JP2018116765A - Luminaire and illumination system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a luminaire and an illumination system capable of stably wirelessly communicating.SOLUTION: A luminaire according to the present invention includes a light source, a wireless unit for receiving a wireless signal emitted from an illumination control device, and a lighting circuit for lighting the light source in accordance with the wireless signal received by the wireless unit. The wireless unit measures the reception strength of the received signal, transmits the reception strength to the outside, and can transmit a relay signal including the same information as the wireless signal to the outside.SELECTED DRAWING: Figure 7

Description

  The present invention relates to a lighting fixture and a lighting system.

  Patent Literature 1 discloses a lighting fixture. This luminaire includes a light source, a lighting circuit that controls the light source, and a communication circuit that can transmit and receive signals by wireless communication. The lighting circuit is controlled according to the received signal received by the communication circuit. This lighting fixture determines the reception intensity of the received signal. Depending on the determination result, the luminaire relays the received signal and transmits it to another luminaire.

Japanese Patent Laid-Open No. 2006-72125

  In the lighting system disclosed in Patent Document 1, the lighting fixture determines the received intensity and relays the received signal. For this reason, the lighting control device which is the parent device cannot grasp the lighting fixture with low reception intensity and unstable wireless communication. Therefore, there is a possibility that the frequency of wireless communication increases because each lighting fixture automatically determines the reception intensity and relays the reception signal. In general, wireless communication may become unstable as the number of wireless communication devices increases and the communication frequency increases. At this time, wireless communication may not be possible due to crosstalk.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a lighting fixture and a lighting system that can stably perform wireless communication.

  A lighting fixture according to the present invention includes a light source, a wireless unit that receives a wireless signal emitted by a lighting control device, and a lighting circuit that turns on the light source according to the wireless signal received by the wireless unit, The radio unit can measure the reception strength of the received signal, transmit the reception strength to the outside, and transmit a relay signal including the same information as the radio signal to the outside.

  In the lighting fixture according to the present invention, the wireless unit transmits the received intensity of the received signal to the outside. For this reason, the external illumination control device can detect the reception intensity. Thereby, it can set so that a lighting fixture with large reception intensity | strength may transmit a relay signal outside by lighting control equipment. Therefore, stable wireless communication is possible.

1 is a perspective view of a lighting fixture according to Embodiment 1. FIG. 2 is a perspective view of a light source unit according to Embodiment 1. FIG. 2 is a perspective view of a wireless unit according to Embodiment 1. FIG. 3 is a circuit block diagram of a wireless unit substrate according to Embodiment 1. FIG. FIG. 3 is a circuit block diagram of a control circuit according to the first embodiment. 6 is a diagram for explaining setting means according to Embodiment 1. FIG. It is a figure explaining the illumination system which concerns on Embodiment 1. FIG. 6 is a flowchart for explaining the operation of the lighting control device when setting the relay function according to the first embodiment. FIG. 6 is a diagram for explaining the operation of the illumination system according to Embodiment 1. FIG. 10 is a diagram for explaining setting means according to a modification of the first embodiment. It is a figure explaining the illumination system which concerns on Embodiment 2. FIG. It is a figure which shows the example of a setting of the relay function by a system setting device.

  A lighting fixture and a lighting system according to an embodiment of the present invention will be described with reference to the drawings. The same or corresponding components are denoted by the same reference numerals, and repeated description may be omitted.

Embodiment 1 FIG.
1 is a perspective view of a lighting fixture according to Embodiment 1. FIG. A lighting fixture 1 according to the present embodiment includes a lighting fixture body 2. The lighting fixture body 2 is attached to the ceiling. A light source unit 3 is attached to the luminaire body 2.

  2 is a perspective view of the light source unit according to Embodiment 1. FIG. The light source unit 3 includes a light source 6. The light source 6 includes one or more light emitting elements. The light source unit 3 includes a lighting circuit 4. The lighting circuit 4 turns on the light source 6. A wireless unit 5 is connected to the light source 6. The wireless unit 5 communicates wirelessly with lighting control devices and other lighting fixtures.

  FIG. 3 is a perspective view of the wireless unit according to the first embodiment. The wireless unit 5 includes a wireless unit case 14. The wireless unit case 14 houses a wireless unit substrate. One end of the lighting circuit connection portion 13 is connected to the wireless unit substrate. The other end of the lighting circuit connection unit 13 is connected to the lighting circuit 4.

  FIG. 4 is a circuit block diagram of the wireless unit substrate according to the first embodiment. The wireless unit substrate 15 includes an antenna 8. The antenna 8 wirelessly communicates with the lighting control device and other lighting fixtures. The antenna 8 receives a signal emitted from another lighting fixture and a radio signal 51 emitted from the lighting control device. A control circuit 9 is connected to the antenna 8. The control circuit 9 converts the radio signal 51 received by the antenna 8 into a control signal 52 that controls the lighting circuit 4. A lighting circuit connection terminal 10 is connected to the control circuit 9.

  One end of a lighting circuit connection portion 13 is connected to the lighting circuit connection terminal 10. Accordingly, the control signal 52 is transmitted from the lighting circuit connection terminal 10 to the lighting circuit 4. As a result, the lighting circuit 4 turns on the light source 6 according to the wireless signal 51 received by the wireless unit 5. The lighting circuit 4 transmits a signal to the control circuit 9 via the lighting circuit connection terminal 10. The control circuit 9 converts this signal and transmits it to the antenna 8. As a result, the antenna 8 transmits a signal to the lighting control device or another lighting fixture.

  The lighting circuit connection terminal 10 is supplied with power from the lighting circuit 4. The wireless unit substrate 15 includes a power supply circuit 11. The power supply circuit 11 converts the power supplied from the lighting circuit 4 into a power supply that drives the control circuit 9. The control circuit 9 is supplied with power from the lighting circuit 4 via the power circuit 11.

  Further, the wireless unit 5 has a relay function for transmitting the relay signal 54 to the outside. The relay signal 54 includes the same information as the wireless signal 51 received from the lighting control device. The wireless unit substrate 15 includes setting means 16 for setting on / off of the relay function. The setting unit 16 transmits a signal for enabling or disabling the relay function to the control circuit 9. When the setting unit 16 transmits a signal for enabling the relay function, the wireless unit 5 is set to transmit the relay signal 54 to the outside.

  FIG. 5 is a circuit block diagram of the control circuit according to the first embodiment. The control circuit 9 includes a control unit 91. The control unit 91 converts the radio signal 51 received by the antenna 8 into a control signal 52. In addition, the control circuit 9 includes a measurement unit 92. The measuring unit 92 measures the reception intensity 53 of the signal received by the antenna 8. The measuring unit 92 is connected to the control unit 91. The control unit 91 transmits the reception intensity 53 measured by the measurement unit 92 to the antenna 8. The antenna 8 transmits the reception intensity 53 to the outside.

  The control circuit 9 includes a storage unit 93. In the storage unit 93, a program for enabling the relay function and a program for disabling the relay function are written. When a signal for enabling the relay function is input from the antenna 8 or the setting unit 16 to the control unit 91, the control unit 91 executes a program for enabling the relay function. Thereby, the relay function of the lighting fixture 1 becomes effective. When the antenna 8 receives the radio signal 51 in a state where the relay function is valid, the control unit 91 transmits the relay signal 54 including the same information as the radio signal 51 from the antenna 8 to the outside.

  When a signal for invalidating the relay function is input from the antenna 8 or the setting means 16 to the control unit 91, the control unit 91 executes a program for invalidating the relay function. Thereby, the relay function of the lighting fixture 1 becomes invalid. When the antenna 8 receives the radio signal 51 in a state where the relay function is disabled, the control unit 91 does not transmit the relay signal 54 to the outside.

  FIG. 6 is a diagram for explaining setting means according to the first embodiment. The setting means 16 according to the present embodiment includes a manual switch 7. One end of the manual switch 7 is connected to the control circuit 9. The other end of the manual switch 7 is connected to the ground. The manual switch 7 can be manually turned on and off by the user. Here, the user may be a construction contractor or a consumer. When the manual switch 7 is turned on, a Low signal is input to the control circuit 9. As a result, the control circuit 9 executes a program for enabling the relay function. When the manual switch 7 is turned off, a high signal is input to the control circuit 9. As a result, the control circuit 9 executes a program for invalidating the relay function.

  FIG. 7 is a diagram illustrating the illumination system according to Embodiment 1. FIG. The lighting system 20 according to the present embodiment includes a plurality of lighting fixtures 1. In FIG. 7, two lighting fixtures 18 and 19 among the plurality of lighting fixtures 1 are displayed. The number of the lighting fixture 1 with which the illumination system 20 is provided should just be plural. The lighting system 20 includes a lighting control device 17. The lighting control device 17 controls the operation of the plurality of lighting fixtures 1. The illumination control device 17 is a remote control, for example. The lighting control device 17 controls the plurality of lighting fixtures 1 by wireless communication in accordance with a user command.

  FIG. 8 is a flowchart for explaining the operation of the lighting control device when setting the relay function according to the first embodiment. First, the lighting control device 17 transmits a setting signal 55 to the plurality of lighting fixtures 1. As a result, the wireless unit 5 included in each of the plurality of lighting fixtures 1 measures the reception intensity 53 of the received setting signal 55. The wireless unit 5 transmits the measured reception intensity 53 to the lighting control device 17. As a result, the lighting control device 17 receives the reception intensity 53 of each of the plurality of lighting fixtures 1.

  Next, the illumination control device 17 compares the reception intensity 53 with a threshold value. The lighting control device 17 transmits a signal for enabling the relay function to the lighting fixtures 1 whose reception intensity 53 is equal to or higher than the threshold among the plurality of lighting fixtures 1. Thereby, the relay function of the lighting fixture 1 whose reception intensity | strength 53 is more than a threshold value becomes effective. As a result, among the plurality of lighting fixtures 1, the lighting fixtures 1 whose reception intensity 53 is equal to or higher than the threshold value are set to transmit the relay signal 54 to the other lighting fixtures 1. Further, the lighting control device 17 does not transmit a signal for enabling the relay function to the lighting fixture 1 having the reception intensity 53 smaller than the threshold value.

  FIG. 9 is a diagram for explaining the operation of the illumination system according to Embodiment 1. The operation at the time of initial setting of the illumination system 20 will be described with reference to FIG. Here, the operation of the lighting system 20 will be described using the lighting fixtures 18 and 19. It is assumed that the relay function of the lighting fixtures 18 and 19 is invalid in the initial state.

  First, in communication I, the lighting control device 17 transmits a setting signal 55 to the lighting fixtures 18 and 19. The setting signal 55 is a signal for initial setting of the lighting system 20. The signal for initial setting is a signal for setting a control group, for example. The control group includes a lighting control device 17 and a plurality of lighting fixtures 1 controlled by the lighting control device 17. Here, the setting signal 55 includes a signal that requests the lighting fixtures 18 and 19 to transmit the reception intensity 53.

  The luminaires 18 and 19 measure the reception intensity 53 of the setting signal 55. In the communication II, the lighting fixtures 18 and 19 transmit the reception intensity 53 to the lighting control device 17. The lighting control device 17 compares the received reception intensity 53 with a threshold value. For example, it is assumed that the reception intensity 53 of the lighting fixture 18 is −70 dB and the reception intensity 53 of the lighting fixture 19 is −85 dB. The threshold is assumed to be −80 dB. In this case, the reception intensity 53 of the luminaire 18 is greater than or equal to the threshold value. For this reason, in the communication III, the lighting control device 17 transmits a signal for enabling the relay function to the lighting fixture 18. As a result, the relay function of the lighting fixture 18 becomes effective. Further, the reception intensity 53 of the luminaire 19 is smaller than the threshold value. For this reason, the lighting control device 17 does not transmit a signal for enabling the relay function to the lighting fixture 19.

  Next, in communication IV, the lighting control device 17 transmits a radio signal 51 for controlling the lighting circuit 4 to the lighting fixtures 18 and 19 constituting the control group. Here, the radio signal 51 includes, for example, a dimming command. At this time, the relay function of the lighting fixture 18 is effective. For this reason, in communication V, the luminaire 18 transmits a relay signal 54 to the luminaire 19. The relay signal 54 includes the same information as the radio signal 51. Since the lighting fixture 19 has a small reception intensity 53, wireless communication with the lighting control device 17 may be unstable. However, even when the wireless signal 51 from the lighting control device 17 does not reach, the lighting device 19 can receive the same information as the wireless signal 51 via the lighting device 18.

  In the lighting system 20 in the present embodiment, the lighting fixture 18 that makes the relay function effective is selected during the initial communication between the lighting control device 17 and the lighting fixtures 18 and 19. A relay signal 54 is transmitted from the luminaire 18 having a high reception intensity 53 to the luminaire 19 having a low reception intensity 53 and unstable wireless communication with the illumination control device 17. For this reason, the lighting fixture 19 which is difficult to receive the wireless signal 51 from the lighting control device 17 can receive information such as a dimming command. Therefore, the lighting system 20 can stably perform wireless communication.

  In addition, the reception intensity 53 of each of the lighting fixtures 18 and 19 is transmitted to the lighting control device 17. Therefore, in the lighting system 20 according to the present embodiment, the lighting control device 17 that is the master unit can detect the lighting fixture 19 having a low reception intensity 53. For this reason, the relay function can be efficiently set by the lighting control device 17.

  For example, consider a case where the reception intensity 53 of a plurality of lighting fixtures 1 is equal to or greater than a threshold value. At this time, in the lighting control device 17, among the lighting fixtures 1 whose reception intensity 53 is equal to or higher than the threshold, the lighting fixture 1 adjacent to the lighting fixture 19 whose reception intensity 53 is lower than the threshold transmits the relay signal 54 to the lighting fixture 19. It is good also as what is set to do. Thereby, since the number of the lighting fixtures 1 which enable a relay function can be suppressed, the frequency of radio | wireless communication can be suppressed and radio | wireless communication can be stabilized.

  In the present embodiment, it is assumed that the luminaire 1 that enables the relay function at the time of initial setting is set. You may perform the setting of the lighting fixture 1 which validates a relay function other than the time of an initial setting. For example, the wireless communication of the lighting system 20 may become unstable due to a room layout change. In this case, the luminaire 1 that enables the relay function according to the current layout can be set by performing the communication I to III. Therefore, wireless communication can be easily stabilized.

  In the present embodiment, in communication III, a signal for enabling the relay function is transmitted to the luminaire 18 having the reception intensity 53 of the threshold value or more. Here, in the communication III, the lighting control device 17 may further transmit a signal for invalidating the relay function to the lighting fixture 19 whose reception intensity 53 is smaller than the threshold value.

  Moreover, in the lighting fixture 1 which concerns on this Embodiment, the relay function can be turned on / off by the manual switch 7. FIG. For this reason, the relay function can be easily enabled or disabled without using the lighting control device 17. For example, the user can manually set the relay function when the lighting system 20 is initially set or when the room layout is changed.

  FIG. 10 is a diagram for explaining setting means according to a modification of the first embodiment. The setting unit 16 may include a light receiving element 212. The wireless unit substrate 215 according to the modification includes a light receiving element 212. The light receiving element 212 receives an optical signal. In response to the optical signal, the light receiving element 212 is set so that the wireless unit 5 transmits the relay signal 54 to the other lighting fixtures 1.

  For example, it is assumed that an optical signal for enabling the relay function is transmitted from the infrared remote controller to the light receiving element 212. As a result, the optical signal is notified to the control circuit 9. The control circuit 9 executes a program for enabling the relay function according to the optical signal. Further, it is assumed that an optical signal for invalidating the relay function is transmitted from the infrared remote controller or the like to the light receiving element 212. At this time, the control circuit 9 executes a program for invalidating the relay function according to the optical signal.

  The light receiving element 212 may be disposed in a portion exposed to the outside of the lighting fixture 1. This makes it easier to receive an optical signal from an infrared remote controller or the like. In addition, the light receiving element 212 may be disposed inside a cover member that transmits an optical signal. Since the setting unit 16 includes the light receiving element 212, the setting of the relay function by the setting unit 16 can be easily performed without removing the light source unit 3.

  These modifications can be applied as appropriate to lighting fixtures and lighting systems according to the following embodiments. In addition, since there are many common points with Embodiment 1 about the lighting fixture and lighting system which concern on the following embodiment, it demonstrates centering around difference with Embodiment 1. FIG.

Embodiment 2. FIG.
FIG. 11 is a diagram for explaining an illumination system according to Embodiment 2. The illumination system 320 according to the present embodiment includes a system setting unit 321. The system setting device 321 is, for example, a PC (Personal Computer). The system setting unit 321 is used for setting a control group. On the screen of the system setting device 321, the arrangement of the plurality of lighting fixtures 1 included in the control group is displayed. Here, although two lighting fixtures 18 and 19 are displayed among the plurality of lighting fixtures 1 in FIG. 11, the number of the lighting fixtures 1 provided in the lighting system 320 may be plural.

  The lighting control device 17 receives the reception intensity 53 of each of the plurality of lighting fixtures 1. The lighting control device 17 transmits the received reception intensity 53 to the system setting device 321. The system setting unit 321 collects the reception intensity 53 of each of the plurality of lighting fixtures 1. On the screen of the system setting device 321, the reception intensity 53 of each of the plurality of lighting fixtures 1 is displayed. Moreover, the system setting device 321 specifies the lighting fixture 1 whose reception intensity 53 is equal to or greater than a threshold value.

  FIG. 12 is a diagram illustrating a setting example of the relay function by the system setting device. Here, a case where the lighting system 20 includes twelve lighting fixtures 1 will be described. The twelve lighting fixtures 1 and the lighting control device 17 constitute a control group 325. On the screen of the system setting device 321, the arrangement of the plurality of lighting fixtures 1 is displayed as shown in FIG. The reception intensity 53 of each of the plurality of lighting fixtures 1 is displayed on the screen of the system setting device 321. Furthermore, the arrangement of the lighting control device 17 is displayed on the screen of the system setting device 321. Each luminaire 1 may be displayed in different colors according to the magnitude of the reception intensity 53. From the above, the system setting device 321 allows the user to specify the lighting apparatus 1 having the reception intensity 53 equal to or higher than the threshold value.

  For example, let us consider a case in which the reception intensity 53 of the lighting apparatus 324 is smaller than the threshold among the plurality of lighting apparatuses 1 and the reception intensity 53 of the other lighting apparatuses 1 is greater than or equal to the threshold. The plurality of lighting fixtures 1 whose reception intensity 53 is greater than or equal to the threshold value are configured by a lighting fixture group 323 adjacent to the lighting fixture 324 and a lighting fixture group 322 not adjacent to the lighting fixture 324.

  Here, in order to transmit the relay signal 54 to the lighting fixture 324, it is not necessary to enable the relay function of all the lighting fixtures 1 whose reception intensity 53 is equal to or higher than the threshold value. In order to transmit the relay signal 54 to the lighting fixture 324, the lighting fixture 1 adjacent to the lighting fixture 324 or the lighting fixture 1 in the vicinity of the lighting fixture 324 may be set to transmit the relay signal 54 to the lighting fixture 324. . That is, the relay function of the lighting fixture group 323 adjacent to the lighting fixture 324 among the plurality of lighting fixtures 1 having the reception intensity 53 equal to or higher than the threshold may be validated.

  The user selects the lighting fixture 1 that enables the relay function from the screen of the system setting device 321. Here, the user can confirm the reception intensity 53 and arrangement of each lighting fixture 1 from the screen of the system setting device 321. Therefore, the user can confirm the arrangement of the lighting fixtures 324 whose wireless communication is unstable from the screen of the system setting device 321. Furthermore, the user can confirm the lighting fixture 1 adjacent to the lighting fixture 324 whose wireless communication is unstable from the screen of the system setting device 321.

  The user operates the system setting device 321 and inputs the lighting fixture 1 that enables the relay function. As a result, a signal notifying the lighting fixture 1 that enables the relay function is transmitted to the lighting control device 17. The lighting control device 17 transmits a signal for enabling the relay function to the lighting fixture 1 notified from the system setting device 321. As a result, among the luminaires 1 whose reception intensity 53 is equal to or greater than the threshold, the luminaire 1 selected by the system setting unit 321 is set to transmit the relay signal 54 to the luminaire 324.

  Here, it is assumed that the relay function of the lighting fixture group 323 adjacent to the lighting fixture 324 where wireless communication is unstable is effective. At this time, the wireless signal 51 from the lighting control device 17 can be transmitted to the lighting fixture 324 via the lighting fixture group 323. In this Embodiment, the lighting fixture 1 which validates a relay function can be limited to the lighting fixture 1 adjacent to the lighting fixture 324 with which wireless communication is unstable. By limiting the luminaire 1 that transmits the relay signal 54, radio communication interference is suppressed. Therefore, stable wireless communication can be performed.

  Further, in the present embodiment, the reception intensity 53 and the arrangement of each lighting fixture 1 are displayed on the system setting device 321. For this reason, the user can confirm the state of radio | wireless communication collectively at the time of the setting of a control group.

  In the present embodiment, the relay function of the lighting fixture group 323 adjacent to the lighting fixture 324 is enabled. As a modified example, one relay function of the lighting fixtures 1 adjacent to the lighting fixture 324 may be validated. Thereby, the lighting fixture 1 in which a relay function is validated is limited to one. Therefore, the frequency of wireless communication is suppressed, and wireless communication can be stabilized.

  In the present embodiment, the operation of the system setting unit 321 is set so that the lighting apparatus 1 having the reception intensity 53 equal to or higher than the threshold value transmits the relay signal 54 to the lighting apparatus 324 having the reception intensity 53 smaller than the threshold value. On the other hand, the user may use the setting unit 16 to enable the relay function after selecting the luminaire 1 that enables the relay function from the screen of the system setting device 321. In this case, the relay function can be made effective by directly operating the lighting fixture 1. For this reason, the user can easily set the relay function.

  The technical features described in each embodiment may be used in appropriate combination.

DESCRIPTION OF SYMBOLS 1, 18, 19, 324 Lighting fixture, 20, 320 Lighting system, 6 light sources, 17 Lighting control equipment, 5 Wireless unit, 4 Lighting circuit, 16 Setting means, 7 Manual switch, 212 Light receiving element, 321 System setting device, 51 Wireless signal, 53 reception strength, 54 relay signal, 55 setting signal

Claims (8)

A light source;
A wireless unit that receives a wireless signal emitted by the lighting control device;
A lighting circuit for lighting the light source in response to the wireless signal received by the wireless unit;
With
The wireless unit can measure the reception intensity of a received signal, transmit the reception intensity to the outside, and transmit a relay signal including the same information as the radio signal to the outside.   The lighting apparatus according to claim 1, wherein the wireless unit includes setting means for setting the wireless unit to transmit the relay signal.   The lighting apparatus according to claim 2, wherein the setting unit includes a manual switch. The setting means includes a light receiving element that receives an optical signal,
The lighting device according to claim 2, wherein the light receiving element is set so that the wireless unit transmits the relay signal according to the optical signal. A plurality of lighting fixtures according to any one of claims 1 to 4,
Comprising the lighting control device,
The lighting control device transmits a setting signal to the plurality of lighting fixtures,
The wireless unit included in each of the plurality of lighting fixtures transmits the reception intensity of the setting signal to the lighting control device,
The lighting control device is set so that a lighting fixture having a reception intensity equal to or higher than a threshold value among the plurality of lighting fixtures transmits the relay signal to another lighting fixture. A system setting device;
The lighting control device transmits the reception intensity of each of the plurality of lighting fixtures to the system setting device,
The illumination system according to claim 5, wherein the reception intensity is displayed on the system setting device.   The lighting system according to claim 6, wherein an arrangement of the plurality of lighting fixtures is displayed on the system setting device.   The operation of the system setting device is set such that a lighting fixture having a reception intensity equal to or higher than a threshold among the plurality of lighting fixtures is set to transmit the relay signal to another lighting fixture. The lighting system described.

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