the second switch S203, and loads L203 in response to the manual operation of the second switch S204. Reduces the light output. That is, the second terminal 20B has a function of turning on or off the load L and adjusting the lamp power of the load L (dimming-on / dimming-off function).

The second terminal 20C includes a plurality (three) operation switches (second switches S20 (S206, S207, S208)). The second terminal 20C turns on or off the load L204 in response to a manual operation of the second switch S204. The second terminal 20C increases the light output of the load L204 in response to the manual operation of the second switch S207, and increases the light output of the load L204 in response to the manual operation of the second switch S208. Decrease. That is, the second terminal 20B has a dimming-on / dimming-off function.

As shown in FIG. 4, the third terminal 30 includes a control unit (third control unit 31), an operation unit (third operation unit 32), a communication unit (third communication unit 33), and a storage unit (third storage unit: 34). ), A display unit (third display unit 35), and a power source (third power source: 36). The third terminal 30A performs group control rather than pattern control. The third terminal 30B performs pattern control instead of group control.

The first terminal 10 further includes a plurality (three) of operation switches (fourth switches S40 (S401, S402, S403)). When the fourth switch S40 is manually operated, the first terminal 10 transmits a signal (packet: P50) including a control command to the second terminal 20 through the signal line 60. . Accordingly, the first terminal 10 includes a second terminal 20, which controls the load L20 connected to the first terminal 10. That is, the first terminal 10 has a remote control function.

The terminals 10, 20, 30 are embedded in the walls of the building (e.g. houses) using the fixing frame of the embeddable wiring device and the flush plate.

The communication unit 13, 23, 33 encodes the packet P50 having the format shown in Fig. 5A, modulates a carrier signal with the encoded packet P50, and modulates the carrier signal on the signal line 60. Output to. That is, the communication units 13, 23, 33 output the packet P50 to the signal line 60. Receiving the packet P50 by the communication unit 13, 23, 33, demodulates the modulated carrier received from the signal line 60, and decodes the resulting encoded packet P50. By doing so, the packet P50 is received. The communication unit 13, 23, 33 identifies the source (destination) of the packet P50 and the destination of the packet P50 uniquely to the terminals 10, 20A, 20B, 20C, 30A, 30B. Identifies using the assigned identifier (identification code). In addition, this identifier may be a physical address (eg, a MAC address) uniquely assigned to each piece of hardware by a hardware manufacturer or an address randomly assigned to each device by a user. Different identifiers 10, 20, 30 in the same system (network) need to be assigned. As shown in Fig. 5A, the packet P50 includes data 55 such as a destination address 53, a source address 54, and control data. The packet P50 may include a preamble 51 for synchronizing transmission timings, a control bit 52 indicating a type of data, and a checksum 56 for error correction. Terminals 10, 20, and 30 establish communication by multiple access of CSMA / CD.

The 1st operation part 12 contains the 1st switch S10 of a manual operation system, and the 4th switch S401, S402, S403 of a manual operation system. The first operation unit 12 monitors the fourth switches S10, S401, S402, and S403. When the 1st switch S10 is operated manually, the 1st operation part 12 outputs the operation signal (1st operation information) corresponding to the manually operated 1st switch S10. When the 4th switches S401, S402, S403 are operated manually, the 1st operation part 12 may operate the operation signal (4th operation information) corresponding to 4th switches S401, S402, S403 operated manually. Output

The second operation unit 22 includes a second switch S20 of a manual operation method. The second operation unit 22 monitors the second switch S20. When the second switch S20 is manually operated, the second operation unit 22 outputs an operation signal (second operation information) corresponding to the manually operated second switch S20.

The third operation unit 32 includes a third switch S30 of a manual operation method. The third operation unit 32 monitors the third switch S30. When the third switch S30 is manually operated, the third operation unit 32 outputs an operation signal (third operation signal) corresponding to the manually operated third switch S30.

If any of the switches S10 (S40, S20, S30) is held for a relatively short time, the operation unit 12, 22, 32 outputs an operation signal, and if the switch is held for a relatively long time, Other operation signals can be output.

The control units 11, 21, 31 include a CPU as main components. The control units 11, 21, 31 receive operation signals from the operation units 12, 22, 32, respectively. When the first control unit 11 receives the first operation information, the first control unit 11 outputs a load control signal (first load control signal) corresponding to the received first operation information to the first load driver 15. When the first control unit 11 receives the fourth operation information, the first control unit 11 generates a control command (second control command) corresponding to the received fourth operation information. When the second control unit 21 receives the second operation information, the second control unit 21 outputs a load control signal (second load control signal) corresponding to the received second operation information to the second load driver 25. When the third control unit 31 receives the third operation information, the third control unit 31 generates a control command corresponding to the received third operation information.

The first load driver 15 starts supplying electrical power from the AC power supply 80 to the load L10 in response to the first load control signal received from the first controller 11, and then receives the first controller ( According to the first load control signal received from 11), it has a function (on-off function) of stopping supply of electrical power from the AC power supply 80 to the load L10. The second load driver 25 starts supplying electrical power from the AC power supply 80 to the load L20 in response to the second load control signal received from the second controller 21, and the second controller ( According to the second load control signal received from 21, it has a function (on-off function) of stopping supply of electrical power from the AC power supply 80 to the load L20. In addition, each of the second load driving units 25 of the terminals 20B and 20C is supplied from the AC power supply device 80 to the load L20 according to the second load control signal received from the second control unit 21. It has a function (dimming function) of increasing or decreasing the lamp power (light intensity) of the load L20 by adjusting the electrical power. This on-off function can be implemented by conventional techniques using relays. The dimming function can be implemented by conventional phase control techniques using triacs.

The storage units 14 and 24 34 are rewritable nonvolatile semiconductor memories (e.g., EEPROM, flash memory). The storage units 14, 24, and 34 store a first address (first multicast address) and a second address (second multicast address), respectively. The storage units 14, 24, and 34 are configured to store a load identifier (load identification code) used for identifying the load L. As shown in FIG. The storage units 14, 24, 34 are identifiers (first identifiers) uniquely assigned to the first terminal 10, identifiers (second identifiers) uniquely assigned to the second terminal 20, and third terminals. The identifier (third identifier) uniquely assigned to 30 is stored respectively. The first storage unit 14 stores first correspondence information indicating a correspondence relationship between the fourth operation information and the second combination. The second combination is a combination of the second control information and the second identifier for determining the state (operation state) of the second load L20. The third storage unit 34 stores third correspondence information indicating a correspondence relationship between the third operation information and the third combination. The third combination includes one or more of the first combination and the second combination. The first combination indicates a combination of the first control information and the first identifier for determining the state of the first load L10. As mentioned below, the first storage unit 14 stores the state of the load L obtained from the second terminal 20. As mentioned below, the third storage unit 34 stores the state of the load L acquired from the second terminal 20 and the first terminal 10. As described above, the third storage unit 34 stores the second identifier of the second terminal 20 belonging to the group or pattern group corresponding to the third switch S30. In addition, the third storage unit 34 may include the first and second multicast addresses, the third identifier of the other third terminal 30, the first identifier of the first terminal 10, and the third terminal 30. The state of the load L to be controlled is integrated and stored.

The display section (operation display section) 16, 26, 35 displays the state of the load L (whether it is an illuminated state or an unlit state). The first display unit 16 includes light emitting devices LD10 and LD40 such as LEDs, and a first driving circuit (not shown). The first driving circuit can display the control signal (first display control signal) received from the first control unit 11 by turning on or off the corresponding light emitting elements LD10, LD401, LD402, LD403, respectively. have. The light emitting element LD10 is arranged in the vicinity of the corresponding switch S10. The light emitting elements LD401, LD402, LD403 are arranged near the corresponding switches S401, S402, S403, respectively. The second display unit 26 includes a light emitting element LD20 such as an LED and a second driving circuit (not shown). The second driving circuit is configured to display the control signal (second display control signal) received from the second control unit 21 by turning on or off the respective light emitting elements LD20. The light emitting element LD20 is disposed in the vicinity of the corresponding switch S20. The third display unit 35 includes a light emitting element LD30 such as an LED and a third driving circuit (not shown). The third driving circuit is configured to display the control signal (third display control signal) received from the third control unit 31 by turning each of the corresponding light emitting elements LD30 on or off. The light emitting element LD30 is arranged in the vicinity of the corresponding switch S30. The third driving circuit turns off the light emitting element LD30 when all the loads L that are the object of group control or pattern control are turned on (that is, the load L is turned on). The third driving circuit turns on the light emitting element LD30 when all the loads L that are the object of group control or pattern control are turned off (that is, the load L is turned off).

The power sources 17, 27, 36 generate DC power for driving the terminals 10, 20, 30 from the AC power supplied from the AC power supply 80 through the power line 70. The power supplies 17, 27, 36 supply the generated DC power to the terminals 10, 20, 30.

The operation of the load control system will be described below.

When the first switch S10 is operated manually, the first operation unit 12 outputs an operation signal (first operation signal) to the first control unit 11. When receiving the operation signal, the first control unit 11 outputs a load control signal for switching the operation state of the first load L10 to the first load driver 15. The first load driver 15 switches an operation state of the first load L10 by switching a relay corresponding to the first load control signal received from the first controller 11. The first load driver 15 turns off the first load L10 when the first load L10 is turned on. The first load driver 15 turns on the first load L10 when the first load L10 is turned off. The first control unit 11 outputs the load control signal to the first load driver 15, and then outputs the first display control signal to the first display unit 16 for switching the operation state of the light emitting element LD10. do. The first driving circuit of the first display unit 16 turns on or off the light emitting element LD10 corresponding to the first display control signal received from the first control unit 11.

The second loads L201 and L202 are turned on or off in response to a manual operation of the second switches S201 and S202. In addition, the light emitting elements LD201 and LD202 corresponding to the loads L201 and L202 are turned on or off in response to a manual operation of the switches S201 and S202.

The second loads L203 and L204 are turned on or off in response to a manual operation of the second switches S203 and S206. The light emitting elements LD203 and LD204 corresponding to the loads L203 and L204 are turned on or off in response to the passive cauterization of the switches S203 and S206.

When the second switches S204 and S207 are manually operated while the second loads L203 and L206 are kept turned on, the second operation unit 22 transmits an operation signal (second operation information) to the second control unit 21. ) When the control unit 21 receives the second operation information, the control unit 21 outputs a second load control signal for increasing the light output (dimming level) of the second load L20 to the second load driver 25. The second load driver 25 increases the electric power supplied to the second load L20, which corresponds to the second load control signal received from the second controller 21. When the second switches S205 and S208 are manually operated while the second loads L203 and L206 maintain the turned-on state, the second operation unit 22 transmits an operation signal (second operation information) to the second control unit 21. ) When the control unit 21 receives the second operation information, the control unit 21 reduces the electric power supplied to the second load L20 corresponding to the second load control signal received from the second control unit 21. In addition, when the second switches S204 and S207 are manually operated while the second loads L203 and L204 are turned off, the second terminals 20B and 20C turn on the second loads L203 and L204. Thereafter, the light output of the second loads L203 and L204 can be increased. Similarly, when the second switches S205 and S208 are manually operated while the second loads L203 and L204 are turned off, the second terminals 20B and 20C turn on the second loads L203 and L204. Thereafter, the light output of the second loads L203 and L204 can be reduced. In the case where the second loads L203 and L204 are turned off in response to a manual operation of the second switches S203 and S206, the second control unit 21 controls the dimming level (dimming ratio) of the second loads L203 and L204. ) May include a second storage unit 24. In this case, the next time the second switches S203 and S206 are operated manually, the second control unit 21 reads out the previous dimming level (light output) from the second storage unit 24. The second control unit 21 outputs a second load control signal for supplying the electric power corresponding to the dimming level read out from the second storage unit 24 to the second load driver 25. As a result, the second loads L203 and L204 illuminate at the previous dimming level.

In the load control system of this embodiment, the load L can be collectively controlled by manually operating the fourth switch S40 of the first terminal 10. Collective control includes group control and pattern control. In the case where the load L is an illumination load, the pattern control is also referred to as "scene control". Group control means control in which all loads L belonging to the same group are collectively switched to the same operation state. Pattern control refers to a control scheme in which all loads L belonging to the same pattern group are switched to a predetermined operation state corresponding to each load L. FIG.

The fourth switch S401 corresponds to group control. The switches S402 and S403 correspond to pattern control.

All second terminals 20 connected to the signal line 60 are included in a group (first group) of group control (first group control) corresponding to the fourth switch S401. In the first group control, the load control system turns on or off all second loads L20 collectively. In the first correspondence relationship stored in the first storage unit 14, the second identifiers of the second terminals 20A, 20B, and 20C belonging to the first group and the state of the second load L20 (is it illuminated? The correspondence relationship between the second combination corresponding to the combination of the second control information for determining whether the light is off or the fourth operation information corresponding to the fourth switch S401 is included.

All second terminals 20 connected to the signal line 60 are included in the pattern group (first pattern group) of the pattern control (first pattern control) corresponding to the fourth switch S402. In the first pattern control, the second terminal 20A turns on the second loads L201 and L202, and the second terminal 20B turns on the second load L203 and the optical power of the second load L203. Is adjusted to a dimming level of 50%, and the second terminal 20C turns on the second load L204 and adjusts the optical power of the second load L204 to a dimming level of 70%. In the first correspondence information stored in the first storage unit 14, the second identifiers of the second terminals 20A, 20B, and 20C belonging to the first group and the state of the second load L20 (lighting state) A correspondence relationship between the second combination corresponding to the combination of the second control information for determining whether the light is off or the dimming level and the fourth operation information corresponding to the fourth switch S402 is included.

The second terminals 20B and 20C are included in the pattern group (second pattern group) of the pattern control (second pattern control) corresponding to the fourth switch S403. In the second pattern control, the second terminal 20B turns on the second load L203, adjusts the optical power of the second load L203 to a dimming level of 70%, and the second terminal 20C The load L204 is turned on and the optical power of the second load L204 is adjusted to a dimming level of 30%. The first correspondence relationship information stored in the first storage unit 14 includes the second identifiers of the second terminals 20B and 20C belonging to the first group and the state (dimming level) of the second load L20. The correspondence relationship between the second combination corresponding to the combination of the second control information to be determined and the fourth operation information corresponding to the fourth switch S403 is included.

Note that the group and the pattern group may include any second terminal 20.

Next, an operation of collectively controlling the plurality of loads L by the first terminal 10 will be described. The load L remotely controlled (collectively controlled) by the first terminal 10 is not limited to the second load L20 connected to the second terminal 20, and the other first terminal L10. A first load L10 connected to is also possible.

The operation of the group control will be described with reference to the flowchart shown in FIG.

When the fourth switch S401 is manually operated, the first operation unit 12 outputs an operation signal (fourth operation information) to the first control unit 11. When the first control unit 11 receives the fourth operation information, the first control unit 11 refers to the first correspondence relationship stored in the first storage unit 14 and corresponds to the received fourth operation information (fourth switch S401). Fourth operation information]. Further, the state (latest state) of the second load L20 connected to the second terminal 20 associated with the acquired second combination is read out from the first storage unit 14. The second control information relating to the obtained second combination indicates the switching of the states of the second loads L201, L202, L203, and L204. If all the states of the load L read out from the first storage unit 14 coincide, the first control unit 11 controls the control command (switching state) of each load L to the inverted state ( Second control command). For example, if all states of the load L are in the illumination state, the first control unit 11 generates a control command for switching the operation state of each load L to the unlit state. On the other hand, if all the states of the load L are off, the first control unit 11 generates a second control command for switching the operation state of each load L to the illumination state. If all the states of the load L do not coincide (for example, some of the loads L are on and some are off), the first control unit 11 operates the same operation state of all the loads L. Generate a second control command to switch to a state (eg, an illuminated state, an unlit state). Alternatively, the first control unit 11 may generate a second control command for switching the operation state of all the loads L to the lighting state or the unlit state without referring to the latest state of the load L. FIG.

As shown in Fig. 5B, the first control unit 11 generates a packet P50 (control packet P51.) The data 55 of the control packet P51 includes a target object 552 and a control. Included is a set 554 of instructions 553. The data 55 further includes a command type 551 indicating the type of data 55 (e.g., load control scheme). 552 represents a second identifier of the second terminal 20 remotely controlled by the first terminal 10. The control instruction 553 is associated with a second identifier represented by the associated target object 552. Indicates a second control command (e.g., lit, unlit) corresponding to the terminal 20. The destination address 53 of the control packet P51 indicates the first multicast address. The first identifier stored in the first storage unit 14 is set as the source address 54 of the control packet P51. The first control unit 11 performs first communication. The control unit 13 controls the first control unit 13 to output the control packet P51 to the signal line 60. The communication units 13, 23, and 33 transmit the destination address 53 to the first multiplier. The packet P50, which is a cast address, is received, that is, all the terminals 10, 20, 30 of the load control system receive the packet P50 including the destination address 53 representing the first multicast address. In other words, the first multicast address is used as the broadcast address.

In the second terminal 20, the second communication unit 23 receives the control packet P51 and provides the received control packet P51 to the second control unit 21. When the data 55 of the control packet P51 received from the second communication unit 23 includes the same second identifier as that stored in the second storage unit 24, the second control unit 21 stores the data ( Acquire an associated second control command from 55). In accordance with the acquired second control command, the second control unit 21 outputs a second load control signal for turning on or off the second load L20 to the second load driver 25. The second load driver 25 turns on or off the second load L20 by switching a relay according to the received second load control signal. After the predetermined waiting time has elapsed (the second terminal 20 has a different waiting time), the second control unit 20 is a packet for notifying the status of the load L [P50 (response packet P52). )]. The destination address 53 of the response packet P52 is the first identifier set as the source address 54 of the packet P50 (control packet P51) containing the second control command. The data 55 of the response packet P52 represents a second state indicating the latest state (whether it is a light state or an unlit state) of the second load L20. When the second load L20 is controlled, the latest state of the second load L20 becomes the state of the second load L20 after being controlled. The second control unit 21 controls the second communication unit 23 so that the second communication unit 23 outputs the response packet P52 to the signal line 60. In addition, the second control unit 21 outputs the second display control signal to the second display unit 26 to cause the second display unit 26 to display the latest state of the second load L20.

When the first communication unit 13 receives the response packet P52, the first communication unit 13 provides the received response packet P52 to the first control unit 11. The first control unit 11 refers to the second state information included in the response packet P52 received from the first communication unit 13, and transmits the state of the second load L20 to the first storage unit 14. Remember When the first control unit 11 receives the response packet P52 from all the second terminals 20A, 20B, and 20C belonging to the first group corresponding to the fourth switch S401, the first control unit 16 receives the response packet P52. Change the display. That is, the first terminal 10 includes a first display unit 16 configured to display the state of the second load 20. The first storage unit 14 stores the second state information received by the first communication unit 13. The first control unit 11 refers to the second state information stored in the first storage unit 14 to control the first state in which all of the second loads L20 are turned on under the control of the first terminal 10. If it is determined that the situation is the first situation, and under the control of the first terminal 10, the first collective control state in which all the second loads L20 maintain the turn-on state is displayed. For example, when all the loads L20 are turned on, the first control unit 11 turns off the light emitting element LD401, and when all the loads L20 are turned off, The light emitting element LD401 is turned on. That is, the first control unit 11 turns off the light emitting element LD401, indicating that none of the loads L20 remains turned on under the control of the first terminal 10 (that is, the load L20). The state of is off. When the first display unit 16 turns on the light emitting device LD401, the first collective control state indicates a first collective control state in which all the loads L20 are turned on under the control of the first terminal 10. In this case, even when the display portion (light emitting element) indicating the state of the load L is not provided, the display of the light emitting element LD401 indicates whether or not the target load L20 is turned on (lighting). You can judge. Therefore, it is easy to determine whether group control is necessary.

In addition, when the first communication unit 13 does not receive the response packet P52 from the one or more second terminals 20, the first control unit 11 may request to transmit the state of the load L20. A packet P50 (response packet P53). The destination address 53 of the request packet P53 is a second identifier of the second terminal 20 (for example, the second terminal 20C) in which the communication unit 13 has failed to receive the response packet P52. The data 55 of the request packet P53 is a control command for requesting transmission of the state of the load L. The first control unit 11 controls the first communication unit 13 to cause the first communication unit 13 to output the request packet P53 to the signal line 60.

The second communication unit 23 of the second terminal 20C receives the request packet P53 and provides it to the second control unit 21. When receiving the request packet P53, the second control unit 21 causes the second communication unit 23 to transmit the response packet P52.

When the first communication unit 13 receives the response packet P52 from the second terminal 20C, the first control unit 11 refers to the second state information included in the response packet P52 to store the first memory. The unit 14 stores the state of the load L. If the first communication unit 13 does not receive the response packet P53 from the second terminal 20C within a predetermined time from the transmission time of the request packet P53, the first control unit 11 displays the first display unit 16. To indicate a malfunction. For example, the first control unit 11 controls the first display unit 16 so that the first display unit 16 lights the light emitting element LD401.

With reference to the flowchart shown in FIG. 7, the operation | movement of pattern control (2nd pattern control) is demonstrated.

When the fourth switch S403 is operated manually, the first operation unit 12 outputs an operation signal (fourth operation information corresponding to the fourth switch S403) to the first control unit 11. When the first control unit 11 receives the fourth operation information, the first control unit 11 refers to the first correspondence relationship stored in the first storage unit 14 and corresponds to the received fourth operation information (fourth switch S403). Fourth operation information]. Thereby, the 1st control part 11 has the 2nd identifier (2nd each of 2nd terminal 20B, 20C) related to the received 4th operation information (4th operation information corresponding to 4th switch S403). Identifier]. The first control unit 11 acquires second control information (dimming level) associated with the second loads L203 and L204 connected to the second terminals 20B and 20C.

The first controller 11 according to the second control information, together with a control command for adjusting the optical power of the second load (L204) to a dimming level of 30%, the optical power (lamp power) of the second load (L203) Generate a control command (second control command) to adjust) to a dimming level of 70%. The first control unit 11 generates a packet P50 (control packet P54). The data 55 of the control packet P54 includes a second identifier and a second control command associated with it. The destination address 53 of the control packet P54 is the first multicast address. The source address 54 of the control packet P54 indicates the first identifier stored in the first storage unit 14. The first control unit 11 controls the first communication unit 13 to cause the first communication unit 13 to output the control packet P54 to the signal line 60. The second terminal 20A does not belong to the second pattern group. Therefore, the data 55 of the control packet P54 does not include the second identifier of the second terminal 20A and the second control command associated with the second terminal 20A.

The second communication unit 23 receives the control packet P54 and provides it to the second control unit 21. The data 55 of the control packet P54 does not include the second identifier of the second terminal 20A. The second control unit 21 of the second terminal 20A does not control the second loads L201 and L202. The second control unit 21 of the second terminal 20A generates the response packet P52 and controls the second communication unit 23 to cause the second communication unit 23 to send the response packet P52 to the signal line ( To 60). On the other hand, the data 55 of the control packet P54 includes the second identifiers of the second terminals 20B and 20C. Accordingly, in the second terminals 20B and 20C, the second control unit 21 according to the second control command (dimming level) corresponding to the second identifier stored in the second storage unit 24 receives the second load ( The second load control signal for adjusting the lamp power of L20 is output to the second load driver 25. The second load driver 25 adjusts the electric power supplied to the second load L20 according to the second load control signal received from the second controller 21. The second control unit 21 generates a response packet P52 after a predetermined waiting time has elapsed. The data 55 of the response packet P52 represents the second state information indicating the latest state (dimming level) of the second load L20. The second control unit 21 causes the second communication unit 23 to output the response packet P52. In addition, the second control unit 21 changes the display of the second display unit 26 in accordance with the latest state of the second load L20.

As described above, the second terminal 20 transmits the packet P50 including the second state information to the first terminal 10 using unicast communication, not multicast communication. do. In general, unicast communication is more reliable than multicast communication. In the load control system of this embodiment, the multicast communication (or broadcast communication) transmits a packet P50 (packet P50 including a control packet for collective control of the load L) requiring high response performance. Used for Unicast communication is used for the transmission of the packet P50 (packet P50 for transmitting the state of the load L) which requires reliability rather than response performance. Thus, the packet P50 can be transmitted by the use of appropriate communication depending on the intended use.

When the first communication unit 13 receives the response packet P52, the first communication unit 13 provides the received response packet P52 to the first control unit 11. The first control unit 11 causes the first storage unit 14 to store the state of the second load L20 included in the response packet P52 received from the first communication unit 13. When the first control unit 11 receives the response packet P52 from the second terminals 20B and 20C belonging to the second pattern group corresponding to the fourth switch S403, the light emitting element of the first display unit 16 is received. Turn on (LD403). As a result, the first terminal 10 indicates that the second pattern control is turned off. The operation of the load control system in the first pattern control is similar to that of the load control system in the second pattern control. Therefore, description of the operation of the load control system in the first pattern control is omitted. Note that the group of the fourth switches S40 may include the first terminal 10. The load control system may collectively control not only the second load L20 but the first load L10 in response to the manual operation of the fourth switch S40.

By doing so, after the first terminal 10 controls the load L20 by remote control (group control or pattern control), when the second switch S20 is operated manually, the first display portion 16 Indicates the state of the load L which is different from the actual state of the load L.

Therefore, after the second control unit 21 controls the second load L20 corresponding to the second operation information, the second communication unit 23 causes the data 55 to indicate the second control information and the destination address ( 53 controls to output a packet P50 (notification packet P55) indicating the first multicast address.

When the first communication unit 13 receives the notification packet P55, the first control unit 11 supplies the first display control signal according to the second state information included in the data 55 of the notification packet P55. It outputs to the 1st display part 16, and the display of the 1st display part 16 changes by this.

Therefore, the first control unit 11 can arbitrarily change the display of the first display unit 16 according to the latest state of the second load L20. Therefore, the first display unit 16 may display the state of the load L that matches the actual state of the load L. FIG.

The second terminal 20 selects the first multicast address as the destination address 53 of the notification packet P55. Therefore, the second storage unit 24 does not need to store the first identifier (unicast address). Therefore, the storage capacity of the second storage unit 24 can be reduced.

The load control system of the present embodiment may include a plurality of first terminals 10. In this case, any one first terminal 10 and the other first terminal 10 may control the same load L (the second load L20 is connected to the second terminal 20). After controlling the load L, the first terminal 10 selects the transmission of the latest state of the load L to the other first terminal 10.

Therefore, when the 1st communication part 13 receives the response packet P52, the 1st control part 11 transmits the latest state of the load L acquired from the response packet P52 to another 1st terminal 10. FIG. Create a transfer command to do this. This transfer command indicates the latest state of the load L. FIG. The first control unit 11 generates a packet P50 (transmission packet P56) for transmitting the state of the load L. The transport packet P56 includes data 55 representing a transfer command, a destination address 53 representing a second multicast address, and a user identifier (a first identifier is stored in the first storage unit 14). Address 54. The first control unit 11 controls the first communication unit 13 so that the first communication unit 13 outputs the packet P50 (transmission packet P56) to the signal line 60. On the other hand, when the first communication unit 13 receives the transfer packet P56, the first control unit 11 receives the state of the load L stored in the first storage unit 14 and receives the transfer packet P56. Is updated to the latest state of the load L obtained from the " When the first communication unit 13 receives the transmission packet P56, the first control unit 11 causes the first communication unit 13 to send a packet P50 (receipt acknowledgment packet P557) for receipt acknowledgment. ] Is sent. The destination address 53 of the acknowledgment packet P57 represents the source address 54 of the transport packet P56. That is, the acknowledgment packet P57 is transmitted using unicast communication.

If the first terminal 10 that transmits the transport packet P56 does not receive the acknowledgment packet P57, the first terminal 10 does not receive the acknowledgment packet P57. 1 The transmission packet P56 is transmitted to the terminal 10 using unicast communication.

The second terminal 20 does not need to receive the transport packet P56. Therefore, the first control unit 11 selects the second multicast address as the destination address 53 of the transport packet P56. In this case, the second terminal 20 does not need to receive the transport packet P56, and the first terminal 10 and the third terminal 30 receive the transport packet P56. Therefore, the processing load of the second control unit 21 can be reduced. Note that the second terminal 20 can be configured to act as the first terminal 10. That is, the second terminal 20 may have a remote control function.

Next, an operation of collectively controlling the plurality of loads L by the third terminal 30 will be described with reference to the flowchart of FIG. 8.

When the third switch S301 is manually operated, the third operation unit 32 outputs an operation signal (third operation information corresponding to the third switch S301) to the third control unit 31. When the third control unit 31 receives the third operation information, the third control unit 31 refers to the third correspondence relationship stored in the third storage unit 34 to acquire a third combination regarding the received third operation information. For example, the third control unit 31 may include each of the first identifier associated with the received third operation information and the second identifier associated with the received third operation information (the second terminals 20A, 20B, and 20C). Second identifier]. The third control unit 31 acquires first control information related to the first load L10 and second control information associated with the second loads L201, L202, L203, and L204. In addition, the third control unit 31 stores the state (latest state) of each of the loads L10 and L20 connected to the terminals 10 and 20 associated with the obtained first and second combinations. ).

The first control information associated with the obtained first combination indicates the switching of the state of the first load L10. The second control information associated with the obtained second combination indicates the switching of the states of the second loads L201, L202, L203, and L204. When the states of the loads L read from the third storage unit 34 all match, the third control unit 31 controls the switching instruction for switching the state (operation state) of each load L to the opposite state. (First control command and second control command) are generated. For example, when the state of the load L is all in the lighting state, the third control unit 31 may include a first control command for switching the operation state of each load L to an extinction state and Generate a second control command. On the other hand, when the state of the load L is all turned off, the 3rd control part 31 produces | generates the 1st control command and the 2nd control command for switching the operation state of each load L to an illumination state. . If either state of the load L does not match the other state of the load L (i.e., one of the loads L is on and the other load L is off), The third control unit 31 generates a first control command and a second control command for switching the operation states of all the loads L to the same operation state (for example, an illumination state, an unlit state). However, the third control unit 31 can generate a control command for switching the operation state of all the loads L to the lighting state or the unlit state, without referring to the latest state of the load L. FIG. As described above, the third controller 31 generates a first control command for controlling the first load L10 and a second control command for controlling the second load L20.

The third control unit 31 includes data 55 representing the generated control command, a destination address 53 representing the first multicast address, and a source representing the third identifier stored in the third storage unit 34. A packet P60 (control packet P58) containing an address is generated. The third controller 31 controls the third communication unit 33 to output the control packet P58 to the signal line 60.

When the first communication unit 13 receives the control packet P58, the first communication unit 13 provides the received packet P58 to the first control unit 11. If the data 55 of the packet P58 received from the first communication unit 13 includes the same first identifier as that stored in the first storage unit 14, the first control unit 1 reads from the data 55. Acquire the associated first control command. The first control unit 11 outputs a first load control signal for turning on or off the first load L10 to the first load driver 15 in accordance with the acquired first control command. The first load driver 15 turns on or off the first load L10 by switching a relay according to the received first load control signal. After the predetermined waiting time has elapsed, the first control unit 11 generates a packet P50 (response packet P59) for notifying the state of the load L. FIG. The destination address 53 of the response packet P59 is a third identifier indicated by the source address 54 of the packet P50 (control packet P58) containing the first control command. The data 55 of the response packet P59 contains first state information indicating the latest state of the first load L10 (whether it is an illuminated state or an unlit state), that is, the state of the first load L10 after the control has been made. Indicates. The first control unit 11 controls the first communication unit 13 so that the first communication unit 13 outputs the response packet P59 to the signal line 60. In addition, the first control unit 11 outputs the first display control signal to the first display unit 16 so that the first display unit 16 can display the latest state of the first load L10.

The second terminal 20 operates in a similar manner to the first terminal 10. After controlling the second load L20, the second terminal 20 transmits a response packet P59. However, in the response packet P59 transmitted from the second terminal 20, the source address 54 represents the second identifier stored in the second storage unit 24, and the data 55 represents the second load L20. Indicates the latest state of.

As described above, when the third switch S301 of the third terminal 30A used for group control is manually controlled, the third terminal 30A is connected to the terminals 10 and 20 (that is, the operation control terminal). The loads L10 and L20 respectively connected to the circuits are turned on or off at the same time.

In the third terminal 30A, when the third communication unit 33 receives the response packet P59, the third communication unit 33 provides the received response packet P59 to the third control unit 31. The third control unit 31 causes the third storage unit 34 to store the state of the load L included in the response packet P52 received from the third communication unit 33. When the third control unit 31 receives the response packet P59 from the terminals 10, 20A, 20B, and 20C belonging to the group corresponding to the third switch S301, the third control unit 31 changes the display of the third display unit 35. . The third terminal 30 includes a third display unit configured to display a state of the first load L10 and a state of the second load L20. The third storage unit 34 stores the first state information and the second state information received by the third communication unit 33. The third control unit 31 refers to the first state information and the second state information stored in the third storage unit 34, and under the control of the third terminal 30, the first load L10 and the second state. It is determined that the third situation in which the load L20 is all turned on, and when the third situation is confirmed, under the control of the third terminal 30, both the first load L10 and the second load L20 are both present. And displaying a third collective control state for maintaining the turn-on state. For example, the third control unit 31 turns on the light emitting element LD301 when all the loads L are turned on, and turns on the light emitting element LD301 when all the loads L are turned off. Turn on In addition, after the third communication unit 33 receives the response packet P59, the third control unit 31 checks the latest state of the load L acquired by the response packet P59. And a packet P50 (transmission packet P56) for transmission to the other third terminal 30B. In this transport packet P56, the destination address 53 represents the second multicast address, and the source address 54 represents the third identifier stored in the third storage unit 34. As shown in FIG. The second multicast address is an address used for transmitting the packet P50 only to a terminal having a remote control function (for example, the first terminal 10 and the third terminal 30). The third controller 31 causes the third communication unit 33 to transmit the transport packet P56.

In the third terminal 30B, when the third communication unit 33 receives the transmission packet P56, the third control unit 31 refers to the transmission command of the received transmission packet P56 and uses the third storage unit ( The state of the load L stored in 34 is updated. When the third communication unit 33 receives the transmission packet P56, the third control unit 31 causes the third communication unit 33 to transmit a packet P50 (acknowledge packet P57) for acknowledgment. do. The destination address 53 of the acknowledgment packet P57 represents the source address 54 of the transport packet P56.

In the first terminal 10, when the first communication unit 13 receives the transmission packet P56, the first control unit 11 refers to the received transmission packet P56 and the first storage unit 14. The state of the load L stored in the controller is updated. The first control unit 11 causes the first communication unit 13 to transmit the packet P50 (acknowledge packet P57) when the first communication unit 13 receives the transmission packet P56. The destination address 53 of the acknowledgment packet P57 represents the source address 54 of the transport packet P56.

As described above, the acknowledgment packet P57 is transmitted to the third terminal 30A using unicast communication. If the third terminal 30A does not receive the acknowledgment packet P57, the third terminal 30A uses unicast communication to transmit to the terminal that the third terminal 30A did not receive the acknowledgment packet P57. Send packet P56.

In the load control system of this embodiment, all the terminals (eg, the terminal 10 and the third terminal 30) having the remote control function receive the packet P50 whose destination address 55 is the second multicast address. . For example, if the first terminal 10 does not indicate the state of the load L, the first terminal 10 may send a packet P50 (eg, the destination address 55 is the second multicast address). Transmission packet P56]. In this case, only the third terminal 30 is configured to receive the packet P50 whose destination address 55 is the second multicast address. Similarly, if the third terminal 30 does not indicate the state of the load L, only the first terminal 10 is configured to receive the packet P50 whose destination address 55 is the second multicast address. In short, at least one of the first terminal 10 and the third terminal 30 may be adapted to receive a packet P50 having a destination address 55 which is a second multicast address. Further, the packet P50 having the second multicast address as the destination address 55 can be used not only to transmit the state of the load l but also to transmit various information as necessary. Therefore, each terminal 10, 30 is a packet having the second multicast address as the destination address 55 according to the information transmitted by the packet P50 whose destination address 55 is the second multicast address. P50).

As described above, in the load control system according to the present embodiment, when the first control unit 11 receives the fourth operation information, the first control unit 11 receives the received first information from the first corresponding information stored in the first storage unit 14. 4 Acquire a second combination associated with the operation information, and generate a second control command used to control the second load L20 based on the acquired second control information of the second combination, and execute the first communication unit ( 13) to output to the signal line 60 a packet P50 having data 55 representing the second identifier and a destination address 53 representing the first multicast address together with the second control command. The second communication unit 23 receives a packet P50 including a destination address 53 representing the first multicast address. The second control unit 21 stores the data 55 having the second control command relating to the second identifier stored in the second storage unit 24 in the packet P50 received by the second communication unit 23. It is determined whether or not to include the data, and if the received packet P50 includes data 55 having a second control command relating to the second identifier stored in the second storage unit 24, The control command is acquired, and the second load L20 is controlled in accordance with the acquired second control command.

According to the load control system of the present embodiment, the loads L10 and L20 connected to the terminals 10 and 20 can be directly controlled by manually operating the switches S10 and S20 of the terminals 10 and 20. According to such a load control system, the fourth switch S40 of the first terminal 10 is manually operated to connect to the second terminal 20 connected to the first terminal 10 through the signal line 60. The second load L20 may be remotely controlled. The first terminal 10 directly transmits the packet P50 including the control command to the second terminal 20 through the signal line 60. Therefore, the load control system can operate even when any one of the terminals 10, 20 fails or the signal line 60 becomes defective. In addition, the first terminal 10 can simultaneously control all the load (L) under the control of the first terminal 10, which is the first terminal 10 using multicast communication rather than unicast communication This is because the packet P50 including the control command can be transmitted to the plurality of second terminals 20. Therefore, the load control system can improve the response performance and the stability regarding the control of the load.

Unlike the load control system of the conventional integrated control method, the load control system of this embodiment does not need to have a transmission control device. The load control system of this embodiment can reduce the installation cost. In particular, in the case of a general home having a relatively small number of terminals, the load control system of the present embodiment can reduce the installation cost than the load control system of the conventional integrated control method.

In addition, according to the load control system of the present embodiment, the terminal 10 connected to the third terminal 30 through the signal line 60 is operated by manually operating the third switch S30 of the third terminal 30. The second loads L10 and L20 connected to 20 may be controlled remotely. The third terminal 30 directly transmits the packet P50 including the control command to the terminals 10 and 20 through the signal line 60. Therefore, the load control system can operate even when any one of the terminals 10, 20, 30 fails or the signal line 60 becomes defective. In addition, the third terminal 30 may simultaneously control all the loads L under the control of the third terminal 30, which is used by the third terminal 30 using multicast communication rather than unicast communication. This is because the packet P50 including the control command is transmitted to the terminals 10 and 20. Thus, the load control system can improve the response performance and stability to control the load. As described above, the load control system of the present embodiment does not directly control the load L, but the third terminal 30 for remotely controlling the load L connected to any one of the terminals 10 and 20. Include. The load control system of the present embodiment can improve scalability and convenience. Note that the load control system does not have to include the third terminal 30.

In the load control system of this embodiment, the first control unit 11 receives the first communication unit 13 when the first communication unit 13 receives a packet P50 having data 55 representing the second state information. ) Outputs a packet P50 having data 55 representing the received second state information and a destination address 53 representing the second multicast address. The third control unit 31 causes the third communication unit 33 to receive the packet P50 having the data 55 representing the first state information or the second state information. And outputs a packet P50 having data 55 representing received first status information or received second status information and a destination address 53 representing a second multicast address.

Accordingly, the first terminal 10 and the third terminal 30 can obtain the latest state of the load L whenever the load L is controlled.

In addition, the first terminal 10 includes a first display unit 16 configured to display the state of the second load L20. The first storage unit 14 is configured to store second state information received by the first communication unit 13. The first control unit 11 refers to the second state information stored in the first storage unit 14, and the first situation in which all of the second load L20 maintains the turned-on state under the control of the first terminal 10. When the first situation is confirmed, the first collective control state in which the second load L20 maintains the turn-on state is all displayed under the control of the first terminal 10. The third terminal 30 includes a third display unit 36 configured to display the state of the first load L10 and the state of the second load L20. The third storage unit 34 is configured to store the first state information and the second state information received by the third communication unit 33. The third control unit 31 refers to the first state information and the second state information stored in the third storage unit 34, and under the control of the third terminal 30, the first load L10 and the second load ( It is determined whether L20 is the third situation in which all of them are turned on, and when it is confirmed that the third situation is the third situation, under the control of the third terminal 30, both the first load L10 and the second load L20 are both present. Display a third collective control state that maintains a turn on state.

Therefore, even when the display part (light emitting element) which shows each state of a load is not provided, whether the load L which is the target object of the 1st terminal 10 is all on by the display of the 1st display part 16. FIG. It can be determined. In addition, by the display of the third display unit 36, it is possible to determine whether loads L10 and L20 that are target objects of the third terminal 30 are in an on state. Therefore, it is easy to determine whether collective control is necessary.

Claims (10)

A load control system used to control multiple loads,
A first terminal connected to the first load; And
A plurality of second terminals connected to the first terminal through a signal line and respectively connected to a second load;
Including;
The second terminal,
A second operation unit including a second switch of a manual operation method and outputting second operation information in response to a manual operation of the second switch;
A second control unit controlling the second load according to the second operation information received from the second operation unit;
A second storage unit for storing a second identifier uniquely assigned to the second terminal and a first multicast address; And
A second communication unit for communicating with the first terminal through the signal line
Including;
The first terminal,
A first switch of a manual operation method and a fourth switch of a manual operation method, the first operation information being output in response to the manual operation of the first switch, and the fourth operation in response to the manual operation of the fourth switch First control panel for outputting information
A first control unit controlling the first load according to the first operation information received from the first operation unit
The first multicast together with first correspondence information indicating a correspondence relation between the second control information for determining the state of the second load and the second combination combining the second identifier and the fourth operation information; A first storage unit which stores an address; And
A first communication unit communicating with the plurality of second terminals through the signal line
Including,
The first communication unit is configured to output a packet having a destination address and data to the signal line.
When the first control unit receives the fourth operation information, the first control unit acquires a second combination associated with the received fourth operation information from the first corresponding information stored in the first storage unit, and obtains the acquired second combination. Based on the second control information of the combination, generating a second control command used to control the second load, causing the first communication unit to generate the second control command together with the second control command; Control to output a packet having data representing an identifier and a destination address representing the first multicast address,
The second communication unit is configured to receive a packet having a destination address indicating the first multicast address,
The second control unit determines whether the packet received by the second communication unit includes data having a second control command associated with a second identifier stored in the second storage unit, and the received packet is determined by the second communication unit. If the data includes data having a second control command associated with the second identifier stored in the storage unit, a second control command is obtained from the data, and the second load corresponding to the acquired second control command is controlled. Load control system. The method of claim 1,
The load control system further includes a third terminal connected to the first terminal and the plurality of second terminals through the signal line.
The third terminal,
A third operation unit including a third switch of a manual operation method and outputting third operation information in response to a manual operation of the third switch
A third controller;
A third storage unit which stores the first multicast address together with third correspondence information indicating a correspondence relationship between the third operation information and a third combination; And
A third communication unit communicating with the first terminal and the plurality of second terminals through the signal line;
Including;
The first communication unit and the second communication unit is configured to communicate with the third terminal via the signal line,
The third communication unit is configured to output the packet to the signal line,
The first storage unit is configured to store a first identifier uniquely assigned to the first terminal,
The third combination includes one or more of a first combination and a second combination of first control information and a first identifier for determining a state of the first load,
When the third control unit receives the third operation information, the third control unit acquires a third combination associated with the received third operation information from the third correspondence information stored in the third storage unit, and obtains the acquired third If the combination includes the second combination, the second control command is generated based on the second control information of the second combination associated with the third operation information, and the third communication unit is controlled to generate the generated second. Output a packet having data indicating a second identifier and a destination address indicating a first multicast address together with a control command to the signal line,
When the third control unit receives the third operation information, the third control unit acquires a third combination associated with the received third operation information from the third correspondence information stored in the third storage unit, and obtains the acquired third If the combination includes the first combination, generate a first control command used to control the first load based on the first control information of the first combination associated with the third operation information; Control a third communication unit to output to the signal line a packet having data representing a first identifier and a destination address representing a first multicast address together with the generated first control command;
The first communication unit is configured to receive a packet having a destination address indicating a first multicast address,
The first control unit determines whether the packet received by the first communication unit includes data having a first control command associated with a first identifier stored in the first storage unit, and the received packet is determined by the first communication unit. The load control system which acquires a 1st control command from the said data, and controls the 1st load corresponding to the acquired 1st control command, if it contains the data which has the 1st control command associated with the 1st identifier memorize | stored in the memory | storage part. . The method of claim 2,
The first communication unit and the third communication unit are configured to include a source address in the packet,
The first control unit is configured to set a first identifier stored in the first storage unit as a source address of a packet having data representing a second control command,
The third storage unit is configured to store a third identifier uniquely assigned to the third terminal,
The third control unit is configured to set a third identifier stored in the third storage unit as a source address of a packet having data representing at least one of a first control command and a second control command,
The second communication unit is configured to output the packet to the signal line,
After the first control unit controls the first load corresponding to the first control command included in the received packet, the first communication unit causes the first communication unit to display first state information corresponding to the latest state of the first load. Outputting a packet having data indicating a and a destination address indicating a source address of a received packet,
After the second control unit controls the second load corresponding to the second control command included in the received packet, the second communication unit causes the second communication unit to supply second state information corresponding to the latest state of the second load. Outputting a packet having data indicating and a destination address indicating a source address of the received packet;
The first communication unit is configured to receive a packet having a destination address indicating a first identifier stored in the first storage unit,
And the third communication unit is configured to receive a packet having a destination address indicating a third identifier stored in the third storage unit. The method of claim 3,
After the second control unit controls the second load corresponding to the second operation information, the second control unit controls the second communication unit to have a packet having data representing second status information and a destination address representing a first multicast address. To output
And the third communication unit is adapted to receive a packet having a destination address indicating a first multicast address. The method of claim 1,
The load control system includes a plurality of the first terminal,
The first storage section is configured to store a second multicast address,
The first control unit controls the first communication unit to output a packet having a destination address indicating a second multicast address when transmitting the packet to another first terminal.
The first communication unit is configured to receive a packet having a destination address indicating a second multicast address,
And the second communication unit is configured not to receive a packet having a destination address indicating a second multicast address. The method of claim 2,
The load control system includes a plurality of the first terminals and a plurality of the third terminals,
The first storage section and the third storage section are configured to store a second multicast address, respectively,
The first control unit controls the first communication unit to output a packet having a destination address indicating a second multicast address when transmitting a packet to at least one of another first terminal and the third terminal,
The third control unit controls the third communication unit to output a packet having a destination address indicating a second multicast address when transmitting a packet to at least one of the first terminal and another third terminal,
The first communication unit and the third communication unit are configured to receive a packet having a destination address indicating a second multicast address,
And the second communication unit is configured not to receive a packet having a destination address indicating a second multicast address. The method of claim 5,
The first communication unit is configured to include a source address in a packet,
The first control unit is configured to set a first identifier stored in the first storage unit as a source address of a packet having data indicating a second control command,
The second communication unit is configured to output a packet to the signal line,
After the second control unit controls the second load corresponding to the second control command included in the received packet, the second communication unit causes the second communication unit to display second state information corresponding to the latest state of the second load. A packet having a destination address indicating data and a source address of a received packet is output.
The first communication unit is configured to receive a packet having a destination address indicating a first identifier stored in the first storage unit,
When the first communication unit receives a packet having data indicating second control information, the first control unit selects data indicating second state information received by the first communication unit and a destination address indicating a second multicast address. A load control system for controlling to output a packet having. The method of claim 6,
The first communication unit and the third communication unit are configured to include a source address in a packet,
The first control unit is configured to set a first identifier stored in the first storage unit as a source address of a packet having data representing a second control command,
The third storage unit is configured to store a third identifier uniquely assigned to the third terminal,
The third control unit is configured to set a third identifier stored in the third storage unit as a source address of a packet having data representing a first control command or a second control command,
After the first control unit controls the first load corresponding to the first control information included in the received packet, the first communication unit causes the first communication unit to obtain first state information corresponding to the latest state of the first load. Control to output a packet having data indicating and a destination address indicating a source address of the received packet,
After the second control unit controls the second load corresponding to the second control command included in the received packet, the second communication unit causes the second communication unit to receive second state information corresponding to the latest state of the second load. Control to output a packet having data indicating and a destination address indicating a source address of the received packet;
The first communication unit is configured to receive a packet having a destination address indicating a first identifier stored in the first storage unit,
The third communication unit is configured to receive a packet having a destination address indicating a third identifier stored in the third storage unit,
When the first communication unit receives a packet including data indicating second state information, the first control unit receives data indicating second state information received by the first communication unit and a destination indicating a second multicast address. Control to output a packet containing an address,
When the third communication unit receives a packet including data indicating first state information or second state information, the third control unit controls the third communication unit to receive the received first state information or second state information. And output a packet comprising data representing a data stream and a destination address representing a second multicast address. The method of claim 7, wherein
The first terminal includes a first display unit configured to display the state of the second load,
The first storage unit is configured to store second state information received by the first communication unit,
The first controller determines whether the second load is in a turned-on state under the control of the first terminal with reference to the second state information stored in the first storage unit, and when it is determined that the situation is the And control the first terminal to indicate a collective control state in which the second load is all turned on. The method of claim 8,
The first terminal includes a first display unit configured to display the state of the second load,
The first storage unit is configured to store second state information received by the first communication unit,
The first controller determines whether the second load is a first situation in which all of the second loads are turned on under the control of the first terminal with reference to the second state information stored in the first storage unit, and determines that it is the first situation. If it is confirmed, under the control of the first terminal is configured to display a first group control state in which the second load is all turned on,
The third terminal includes a third display unit configured to display the state of the first load and the state of the second load,
The third storage unit is configured to store first state information and second state information received by the third communication unit.
The third controller may refer to the first state information and the second state information stored in the third storage unit to determine whether the first load and the second load are in a third state under the control of the third terminal. And if it is determined that the third situation is determined, under control of the third terminal, a third collective control state in which both the first load and the second load are turned on is displayed.

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