JP5299677B2 - Lighting control system - Google Patents

Description

  The present invention relates to a lighting control system that controls a plurality of lighting fixtures using a remote control device.

  In order to control the lighting load of multiple lighting fixtures according to the switch operation of the operation terminal such as a wall switch or remote control device, it is necessary to set an address that associates the multiple lighting fixtures with the switches of the control terminal. is there. This address setting is performed using a dedicated address setting device. However, since the address setting is performed for both the plurality of lighting fixtures and the operation terminal device, the setting work is complicated.

Therefore, a remote illumination control system that performs address setting using visible light communication has been proposed (see Patent Document 1). This prior art remote lighting control system controls the lighting load so that the lighting load control terminal transmits the identification information as a visible light signal, the switch terminal receives the visible light signal, and the identification information corresponds to the operation switch. The illumination load control terminal is provided with a mode switch for switching between a visible light communication mode for executing visible light communication and a normal control mode for stopping visible light communication.
JP 2008-135223 A (page 6, FIG. 1)

  The lighting load control terminal is often arranged, for example, on a power panel, and is often installed in a space different from the lighting fixture. Therefore, as in Patent Document 1, when the mode change switch is provided in the lighting load control terminal, it moves every time to switch the mode change switch, so that it takes time to set the address. Have. In addition, depending on the installation location and installation position of the lighting load control terminal, there is a drawback that it becomes difficult to operate the mode switch.

  An object of this invention is to provide the illumination control system which can perform address setting easily and rapidly using visible light communication.

  The invention of the illumination control system according to claim 1 is provided in the appliance main body in which the illumination load is arranged, a storage device storing an ID number assigned to the appliance main body, and the appliance main body. A receiving device that receives a control signal for controlling the lighting load, and when the control signal received by the receiving device is a lighting control signal, the lighting state of the lighting load is controlled according to the lighting control signal, A plurality of lighting fixtures having a control device for controlling the lighting load so as to transmit the ID number stored in the storage device as a visible light signal when the control signal is a communication control signal; A manually operated mode changeover switch and a plurality of operation switches, a transmission / reception unit for transmitting the control signal as a radio signal and receiving a visible light signal transmitted from the lighting apparatus; A storage unit that stores an association between the operation switch and the ID number of the lighting fixture, and a transmission control signal transmitted from the transmission / reception unit in response to a manual operation of the mode switch, the transmission / reception unit An association between a desired operation switch manually operated when receiving a visible light signal transmitted from a lighting fixture and an ID number of the visible light signal is stored in the storage unit, and the desired operation switch A remote control device configured to include a control unit that controls the illumination control signal assigned with the ID number stored in the storage unit according to a manual operation to be transmitted as a radio signal from the transmission / reception unit; It is characterized by having.

  In the present invention and each of the following inventions, each configuration is as follows unless otherwise specified.

  The illumination load may be any of a discharge lamp such as an incandescent bulb and a fluorescent lamp, a light emitting diode (LED), an organic EL, and the like.

  The lighting state of the lighting load means lighting, extinguishing and dimming of the lighting load.

  The transmitter / receiver of the remote control device may have a transmitter and a receiver.

  The ID number means an address that uniquely identifies the lighting fixture.

  The lighting fixture includes a lighting circuit unit and a lighting device for lighting the lighting load, and the lighting device is controlled by the control device controlling the lighting circuit unit and the lighting device.

  The communication control signal is a signal that causes the ID number to be transmitted as a visible light signal from all the lighting fixtures, and the lighting control signal is a signal that controls the lighting state of the lighting fixture with the assigned ID number.

  The number of manually operated desired operation switches is not limited to one and may be plural.

  According to the present invention, when a mode control switch of the remote control device is operated to transmit a communication control signal from the remote control device as a radio signal, all lighting fixtures that have received the radio signal control the lighting load of the control device. Thus, the ID number is transmitted as a visible light signal. Then, by manually operating a desired operation switch under the visible light of each lighting fixture, the desired operation switch and the ID number of the lighting fixture are associated with each other and stored in the storage unit. Thereafter, by manually operating the desired operation switch, the lighting state of the lighting load of the lighting fixture associated with the desired operation switch is controlled.

  The invention of the lighting control system according to claim 2 stores a wall switch for turning on and off the lighting load by a manual operation; an instrument main body in which the illumination load is disposed; and an ID number assigned to the instrument main body And a storage device that is provided in the fixture body and receives a control signal for controlling the lighting load, and controls the lighting state of the lighting load according to the control signal received by the receiving device. And a control device that controls the illumination load so that the ID number stored in the storage device is transmitted as a visible light signal when the wall switch is operated in a predetermined manner. A plurality of operation switches, a transmission / reception unit for transmitting the control signal as a radio signal and receiving a visible light signal transmitted from the lighting apparatus, the operation switch, and the lighting apparatus A storage unit that stores an association with an ID number, a desired operation switch that is manually operated when the transmission / reception unit receives a visible light signal transmitted from the lighting fixture, and an ID number of the visible light signal Is stored in the storage unit, and the control signal to which the ID number stored in the storage unit is assigned according to the manual operation of the desired operation switch is transmitted from the transmission / reception unit by a radio signal. And a remote control device configured to include a control unit.

  The wall switch may turn on / off the supply of power to all lighting fixtures, or may turn on / off individually or in groups.

  And, for example, when the wall switch is turned on and off a predetermined number of times within a predetermined time, the luminaire with the power supply turned on and off transmits the ID number as a visible light signal by controlling the lighting load of the control device. There may be.

  According to the present invention, when the wall switch is operated in a predetermined manner, the ID number is transmitted as a visible light signal superimposed on the visible light from the lighting fixture. Then, by manually operating a desired operation switch under the visible light of the lighting fixture, the desired operation switch and the ID number of the lighting fixture are associated with each other and stored in the storage unit. Thereafter, by manually operating the desired operation switch, the lighting state of the lighting load of the lighting fixture associated with the desired operation switch is controlled.

  The invention of the lighting control system according to claim 3 is connected to a fixture main body in which a lighting load is disposed, a storage device storing an ID number assigned to the fixture main body, and a transmission line. When a control signal having an ID number that matches the ID number stored in the storage device is input from the transmission line, and the control signal is a lighting control signal, the lighting load is turned on according to the lighting control signal. And a control device that controls the lighting load so as to transmit the ID number stored in the storage device as a visible light signal when the control signal is a communication control signal. A plurality of lighting fixtures; a manually operated mode changeover switch and a plurality of operation switches; and transmitting the control signal as a radio signal and receiving a visible light signal transmitted from the lighting fixture A transmission / reception unit, a storage unit that stores the correspondence between the operation switch and the ID number of the lighting fixture, and a transmission control signal transmitted from the transmission / reception unit in response to a manual operation of the mode switch. The storage unit stores a correspondence between a desired operation switch manually operated and the ID number of the visible light signal when the transmitting / receiving unit receives the visible light signal transmitted from the lighting fixture, and And a control unit that controls the illumination control signal assigned with the ID number stored in the storage unit according to a manual operation of the desired operation switch to be transmitted as a radio signal from the transmission / reception unit. A remote control device; a receiving device that receives a control signal transmitted as a radio signal from the remote control device and transmits the control signal to the transmission line; and the plurality of lighting fixtures via the transmission line. And receiving the control signal transmitted from the receiving device from the transmission line, converting the control signal to a control signal having an ID number that can be transmitted to the transmission line, and transmitting the control signal to the transmission line. And a main control device.

  There may be one or a plurality of receiving apparatuses. Moreover, it may be provided integrally with the lighting fixture or may be provided separately from the lighting fixture. When it is provided integrally with the lighting fixture, it may be provided individually for each lighting fixture or may be provided for each group of lighting fixtures.

  According to the present invention, when the communication control signal is transmitted as a radio signal from the remote control device by operating the mode change switch of the remote control device, the radio signal is received by the receiving device and is transmitted via the transmission line to the main control device. Sent to. The main control device transmits a communication control signal to all the lighting fixtures. All the lighting fixtures transmit the ID number as a visible light signal by controlling the lighting load of the control device. Then, by manually operating a desired operation switch under the visible light of each lighting fixture, the desired operation switch and the ID number of the lighting fixture are associated with each other and stored in the storage unit. Thereafter, by manually operating the desired operation switch, the lighting state of the lighting load of the lighting fixture associated with the desired operation switch is controlled.

  According to a fourth aspect of the present invention, there is provided the lighting control system according to any one of the first to third aspects, wherein the lighting fixture turns on the lighting load all light when transmitting a visible light signal. It is characterized by controlling as follows.

  According to the present invention, since the illumination load is turned on when transmitting a visible light signal, the intensity ratio of the visible light signal received by the remote control device is relatively reduced even when there is external light. As a result, the visible light signal is easily received by the remote control device.

  According to the invention of claim 1, by manually operating the mode changeover switch of the remote control device, the ID number is transmitted as a visible light signal from the lighting fixture, and the operation switch of the remote control device and the ID of the lighting fixture under visible light. Since the numbers can be associated with each other, it is possible to easily and quickly set or change the address of the operation switch for the lighting fixture. Moreover, since the lighting time at the time of address setting can be shortened, power saving can be achieved.

  According to the second aspect of the present invention, the ID number is transmitted as a visible light signal from the lighting fixture by predetermined operation of the wall switch, and the operation switch of the remote control device is associated with the ID number of the lighting fixture under visible light. Therefore, it is possible to easily and quickly set or change the address of the operation switch for the lighting fixture. Moreover, since the lighting time at the time of address setting can be shortened, power saving can be achieved.

  According to the invention of claim 3, by manually operating the mode changeover switch of the remote control device, a communication control signal is transmitted from the main control device to all the lighting fixtures, and the ID number from each lighting fixture is a visible light signal. Since the operation switch of the remote control device and the ID number of the lighting fixture can be associated with each other under visible light, setting or changing the address of the operation switch for the lighting fixture can be performed easily and quickly. Moreover, since the lighting time at the time of address setting can be shortened, power saving can be achieved.

  According to the fourth aspect of the present invention, when the visible load of the ID number is transmitted from the lighting fixture, the illumination load is turned on all the light so that the visible light signal is easily received by the remote control device. The certainty of the correspondence between the desired operation switch and the ID number of the lighting fixture can be improved.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. First, a first embodiment of the present invention will be described.

  1 to 3 show a first embodiment of the present invention, FIG. 1 is a schematic block diagram of a configuration of a lighting control system, FIG. 2 is a schematic block diagram of a configuration of a lighting fixture, and FIG. It is a schematic block diagram which shows a structure.

  In FIG. 1, the lighting control system 1 includes a lighting fixture 2 and a remote control device 3. A plurality of lighting fixtures 2 are arranged on the ceiling side. The luminaire 2 may be any of a direct-attached instrument that is directly attached to the ceiling, an embedded instrument that is embedded in the ceiling, or a suspended instrument that is suspended from the ceiling.

  In each of the plurality of lighting fixtures 2, an ID number (address) is given to the fixture main body 4, and the reception device 5 is provided in the fixture main body 4. The receiving device 5 receives a control signal transmitted as a radio signal from the remote control device 3. In response to this control signal, a lighting load 8 (not shown) disposed in the fixture body 4 is controlled.

  In addition, when the receiving device 5 receives the communication control signal transmitted from the remote control device 3, the lighting fixture 2 superimposes the visible light signal assigned with the ID number on the visible light emitted from the lighting load 8. The visible light communication for transmitting the ID number is performed. The remote control device 3 receives the visible light signal, and associates the desired operation switch 6 with the ID number of the visible light signal, so that the lighting fixture 2 controlled by the desired operation switch 6 is controlled. It is uniquely identified.

  As shown in FIG. 2, in the lighting fixture 2, the fixture main body 4 accommodates the control terminal device 7, and the receiving device 5, the lighting load 8, and the mode indicator lamp 9 are provided. The control terminal device 7 has power terminals 11 and 11 connected to a commercial AC power source Vs connected to input terminals 10 and 10 thereof.

  The receiving device 5 receives a control signal for controlling the illumination load 8 transmitted from the remote control device 3 as a radio signal by the receiving element 12 made of, for example, a photodiode, converts the control signal into data, and outputs the data to the control device 13. It is formed as follows. As shown in FIG. 1, the receiving element 12 is disposed so as to be exposed on the lower surface on one end side of the instrument body 4. The illumination load 8 is, for example, a straight tube fluorescent lamp. The mode indicator 9 is, for example, a light emitting diode (LED) that emits red light.

  The control terminal device 7 is formed in a unit and disposed inside the instrument body 4 and includes a control device 13, a storage device 14, a lighting circuit portion 15, and a power supply portion 16, as shown in FIG. ing. The storage device 14 stores various data such as an ID number (address) assigned to the fixture body 7 (lighting fixture 2) and a dimming ratio with respect to the lighting control signal.

  The control device 13 is formed with a microcomputer, and receives a control signal output from the receiving device 5. When the control signal is an illumination control signal, the lighting circuit unit 15 is controlled according to the illumination signal, and the lighting state of the illumination load 8 is controlled. That is, when the illumination control signal is a lighting signal, the lighting load 8 is turned on. When the lighting control signal is a turn-off signal, the lighting load 8 is turned off. When the lighting control signal is a dimming signal, the lighting load 8 is dimmed. It is something to control.

  Further, when the input control signal is a communication control signal, the control device 13 reads the ID number stored in the storage device 14, and lights up so as to transmit this ID number as a visible light signal from the lighting load 8. The circuit unit 15 is controlled and the illumination load 8 is controlled. That is, a visible light signal that specifies an ID number is superimposed on the visible light output from the illumination load 8. The visible light signal is transmitted to an illumination area illuminated with visible light.

  And the control apparatus 13 controls the lighting circuit part 15 so that the illumination load 8 lights all the light (100%), when transmitting the visible light signal of ID number. The output of the visible light signal is increased according to the output of visible light. That is, the illumination load 8 is turned on in all light, so that a visible light signal is easily received by the remote control device 3.

  The lighting circuit unit 15 is connected to the power supply line 11 via the input terminals 10 and 10 and receives AC power from the commercial AC power supply Vs. Then, under the control of the control device 13, the input alternating current power is converted into high frequency alternating current power, the lighting load 8 is turned on by this high frequency alternating current power, and a visible light signal is transmitted from the lighting load 8. Is to control.

  The power supply unit 16 is connected to the power supply line 11 via the input terminals 10 and 10, converts the AC power supply from the commercial AC power supply Vs into a DC power supply, and supplies the DC power supply to the control device 13 or the like for operation. .

  The remote control device 3 is formed in a size that can be held and moved by hand. As shown in FIG. 3, the mode switch 17, the operation switch 6, the transmission / reception unit 18, the storage unit 19, the buzzer unit 20, the power supply unit 21 and a control unit 22.

  The mode changeover switch 17 is a switch for transmitting a communication control signal from the remote control device 3, and includes, for example, one operation switch (operation button). A control signal for communication is transmitted from the remote control device 3 by depressing the mode switch 17 by manual operation.

  The operation switch 6 is a switch for transmitting a control signal for illumination from the remote control device 3, and includes a plurality of operation buttons, for example. On the operation switch 6, numerals 0 to 9, #, *, and the like are displayed. By pressing the operation switch 6 by manual operation, a control signal for illumination having the ID number of the luminaire 2 associated with the operation switch 6 is transmitted from the remote control device 3.

  The transmission / reception unit 18 is configured to transmit the communication control signal or the illumination control signal as a radio signal and receive the visible light signal transmitted from the lighting fixture 2 under the control of the control unit 22. The storage unit 19 stores the association between the operation switch 6 and the ID number of the lighting fixture 2. The buzzer unit 20 is formed to emit a notification sound or a sound under the control of the control unit 22. The power source unit 21 is formed with a dry cell or a solar cell, and operates by supplying a direct current power source to the control unit 22 or the like.

  And the control part 22 is formed with a microcomputer, and transmits the control signal for communication or the control signal for illumination from the transmission / reception part 18. That is, once the mode switch 17 is pressed, the communication control signal is transmitted from the transmission / reception unit 18 as a radio signal. When the operation switch 6 is pressed, the ID number of the lighting fixture 2 corresponding to the operation switch 6 is read from the storage unit 19, and the illumination control signal to which the ID number is assigned is calculated and generated from the transmission / reception unit 18. Transmit by radio signal. The lighting control signal is an inversion control signal that turns on the lighting load 8 from, for example, an extinguished state when the operation switch 6 is pressed once, and turns off the lighting load 8 from, for example, the on state when the operating switch 6 is pressed again. It is.

  In addition, the control unit 22 performs control so that the operation switch 6 and the ID number of the lighting fixture 2 are associated with each other. That is, when the transmission / reception unit 18 receives a visible light signal transmitted from the luminaire 2, the desired operation switch 6 and the visible light ID number are pressed by manually pressing the desired operation switch 6. Are stored in the storage unit 19 in association with each other. Here, one or a plurality of operation switches 6 to be pressed down can be used. Further, the association may be performed by continuously pressing the operation switch 6 for several seconds. Further, the ID numbers of the plurality of lighting fixtures 2 may be associated with one operation switch 6. That is, the lighting fixtures 2 can be group-controlled. The control unit 22 generates a notification sound from the buzzer unit 20 when the association is performed. Thereby, it is confirmed that the association is performed.

  Next, the operation of the first embodiment of the present invention will be described.

  Each lighting fixture 2 is given an ID number to the fixture body 4. In order to control the lighting fixtures 2 individually or in groups using the remote control device 3, first, the operation switch 6 of the remote control device 3 and the ID number of the lighting fixture 2 are associated (address setting).

  When the mode changeover switch 17 of the remote control device 3 is pressed by a manual operation, a communication control signal is transmitted as a radio signal from the transmission / reception unit 18 under the control of the control unit 22. The communication control signal is received by the receiving device 5 of each lighting fixture 2 and sent from the receiving device 5 to the control device 13. The control device 13 reads the ID number stored in the storage device 14 and controls the lighting load 8 by controlling the lighting circuit unit 15 so as to transmit this ID number as a visible light signal. Illumination light (visible light) on which a visible light signal having an ID number is superimposed is emitted from the illumination load 8.

  Moreover, the control apparatus 13 makes the illumination load 8 light all lights, when transmitting a visible light signal. As the lighting load 8 is turned on in all light, the output of a visible light signal increases. Moreover, the control apparatus 13 lights the mode indicator lamp 9 when transmitting the visible light signal. By visually confirming that the mode indicator 9 is turned on, it can be confirmed that a visible light signal is transmitted from the lighting fixture 2 having the mode indicator 9.

  Then, the remote control device 3 is moved to an illumination area illuminated by each lighting fixture 2. In the remote control device 3, the transmission / reception unit 18 receives a visible light signal transmitted from the lighting fixture 2. Here, the remote control device 3 is brought close to the lighting fixture 2 so that the remote control device 3 receives the visible light signal transmitted from the lighting fixture 2 and does not receive the visible light signal transmitted from the remaining lighting fixture 2. To do.

  When the desired operation switch 6 is selected and the operation switch 6 is continuously pressed, the control unit 22 stores the operation switch 1 and the ID number of the visible light signal in association with each other in the storage unit 19. For example, when the operation switch 6 of the display 1 is pressed under the luminaire 2 with the ID number 1, the operation switch 6 with the display 1 is associated with the luminaire 2 with the ID number 1. When the operation switch 6 with the display 2, 3,... Is pressed under the lighting fixture 2 with the ID number 2, 3,..., The operation switch 6 with the display 2, 3,. The appliance 2 is associated. In this way, the operation switch 6 of the remote control device 3 is associated (address setting) with respect to all the lighting fixtures 2.

  Thereafter, when the operation switch 6 of the remote control device 3 corresponding to the lighting fixture 2 is pressed with respect to the lighting fixture 2 for which the lighting state of the lighting load 8 is to be controlled, the control unit 22 reads the operation switch 6 from the storage unit 19. The illumination control signal to which the ID number is assigned is transmitted from the transmission / reception unit 18 by a radio signal. The lighting control signal is received by the receiving device 5 of the lighting fixture 2 and sent to the control device 13.

  When the illumination control signal is input, the control device 13 reads the ID number stored in the storage device 14 and compares the ID number with the ID number assigned to the illumination control signal. And if both correspond, the lighting circuit part 15 is controlled according to the control signal for illumination, and the lighting state of the illumination load 8 is controlled. The illumination load 8 is reversely controlled so as to be turned on or off from the lighting state, for example, in accordance with the lighting control signal. In this way, by manually operating the operation switch 6 of the remote control device 3 corresponding to the lighting fixture 2, the lighting load 8 of the lighting fixture 2 associated with the operation switch 6 is controlled.

  In addition, in order to perform group control of the plurality of lighting fixtures 2 with the operation switch 6, the ID numbers of the plurality of lighting fixtures 2 may be associated with the desired operation switch 6 as described above. When the operation switch 6 is manually operated, the control unit 22 of the remote control device 3 transmits an illumination control signal having each ID number associated with the operation switch 6 from the transmission / reception unit 18 as a radio signal.

  As described above, by manually operating the mode changeover switch 17 of the remote control device 3, the ID number is transmitted as a visible light signal from each lighting fixture 2, and the remote control is under the illumination light (visible light) of each lighting fixture 2. Since the desired operation switch 6 of the apparatus 3 can be associated with the ID number of the lighting fixture 2, the setting (address) of the operation switch 6 of the remote control device 3 with respect to the lighting fixture 2 to which the ID number is assigned is set. Or a change can be performed easily and rapidly, and labor saving can be achieved. Moreover, since the lighting time of the illumination load 8 in the association is shortened, power saving can be achieved.

  Further, the visible light signal is output when the lighting load 8 of the lighting load 2 is turned on with all light, so that the output is large, and even if external light is incident on the illumination area that receives the visible light signal. The remote control device 3 is easy to receive. Therefore, it is possible to improve the certainty of correspondence between the desired operation switch 6 of the remote control device 3 and the ID number of the lighting fixture 2.

  Next, a second embodiment of the present invention will be described.

  FIG. 4 is a schematic block diagram of the configuration of the illumination control system showing the second embodiment of the present invention. The same parts as those in FIGS. 1 to 3 are denoted by the same reference numerals, and description thereof is omitted.

  A lighting control system 23 shown in FIG. 4 is obtained by providing a wall switch 24 and a relay 25 between the commercial AC power supply Vs and the lighting fixture 2 in the lighting control system 1 shown in FIG. By turning on / off the wall switch 24, the relay coil 25a is energized or deactivated. Thereby, the supply of power from the commercial AC power supply Vs to all the lighting fixtures 2 is turned on and off via the relay 25.

  Then, the control device 13 of the luminaire 2 has the wall switch 24 turned on and off, and has supplied and stopped power from the commercial AC power source Vs at a predetermined number of times within a predetermined time, for example, at least three times within 3 seconds. In some cases, the ID number of the lighting fixture 2 stored in the storage device 14 is read out, the lighting circuit unit 15 is controlled to transmit the ID number as a visible light signal, and the lighting load 8 is controlled. Yes. The control device 13 receives the supply and stop of the power from the power supply unit 16. Hereinafter, as described in the illumination control system 1. The remote control device 3 does not need to be provided with the mode switch 17, and the control unit 22 does not have to have a function of transmitting the communication control signal from the transmission / reception unit 18.

  The illumination control system 23 transmits the ID number as a visible light signal from the luminaire 2 by performing a predetermined operation of turning on and off the wall switch 24 a predetermined number of times within a predetermined time. Thus, the desired operation switch 6 of the remote control device 3 and the ID number of the lighting fixture 2 can be associated with each other, so that it is easy to set or change the association (address) of the operation switch 6 of the remote control device 3 with respect to the lighting fixture 2 Moreover, it can be performed quickly and labor saving can be achieved. Moreover, since the lighting time of the illumination load 8 in the association is shortened, power saving can be achieved.

  Next, a third embodiment of the present invention will be described.

  5 to 8 show a third embodiment of the present invention, FIG. 5 is a schematic block diagram of a configuration of a lighting control system, FIG. 6 is a schematic block diagram of a configuration of a lighting fixture, and FIG. FIG. 8 is a schematic block diagram showing the configuration of the main controller. The same parts as those in FIGS. 1 to 3 are denoted by the same reference numerals, and description thereof is omitted.

  The lighting control system 26 shown in FIG. 5 includes a lighting fixture 2A, a remote control device 3, a receiving device 27, and a main control device 28. The main controller 28 is connected by a transmission line 29 to the lighting fixture 2A, the receiving device 27, and a wall switch 30 as a monitoring terminal device. The transmission line 29 is a transmission line that transmits / receives data indicated by a time-division multiplexed signal of double pole (± 24V), or a line that performs Ethernet (registered trademark), power line communication, or the like.

  The wall switch 30 has an operation switch 30a associated with the lighting fixture 2A, and the lighting load 8 of the lighting fixture 2A can be turned on and off by turning the operation switch 30a on and off. The transmission line 29 is connected to a monitoring terminal device (not shown) such as a human sensor device and an illuminance sensor device, a control terminal device (not shown) for controlling other lighting fixtures, and the like.

  As illustrated in FIG. 6, the lighting fixture 2 </ b> A includes the control terminal device 7 </ b> A having the transmission / reception unit 31 instead of the reception device 5 in the lighting fixture 2 illustrated in FIG. 2. The transmission / reception unit 31 is connected to the transmission line 29 via the connection terminals 32, 32, receives a control signal from the transmission line 29, sends it to the control device 13, and transmits monitoring data such as the lighting state of the lighting load 8. It is formed so as to output to the line 29.

  When the control device 13 sends a control signal from the transmission / reception unit 31, the control device 13 compares the ID number given to the control signal with the ID number stored in the storage device 14, and if both match, the control signal Enter. The control device 13 is connected to the transmission line 29 via the transmission / reception unit 31. Hereinafter, the control operation described in FIG. 2 is performed.

  As shown in FIG. 7, the reception device 27 includes a transmission unit 33, a control unit 34, and a reception element 35. The transmission unit 33 is connected to the transmission line 29 via connection terminals 36 and 36. The receiving element 35 is made of, for example, a photodiode, and receives a control signal for controlling the illumination load 8 transmitted from the remote control device 3 as a radio signal. The control unit 34 is configured to convert the control signal received by the receiving element 35 and output the control signal from the transmission unit 33 to the transmission line 29.

  The main control device 5 performs overall management of the entire system, and includes a communication unit 37, a screen input unit 38, a storage unit 39, a power supply unit 40, and a main control unit 41 as shown in FIG. ing. The communication unit 37 is connected to the transmission line 29 via the connection terminals 42 and 42, and is configured to receive a control signal transmitted from the receiving device 27 or the like and send the control signal or the like to the main control unit 41. Has been. Further, under the control of the main control unit 41, a control signal or the like for controlling the lighting load 8 is output.

  The screen input unit 38 includes a touch panel, for example, and is formed so that the ID number (address) of the lighting fixture 2A can be set and input. In addition, various control data can be input. The memory | storage part 39 has memorize | stored ID number, various data, etc. of 2 A of lighting fixtures.

  The power supply unit 40 is connected to the commercial AC power supply Vs via the connection terminals 43 and 43, and is configured to convert the AC power supply from the commercial AC power supply Vs into a predetermined DC power supply. A DC power supply is supplied to the main control unit 41 and the like to operate.

  The main control unit 34 includes a microcomputer and the like, and when a control signal transmitted from the receiving device 5 is input from the transmission line 29 via the communication unit 37, an ID number that can be transmitted to the transmission line 29 is set. Data is converted into a control signal, and is transmitted from the communication unit 37 to the transmission line 29. That is, when the control signal transmitted from the receiving device 5 is a communication control signal, the communication given the respective ID numbers so that the communication control signal is input to the control devices 13 of all the lighting fixtures 2A. The control signal is converted into data and transmitted to the transmission line 29. If the control signal transmitted from the receiving device 5 is an illumination control signal, the illumination control signal having the ID number is converted to data and transmitted to the transmission line 29.

  Next, the operation of the third embodiment of the present invention will be described.

  In order to set or change the correspondence (address) between the operation switch 6 of the remote control device 3 and the ID number of the lighting fixture 2A, the mode changeover switch 17 of the remote control device 3 is manually depressed, and the control of the control unit 22 is performed. Thus, the communication control signal is transmitted as a radio signal from the transmission / reception unit 18. The communication control signal is received by the receiving device 27 and transmitted to the transmission line 29.

  The main control device 28 inputs a communication control signal from the transmission line 29 via the communication unit 37, assigns the ID numbers of all the lighting fixtures 2 A to the communication control signal, and can transmit to the transmission line 29. The data is converted into a control signal and transmitted from the communication unit 37 to the transmission line 29.

  When the transmission / reception unit 31 receives the communication control signal from the transmission line 29, the control device 13 of the lighting fixture 2A reads the ID number of the lighting fixture 2A stored in the storage device 14. When the control device 13 matches the ID number of the communication control signal, the control device 13 controls the lighting circuit unit 15 so as to transmit the ID number as a visible light signal. The load 8 is controlled. Illumination light (visible light) on which visible light signals having respective ID numbers are superimposed is emitted from the lighting loads 8 of all the lighting fixtures 2A. Further, the illumination load 8 is all-lighted under the control of the control device 13.

  Hereinafter, in the remote control device 3, as described in the first embodiment, it is possible to associate the desired operation switch 6 with the ID number of the lighting fixture 2A.

  Then, when the operation switch 6 of the remote control device 3 corresponding to the lighting fixture 2A is pressed against the lighting fixture 2A that wants to control the lighting state of the lighting load 8, the ID number corresponding to the operation switch 6 is obtained from the remote control device 3. The given illumination control signal is transmitted as a radio signal. The illumination control signal is received by the receiver 27 and transmitted to the main controller 28 via the transmission line 29.

  The main control device 28 converts the illumination control signal having the ID number received by the communication unit 37 into data, and transmits it from the communication unit 37 to the transmission line 29. The control signal for illumination is received by the transmission / reception unit 31 of each lighting fixture 2A. The control device 13 of each lighting fixture 2A reads the ID number stored in the storage device 14, and compares the ID number with the ID number assigned to the lighting control signal. And if both correspond, the control apparatus 13 will input the said control signal for illumination, and if both do not correspond, it will not input the said control signal for illumination. In this way, the illumination control signal is input to the control device 13 of the luminaire 2A having the assigned ID number.

  The control device 13 controls the lighting circuit unit 15 according to the illumination control signal, and controls the lighting state of the lighting load 8. For example, the lighting load 8 is reversely controlled in accordance with the illumination control signal. Thus, by manually operating the operation switch 6 of the remote control device 3 corresponding to the lighting fixture 2A, the lighting load 8 of the lighting fixture 2A associated with the operation switch 6 is controlled.

  The control device 13 is configured to forcibly turn on the illumination load 8 and transmit a visible light signal when the transmission / reception unit 31 receives a communication control signal when the illumination load 8 is turned off. Also good.

  As described above, by manually operating the mode changeover switch 17 of the remote control device 3, a communication control signal is transmitted from the main control device 28 to all the lighting fixtures 2A, and the ID number is a visible light signal from each lighting fixture 2A. Since the desired operation switch 6 of the remote control device 3 and the ID number of the lighting fixture 2A can be associated under illumination light (visible light), the association of the operation switch 6 with the illumination fixture 2A (Address) can be set or changed easily and quickly. As a result, it is possible to provide the lighting control system 26 that can save labor and power.

The schematic block diagram of the structure of the illumination control system which shows the 1st Embodiment of this invention. Similarly, the schematic block diagram which shows the structure of a lighting fixture. Similarly, the schematic block diagram which shows the structure of a remote control device. The schematic block diagram of the structure of the illumination control system which shows the 2nd Embodiment of this invention. The schematic block diagram of the structure of the illumination control system which shows the 3rd Embodiment of this invention. Similarly, the schematic block diagram which shows the structure of a lighting fixture. Similarly, the schematic block diagram which shows the structure of a receiver. Similarly, the schematic block diagram which shows the structure of a main controller.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,23,26 ... Lighting control system 2, 2A ... Lighting fixture 3 ... Remote control device 4 ... Appliance main body 5,27 ... Reception device 6 ... Operation switch 13 ... Control device 14 ... Memory | storage device 17 ... Mode change switch 18 ... Transmission / reception part 19 ... Storage unit 22 ... Control unit 24 ... Wall switch 28 ... Main controller

Claims (4)

An instrument body in which an illumination load is provided, a storage device that stores an ID number assigned to the instrument body, and a receiver that is provided in the instrument body and receives a control signal for controlling the illumination load When the control signal received by the receiving device is a lighting control signal, the lighting state of the lighting load is controlled according to the lighting control signal, and when the control signal is a communication control signal, the storage device A plurality of lighting fixtures configured to have a control device for controlling the lighting load so as to transmit the ID number stored in as a visible light signal;
A manually operated mode changeover switch and a plurality of operation switches, a transmission / reception unit for transmitting the control signal as a radio signal and receiving a visible light signal transmitted from the lighting fixture, and the operation switch and the ID of the lighting fixture Visible light transmitted from the lighting fixture by the storage unit that stores the correspondence with the number, the control signal for communication is transmitted as a radio signal from the transmission / reception unit according to the manual operation of the mode switch The storage unit stores an association between a desired operation switch manually operated when receiving a signal and an ID number of a visible light signal, and the storage unit according to a manual operation of the desired operation switch A control unit that controls the illumination control signal assigned with the ID number stored in the transmission / reception unit to be transmitted as a radio signal from the transmission / reception unit. And Con device;
A lighting control system comprising: A wall switch that manually turns on and off the lighting load;
An instrument body in which the illumination load is disposed, a storage device that stores an ID number assigned to the instrument body, and reception that receives a control signal that is provided in the instrument body and controls the illumination load. The lighting state of the lighting load is controlled according to the control signal received by the device and the receiving device, and the ID number stored in the storage device when the wall switch is operated for a predetermined operation is used as a visible light signal. A plurality of lighting fixtures configured to control the lighting load to transmit;
A plurality of operation switches, a transmission / reception unit for transmitting the control signal as a radio signal and receiving a visible light signal transmitted from the lighting fixture, and an association between the operation switch and the ID number of the lighting fixture are stored. A storage unit and a correspondence between a desired operation switch manually operated when the transmission / reception unit receives a visible light signal transmitted from the lighting fixture and an ID number of the visible light signal are stored in the storage unit. And a control unit that controls the control signal assigned with the ID number stored in the storage unit according to manual operation of the desired operation switch to be transmitted as a radio signal from the transmission / reception unit. A remote control device;
A lighting control system comprising: An instrument body in which an illumination load is provided, a storage device storing an ID number assigned to the instrument body, and an ID number connected to the transmission line and stored in the storage device from the transmission line When this control signal is an illumination control signal, the lighting state of the illumination load is controlled according to the illumination control signal, and the control signal is a communication control signal. A plurality of lighting fixtures configured to have a control device for controlling the lighting load so as to transmit the ID number stored in the storage device as a visible light signal.
A manually operated mode changeover switch and a plurality of operation switches, a transmission / reception unit for transmitting the control signal as a radio signal and receiving a visible light signal transmitted from the lighting fixture, and the operation switch and the ID of the lighting fixture Visible light transmitted from the lighting fixture by the storage unit that stores the correspondence with the number, the control signal for communication is transmitted as a radio signal from the transmission / reception unit according to the manual operation of the mode switch The storage unit stores an association between a desired operation switch manually operated when receiving a signal and an ID number of a visible light signal, and the storage unit according to a manual operation of the desired operation switch A control unit that controls the illumination control signal assigned with the ID number stored in the transmission / reception unit to be transmitted as a radio signal from the transmission / reception unit. And Con device;
A receiving device that receives a control signal transmitted as a radio signal from the remote control device and transmits the control signal to the transmission line;
Control having an ID number connected to the plurality of lighting fixtures and the receiving device via the transmission line, receiving a control signal transmitted from the receiving device from the transmission line, and capable of transmitting the control signal to the transmission line A main controller that converts the data into a signal and sends it to the transmission line;
A lighting control system comprising:   The lighting control system according to any one of claims 1 to 3, wherein the lighting fixture controls the lighting load to light all light when transmitting a visible light signal.

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