JP2021005493A - Illumination control device and illumination control system - Google Patents

Abstract

To provide an illumination control device that inhibits reduction in processing speed.SOLUTION: An illumination control device 2 controls operation of an illumination appliance 1. The illumination control device 2 comprises a wired communication unit 213, a wireless communication unit 214, and a control unit 210. The wired communication unit 213 connects with a relay 3 using wiring. The wired communication unit 213 performs communication in conformity to a first communication standard via wired connection. The wireless communication unit 214 wirelessly connects with an external apparatus. The wireless communication unit 214 performs communication in conformity to a second communication standard via wireless connection. The control unit 210 controls the wireless communication unit 214 so as to convert a signal corresponding to a signal received by the wired communication unit 213 to a signal in conformity to the second communication standard and transmit the signal in conformity to the second communication standard.SELECTED DRAWING: Figure 4

Description

The present invention relates to a lighting control device and a lighting control system.

Technology has been developed to control multiple luminaires. For example, the lighting system disclosed in Patent Document 1 includes a plurality of lighting fixtures and a terminal device. The terminal device wirelessly communicates with at least one of the plurality of luminaires. The luminaire includes a control unit and a communication unit. The control unit controls the communication unit. The communication unit communicates with other lighting fixtures and terminal devices.

JP-A-2018-133218

However, in the luminaire disclosed in Patent Document 1, since the communication unit communicates with other luminaires and terminal devices, congestion may occur in the communication unit and the processing speed may decrease.

In view of the above problems, an object of the present invention is to provide a lighting control device and a lighting control system that suppress a decrease in processing speed.

The lighting control device disclosed in the present application controls the operation of the lighting equipment. The lighting control device includes a wired communication unit, a wireless communication unit, and a control unit. The wired communication unit is connected to the repeater by wire. The wired communication unit performs communication conforming to the first communication standard via the wired connection. The wireless communication unit wirelessly connects to the first external device. The wireless communication unit performs communication conforming to the second communication standard via the wireless connection. The control unit controls the wireless communication unit so as to convert a signal corresponding to the signal received by the wired communication unit into a signal conforming to the second communication standard and transmit the signal.

In the lighting control device disclosed in the present application, the control unit controls the wired communication unit so as to convert a signal corresponding to the signal received by the wireless communication unit into a signal conforming to the first communication standard and transmit the signal. You may.

In the lighting control device disclosed in the present application, the first external device may control the operation of a lighting device different from the lighting device.

In the lighting control device disclosed in the present application, the number of the first external devices may be plural.

In the lighting control device disclosed in the present application, the wired communication unit may perform communication conforming to the serial communication standard with the repeater.

In the lighting control device disclosed in the present application, the wireless communication unit may perform communication conforming to the serial communication standard with the first external device.

The lighting control device disclosed in the present application may further include the repeater. The repeater may relay a signal between a second external device different from the first external device and the wired communication unit.

The lighting control system disclosed in the present application includes a first lighting control device, a second lighting control device, and a repeater. The first lighting control device controls the operation of the first lighting fixture. The second luminaire control device controls the operation of the second luminaire different from the first luminaire. The repeater communicates with the first lighting control device by wire. The first lighting control device includes a wired communication unit, a first wireless communication unit, and a first control unit. The wired communication unit is connected to the repeater by wire. The wired communication unit performs communication conforming to the first communication standard via the wired connection. The first wireless communication unit wirelessly connects to the second lighting control device. The first wireless communication unit performs communication conforming to the second communication standard via the wireless connection. The first control unit controls the first wireless communication unit so as to convert a signal corresponding to the signal received by the wired communication unit into a signal conforming to the second communication standard and transmit the signal. The second lighting control device includes a second wireless communication unit and a second control unit. The second wireless communication unit wirelessly connects to the first wireless communication unit. The second wireless communication unit performs communication in accordance with the second communication standard. The second control unit controls the operation of the second luminaire based on the signal received by the second wireless communication unit.

According to the lighting control device and the lighting control system of the present invention, a decrease in processing speed is suppressed.

It is a block diagram which shows the structure of the lighting control system which concerns on embodiment of this invention. It is a block diagram which shows the structure of the remote control device which concerns on embodiment of this invention. It is a figure which shows an example of the lighting control screen which concerns on embodiment of this invention. It is a block diagram which shows the structure of the 1st lighting control apparatus which concerns on embodiment of this invention. It is a block diagram which shows the structure of the 2nd lighting control apparatus which concerns on embodiment of this invention. It is a flowchart which shows the signal reception processing which concerns on embodiment of this invention. It is a block diagram which shows another example of the 1st lighting control apparatus which concerns on embodiment of this invention.

Hereinafter, embodiments of the lighting control device and the lighting control system according to the present invention will be described with reference to the drawings. In the drawings, the same or corresponding parts are designated by the same reference numerals and the description is not repeated.

First, the lighting control system 100 according to the embodiment of the present invention will be described with reference to FIG. FIG. 1 is a block diagram showing a lighting control system 100 according to the present embodiment. The lighting control system 100 is used, for example, in an office where a plurality of lighting fixtures 1 are installed.

As shown in FIG. 1, the lighting control system 100 includes a plurality of lighting fixtures 1, a first lighting control device 201, at least one second lighting control device 202, a bridge 3, a router 4, and a remote control device 5. In this embodiment, the lighting control system 100 includes two lighting fixtures 1. Further, the lighting control system 100 includes one second lighting control device 202. The bridge 3 is an example of a repeater. The second lighting control device 202 is an example of a first external device (external device), and the router 4 is an example of a second external device.

The luminaire 1 has a light source that emits light. The light source has at least one light emitting element. The light emitting element is, for example, an LED (Light Emitting Diode) element or an organic EL (Electro-Luminescence) element.

In the present embodiment, the luminaire 1 includes a first light emitting element and a second light emitting element. The second light emitting element has a higher correlated color temperature than the first light emitting element. That is, the first light emitting element emits warmer light than the first light emitting element, and the second light emitting element emits cooler light than the first light emitting element. Each of the two luminaires 1 can control the power supply state, the dimming state, and the toning state by the remote control device 5. The luminaire 1 is, for example, a ceiling-mounted light such as a ceiling light or an embedded light such as a downlight.

One of the two lighting fixtures 1 is connected to the first lighting control device 201 via a cable (wired connection). The other luminaire 1 of the two is connected to the second luminaire control device 202 via a cable (wired connection).

The first lighting control device 201 controls the state of the connected lighting fixture 1. Similarly, the second lighting control device 202 controls the state of the connected lighting fixture 1. In the present embodiment, the first lighting control device 201 and the second lighting control device 202 control the state of the lighting fixture 1 by changing the waveform of the AC voltage transmitted to the lighting fixture 1.

When the lighting control system 100 includes a plurality of second lighting control devices 202, different lighting fixtures 1 are connected to each of the plurality of second lighting control devices 202. Hereinafter, the luminaire 1 connected to the first lighting control device 201 will be referred to as "first luminaire 11", and the luminaire 1 connected to the second lighting control device 202 will be referred to as "second luminaire 12". The first lighting control device 201 controls the state of the first lighting device 11, and the second lighting control device 202 controls the state of the second lighting device 12.

The first lighting control device 201 is connected to the bridge 3 by wire. The first lighting control device 201 performs communication conforming to the first communication standard via a wired connection. The first communication standard is a serial communication standard, for example, RS485 communication standard.

Further, the first lighting control device 201 wirelessly connects to the second lighting control device 202 to form the first wireless network N1. The first lighting control device 201 performs communication conforming to the second communication standard via the first wireless network N1. The second communication standard is a serial communication standard, for example, a short-range wireless standard such as ZIGBEE (registered trademark).

The bridge 3 relays a signal between the first lighting control device 201 and the router 4. Therefore, the router 4 connects to the first lighting control device 201 via the bridge 3. The bridge 3 and the router 4 communicate with each other in accordance with the third communication standard. In this embodiment, the bridge 3 wirelessly connects to the router 4. Specifically, the bridge 3 connects to the router 4 via a wireless LAN (Local Area Network) to construct a second wireless network N2. The third communication standard is a WIFI (registered trademark) communication standard. The connection form between the bridge 3 and the router 4 may be a wired connection. In a wired connection, the bridge 3 and the router 4 are connected by a cable such as an Ethernet (registered trademark) cable, and communicate via the cable.

The bridge 3 converts the signal received from the first lighting control device 201 according to a predetermined first rule. The bridge 3 transmits the signal converted according to the first rule to the router 4. The first rule complies with the communication standard (third communication standard) between the bridge 3 and the router 4 for the signal conforming to the communication standard (first communication standard) between the first lighting control device 201 and the bridge 3. It is a rule for converting to a signal. Further, the bridge 3 converts the signal received from the router 4 according to a predetermined second rule. The bridge 3 transmits the signal converted according to the second rule to the first lighting control device 201. The second rule complies with the communication standard (first communication standard) between the first lighting control device 201 and the bridge 3 for the signal conforming to the communication standard (third communication standard) between the bridge 3 and the router 4. It is a rule for converting to a signal.

The router 4 relays a signal between the bridge 3 and the remote control device 5. Therefore, the remote control device 5 connects to the bridge 3 via the router 4. The router 4 and the remote control device 5 perform communication in accordance with the fourth communication standard. In the present embodiment, the router 4 and the remote control device 5 are wirelessly connected to form a second wireless network N2. The router 4 and the remote control device 5 perform communication conforming to a wireless communication standard such as WIFI (registered trademark) or Bluetooth (registered trademark).

The router 4 relays data. The router 4 converts the signal received from the bridge 3 according to a predetermined third rule. The router 4 transmits the signal converted according to the third rule to the remote control device 5. The third rule is a signal conforming to the communication standard (third communication standard) between the bridge 3 and the router 4 and a signal conforming to the communication standard (fourth communication standard) between the router 4 and the remote control device 5. It is a rule for converting to. Further, the router 4 converts the signal received from the remote control device 5 according to a predetermined fourth rule. The router 4 transmits the signal converted according to the fourth rule to the bridge 3. The fourth rule is a signal conforming to the communication standard (fourth communication standard) between the router 4 and the remote control device 5, and a signal conforming to the communication standard (third communication standard) between the bridge 3 and the router 4. It is a rule for converting to.

The remote control device 5 accepts operations by the user. The remote control device 5 is, for example, a portable terminal such as a smartphone. The remote control device 5 has an operation unit 51. In the present embodiment, the operation unit 51 is a touch panel.

Subsequently, the configuration of the remote control device 5 according to the embodiment of the present invention will be described with reference to FIG. FIG. 2 is a block diagram showing a configuration of the remote control device 5 according to the present embodiment.

As shown in FIG. 2, the remote control device 5 includes a remote device control unit 50 in addition to the operation unit 51.

The remote device control unit 50 is composed of a processor such as a CPU (Central Processing Unit), for example. Further, the remote device control unit 50 has a storage area 501. The storage area 501 is composed of, for example, a semiconductor memory. The semiconductor memory constitutes, for example, a RAM (Random Access Memory) and a ROM (Read Only Memory).

The operation unit 51 has a display unit 511 and an input unit 512. The display unit 511 displays various screens. The display unit 511 is, for example, a liquid crystal display or an organic EL display. The input unit 512 accepts the input of the operation by the user. The input unit 512 is, for example, a touch sensor.

The user can control the state of the lighting fixture 1 by operating the operation unit 51. Specifically, the user can control the state of the lighting fixture 1 by operating the lighting control screen G with reference to FIG.

Subsequently, the lighting control screen G according to the embodiment of the present invention will be described with reference to FIG. FIG. 3 is a diagram showing an example of the lighting control screen G according to the present embodiment. The lighting control screen G is displayed on the display unit 511 when the remote device control unit 50 described with reference to FIG. 2 executes an application for lighting control. The application for lighting control is stored in the storage area 501, for example, and is executed by the remote device control unit 50.

As shown in FIG. 3, the lighting control screen G includes a first control screen G1 and a second control screen G2. The number of the second control screens G2 corresponds to the number of the second lighting fixtures 12.

The first control screen G1 is a screen for controlling the state of the first luminaire 11. The first control screen G1 includes a first power supply operation unit S1, a first dimming operation unit S2, and a second dimming operation unit S3.

The user can control the power supply state of the first luminaire 11 by operating the first power supply operation unit S1. In addition, the user can adjust the amount of light emitted by the first light emitting element of the first lighting fixture 11 by operating the first dimming operation unit S2. In addition, the user can adjust the amount of light emitted by the second light emitting element of the first lighting fixture 11 by operating the second dimming operation unit S3. The user adjusts the amount of light emitted by the first light emitting element of the first lighting device 11 and the amount of light emitted by the second light emitting element, thereby emitting light from the first lighting device 11. And the light color can be adjusted. In other words, the dimming state and the toning state of the first luminaire 11 can be adjusted.

The second control screen G2 is a screen for controlling the state of the second luminaire 12. The second control screen G2 includes a second power supply operation unit S4, a third dimming operation unit S5, and a fourth dimming operation unit S6.

The user can control the power supply state of the second luminaire 12 by operating the second power supply operation unit S4. In addition, the user can adjust the amount of light emitted by the first light emitting element of the second lighting fixture 12 by operating the third dimming operation unit S5. In addition, the user can adjust the amount of light emitted by the second light emitting element of the second lighting fixture 12 by operating the fourth dimming operation unit S6. The user adjusts the amount of light emitted by the first light emitting element of the second luminaire 12 and the amount of light emitted by the second light emitting element of the second luminaire 12 from the second luminaire 12. The amount and color of the emitted light can be adjusted. In other words, the dimming state and the toning state of the second luminaire 12 can be adjusted.

While the user is displaying the first control screen G1 and the second control screen G2, the first power supply operation unit S1, the first dimming operation unit S2, the second dimming operation unit S3, the second power supply operation unit S4, When any of the third dimming operation unit S5 and the fourth dimming operation unit S6 is operated, a signal corresponding to the user's operation is transmitted to the router 4. The signal indicates the control target information and the control content information. The control target information is information for identifying the luminaire 1 to be controlled. For example, each luminaire 1 is assigned different identification code information. The control content information indicates the content of control for the luminaire 1 to be controlled. In the present embodiment, the control content information indicates the content of control for the power supply state of the luminaire 1. Alternatively, the control content information indicates the content of control for the dimming state and / or the toning state. Specifically, the content of the control includes "switching of the power supply state", "adjustment of the light emitting amount of the first light emitting element", and "adjustment of the light emitting amount of the second light emitting element".

When the router 4 described with reference to FIG. 1 receives a signal from the remote control device 5, it converts the signal according to the fourth rule and transmits the converted signal to the bridge 3. When the bridge 3 receives the signal from the router 4, it converts the signal according to the second rule and transmits the converted signal to the first lighting control device 201. Upon receiving the signal, the first lighting control device 201 executes the signal reception process. The signal reception process will be described later with reference to FIG.

Next, the configuration of the first lighting control device 201 according to the embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG. 4 is a block diagram showing the configuration of the first lighting control device 201 according to the present embodiment.

As shown in FIG. 4, the first lighting control device 201 includes a first control unit 210, a first display unit 211, a first input unit 212, a first wired communication unit 213, a first wireless communication unit 214, and a first storage. A unit 215, a first AC / DC converter 216, and a first AC controller 217 are provided.

The first control unit 210 has, for example, a processor such as an MCU (Micro Controller Unit). The first control unit 210 controls the operation of each unit of the first lighting control device 201.

The first display unit 211 displays, for example, the dimming state and / or the toning state of the first lighting fixture 11. The first display unit 211 is, for example, a liquid crystal display or an organic EL display.

The first input unit 212 is operated by the user. The first input unit 212 is, for example, a switch button. The user can control the state of the first luminaire 11 by operating the first input unit 212.

A cable C is connected to the first wired communication unit 213. The first wired communication unit 213 can communicate with a communication device conforming to the same communication standard. In the present embodiment, the first wired communication unit 213 performs communication conforming to the first communication standard via the cable C. Specifically, the first wired communication unit 213 is (wired) connected to the bridge 3 via the cable C, and receives a signal from the bridge 3. Alternatively, the first wired communication unit 213 transmits a signal to the bridge 3 via the cable C. The first wired communication unit 213 is, for example, an adapter for serial communication such as RS485, and the cable C is a cable for serial communication such as RS485.

The first wired communication unit 213 converts the signal received via the cable C into a signal that can be processed by the first control unit 210, and transmits the converted signal to the first control unit 210.

When the first control unit 210 receives the signal from the first wired communication unit 213, the first control unit 210 refers to the control target information. When the control target information indicates the second luminaire 12 (see FIG. 1), the first control unit 210 transmits the signal corresponding to the signal received from the first wired communication unit 213. To control. Specifically, the first control unit 210 transmits a signal corresponding to the signal received from the first wired communication unit 213 to the first wireless communication unit 214. The first wireless communication unit 214 converts the signal received from the first control unit 210 into a signal conforming to the second communication standard and transmits it to the second lighting control device 202.

The first wireless communication unit 214 can wirelessly communicate with a communication device conforming to the same communication standard. In the present embodiment, the first wireless communication unit 214 transmits and receives a communication establishment signal for establishing communication between the first wireless communication unit 214 and the second lighting control device 202 with the second lighting control device 202. Do it in between. By establishing communication between the first wireless communication unit 214 and the second lighting control device 202, wireless communication becomes possible between the first wireless communication unit 214 and the second lighting control device 202. The first wireless communication unit 214 performs wireless communication conforming to a short-range wireless standard such as ZIGBEE (registered trademark). The first wireless communication unit 214 is, for example, a wireless LAN adapter.

In the present embodiment, the first wireless communication unit 214 wirelessly connects with the second lighting control device 202 to construct the first wireless network N1. The first wireless communication unit 214 transmits a signal to the second lighting control device 202 via the first wireless network N1. Alternatively, the first wireless communication unit 214 receives a signal from the second lighting control device 202 via the first wireless network N1. The first wireless communication unit 214 communicates with the second lighting control device 202 in accordance with the second communication standard.

When the first wireless communication unit 214 receives the signal from the second lighting control device 202, it converts it into a signal that can be processed by the first control unit 210 and transmits it to the first control unit 210. The first control unit 210 controls the first wired communication unit 213 so as to transmit a signal corresponding to the signal received from the first wireless communication unit 214 to the bridge 3. Specifically, the signal corresponding to the signal received from the first wireless communication unit 214 is transmitted to the first wired communication unit 213, and the first wired communication unit 213 transmits the signal received from the first control unit 210 to the first communication standard. It is converted into a signal conforming to the above and transmitted to the bridge 3. The first control unit 210 can cause the first wired communication unit 213 to transmit the signal even while the first wireless communication unit 214 is receiving the signal. As described with reference to FIG. 1, a signal compliant with the first communication standard is converted into a signal compliant with the third communication standard by the bridge 3 and then converted into a signal compliant with the fourth communication standard by the router 4. It is converted and transmitted to the remote control device 5.

The first storage unit 215 includes a RAM and a ROM. The first storage unit 215 stores a control program for controlling the operation of each unit of the first lighting control device 201. The first control unit 210 executes a control program to control the operation of each unit of the first lighting control device 201.

The first AC / DC converter 216 converts the AC voltage transmitted from the commercial power source 200 into a DC voltage. The first AC / DC converter 216 transfers a DC voltage to the first control unit 210, the first display unit 211, the first input unit 212, the first wired communication unit 213, the first wireless communication unit 214, and the first storage unit 215. Supply.

The first AC controller 217 controls the waveform of the AC voltage transmitted from the commercial power source 200 to the first luminaire 11 based on the command from the first control unit 210. As a result, the dimming state and / or the toning state of the first luminaire 11 is controlled.

Subsequently, the configuration of the second lighting control device 202 according to the embodiment of the present invention will be described with reference to FIG. FIG. 5 is a block diagram showing the configuration of the second lighting control device 202 according to the present embodiment.

As shown in FIG. 5, the second lighting control device 202 includes a second control unit 220, a second display unit 221, a second input unit 222, a second wired communication unit 223, a second wireless communication unit 224, and a second storage. A unit 225, a second AC / DC converter 226, and a second AC controller 227 are provided.

The second control unit 220 has a processor such as an MCU, for example. The second control unit 220 controls the operation of each unit of the second lighting control device 202.

The second display unit 221 displays, for example, the dimming state and / or the toning state of the second lighting fixture 12. The second display unit 221 is, for example, a liquid crystal display or an organic EL display.

The second input unit 222 is operated by the user. The second input unit 222 is, for example, a switch button. The user can control the state of the second luminaire 12 by operating the second input unit 222.

The second wired communication unit 223 can communicate with a communication device conforming to the same communication standard. When the cable is connected, the second wired communication unit 223 communicates via the cable. In this embodiment, the cable is not connected to the second wired communication unit 223. The second wired communication unit 223 is, for example, an adapter for serial communication such as RS485, and the cable is a cable for serial communication such as RS485.

The second wireless communication unit 224 can wirelessly communicate with a communication device conforming to the same communication standard. In the present embodiment, the second wireless communication unit 224 transmits and receives a communication establishment signal to and from the first wireless communication unit 214 for establishing communication with the first wireless communication unit 214 (see FIG. 4). Do. By establishing communication between the second wireless communication unit 224 and the first wireless communication unit 214, wireless communication becomes possible between the second wireless communication unit 224 and the first wireless communication unit 214. The second wireless communication unit 224 performs wireless communication conforming to a short-range wireless standard such as ZIGBEE (registered trademark). The second wireless communication unit 224 is, for example, a wireless LAN adapter.

In the present embodiment, the second wireless communication unit 224 wirelessly connects to the first lighting control device 201 to construct the first wireless network N1. The second wireless communication unit 224 receives a signal from the first lighting control device 201 via the first wireless network N1. Alternatively, the second wireless communication unit 224 transmits a signal to the first lighting control device 201 via the first wireless network N1. The second wireless communication unit 224 communicates with the first lighting control device 201 in accordance with the second communication standard.

The second wireless communication unit 224 transmits a signal to the first wireless communication unit 214 (see FIG. 4). The signal transmitted to the first wireless communication unit 214 is, for example, a signal indicating the state of the second luminaire 12. Further, the second wireless communication unit 224 receives a signal from the first wireless communication unit 214.

The signal received from the first wireless communication unit 214 is, for example, a signal for controlling the second luminaire 12. When the second wireless communication unit 224 receives a signal from the first wireless communication unit 214, it converts it into a signal that can be processed by the second control unit 220 and transmits it to the second control unit 220. The second control unit 220 controls the state of the second luminaire 12 based on the signal received from the second wireless communication unit 224.

The second storage unit 225 includes a RAM and a ROM. The second storage unit 225 stores a control program for controlling the operation of each unit of the second lighting control device 202. The second control unit 220 executes a control program to control the operation of each unit of the second lighting control device 202.

The second AC / DC converter 226 converts the AC voltage transmitted from the commercial power source 200 into a DC voltage. The second AC / DC converter 226 applies a DC voltage to the second control unit 220, the second display unit 221, the second input unit 222, the second wired communication unit 223, the second wireless communication unit 224, and the second storage unit 225. Supply.

The second AC controller 227 controls the waveform of the AC voltage transmitted from the commercial power source 200 to the second luminaire 12 based on the command from the second control unit 220. As a result, the dimming state and / or the toning state of the second luminaire 12 is controlled.

Subsequently, the signal reception process according to the embodiment of the present invention will be described with reference to FIGS. 1 to 6. FIG. 6 is a flowchart showing a signal reception process according to the present embodiment. The signal reception process is started when the first control unit 210 receives a signal from the first wired communication unit 213. The signal reception process is started even while the signal is being received.

As shown in FIG. 6, when the first control unit 210 receives the signal from the first wired communication unit 213, the first control unit 210 acquires the control target information indicated by the signal (step S101).

When the first control unit 210 acquires the control target information, the first control unit 210 determines whether or not the luminaire 1 indicated by the control target information matches the luminaire 1 (first luminaire 11) connected to the own unit (1st control unit 210). Step S102). Specifically, the first control unit 210 compares the control target information with the identification information of the luminaire 1 connected to the own machine, so that the luminaire 1 indicated by the control target information and the luminaire 1 connected to the own machine are connected. It is determined whether or not 1 matches. Specifically, when the control target information and the identification information of the lighting fixture 1 connected to the own machine match, the first control unit 210 sets the lighting fixture 1 indicated by the control target information and the lighting connected to the own machine. If it is determined that the fixture 1 matches and the control target information does not match the identification information of the luminaire 1 connected to the own unit, the luminaire 1 indicated by the control target information and the luminaire 1 connected to the own unit Is determined to be inconsistent. The identification information of the lighting fixture 1 connected to the own machine is stored in the first storage unit 215 of the first lighting control device 201.

When the first control unit 210 determines that the luminaire 1 indicated by the control target information and the luminaire 1 connected to the first lighting control device 201 match (step S102; Yes), the first control unit 210 receives from the first wired communication unit 213. Refer to the control content information indicated by the signal. The first control unit 210 controls the operation of the first AC controller 217 based on the control content information. As a result, the state of the luminaire 1 (first luminaire 11) is controlled as desired by the user (step S103), and the signal reception process ends.

On the other hand, when the first control unit 210 determines that the lighting fixture 1 indicated by the control target information and the lighting fixture 1 connected to the own unit do not match (step S103; No), the first control unit 210 receives the signal from the first wired communication unit 213. The signal corresponding to the signal is transmitted to the first wireless communication unit 214 (step S104). Specifically, the first wireless communication unit 214 converts the signal received from the first control unit 210 into a signal conforming to the second communication standard and transmits the signal. When the first wireless communication unit 214 transmits a signal, the signal reception process ends.

The signal transmitted from the first wireless communication unit 214 is received by the second wireless communication unit 224 of the second lighting control device 202. The second wireless communication unit 224 transmits a signal corresponding to the signal received from the first wireless communication unit 214 to the second control unit 220. When the second control unit 220 receives a signal from the second wireless communication unit 224, the second control unit 220 controls the operation of the second AC controller 227 based on the control content information indicated by the received signal. As a result, the operation of the luminaire 1 (second luminaire 12) is controlled as desired by the user.

The embodiment of the present invention has been described above. According to the present embodiment, when the first wired communication unit 213 receives a signal conforming to the first communication standard, the first wireless communication unit 214 converts the signal into a signal conforming to the second communication standard and transmits the signal. The first control unit 210 causes the first wireless communication unit 214 to transmit the signal even while the first wired communication unit 213 is receiving the signal. Therefore, the processing speed of the first lighting control device 201 is improved.

When the first wireless communication unit 214 receives a signal conforming to the second communication standard, the first wired communication unit 213 converts the signal into a signal conforming to the first communication standard and transmits the signal. The first control unit 210 causes the first wired communication unit 213 to transmit the signal even while the first wireless communication unit 214 is receiving the signal. Therefore, the processing speed of the first lighting control device 201 is improved.

Further, according to the present embodiment, the first lighting control device 201 and the second lighting control device 202 are wirelessly connected. Therefore, it is not necessary to connect the first lighting control device 201 and the second lighting control device 202 with a cable or the like, and the wiring work can be omitted. As a result, the work efficiency of the worker is improved. Further, since it is not necessary to connect the first lighting control device 201 and the second lighting control device 202 with a cable or the like, an error in the wiring between the first lighting control device 201 and the second lighting control device 202 Can be suppressed.

Further, according to the present embodiment, the first lighting control device 201 and the second lighting control device 202 are wirelessly connected. Therefore, as compared with the case where the first lighting control device 201 and the second lighting control device 202 are connected by wire, the work of changing the connection destination becomes easier.

In the present embodiment, one first lighting fixture 11 is connected to the first lighting control device 201, but a plurality of first lighting fixtures 11 may be connected to the first lighting control device 201. Similarly, although one second luminaire 12 is connected to the second luminaire control device 202, a plurality of second luminaires 12 may be connected to the second luminaire control device 202.

Further, in the present embodiment, the number of the second lighting control device 202 is one, but the number of the second lighting control device 202 may be plural. The plurality of second lighting control devices 202 may construct a mesh type wireless network. In this case, one second lighting control device 202 transmits a signal to the first lighting control device 201 by a relay method via another second lighting control device 202. Alternatively, one second lighting control device 202 receives a signal from the first lighting control device 201 by a relay system via another second lighting control device 202. By constructing a mesh-type wireless network of the plurality of second lighting control devices 202, it is possible to prevent the distance between the first lighting control device 201 and the second lighting control device 202 from being limited. Therefore, the degree of freedom in arranging the lighting control device 2 is improved.

When a plurality of second lighting control devices 202 construct a mesh type wireless network, a second wireless communication unit 224 may use a second lighting control device 202 in addition to the first lighting control device 201. Wirelessly connects to the wireless communication unit 224.

Specifically, the second radio communication unit 224 of a second lighting control device 202 receives a signal from the second radio communication unit 224 of the other second lighting control device 202. The signal received from the second wireless communication unit 224 of the other second lighting control device 202 is, for example, a signal indicating the state of the second lighting fixture 12 connected to the other second lighting control device 202. When the second wireless communication unit 224 of the second lighting control device 202 receives a signal from the second wireless communication unit 224 of the other second lighting control device 202, the first wireless communication unit 214 of the first lighting control device 201 The received signal is transmitted toward.

Further, when the plurality of second lighting control devices 202 construct a mesh type wireless network, the second control unit 220 of each of the plurality of second lighting control devices 202 is the first control unit of the first lighting control device 201. Similar to 210, the signal reception process described with reference to FIG. 6 is executed. A second lighting control device 202 receives, for example, a signal from the first lighting control device 201. When the second control unit 220 of the second lighting control device 202 receives the signal from the first lighting control device 201, the second control unit 220 refers to the control target information indicated by the signal to the lighting fixture 1 and the own machine indicated by the control target information. It is determined whether or not the lighting fixture 1 to be connected matches. When the second control unit 220 determines that the luminaire 1 indicated by the control target information and the luminaire 1 connected to the own machine match, the second control unit 220 controls the operation of the second AC controller 227 based on the control content information. As a result, the operation of the luminaire 1 (second luminaire 12) is controlled as desired by the user. On the other hand, when the second control unit 220 determines that the lighting fixture 1 indicated by the control target information and the lighting fixture 1 connected to the own unit do not match, the second control unit 220 transmits a signal to the other second lighting control device 202. It is controlled by the second wireless communication unit 224. The signal is transmitted until it reaches the second lighting control device 202 to which the lighting fixture 1 indicated by the control target information is connected.

Further, the plurality of second lighting control devices 202 may construct a star-type wireless network. That is, each of the plurality of second lighting control devices 202 may be wirelessly connected to the first lighting control device 201 without going through another second lighting control device 202.

Further, as shown in FIG. 7, the first lighting control device 201 may be provided with a bridge 3. FIG. 7 is a block diagram showing another example of the first lighting control device 201 according to the embodiment of the present invention. The bridge 3 relays a signal between the router 4 and the first wired communication unit 213.

Further, in the present embodiment, the second lighting control device 202 includes the second wired communication unit 223, but the second lighting control device 202 may omit the second wired communication unit 223.

Further, in the present embodiment, the remote control device 5 is a portable terminal, but the remote control device 5 is not limited to the portable terminal. For example, the remote control device 5 may be an operation panel installed on a wall or the like.

Further, in the present embodiment, the router 4 and the remote control device 5 communicate with each other in accordance with the wireless communication standard, but the router 4 and the remote control device 5 use a cable such as an Ethernet (registered trademark) cable. It may be connected via a cable and communicated via a cable.

Further, in the lighting control device 2, for example, the operation mode may be switched to either the master or the slave by the operator operating the changeover switch included in the lighting control device 2. The lighting control device 2 functions as the first lighting control device 201 when the operation mode is the master, and functions as the second lighting control device 202 when the operation mode is the slave. Alternatively, the lighting control device 2 may switch the operation mode depending on, for example, whether a cable is connected to the wired communication unit (first wired communication unit 213 and second wired communication unit 223).

The embodiments of the present invention have been described above with reference to the drawings (FIGS. 1 to 7). However, the present invention is not limited to the above-described embodiment, and can be implemented in various embodiments without departing from the gist thereof. Further, the shape and the like shown in the above-described embodiment are merely examples and are not particularly limited, and various changes can be made without substantially deviating from the effects of the present invention.

For example, in the embodiment of the present invention, the present invention has been applied to a luminaire 1 capable of controlling a power supply state, a dimming state, and a toning state, but the present invention includes a luminaire whose toning state cannot be controlled. It is also applicable to lighting equipment whose light state and dimming state cannot be controlled.

Further, in the embodiment of the present invention, the first lighting control device 201 and the second lighting control device 202 control the state of the lighting fixture 1 by changing the waveform of the AC voltage transmitted to the lighting fixture 1. 1 The lighting control device 201 and the second lighting control device 202 may control the state of the luminaire 1 by a DALI control method, a PWM control method, a positive phase control method, and an antiphase control method.

The present invention is useful, for example, in the field of lighting control devices. Alternatively, the present invention is useful, for example, in the field of lighting control systems.

1 Lighting equipment 2 Lighting control device 3 Bridge (repeater)
11 1st lighting fixture 12 2nd lighting fixture 100 Lighting control system 201 1st lighting control device 202 2nd lighting control device (external device)
210 1st control unit 213 1st wired communication unit 214 1st wireless communication unit 220 2nd control unit 224 2nd wireless communication unit

Claims (8)

A lighting control device that controls the operation of lighting equipment.
A wired communication unit that connects to a repeater by wire and performs communication in compliance with the first communication standard via the wired connection.
A wireless communication unit that wirelessly connects to the first external device and performs communication conforming to the second communication standard via the wireless connection.
A lighting control device including a control unit that controls the wireless communication unit so as to convert a signal corresponding to the signal received by the wired communication unit into a signal conforming to the second communication standard and transmit the signal. The lighting according to claim 1, wherein the control unit controls the wired communication unit so as to convert a signal corresponding to the signal received by the wireless communication unit into a signal conforming to the first communication standard and transmit the signal. Control device. The lighting control device according to claim 1 or 2, wherein the first external device controls the operation of a lighting device different from the lighting device. The lighting control device according to any one of claims 1 to 3, wherein the first external device is a plurality. The lighting control device according to any one of claims 1 to 4, wherein the wired communication unit performs communication conforming to the serial communication standard with the repeater. The lighting control device according to any one of claims 1 to 5, wherein the wireless communication unit performs communication conforming to the serial communication standard with the first external device. Further equipped with the repeater
The lighting control device according to any one of claims 1 to 6, wherein the repeater relays a signal between a second external device different from the first external device and the wired communication unit. The first lighting control device that controls the operation of the first lighting fixture,
A second luminaire control device that controls the operation of a second luminaire different from the first luminaire,
A lighting control system including the first lighting control device and a repeater for wired communication.
The first lighting control device is
A wired communication unit that connects to the repeater by wire and performs communication conforming to the first communication standard via the wired connection.
A first wireless communication unit that wirelessly connects to the second lighting control device and performs communication conforming to the second communication standard via the wireless connection.
It is provided with a first control unit that controls the first wireless communication unit so as to convert a signal corresponding to the signal received by the wired communication unit into a signal conforming to the second communication standard and transmit the signal.
The second lighting control device is
A second wireless communication unit that wirelessly connects to the first wireless communication unit and performs communication in accordance with the second communication standard.
A lighting control system including a second control unit that controls the operation of the second lighting fixture based on a signal received by the second wireless communication unit.

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