JP2019192528A - Control unit, lighting control device and lighting system - Google Patents

Abstract

To provide a control unit capable of cooperating a plurality of lighting control units with simple control.SOLUTION: A control unit 2 can connect lighting equipment 6 to a plurality of lighting control units 4 which can control the lighting equipment. The control unit 2 includes a first communication unit 20 and a first control unit 21. To the first communication unit 20, the plurality of lighting control units 4 are connected in parallel. The first control unit 21 controls the plurality of lighting control units 4. The first communication unit 20 receives set information 210 set from each of the plurality of lighting control units 4 to the lighting control unit 4. The set information 210 indicates a lighting state which is the state of the lighting equipment 6. Based on the set information 210 received by the first communication unit 20, the first control unit 21 controls the plurality of lighting control units 4 in a manner that the plurality of lighting control units 4 are cooperated through the first communication unit 20.SELECTED DRAWING: Figure 1

Description

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

  The light control system described in Patent Document 1 includes a plurality of light control devices and a plurality of interlocking selectors. The plurality of light control devices are connected in series. And one interlocking selector is arrange | positioned between a light control apparatus and a light control apparatus. Each interlocking selector relays the scene reproduction signal to interlock the plurality of light control devices.

JP 2005-174881 A

  However, in the dimming system described in Patent Document 1, since a plurality of dimming devices (a plurality of lighting control units) are connected in series, the operation of each interlocking selector and each dimming device at the time of interlocking is performed. It is complicated.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a control unit, a lighting control device, and a lighting system capable of interlocking a plurality of lighting control units by simple control.

  The control unit disclosed in the present application can be connected to a plurality of lighting control units capable of controlling a lighting fixture. The control unit includes a communication unit and a control unit. The plurality of lighting control units are connected in parallel to the communication unit. The control unit controls the plurality of illumination control units. The communication unit receives setting information set for the lighting control unit from each of the plurality of lighting control units. The setting information indicates a lighting state that is a state of a lighting fixture. The control unit controls the plurality of illumination control units via the communication unit based on the setting information received by the communication unit so that the plurality of illumination control units are linked.

  In the control unit disclosed in the present application, in response to the setting information of any of the plurality of lighting control units being changed, the control unit performs lighting based on the changed setting information. It is preferable to control the communication unit so as to transmit a control signal to the other illumination control unit. It is preferable that the lighting control signal indicates that the lighting fixture is controlled to be in the same state as the lighting state indicated by the setting information after the change.

  The control unit disclosed in the present application preferably further includes a receiving unit. The receiving unit preferably receives an instruction signal from an external device. It is preferable that the instruction signal indicates to instruct the control unit whether or not to link the plurality of illumination control units.

  The control unit disclosed in the present application preferably further includes a receiving unit. It is preferable that the receiving unit receives a first control signal indicating control information of the lighting fixture from an external device. It is preferable that the control unit converts the first control signal into a second control signal that can be recognized by the illumination control unit.

  The illumination control device disclosed in the present application includes an illumination control unit and a control unit. Each of the lighting control units can control the lighting fixture. The control unit can be connected to the plurality of lighting control units. The control unit includes a communication unit and a control unit. The plurality of lighting control units are connected in parallel to the communication unit. The control unit controls the plurality of illumination control units. The communication unit receives setting information set for the lighting control unit from each of the plurality of lighting control units. The setting information indicates a lighting state that is a state of a lighting fixture. The control unit controls the plurality of illumination control units via the communication unit based on the setting information received by the communication unit so that the plurality of illumination control units are linked.

  In the illumination control device disclosed in the present application, it is preferable that among the functions of each of the plurality of illumination control units, functions shared by the plurality of illumination control units are linked.

  In the illumination control device disclosed in the present application, it is preferable that at least two illumination control units among the plurality of illumination control units can control at least one of a light amount and a light color of the luminaire. . It is preferable that the illumination state indicated by the setting information indicates at least one of a light amount and a light color of the lighting fixture. In response to a change in the setting information of any one of the at least two lighting control units, the control unit outputs an illumination control signal based on the changed setting information to the at least two lighting control units. It is preferable to control the communication unit so as to transmit to another illumination control unit of the one illumination control unit. It is preferable that the lighting control signal indicates that the lighting fixture is controlled to be in the same state as the lighting state indicated by the setting information after the change.

  In the lighting control device disclosed in the present application, it is preferable that the plurality of lighting control units include a non-connected lighting control unit to which a lighting fixture is not connected. It is preferable that the communication unit receives the setting information set for the non-connected lighting control unit from the non-connected lighting control unit. It is preferable that the control unit controls the plurality of lighting control units based on the setting information received by the communication unit so that the plurality of lighting control units are linked.

  The lighting system disclosed in the present application includes at least one lighting fixture, a plurality of lighting control units each capable of controlling the lighting fixture, and a control unit connectable to the plurality of lighting control units. The at least one lighting fixture is connected to at least one lighting control unit of the plurality of lighting control units. The control unit includes a communication unit and a control unit. The plurality of lighting control units are connected in parallel to the communication unit. The control unit controls the plurality of illumination control units. The communication unit receives setting information set for the lighting control unit from each of the plurality of lighting control units. The setting information indicates a lighting state that is a state of a lighting fixture. The control unit controls the plurality of illumination control units via the communication unit based on the setting information received by the communication unit so that the plurality of illumination control units are linked.

  According to the present invention, a plurality of lighting control units can be interlocked by simple control.

It is a figure which shows the illumination system which concerns on embodiment of this invention. It is a schematic diagram which shows the content of the setting information set with respect to the illumination control unit of the illumination system which concerns on this embodiment. It is a schematic diagram which shows the content of the illumination control signal transmitted to the illumination control unit of the illumination system which concerns on this embodiment. It is a schematic diagram which shows the content of the instruction | indication signal transmitted to the control unit of the illumination system which concerns on this embodiment. It is a flowchart which shows the process of the control unit of the illumination system which concerns on this embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding parts are denoted by the same reference numerals and description thereof is not repeated.

  An illumination system 100 according to an embodiment of the present invention will be described with reference to FIG. Drawing 1 is a figure showing lighting system 100 concerning an embodiment. As shown in FIG. 1, the lighting system 100 includes a lighting control device 50 and at least one lighting fixture 6. In the present embodiment, the lighting system 100 includes a plurality of lighting fixtures 6. The lighting control device 50 controls the plurality of lighting fixtures 6. Specifically, the illumination control device 50 includes a control unit 2 and a plurality of illumination control units 4.

  The control unit 2 can be connected to a plurality of lighting control units 4. Therefore, the control unit 2 is connected to the plurality of illumination control units 4 and controls the plurality of illumination control units 4.

  Each of the plurality of lighting control units 4 can control the lighting fixture 6. At least one lighting fixture 6 is connected to at least one lighting control unit 4 of the plurality of lighting control units 4.

  Specifically, one or more lighting fixtures 6 are connected to each of one or more lighting control units 4 of the plurality of lighting control units 4. The lighting control unit 4 controls one or more lighting fixtures 6 connected to the lighting control unit 4 under the control of the control unit 2.

  Moreover, the lighting fixture 6 is not connected to each of the other one or more lighting control units 4 among the plurality of lighting control units 4. That is, the plurality of lighting control units 4 include unconnected lighting control units 4 to which the lighting fixtures 6 are not connected. One or a plurality of lighting fixtures 6 may be connected to each of all the lighting control units 4.

  Furthermore, a power supply line is individually connected to each of the plurality of lighting control units 4, and a power supply voltage is supplied individually. Each of the plurality of lighting control units 4 is, for example, a light controller operated by a user.

  Each of the lighting fixtures 6 emits light under the control of the lighting control unit 4 to which the lighting fixture 6 is connected. Each of the lighting fixtures 6 includes a light source. The light source includes, for example, one or a plurality of light emitting diodes (LEDs).

  With continued reference to FIG. 1, the control unit 2 and the illumination control unit 4 will be described in detail. The control unit 2 includes a first communication unit 20, a first control unit 21, a first storage unit 22, and a transmission / reception unit 23. The first communication unit 20 corresponds to an example of a “communication unit”. The first control unit 21 corresponds to an example of a “control unit”. The transmission / reception unit 23 corresponds to an example of a “reception unit”.

  A plurality of lighting control units 4 are connected to the first communication unit 20 in parallel. The first communication unit 20 communicates with each of the plurality of lighting control units 4. In the present embodiment, the first communication unit 20 is a communication device and serially communicates with each of the plurality of illumination control units 4. The first communication unit 20 receives setting information (hereinafter referred to as “setting information 210”) set for the lighting control unit 4 from each of the plurality of lighting control units 4.

  Specifically, the first communication unit 20 receives setting information 210 set for the lighting control unit 4 from the lighting control unit 4 to which the lighting fixture 6 is connected. Moreover, the 1st communication part 20 receives the setting information 210 set with respect to the non-connected lighting control unit 4 from the non-connected lighting control unit 4 to which the lighting fixture 6 is not connected. The setting information 210 indicates the lighting state that is the state of the lighting fixture 6.

  FIG. 2 is a schematic diagram showing the contents of the setting information 210. As shown in FIG. 2, the setting information 210 includes at least operation type data 211 and illumination state data 212. The operation type data 211 indicates an operation type when the illumination control unit 4 is operated. The operation type is “ON / OFF operation”, “light control operation”, or “color adjustment operation”. The “on / off operation” is an operation for switching between a lighting state and a lighting state of the lighting fixture 6. The “light control operation” is an operation for changing the light amount of the lighting fixture 6. The “color matching operation” is an operation for changing the light color of the lighting fixture 6.

  The illumination state data 212 indicates the illumination state of the luminaire 6. The contents of the illumination state data 212 differ depending on the operation type indicated by the operation type data 211.

  Specifically, when the operation type data 211 indicates “on / off operation”, the illumination state indicated by the illumination state data 212 indicates either the lighting state or the extinguishing state.

  When the operation type data 211 indicates “light control operation”, the illumination state indicated by the illumination state data 212 indicates the light amount of the lighting fixture 6. The lighting state data 212 may indicate the light amount of the lighting fixture 6 directly or indirectly. In the present embodiment, the lighting state data 212 indirectly indicates the light amount of the lighting fixture 6. For example, the amount of light is indicated by a numerical value between 0% and 100%. For example, the illumination state data 212 may indicate the amount of light as a light flux value or an illuminance value.

  When the operation type data 211 indicates “color matching operation”, the lighting state indicated by the lighting state data 212 indicates the light color of the lighting fixture 6. The lighting state data 212 may indicate the light color of the lighting fixture 6 directly or indirectly. In the present embodiment, the lighting state data 212 indirectly indicates the light color of the lighting fixture 6. For example, the light color is indicated by a numerical value in a plurality of stages from a warm color to a cold color. For example, the illumination state data 212 may indicate the light color as a color temperature value.

  With reference to FIG. 1 again, the first control unit 21 of the control unit 2 will be described. The first control unit 21 controls the plurality of illumination control units 4 via the first communication unit 20. Specifically, the 1st control part 21 controls each of a plurality of lighting control units 4 individually, or controls a plurality of lighting control units 4 so that a plurality of lighting control units 4 interlock.

  First, control for interlocking a plurality of illumination control units 4 will be described. The first control unit 21 controls the plurality of lighting control units 4 via the first communication unit 20 based on the setting information 210 received by the first communication unit 20 so that the plurality of lighting control units 4 are linked. To do. Therefore, according to this embodiment, the some illumination control unit 4 can be interlock | cooperated by simple control.

  That is, in the present embodiment, a plurality of lighting control units 4 are connected to the first communication unit 20 in parallel. Therefore, the control unit 2 can directly acquire the setting information 210 from each of the plurality of lighting control units 4 and can directly control the plurality of lighting control units 4. As a result, a plurality of illumination control units 4 can be linked with simple control.

  Specifically, in response to the setting information 210 of any one of the plurality of lighting control units 4 being changed, the first control unit 21 performs lighting based on the changed setting information 210. The first communication unit 20 is controlled to transmit a control signal (hereinafter referred to as “illumination control signal 220”) to the other illumination control unit 4. Therefore, the first communication unit 20 transmits the illumination control signal 220 to the other illumination control unit 4.

  The illumination control signal 220 indicates that the lighting fixture 6 is controlled to be in the same state as the illumination state indicated by the changed setting information 210. Accordingly, the lighting control unit 4 that has received the lighting control signal 220 controls the lighting fixture 6 so as to be in the same lighting state as the setting information 210 after the change. That is, according to the present embodiment, the illumination control unit 4 that has received the illumination control signal 220 is linked to the illumination control unit 4 in which the setting information 210 has been changed. As a result, the lighting fixture 6 connected to the lighting control unit 4 that has received the lighting control signal 220 is in the same lighting state as the setting information 210 after the change.

  For example, the lighting fixture 6 connected to the lighting control unit 4 that has received the lighting control signal 220 is in the same state as the lighting fixture 6 connected to the lighting control unit 4 whose setting information 210 has been changed.

  In the present embodiment, the first communication unit 20 also receives the setting information 210 from the unconnected lighting control unit 4 to which the lighting fixture 6 is not connected. Therefore, the user can operate the non-connected lighting control unit 4 to interlock the non-connected lighting control unit 4 with the lighting control unit 4 to which the lighting fixture 6 is connected. As a result, even when the lighting fixture 6 is not connected to the lighting control unit 4 whose setting information 210 has been changed, the lighting fixture 6 connected to the lighting control unit 4 that has received the lighting control signal 220 is changed to the changed setting. The lighting state indicated by the information 210 is the same.

  For example, the case where the lighting fixture 6 is installed above the stairs which connects the first floor and the second floor of a building is demonstrated. In this case, the lighting control unit 4 installed on the first floor is not connected to the lighting fixture 6, and the lighting control unit 4 installed on the second floor is connected to the lighting fixture 6. In this case, the user operates the lighting control unit 4 on the first floor to change the setting information 210, so that the first control unit 21 links the lighting control unit 4 on the second floor with the lighting control unit 4 on the first floor. . As a result, the lighting fixture 6 installed above the stairs is in the same lighting state as the setting information 210 after the change of the lighting control unit 4 on the first floor.

  Next, the illumination control signal 220 will be described with reference to FIG. FIG. 3 is a schematic diagram showing the contents of the illumination control signal 220. As shown in FIG. 3, the lighting control signal 220 includes at least a command 221 and lighting state data 222.

  The command 221 is a command for the lighting control unit 4. The command 221 is an “on / off command”, a “light control command”, or a “color control command”. The “on / off command” indicates that the lighting fixture 6 is switched on and off. The “light control command” indicates that the light amount of the lighting fixture 6 is changed. The “toning command” indicates that the light color of the lighting fixture 6 is changed.

  The lighting state data 222 indicates the lighting state of the lighting fixture 6. The content of the illumination state data 222 differs depending on the type of the command 221.

  Specifically, when the command 221 indicates an “on / off command”, the illumination state indicated by the illumination state data 222 indicates either a lighting state or a light-off state.

  When the command 221 indicates an “on / off command” and the lighting state indicated by the lighting state data 222 indicates a lighting state, the lighting control signal 220 indicates that the lighting fixture 6 is switched from the unlit state to the lighting state. On the other hand, when the command 221 indicates an “on / off command” and the illumination state indicated by the illumination state data 222 indicates the extinguished state, the illumination control signal 220 indicates that the lighting fixture 6 is switched from the illuminated state to the extinguished state.

  When the command 221 indicates a “light control command”, the lighting state indicated by the lighting state data 222 indicates the light amount of the lighting fixture 6. The illumination state data 222 may indicate the light amount of the lighting fixture 6 directly or indirectly as in the illumination state data 212 (FIG. 2). In the present embodiment, the lighting state data 222 indirectly indicates the light amount of the lighting fixture 6.

  When the command 221 indicates a “light control command”, the illumination control signal 220 indicates that the light amount of the lighting fixture 6 is changed to the light amount indicated by the illumination state data 222.

  When the command 221 indicates a “color matching command”, the lighting state indicated by the lighting state data 222 indicates the light color of the lighting fixture 6. Similarly to the illumination state data 212 (FIG. 2), the illumination state data 222 may indicate the light color of the luminaire 6 directly or indirectly. In the present embodiment, the lighting state data 222 indirectly indicates the light color of the lighting fixture 6.

  When the command 221 indicates a “toning command”, the illumination control signal 220 indicates that the light color of the lighting fixture 6 is changed to the light color indicated by the illumination state data 222.

  With reference to FIG. 1 again, the first storage unit 22 and the transmission / reception unit 23 of the control unit 2 will be described. The first storage unit 22 stores computer programs and data. The first storage unit 22 is a storage device, and includes a main storage device such as a semiconductor memory and an auxiliary storage device such as a hard disk drive or a semiconductor memory. On the other hand, the first control unit 21 includes a processor such as a CPU (Central Processing Unit). Accordingly, the processor of the first control unit 21 executes the computer program stored in the storage device of the first storage unit 22 and executes various controls.

  The transmission / reception unit 23 is a communication device and is connected to the network NW. An external device ED is connected to the network NW. Accordingly, the transmission / reception unit 23 communicates with the external device ED via the network NW.

  The external device ED is, for example, a communication terminal or a system control device. The communication terminal is, for example, a smartphone, a tablet computer, a notebook computer, or a desktop computer. The system control device controls the lighting system 100. The system control device is, for example, a HEMS (Home Energy Management System) controller. The network NW includes, for example, the Internet, a LAN (Local Area Network), and a public telephone network.

  Next, with reference to FIG. 1 and FIG. 4, the interlocking | linkage setting with respect to the 1st control part 21 of the control unit 2 is demonstrated. The transmission / reception unit 23 receives an instruction signal (hereinafter referred to as “instruction signal 8”) from the external device ED via the network NW. The instruction signal 8 indicates that the first control unit 21 is instructed whether or not the plurality of illumination control units 4 are to be interlocked. Therefore, according to the present embodiment, the user operates the external device ED to transmit the instruction signal 8 to the control unit 2, thereby interlocking the plurality of illumination control units 4, or the plurality of illumination control units. It can be easily set in the control unit 2 that 4 is not linked.

  FIG. 4 is a schematic diagram showing the contents of the instruction signal 8. As shown in FIG. 4, the instruction signal 8 includes a command 80, interlocking data 81, and group data 82.

  The command 221 indicates a “link command” for the control unit 2. “Interlock command” indicates setting whether or not two or more illumination control units 4 are to be interlocked.

  The interlocking data 81 includes interlocking valid data or interlocking invalid data. The interlocking valid data is data indicating that two or more lighting control units 4 are interlocked. The interlock invalid data is data indicating that two or more illumination control units 4 are not interlocked.

  The group data 82 includes data specifying two or more lighting control units 4 that are linked to each other among the plurality of lighting control units 4. Specifically, different addresses are individually assigned to the plurality of lighting control units 4. Therefore, the group data 82 includes addresses assigned to two or more lighting control units 4 that are linked to each other among the plurality of lighting control units 4.

  The first control unit 21 of the control unit 2 shown in FIG. 1 stores the instruction signal 8 (command 80, interlocking data 81, and group data 82) when the transmission / reception unit 23 receives the instruction signal 8. The storage unit 22 is controlled. As a result, the first storage unit 22 stores the instruction signal 8.

  Then, the first control unit 21 controls the plurality of illumination control units 4 based on the instruction signal 8. Specifically, when the interlocking data 81 of the instruction signal 8 includes interlocking valid data, the first control unit 21 interlocks two or more lighting control units 4 specified by the group data 82. That is, when the interlocking data 81 of the instruction signal 8 includes interlocking valid data, the first control unit 21 transmits the lighting control signal 220 to two or more lighting control units 4 specified by the group data 82. Next, the first communication unit 20 is controlled.

  On the other hand, when the interlocking data 81 of the instruction signal 8 includes interlocking invalid data, the first control unit 21 does not interlock the two or more lighting control units 4 specified by the group data 82.

  Next, individual control of each of the plurality of illumination control units 4 will be described with reference to FIG. The external device ED generates a first control signal indicating control information of the lighting fixture 6.

  Specifically, the first control signal includes at least a command (hereinafter referred to as “command CM1”) and illumination state data (hereinafter referred to as “illumination state data ST1”). The contents of the command CM1 are the same as the contents of the command 221 (FIG. 3) of the illumination control signal 220. Accordingly, the command CM1 is an “on / off command”, a “light control command”, or a “toning command”, as with the command 221.

  The contents of the illumination state data ST1 are the same as the contents of the illumination state data 222 (FIG. 3) of the illumination control signal 220. Accordingly, the illumination state data ST1 indicates the illumination state of the luminaire 6 as with the illumination state data 222. The contents of the illumination state data ST1 are different depending on the type of the command CM, similarly to the illumination state data 222.

  That is, when the command CM1 indicates an “on / off command”, the illumination state indicated by the illumination state data ST1 indicates either the lighting state or the extinguishing state. When the command CM1 indicates a “light control command”, the illumination state indicated by the illumination state data ST1 indicates the light amount of the lighting fixture 6. When the command CM1 indicates a “toning command”, the illumination state indicated by the illumination state data ST1 indicates the light color of the lighting fixture 6.

  The first control signal has a signal format that conforms to the first communication protocol. This is because the external device ED and the transmission / reception unit 23 of the control unit 2 execute communication conforming to the first communication protocol. The first communication protocol is based on, for example, ECHONET Lite (registered trademark) which is a communication standard. The instruction signal 8 (FIG. 4) has a signal format conforming to the first communication protocol.

  The transmission / reception unit 23 receives the first control signal from the external device ED. Then, the first control unit 21 converts the first control signal into a second control signal that can be recognized by the illumination control unit 4. The second control signal includes control information of the lighting fixture 6. Then, the first communication unit 20 transmits the second control signal to the illumination control unit 4. Therefore, according to this embodiment, a plurality of lighting fixtures 6 can be controlled without providing a control unit for each of the plurality of lighting fixtures. As a result, the cost can be reduced.

  Specifically, the first control unit 21 converts the first control signal into a second control signal having a signal format conforming to the second communication protocol. This is because each of the control unit 2 and the illumination control unit 4 executes communication conforming to the second communication protocol. The second communication protocol is based on a communication standard for serial communication, for example. The setting information 210 (FIG. 2) and the illumination control signal 220 (FIG. 3) have a signal format that conforms to the second communication protocol.

  The second control signal includes at least a command (hereinafter referred to as “command CM2”) and illumination state data (hereinafter referred to as “illumination state data ST2”). The contents of the command CM2 are the same as the contents of the command 221 (FIG. 3) of the illumination control signal 220. The contents of the illumination state data ST1 are the same as the contents of the illumination state data 222 (FIG. 3) of the illumination control signal 220. That is, the content of the second control signal is the same as the content of the illumination control signal 220.

  And if the 2nd communication part 40 of the illumination control unit 4 receives a 2nd control signal from the control unit 2, the 2nd control part 41 will control the lighting fixture 6 according to a 2nd control signal.

  The illumination control unit 4 will be described with reference to FIG. At least two illumination control units 4 </ b> A among the plurality of illumination control units 4 can control at least one of the light amount and the light color of the luminaire 6. In the present embodiment, the illumination control unit 4A can control the light amount and light color of the lighting fixture 6. Moreover, the illumination control unit 4A can switch between the lighting state and the extinguishing state of the lighting fixture 6.

  The illumination control unit 4A includes a second communication unit 40, a second control unit 41, an operation unit 42A, and a second storage unit 43. The second communication unit 40 is a communication device and is connected to the first communication unit 20. Then, the second communication unit 40 receives the illumination control signal 220 or the second control signal from the first communication unit 20. The second control unit 41 controls the lighting fixture 6 according to the illumination control signal 220 or the second control signal received by the second communication unit 40.

  The operation unit 42A is a user interface and includes, for example, one or more of a slider, a dial, a button, and a touch panel. The user can control the lighting fixture 6 by operating the operation unit 42A. Specifically, the user can instruct a change in the light amount and the light color of the light generated from the lighting fixture 6 by operating the operation unit 42A. Moreover, the user can switch the state of the lighting fixture 6 between a lighting state and a light-off state by operating the operation unit 42A.

  That is, the operation unit 42 </ b> A outputs operation information to the second control unit 41 in accordance with a user operation. The operation information indicates the operation type of the operation unit 42A and the illumination state of the lighting fixture 6.

  And the 2nd control part 41 controls the light quantity of the lighting fixture 6 so that it may become the light quantity which operation information shows when the operation information of 42 A of operation parts changes light quantity. When the operation information of the operation unit 42A indicates that the light color is changed, the second control unit 41 controls the light color of the lighting fixture 6 so that the light color indicated by the operation information is obtained.

  When the operation information of the operation unit 42A indicates that the lighting fixture 6 is switched from the off state to the lighting state, the second control unit 41 causes the lighting fixture 6 to change from the off state to the lighting state. To control. When the operation information of the operation unit 42A indicates that the lighting device 6 is switched from the lighting state to the unlighting state, the second control unit 41 causes the lighting device 6 to change from the lighting state to the unlighting state. To control.

  The second storage unit 43 stores a computer program and data. The second storage unit 43 is a storage device, and includes a main storage device such as a semiconductor memory and an auxiliary storage device such as a semiconductor memory. On the other hand, the second control unit 41 includes a processor such as a CPU. Therefore, the processor of the second control unit 41 executes the computer program stored in the storage device of the second storage unit 43 and executes various controls.

  Further, the second control unit 41 changes the setting information 210 stored in the second storage unit 43 according to the operation type and the lighting state indicated by the operation information of the operation unit 42A in response to the operation unit 42A being operated. Update. That is, the second control unit 41 changes the setting information 210 according to the operation of the operation unit 42A. Furthermore, the second control unit 41 transmits the updated setting information 210 to the first communication unit 20 of the control unit 2 in response to the operation unit 42A being operated. 40 is controlled. As a result, the second communication unit 40 transmits the updated setting information 210 to the first communication unit 20. The updated setting information 210 is “setting information 210 after change”.

  The first control unit 21 of the control unit 2 controls the first storage unit 22 so as to store the setting information 210 received by the first communication unit 20. As a result, the first storage unit 22 stores the updated setting information 210. Further, the first control unit 21 links the plurality of lighting control units 4 based on the updated setting information 210.

  The illumination control unit 4 </ b> B among the plurality of illumination control units 4 can switch between the lighting state and the extinguishing state of the lighting fixture 6. The illumination control unit 4B does not have a function of controlling the light quantity and light color of the lighting fixture 6.

  The illumination control unit 4B includes a second communication unit 40, a second control unit 41, a switch 42B, and a second storage unit 43. Hereinafter, in the description of the illumination control unit 4B, description of matters common to the illumination control unit 4A is omitted.

  The second control unit 41 controls the lighting fixture 6 according to the illumination control signal 220 or the second control signal received by the second communication unit 40. When the illumination control signal 220 or the second control signal includes a “light control command” or a “color control command”, the second control unit 41 discards the illumination control signal 220 and the second control signal, and the illumination control signal 220. The control based on the second control signal is not executed.

  The switch 42 </ b> B mechanically switches between supply and interruption of power to the luminaire 6 in response to an external force. The user can switch the state of the lighting fixture 6 between the lighting state and the extinguishing state by operating the switch 42B.

  That is, the switch 42B outputs operation information to the second control unit 41 in accordance with a user operation. The operation information indicates the operation type of the switch 42B and the lighting state of the lighting fixture 6.

  Then, when the operation information on the switch 42B indicates that the lighting fixture 6 is switched from the unlit state to the lighting state, the second control unit 41 causes the lighting fixture 6 to change from the unlit state to the lighting state. 6 is controlled. When the operation information of the switch 42B indicates that the lighting fixture 6 is switched from the lighting state to the extinguishing state, the second control unit 41 switches the lighting fixture 6 so that the lighting fixture 6 is switched from the lighting state to the extinguishing state. Control.

  Further, the second control unit 41 updates the setting information 210 stored in the second storage unit 43 according to the operation type and the lighting state indicated by the operation information of the switch 42B in response to the operation of the switch 42B. To do. That is, the second control unit 41 changes the setting information 210 according to the operation of the switch 42B. Further, the second control unit 41 transmits the updated setting information 210 to the first communication unit 20 of the control unit 2 in response to the operation of the switch 42B. To control. As a result, the second communication unit 40 transmits the updated setting information 210 to the first communication unit 20. The updated setting information 210 is “setting information 210 after change”.

  The first control unit 21 of the control unit 2 controls the first storage unit 22 so as to store the setting information 210 received by the first communication unit 20. As a result, the first storage unit 22 stores the updated setting information 210. Further, the first control unit 21 links the plurality of lighting control units 4 based on the updated setting information 210.

  As described above with reference to FIG. 1, when the setting information 210 of the lighting control unit 4 </ b> A is changed by operating the operation unit 42 </ b> A, the changed setting information 210 is transferred from the lighting control unit 4 </ b> A to the control unit 2. Sent. When the setting information 210 of the lighting control unit 4B is changed by operating the switch 42B, the changed setting information 210 is transmitted from the lighting control unit 4B to the control unit 2.

  Therefore, according to the present embodiment, the control unit 2 changes the setting information 210 regardless of whether the setting information 210 of the lighting control unit 4A is changed or the setting information 210 of the lighting control unit 4B is changed. Other illumination control units 4 can be linked to the illumination control unit 4.

  Specifically, the control unit 2 can link the illumination control units 4A having a light control function and a color control function. The dimming function indicates a function capable of controlling the light amount of the lighting fixture 6. The toning function indicates a function capable of controlling the light color of the lighting fixture 6. Moreover, the control unit 2 can link the illumination control units 4B having only the on / off function. The on / off function indicates a function of switching the lighting fixture 6 between the off state and the on state. Furthermore, the control unit 2 can link the illumination control unit 4A having the light control function and the color control function with the illumination control unit 4B having only the on / off function.

  In addition, an illumination control unit 4A having a dimming function and a toning function, an illumination control unit 4B having only an on / off function, an illumination control unit 4 having only a dimming function, and an illumination control unit 4 having only a toning function Among them, a combination of two or more illumination control units 4 can be interlocked.

  In particular, among the illumination control unit 4A having the light control function and the color control function, the illumination control unit 4 having only the light control function, and the illumination control unit 4 having only the color control function, two or more of the illumination control units 4 One of the reasons why the combinations can be linked is that a plurality of lighting control units 4 are connected in parallel to the first communication unit 20 of the control unit 2, and a power line is individually connected to each of the plurality of lighting control units 4. It is because it is connected to.

  In the present embodiment, for example, at least two of the plurality of lighting control units 4 (hereinafter referred to as “lighting control unit 4 </ b> C”) are included in the light amount and the light color of the lighting fixture 6. It is possible to control at least one. The illumination state indicated by the setting information 210 indicates at least one of the light amount and the light color of the lighting fixture 6. Further, in response to the setting information 210 of any one of the at least two lighting control units 4C being changed, the first control unit 21 changes the lighting control signal based on the changed setting information 210. The first communication unit 20 is controlled to transmit 220 to the other lighting control unit 4C among the at least two lighting control units 4C.

  Then, the lighting control unit 4C that has received the lighting control signal 220 controls the lighting fixture 6 so as to be in the same state as the lighting state indicated by the changed setting information 210. As a result, the illumination control units 4C capable of controlling at least one of the light amount and the light color of the lighting fixture 6 can be linked.

  Moreover, in this embodiment, the function which the some lighting control unit 4 has in common among the functions which each of the some lighting control unit 4 has by the control of the control unit 2 interlock | cooperates. Therefore, the user can link the functions shared by the plurality of lighting control units 4 by operating the operation unit 42A or the switch 42B. The function indicates a dimming function, a toning function, or an on / off function.

  For example, when the operation type data 211 (FIG. 2) of the changed setting information 210 indicates “light control operation” or “color control operation”, the light control function or the light control function among the plurality of lighting control units 4 is selected. Two or more illumination control units 4 </ b> A having a color function are interlocked according to the illumination control signal 220. On the other hand, the illumination control unit 4B having only the on / off function is not interlocked.

  For example, when the operation type data 211 (FIG. 2) of the changed setting information 210 indicates “on / off operation”, all the illumination control units 4A and 4B having the on / off function are linked.

  In the illumination system 100, the plurality of second communication units 40 are connected to the first communication unit 20 in parallel. The first communication unit 20 and each of the plurality of second communication units 40 perform serial communication. Accordingly, the first communication unit 20 and each of the plurality of second communication units 40 are connected by the first signal line and the second signal line. For example, the first signal line transmits a signal from the first communication unit 20 to the second communication unit 40, and the second signal line transmits a signal from the second communication unit 40 to the first communication unit 20. For example, the first signal line and the second signal line transmit a differential signal from the first communication unit 20 to the second communication unit 40 or transmit a differential signal from the second communication unit 40 to the first communication unit 20. Send.

  The control unit 2 may be mounted on one illumination control unit 4 among the plurality of illumination control units 4. Further, the lighting control device 50 may include two or more control units 2. In this case, two or more control units 2 may be mounted on two or more illumination control units 4, respectively.

  Next, processing of the control unit 2 will be described with reference to FIGS. FIG. 5 is a flowchart showing the processing of the control unit 2. As shown in FIG. 5, the process of the control unit 2 includes step S1 to step S9.

  As shown in FIGS. 1 and 5, in step S <b> 1, the first control unit 21 of the control unit 2 receives the setting information from any one of the plurality of illumination control units 4 to the first communication unit 20. It is determined whether 210 has been received.

  If it is determined in step S1 that the setting information 210 has not been received, the process remains in step S1.

  On the other hand, if it is determined in step S1 that the setting information 210 has been received, the process proceeds to step S3.

  In step S3, the first control unit 21 determines whether or not the setting information 210 has been changed.

  If it is determined in step S3 that the setting information 210 has not been changed, the process returns to step S1.

  On the other hand, if it is determined in step S3 that the setting information 210 has been changed, the process proceeds to step S5.

  Specifically, when it is determined that the setting information 210 has been received in step S1, the first control unit 21 determines that the setting information 210 has been changed in step S3. This is because each of the illumination control units 4 transmits the changed setting information 210 to the control unit 2 in response to the setting information 210 being changed by operating the operation unit 42A or the switch 42B. Therefore, step S3 may be omitted.

  The first control unit 21 compares the setting information 210 received in step S1 with the latest setting information 210 stored in the first storage unit 22 to determine whether the setting information 210 has been changed. May be determined. The latest setting information 210 is the latest setting information 210 of the setting information 210 transmitted in the past by the illumination control unit 4 that has transmitted the setting information 210 received in step S1.

  In step S5, the first control unit 21 determines whether or not the interlocking data 81 (FIG. 4) stored in the first storage unit 22 includes interlocking valid data.

  If it is determined in step S5 that the interlocking data 81 does not include interlocking valid data, that is, if it is determined in step S5 that the interlocking data 81 includes interlocking invalid data, the process returns to step S1.

  On the other hand, if it is determined in step S5 that the interlocking data 81 includes interlocking valid data, the process proceeds to step S7.

  In Step S <b> 7, the first control unit 21 generates the illumination control signal 220 based on the changed setting information 210.

  Specifically, as shown in FIGS. 2 and 3, a command 221 and illumination state data 222 are created based on the changed setting information 210 to create an illumination control signal 220.

  That is, the first control unit 21 sets a command corresponding to the operation type data 211 included in the changed setting information 210 in the command 221. The command 221 corresponds to the operation type indicated by the operation type data 211 included in the changed setting information 210. Specifically, the first control unit 21 sets a “light control command” in the command 221 when the operation type data 211 indicates “light control operation”. When the operation type data 211 indicates “toning operation”, the first control unit 21 sets the “toning command” in the command 221. The first control unit 21 sets an “on / off command” in the command 221 when the operation type data 211 indicates “on / off operation”.

  In addition, the first control unit 21 sets, in the illumination state data 222, the same illumination state as the illumination state indicated by the illumination state data 212 of the changed setting information 210.

  Referring to FIGS. 1 and 5 again, in step S9, the first control unit 21 controls the first communication unit 20 so as to transmit the illumination control signal 220 toward the other illumination control unit 4. As a result, the other illumination control units 4 are linked to the illumination control unit 4 that has transmitted the setting information 210 received in step S1 in accordance with the illumination control signal 220. The other illumination control units 4 indicate the illumination control units 4 other than the illumination control unit 4 that transmitted the setting information 210 received in step S1 among the plurality of illumination control units 4. Moreover, you may transmit the illumination control signal 220 also to the illumination control unit 4 which transmitted the setting information 210 received by step S1.

  The embodiments of the present invention have been described above with reference to the drawings. However, the present invention is not limited to the above-described embodiment, and can be implemented in various modes without departing from the gist thereof. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the above embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements over different embodiments may be appropriately combined. In order to facilitate understanding, the drawings schematically show each component as a main component, and the thickness, length, number, interval, etc. of each component shown in the drawings are actual for convenience of drawing. May be different. The materials, shapes, dimensions, etc. of the components shown in the above embodiment are merely examples, and are not particularly limited, and various changes can be made without departing from the effects of the present invention. is there.

  The present invention relates to a control unit, a lighting control device, and a lighting system, and has industrial applicability.

2 Control unit 4, 4A, 4B Lighting control unit 6 Lighting fixture 20 1st communication part (communication part)
21 1st control part (control part)
23 Transceiver (Receiver)
50 Lighting control device 100 Lighting system ED External device

Claims (9)

A control unit connectable to a plurality of lighting control units capable of controlling a lighting fixture,
A communication unit in which the plurality of lighting control units are connected in parallel;
A controller for controlling the plurality of lighting control units,
The communication unit receives setting information set for the lighting control unit from each of the plurality of lighting control units,
The setting information indicates a lighting state that is a state of a lighting fixture,
The control unit is configured to control the plurality of illumination control units via the communication unit so that the plurality of illumination control units are interlocked based on the setting information received by the communication unit. In response to a change in the setting information of any one of the plurality of lighting control units, the control unit sends another lighting control signal based on the changed setting information to the other lighting control unit. Controlling the communication unit to transmit to the unit;
The control unit according to claim 1, wherein the lighting control signal indicates that the lighting fixture is controlled to be in the same state as the lighting state indicated by the setting information after the change. A receiving unit for receiving an instruction signal from an external device;
3. The control unit according to claim 1, wherein the instruction signal indicates to instruct the control unit whether or not the plurality of illumination control units are to be interlocked. 4. A receiving unit for receiving a first control signal indicating control information of the lighting fixture from an external device;
4. The control unit according to claim 1, wherein the control unit converts the first control signal into a second control signal that can be recognized by the illumination control unit. 5. A plurality of lighting control units each capable of controlling a lighting fixture;
A control unit connectable to the plurality of lighting control units,
The control unit is
A communication unit in which the plurality of lighting control units are connected in parallel;
A controller for controlling the plurality of lighting control units,
The communication unit receives setting information set for the lighting control unit from each of the plurality of lighting control units,
The setting information indicates a lighting state that is a state of a lighting fixture,
The control unit controls the plurality of illumination control units via the communication unit based on the setting information received by the communication unit so that the plurality of illumination control units are linked.   The illumination control device according to claim 5, wherein among the functions of each of the plurality of illumination control units, functions commonly possessed by the plurality of illumination control units are linked. At least two illumination control units among the plurality of illumination control units are capable of controlling at least one of a light amount and a light color of a lighting fixture,
The lighting state indicated by the setting information indicates at least one of a light amount and a light color of a lighting fixture,
In response to a change in the setting information of any one of the at least two lighting control units, the control unit outputs an illumination control signal based on the changed setting information to the at least two lighting control units. Controlling the communication unit to transmit to other lighting control units of one lighting control unit;
The lighting control device according to claim 5 or 6, wherein the lighting control signal indicates that the lighting fixture is controlled to be in the same state as the lighting state indicated by the setting information after the change. The plurality of lighting control units includes a non-connected lighting control unit to which a lighting fixture is not connected,
The communication unit receives the setting information set for the non-connected lighting control unit from the non-connected lighting control unit;
8. The control unit according to claim 5, wherein the control unit controls the plurality of lighting control units based on the setting information received by the communication unit so that the plurality of lighting control units are linked. The lighting control device according to item 1. At least one lighting fixture;
A plurality of lighting control units each capable of controlling a lighting fixture;
A control unit connectable to the plurality of lighting control units,
The at least one lighting fixture is connected to at least one lighting control unit of the plurality of lighting control units,
The control unit is
A communication unit in which the plurality of lighting control units are connected in parallel;
A controller for controlling the plurality of lighting control units,
The communication unit receives setting information set for the lighting control unit from each of the plurality of lighting control units,
The setting information indicates a lighting state that is a state of a lighting fixture,
The control unit controls the plurality of illumination control units via the communication unit based on the setting information received by the communication unit so that the plurality of illumination control units are linked.

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