JP2018147880A - Signal conversion unit, lighting controller, and lighting system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a signal conversion unit allowing for reducing costs.SOLUTION: A signal conversion unit 4 can be connected with a lighting control unit 5 capable of controlling a plurality of lighting fixtures 6. The signal conversion unit 4 includes a communication unit 41 and a conversion unit 42. The communication unit 41 receives a first control signal indicating control information on the lighting fixtures 6. The conversion unit 42 converts the first control signal into a second control signal which the lighting control unit 5 can recognize. The signal conversion unit 4 further includes a notification unit 43. The notification unit 43 gives notice of an electric conduction state and/or a communication state of the signal conversion unit 4.SELECTED DRAWING: Figure 2

Description

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

  The lighting fixture described in Patent Literature 1 includes a communication unit, a signal conversion unit (signal conversion unit), a lighting circuit unit, and a light source. The communication unit receives a control signal including information for controlling illumination light from an external device. The signal conversion unit converts the control signal received by the communication unit into a lighting control signal. The lighting circuit unit lights the light source based on the lighting control signal.

JP2015-109196A

  However, in Patent Document 1, a plurality of lighting fixtures are connected to one external device that transmits a control signal. And each of a some lighting fixture has a signal conversion part. Therefore, in patent document 1, it is necessary to attach a signal conversion part for every lighting fixture, and cost increases.

  This invention is made | formed in view of the said problem, The objective is to provide the signal conversion unit which can reduce cost, an illumination control apparatus, and an illumination system.

  The signal conversion unit disclosed in the present application can be connected to a lighting control unit capable of controlling a plurality of lighting fixtures. The signal conversion unit includes a communication unit and a conversion unit. The communication unit receives a first control signal indicating control information of the lighting fixture. The conversion unit converts the first control signal into a second control signal that can be recognized by the illumination control unit.

  It is preferable that the signal conversion unit disclosed in the present application further includes a notification unit that notifies the energized state and / or the communication state of the signal conversion unit.

  In the signal conversion unit disclosed in the present application, it is preferable that the communication unit receives the first control signal via wireless communication.

  It is preferable that the signal conversion unit disclosed in the present application further includes a sensor that detects a change in an ambient environment of the signal conversion unit or infrared rays. The conversion unit preferably generates a third control signal indicating control information of the lighting fixture based on a detection signal of the sensor.

  The illumination control device disclosed in the present application includes a signal conversion unit and an illumination control unit. The signal conversion unit includes a communication unit and a conversion unit. The communication unit receives a first control signal indicating control information of the lighting fixture. The conversion unit converts the first control signal into a second control signal that can be recognized by the illumination control unit. The communication unit transmits the second control signal to the illumination control unit. The illumination control unit includes a communication unit and a control unit. The communication unit receives the second control signal. The control unit controls the lighting fixture according to the second control signal.

  It is preferable that the illumination control device disclosed in the present application further includes a housing that accommodates the illumination control unit and the signal conversion unit.

  The lighting system disclosed in the present application includes a signal conversion unit, a lighting control unit, and a lighting fixture. The signal conversion unit includes a communication unit and a conversion unit. The communication unit receives a first control signal indicating control information of the lighting fixture. The conversion unit converts the first control signal into a second control signal that can be recognized by the illumination control unit. The communication unit transmits the second control signal to the illumination control unit. The illumination control unit includes a communication unit and a control unit. The communication unit receives the second control signal. The control unit controls the lighting fixture according to the second control signal. The lighting apparatus is lit according to the control unit.

  According to the present invention, the cost can be reduced.

It is a figure which shows the electric power system which concerns on embodiment of this invention. It is a figure which shows the illumination system which concerns on embodiment of this invention. It is a figure which shows the communication terminal of the illumination system which concerns on the 1st modification of embodiment of this invention. It is a figure which shows the communication terminal of the illumination system which concerns on the 2nd modification of embodiment of this invention. It is a figure which shows the communication terminal of the illumination system which concerns on the 3rd modification of embodiment of this invention. It is a figure which shows the communication terminal of the illumination system which concerns on the 4th modification of embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, the present invention is not limited to the following embodiments. In the drawings, the same or corresponding parts are denoted by the same reference numerals, and description thereof will not be repeated. In order to facilitate understanding, the drawings schematically show each component as a main component.

  With reference to FIG.1 and FIG.2, the electric power system 100 which concerns on embodiment of this invention is demonstrated. FIG. 1 is a diagram illustrating a power system 100. FIG. 2 is a diagram illustrating the lighting system 200. As shown in FIG. 1, the power system 100 is a system related to power in a predetermined facility. The facility is, for example, a building such as a house, a building, a factory, or a station. In the present embodiment, the power system 100 is a system related to power in a house. In the present embodiment, the power system 100 includes a lighting system 200, a distribution board 7, a plurality of home appliances 8, and a communication terminal 9.

  The lighting system 200 includes a system control device 1, a router 2, a lighting control device 3, and a plurality of lighting fixtures 6. The router 2 is included in a home network, for example. The home network indicates, for example, a LAN (Local Area Network) environment of a communication system built in a home. In the present embodiment, the router 2 is connected to each of the illumination control device 3, the distribution board 7, and the communication terminal 9 via wireless communication. The router 2 may be connected to each of the illumination control device 3, the distribution board 7, and the communication terminal 9 via wired communication.

  The system control device 1 is a terminal that can be connected to a predetermined network, for example. In the present embodiment, the system control apparatus 1 is connected to a home network including a router 2. The system control device 1 generates a first control signal indicating control information of the lighting fixture 6 and / or a home appliance control signal indicating control information of the home appliance 8. Specifically, the system control device 1 executes communication conforming to the first communication protocol. Therefore, the system control device 1 generates a first control signal and / or a home appliance control signal having a signal format compliant with the first communication protocol.

  The system control device 1 functions as, for example, a HEMS (Home Energy Management System) controller. In the present embodiment, the system control device 1 is connected to the lighting control device 3, the distribution board 7, and / or the communication terminal 9 via the router 2.

  The lighting control device 3 can control one or a plurality of lighting fixtures 6. Accordingly, the lighting control device 3 controls one or a plurality of lighting fixtures 6. The illumination control device 3 includes a signal conversion unit 4 and an illumination control unit 5. The signal conversion unit 4 can be connected to the illumination control unit 5. Therefore, the signal conversion unit 4 is connected to the illumination control unit 5. In the present embodiment, the signal conversion unit 4 and the illumination control unit 5 are connected by wire.

  As shown in FIG. 2, the signal conversion unit 4 includes a communication unit 41 and a conversion unit 42. The communication unit 41 receives the first control signal from the system control device 1 via the router 2. That is, the communication unit 41 receives the first control signal via wireless communication. The converter 42 converts the first control signal into a second control signal that can be recognized by the illumination control unit 5. Specifically, the illumination control unit 5 performs communication based on a second communication protocol different from the first communication protocol. Therefore, the conversion unit 42 converts the first control signal into a second control signal having a signal format conforming to the second communication protocol. Then, the communication unit 41 transmits the second control signal to the illumination control unit 5.

  The lighting control unit 5 can control one or a plurality of lighting fixtures 6. Accordingly, the lighting control unit 5 controls one or a plurality of lighting fixtures 6. Specifically, the illumination control unit 5 controls, for example, color adjustment and / or light adjustment of one or a plurality of lighting fixtures 6. The illumination control unit 5 includes a communication unit 51 and a control unit 52. The communication unit 51 receives the second control signal from the signal conversion unit 4 via wired communication. The controller 52 controls the plurality of lighting fixtures 6 according to the second control signal.

  The luminaire 6 is, for example, a downlight or indirect illumination. The luminaire 6 is turned on according to the control unit 52.

  The distribution board 7 includes, for example, a branch circuit, a communication device, and a control unit. The branch circuit of the distribution board 7 supplies external power to each of the system control device 1, the router 2, the signal conversion unit 4, the lighting control unit 5, and the plurality of home appliances 8. External power is supplied to the lighting fixture 6 via the lighting control unit 5. The communication device of the distribution board 7 receives a home appliance control signal indicating control information of the home appliance 8 from the system control device 1 via the router 2. And the control part of the distribution board 7 controls the household appliance 8 according to the control signal for household appliances.

  The home appliance 8 is, for example, an air conditioner (air conditioner), a television, or a refrigerator. The home appliance 8 operates according to the control unit of the distribution board 7.

  The communication terminal 9 is a computer that can be operated by a user, for example. Specifically, the communication terminal 9 is, for example, a mobile computer such as a smartphone, a tablet computer, or a personal computer. The communication terminal 9 is connected to the router 2, for example. Accordingly, the communication terminal 9 can be connected to the system control device 1, the lighting control device 3 and / or the distribution board 7 via the router 2.

  For example, the communication terminal 9 may control the system control apparatus 1 to generate the first control signal and / or the home appliance control signal via the router 2. In this case, the system control device 1 generates a first control signal and / or a home appliance control signal in accordance with the communication terminal 9. Moreover, the communication terminal 9 may generate | occur | produce the control signal for household appliances which shows the 1st control signal which shows the control information of the lighting fixture 6, or the control information of the household appliance 8, for example. Then, the communication terminal 9 may transmit the first control signal to the communication unit 41 of the signal conversion unit 4 via the router 2 without going through the system control device 1. Further, the communication terminal 9 may transmit the home appliance control signal to the distribution board 7 via the router 2 without going through the system control device 1. Furthermore, the communication terminal 9 may generate a second control signal indicating the control information of the lighting fixture 6, for example. In this case, the communication terminal 9 transmits the second control signal to the communication unit 41 of the signal conversion unit 4 via the router 2. Then, the communication unit 41 of the signal conversion unit 4 transfers the second control signal to the illumination control unit 5.

  The communication terminal 10 outside the power system 100 is connected to the router 2 via the external network 11. The communication terminal 10 is a computer that can be operated by a user, for example. Specifically, the external communication terminal 10 is, for example, a mobile computer such as a smartphone, a tablet computer, or a personal computer. The external network 11 includes the Internet and a LAN, for example.

  For example, the communication terminal 10 controls the system control device 1 so as to generate the first control signal and / or the home appliance control signal via the external network 11 and the router 2. In addition, the communication terminal 10 may generate, for example, a first control signal and / or a home appliance control signal. Then, the communication terminal 10 may transmit the first control signal to the signal conversion unit 4 via the external network 11 and the router 2 without going through the system control device 1. Further, the communication terminal 10 may transmit the home appliance control signal to the distribution board 7 via the external network 11 and the router 2 without going through the system control device 1.

  As described above with reference to FIGS. 1 and 2, according to the present embodiment, the signal conversion unit 4 controls the plurality of lighting fixtures 6 with the first control signal indicating the control information of the lighting fixtures 6. It converts into the 2nd control signal which the lighting control unit 5 which can be recognized can recognize. Therefore, the plurality of lighting fixtures 6 can be controlled without providing a signal conversion unit for each of the plurality of lighting fixtures. As a result, the cost can be reduced.

  Further, according to the present embodiment, the communication terminal 9 generates a first control signal and transmits the first control signal to the signal conversion unit 4. Therefore, the user can directly control the luminaire 6 without using the system control device 1.

  Further, according to the present embodiment, the communication terminal 9 controls the system control device 1 so as to generate the first control signal. Therefore, the user can control the luminaire 6 by operating the communication terminal 9. For example, when the communication terminal 9 is a smartphone that is routinely used by the user, the system control device generates the first control signal by operating the communication terminal 9 in the same manner as the daily operation. 1 can be controlled. As a result, the convenience for the user is increased.

  Furthermore, according to the present embodiment, the communication terminal 9 can transmit the first control signal to the signal conversion unit 4 without going through the system control device 1. Therefore, the user can control the lighting device 6 by operating the communication terminal 9 without operating the system control device 1. As a result, as long as the radio waves of the router 2 reach the communication terminal 9, the user can control the lighting device 6 by operating the communication terminal 9 even outside the place where the system control device 1 is installed.

  Furthermore, according to the present embodiment, the communication unit 41 receives the first control signal via wireless communication. Therefore, the communication unit 41 can be connected to the system control device 1 without using a wiring. As a result, wiring construction for connecting the signal conversion unit 4 and the system control device 1 is not necessary, and the cost can be further reduced.

  Furthermore, according to this embodiment, the signal conversion unit 4 converts the first control signal into a second control signal that can be recognized by the illumination control unit 5. Therefore, even when the lighting fixture 6 cannot recognize the first control signal, the system control apparatus 1 can control the lighting fixture 6 via the signal conversion unit 4. As a result, even when the lighting fixture 6 already installed in the facility cannot recognize the first control signal, the system control device 1 lighting fixture can be controlled.

  Furthermore, according to the present embodiment, the system control device is configured so that the communication terminal 10 outside the power system 100 generates the first control signal and / or the home appliance control signal via the external network 11 and the router 2. 1 is controlled. Therefore, the signal conversion unit 4 can convert the first control signal into the second control signal in accordance with an instruction from a user who is away from the facility.

  Furthermore, according to the present embodiment, the communication terminal 10 outside the power system 100 can generate the first control signal and transmit the first control signal to the signal conversion unit 4. Therefore, the signal conversion unit 4 can convert the first control signal into the second control signal in accordance with an instruction from a user who is away from the facility.

  Next, the illumination system 200 will be described in detail with reference to FIG. The system control device 1 is a fixed terminal, for example. For example, the system control device 1 generates a first control signal according to a user instruction. Further, for example, the system control device 1 generates the first control signal in time with the time. Furthermore, for example, the system control device 1 includes a detection unit, and generates the first control signal in response to the detection unit detecting a person in the facility. The first control signal generated by the system control device 1 is a signal according to a communication protocol such as ECHONET Lite (registered trademark), for example. ECHONET Lite is a network standard that uses wired or wireless in a facility.

  The first control signal indicates control information of the lighting fixture 6. The control information of the luminaire 6 indicates, for example, lighting, extinction, light amount, and / or light color (for example, correlated color temperature) of the luminaire 6. Further, the system control apparatus 1 may instruct “scene” as the control information of the lighting fixture 6. The system control apparatus 1 stores a plurality of “scenes”. Each “scene” stores lighting states of a plurality of lighting fixtures 6. The system control apparatus 1 selects a “scene” that matches the time from a plurality of “scenes”. Then, the system control device 1 generates a first control signal indicating the light amount and / or the light color so that the lighting devices 6 reproduce the lighting state of the selected “scene”.

  The illumination control device 3 further includes a housing 3a. The housing 3 a accommodates the signal conversion unit 4 and the illumination control unit 5. In addition, you may accommodate the signal conversion unit 4 and the illumination control unit 5 in a respectively different housing | casing. In this case, the housing that accommodates the signal conversion unit 4 is embedded in, for example, a wall in the facility. Therefore, the protrusion amount from the wall of the signal conversion unit 4 can be suppressed. Moreover, the housing | casing which accommodates the illumination control unit 5 may be embed | buried under the wall in a plant | facility, for example, and may be portable.

  The signal conversion unit 4 further includes a notification unit 43, a sensor 44, and an input unit 45.

  The communication unit 41 is, for example, a communication interface. The conversion unit 42 is, for example, a microcomputer and includes a memory. The conversion unit 42 performs various processes such as numerical calculation, information processing, and device control by executing a program stored in the memory. The memory includes, for example, a ROM (Read Only Memory), a RAM (Random Access Memory), and / or an EEPROM (Electrically Erasable Programmable Read-Only Memory). The conversion unit 42 converts, for example, a first control signal in accordance with a communication protocol such as ECHONET Lite into a second control signal in accordance with a protocol that can be recognized by the illumination control unit 5. Accordingly, like the first control signal, the second control signal indicates control information of the lighting fixture 6. That is, the control information of the lighting fixture 6 indicated by the second control signal indicates, for example, lighting, extinguishing, light quantity, and / or light color (for example, correlated color temperature) of the lighting fixture 6.

  The notification unit 43 notifies the energization state and / or communication state of the signal conversion unit 4. The notification unit 43 is an illumination element such as an LED. For example, when the signal conversion unit 4 is energized, the notification unit 43 is lit. Further, for example, when the signal conversion unit 4 is communicable with the router 2 or the illumination control unit 5, the notification unit 43 is lit. Here, the alerting | reporting part 43 may alert | report the energization state and / or communication state of the signal conversion unit 4 by blinking. In addition, the notification unit 43 lights the signal conversion unit 4 in an energized state and / or a communication state by lighting in different colors according to the energized state and the non-energized state of the signal conversion unit 4 and the communication state of the signal conversion unit 4. You may notify.

  The sensor 44 detects a change in the surrounding environment of the signal conversion unit 4 or infrared rays. The sensor 44 is, for example, a human sensor, an illuminance sensor, or a biometric authentication sensor. The human sensor detects infrared rays emitted by a person or an animal. The illuminance sensor detects the brightness of the surrounding environment. The biometric sensor detects physical features such as fingerprints or irises. For example, the sensor 44 detects a user who has entered a room where the lighting control device 3 is installed.

  The conversion unit 42 generates a third control signal indicating the control information of the lighting fixture 6 based on the detection signal of the sensor 44. Specifically, the third control signal has a signal format conforming to the second communication protocol. Then, the communication unit 41 transmits a third control signal to the illumination control unit 5. The communication unit 51 of the illumination control unit 5 receives the third control signal. The control unit 52 controls the plurality of lighting fixtures 6 according to the third control signal received by the communication unit 51.

  The input unit 45 is a user interface, for example, a push button. At the time of construction of the signal conversion unit 4, the user instructs the connection between the router 2 and / or the lighting control unit 5 and the signal conversion unit 4 via the input unit 45 by pressing the input unit 45. A connection instruction by the user is input to the communication unit 41 via the input unit 45. The communication unit 41 connects to the router 2 and / or the lighting control unit 5 in accordance with a connection instruction from the user.

  The illumination control unit 5 is, for example, a four-wire controller (a type in which two signal lines and two power lines are connected). The lighting control unit 5 is connected to a plurality of lighting fixtures 6 through a power line. The communication unit 51 of the illumination control unit 5 is a communication interface, for example.

  The control unit 52 of the illumination control unit 5 is, for example, a microcomputer and includes a memory. The control unit 52 performs various processes such as numerical calculation, information processing, and device control by executing a program stored in the memory. The memory is constituted by, for example, a ROM, a RAM, and / or an EEPROM. The control unit 52 controls the external power (specifically, the waveform of the external power supply voltage) supplied from the distribution board 7 (see FIG. 1) in accordance with the second control signal and / or the third control signal, and the lighting fixture. 6 is supplied.

  The illumination control unit 5 further includes an operation unit 53. The operation unit 53 is a user interface, for example, a push button. Note that the operation unit 53 may be formed of a touch panel. The user can instruct to change at least one of the light amount and the light color of the light generated from the lighting fixture 6 by operating the operation unit 53. Further, the user can instruct one “scene” from a plurality of “scenes” by operating the operation unit 53. An instruction from the user is input to the control unit 52 via the operation unit 53. The control unit 52 controls the plurality of lighting fixtures 6 according to instructions from the user. Moreover, the control part 52 can control each of the some lighting fixture 6 separately.

  The lighting fixture 6 may include LEDs of a plurality of colors that emit light having different light colors as lighting elements. For example, 5000 Kelvin (cold color) LEDs and 2700 Kelvin (warm color) LEDs can be used as illumination elements. Therefore, dimming / toning control can be realized by using LEDs having different light colors.

  As described above with reference to FIG. 2, according to the present embodiment, the notification unit 43 is a lighting element, and notifies the energization state and / or communication state of the signal conversion unit 4 by lighting. . Therefore, the user can visually determine the energized state and / or the communication state of the signal conversion unit 4.

  According to the present embodiment, when the signal conversion unit 4 is installed, the user instructs the connection between the router 2 and / or the illumination control unit 5 and the signal conversion unit 4 by pressing the input unit 45. And the communication part 41 connects with the router 2 and / or the illumination control unit 5 according to a connection instruction. Therefore, at the time of construction of the signal conversion unit 4, the user can connect the router 2 and / or the lighting control unit 5 and the signal conversion unit 4 simply by pressing the input unit 45. That is, the user can connect the router 2 and / or the lighting control unit 5 and the signal conversion unit 4 with an easy operation.

  Further, according to the present embodiment, the housing 3 a of the lighting control device 3 accommodates the signal conversion unit 4 and the lighting control unit 5. Therefore, the signal conversion unit 4 and the illumination control unit 5 can be accommodated without separately providing a housing for housing the signal conversion unit 4 and a housing for housing the illumination control unit 5. As a result, since the number of parts can be reduced, the cost can be reduced and the number of assembling steps of the lighting control device 3 can be reduced.

(First modification)
With reference to FIG.1 and FIG.3, the electric power system 100 which concerns on the 1st modification of embodiment of this invention is demonstrated. The communication terminal 9 of the power system 100 according to the first modified example displays the dimming unit 92 and the toned unit 95, and the first modified example is mainly the same as the present embodiment described with reference to FIGS. 1 and 2. Different. In the following, the difference between the first modification and the present embodiment will be mainly described.

  FIG. 3 is a diagram showing the communication terminal 9 of the power system 100 according to the first modification. As shown in FIGS. 1 and 3, the communication terminal 9 includes a display unit 91. The display unit 91 displays various types of information and detects the touch position of the user with respect to the display unit 91. Therefore, the user operates the communication terminal 9 by touching the display unit 91. For example, the display unit 91 is a touch panel.

  The display unit 91 displays the light control unit 92. The light control unit 92 includes a light control bar 93 and a light control operator 94.

  The dimming bar 93 represents the amount of light emitted from the luminaire 6. The dimming bar 93 has a strip shape extending in a straight line. The length of the light control bar 93 is constant. Specifically, the light control bar 93 includes a first bar 93a and a second bar 93b. The light control operator 94 defines the boundary between the first bar 93a and the second bar 93b. Therefore, each of the first bar 93a and the second bar 93b expands and contracts according to the position of the light control operator 94. Of the first bar 93a and the second bar 93b, the first bar 93a represents the amount of light emitted from the lighting fixture 6.

  Specifically, the longer the length of the first bar 93a, the greater the amount of light of the lighting fixture 6. That is, the longer the length of the first bar 93a is, the brighter the light of the lighting fixture 6 is. Therefore, the user can easily grasp the degree of brightness (brightness / darkness) of the luminaire 6 based on the length of the first bar 93a.

  Each color of the first bar 93a and the second bar 93b is a single color. The lightness of the color of the first bar 93a is higher than the lightness of the color of the background 97 of the light control unit 92 and the color control unit 95. Therefore, according to the first modification, the user can more easily recognize the first bar 93a than the case where the lightness of the color of the first bar is lower than the lightness of the color of the background. As a result, the user can more easily grasp the brightness level (brightness / darkness) of the luminaire 6 based on the length of the first bar 93a. In particular, it becomes easy for an end user who does not have expertise in dimming to grasp the brightness level (brightness / darkness) of the luminaire 6.

  The lightness of the color of the first bar 93a is higher than the lightness of the color of the second bar 93b. Therefore, it becomes easier for the user to recognize the first bar 93a, and the user can more easily grasp the degree of brightness (brightness / darkness) of the luminaire 6 based on the length of the first bar 93a.

  Furthermore, the lightness of the color of the second bar 93b is preferably higher than the lightness of the color of the background 97. The user sets the current dimming level (the length of the first bar 93a) with respect to the maximum dimming level represented by the total length of the dimming bar 93 (the length of the first bar 93a + the length of the second bar 93b). This is because it can be easily grasped. Each color of the first bar 93a and the second bar 93b may be multicolored.

  The light control operator 94 adjusts the amount of light emitted from the lighting fixture 6. The dimming operation element 94 moves on the dimming bar 93 by a user's touch operation. The length of the first bar 93a changes depending on the position of the light control operator 94. In the first modification, the light amount (luminance) of the lighting fixture 6 is adjusted in proportion to the length of the first bar 93a. Therefore, the user can easily adjust the light amount of the lighting fixture 6 to a desired light amount by operating the light control operator 94 while looking at the first bar 93a. In particular, the light quantity can be easily adjusted for an end user who does not have expertise in dimming.

  Specifically, the communication terminal 9 generates a first control signal indicating the amount of light according to the position of the light control operator 94. Then, the communication terminal 9 transmits the first control signal to the signal conversion unit 4 via the router 2. Accordingly, the first control signal is converted into the second control signal. As a result, the illumination control unit 5 controls the luminaire 6 so that the light amount of the luminaire 6 becomes a light amount corresponding to the position of the light control operator 94.

  The display unit 91 displays the toning unit 95. The toning unit 95 includes a toning bar 95a and a toning operation element 95b.

  The toning bar 95a represents the light color of the light emitted from the lighting fixture 6. The toning bar 95a has a strip shape extending in a straight line. The toning bar 95a represents a change in light color by a color gradation. In the first modification, the color of the toning bar 95a continuously changes from a cold color to a warm color, for example, from the left end toward the right end. In FIG. 3, the color change of the toning bar 95a is represented by the density of dot hatching. Cold color is a color that gives humans a cold feeling and has a bluish hue. Warm color is a color that gives a warm feeling to humans and shows a hue with a lot of redness. Accordingly, the cool color indicates a relatively high color temperature, and the warm color indicates a relatively low color temperature. The stronger the blueness of the toning bar 95a, the higher the color temperature, and the stronger the redness of the toning bar 95a, the lower the color temperature.

  The brightness of the color of the toning bar 95a (for example, the average value of the brightness of the color of the toning bar 95a) is higher than the brightness of the color of the background 97. Therefore, according to the second modified example, it becomes easier for the user to recognize the toning bar 95a than when the brightness of the color of the toning bar is lower than the brightness of the color of the background.

  The toning operator 95 b adjusts the light color of the light emitted from the lighting fixture 6. The toning operator 95b moves on the toning bar 95a by a user's touch operation. The light color of the luminaire 6 is adjusted according to the position of the toning operator 95b. In the first modification, the light color of the light of the lighting fixture 6 is adjusted so that the color of the region where the toning operator 95b of the toning bar 95a is located and the light color of the light of the lighting fixture 6 are linked. Is done. Therefore, compared with the case where the color of the toning bar is a single color, the user can easily adjust the light color of the light of the lighting fixture 6 by an intuitive operation. In particular, the light color can be easily adjusted for an end user who does not have expertise in color matching.

  Specifically, the communication terminal 9 generates a first control signal indicating a light color corresponding to the color of the region where the toning operator 95b is located in the toning bar 95a. Then, the communication terminal 9 transmits the first control signal to the signal conversion unit 4 via the router 2. Accordingly, the first control signal is converted into the second control signal. As a result, the lighting control unit 5 controls the lighting fixture 6 so that the light color of the lighting fixture 6 becomes a light color corresponding to the position of the toning operator 95b.

  As described above with reference to FIG. 3, according to the first modification, the color arrangement of the light adjustment bar 93 (particularly the first bar 93a) and the color arrangement of the toning bar 95a are different. Therefore, as compared with the case where the color arrangement of the light adjustment bar and the color arrangement of the color adjustment bar are the same or approximate, the user uses the light adjustment bar 93 (particularly the first bar 93a) and the color adjustment bar 95a depending on the appearance. Easy to identify. As a result, the user can clearly distinguish and recognize the amount of light and the light color of the lighting fixture 6. Further, the light amount and the light color of the lighting fixture 6 can be clearly distinguished and adjusted by touch operations of the light control operator 94 and the color control operator 95b. In particular, the light quantity and the light color can be easily adjusted for an end user who does not have expertise in light control and color control.

  Note that the color of the toning bar 95a is not limited to continuously changing from a cold color to a warm color as long as the difference in light color can be recognized. For example, the color of the toning bar 95a may change stepwise from a cold color to a warm color. For example, the color of the toning bar 95a may change continuously or stepwise from white to a warm color.

  The display unit 91 may display a balloon image (hereinafter referred to as “balloon image IM <b> 1”) on the light control operator 94 when the user touches the light control operator 94. The balloon image IM1 includes light amount information indicating a light amount level according to the position of the light control operator 94. The light amount information may be, for example, a number indicating any one of a plurality of steps (for example, 20 steps) of the light amount, or may be a number indicating the light amount as a percentage. Further, the display unit 91 changes the light amount information included in the balloon image IM1 in accordance with the movement of the light control operator 94. The user can easily grasp the amount of light of the lighting fixture 6 from the balloon image IM1.

  Further, the display unit 91 may display a balloon image (hereinafter referred to as “balloon image IM2”) on the toning operator 95b when the user touches the toning operator 95b. The balloon image IM2 includes light color information indicating a light color corresponding to the position of the toning operator 95b. The light color information may be, for example, a number indicating any one of a plurality of light color steps (for example, 20 steps), or a number indicating a color temperature corresponding to the light color. The color may indicate a color temperature corresponding to the light color. Further, the display unit 91 changes the light color information included in the balloon image in accordance with the movement of the toning operator 95b. The user can easily grasp the light color of the lighting fixture 6 from the balloon image IM2.

  Note that when the balloon image IM1 and the balloon image IM2 are not displayed, the update work of the software installed in the communication terminal 9 can be reduced. For example, when the luminaire 6 is changed, the light amount information included in the balloon image IM1 and / or the light color information included in the balloon image IM2 may be updated depending on the luminaire 6 after the change. However, when the balloon image IM1 and the balloon image IM2 are not displayed, the software terminal for updating the balloon image IM1 and the balloon image IM2 does not need to be updated, so that the communication terminal 9 can be easily maintained.

(Second modification)
With reference to FIG. 4, the electric power system 100 which concerns on the 2nd modification of embodiment of this invention is demonstrated. The second modification is mainly different from the first modification in that the communication terminal 9 of the power system 100 according to the second modification displays the circular dimming icon 103 and the toning icon 112. Hereinafter, the difference between the second modification and the first modification will be mainly described.

  FIG. 4 is a diagram showing the communication terminal 9 of the power system 100 according to the second modification. As shown in FIG. 4, the display unit 91 displays the light control unit 102. The dimming unit 102 includes a dimming icon 103 and a dimming operation element 104.

  The dimming icon 103 represents the amount of light emitted from the luminaire 6. The dimming icon 103 has a circular shape. Specifically, the dimming icon 103 includes a dimming area 103a and a non-dimming area 103b. The light control operator 104 is linear and defines the boundary between the light control region 103a and the non-light control region 103b. Accordingly, the area of each of the light control region 103a and the non-light control region 103b changes according to the rotational position of the light control operator 104. And the area of the light control area | region 103a among the light control area | region 103a and the non-light control area | region 103b represents the light quantity of the light which the lighting fixture 6 radiate | emits.

  Specifically, it shows that the light quantity of the lighting fixture 6 is so large that the area of the light control area | region 103a is large. Therefore, the user can easily grasp the degree of brightness (brightness / darkness) of the luminaire 6 based on the size of the light control region 103a.

  Each color of the light control region 103a and the non-light control region 103b is a single color. The lightness of the color of the light control region 103a is higher than the lightness of the color of the background 97 of the light control unit 102 and the light control unit 110. Therefore, according to the second modification, the user can more easily recognize the dimming area 103a as compared with the case where the lightness of the color of the dimming area is lower than the lightness of the color of the background. As a result, the user can more easily grasp the brightness level (brightness / darkness) of the luminaire 6 based on the size of the light control region 103a.

  Further, the brightness of the color of the light control area 103a is higher than the brightness of the color of the non-light control area 103b. Therefore, it becomes easier for the user to recognize the light control area 103a.

  Furthermore, it is preferable that the brightness of the color of the non-dimming region 103b is higher than the brightness of the color of the background 97. This is because the user can easily grasp the current dimming level (area of the dimming area 103a) with respect to the maximum dimming level represented by the entire area of the dimming icon 103 (the dimming area 103a + the non-dimming area 103b). is there. Each color of the light control area 103a and the non-light control area 103b may be multicolored.

  The light control operator 104 adjusts the amount of light emitted from the luminaire 6. The dimming operation element 104 rotates around the center of the dimming icon 103 with the reference line 105 as a starting point by a user touch operation. The area of the light control region 103a changes according to the rotational position of the light control operator 104. In the second modification, the amount of light (luminance) of the lighting fixture 6 is adjusted in proportion to the area of the light control region 103a. Therefore, the user can easily adjust the light quantity of the lighting fixture 6 to a desired light quantity by operating the dimming operator 104 while viewing the dimming area 103a.

  Specifically, the communication terminal 9 generates a first control signal indicating the amount of light according to the rotational position of the dimming operation element 104, and performs illumination via the illumination control unit 5 as in the first modification. The amount of light of the instrument 6 is controlled.

  The display unit 91 displays the toning unit 110. The toning unit 110 includes a toning icon 112 and a toning operator 114.

  The toning icon 112 represents the light color of the light emitted from the lighting fixture 6. The toning icon 112 has a circular shape. Specifically, the toning icon 112 includes a toning area 112a and a non-toning area 112b. The toning operator 114 is linear and defines the boundary between the toning area 112a and the non-toning area 112b. Accordingly, the areas of the toning region 112a and the non-toning region 112b change according to the rotation position of the toning operator 114. And among the toning area 112a and the non-toning area 112b, the toning area 112a represents the light color of the light emitted from the lighting fixture 6.

  The toning region 112a represents a change in light color by a color gradation. In the second modified example, the color of the toning area 112a continuously changes from a cold color to a warm color from the reference line 115 toward the toning operator 114, for example. In FIG. 4, the change in the color of the toning region 112a is represented by the density of dot hatching. Of the colors in the toning area 112a, the color in the vicinity of the toning operator 114 represents the current light color. The color of the non-tonal region 112b is a single color. Note that the color of the non-toned region 112b may be multicolored.

  The lightness of the color of the toning region 112a (for example, the average value of the lightness of the color of the toning region 112a) is higher than the lightness of the color of the background 97. Therefore, according to the second modified example, it is easier for the user to recognize the toning area 112a than when the color brightness of the toning area is lower than the brightness of the background color.

  The lightness of the color of the toning area 112a (for example, the average value of the lightness of the color of the toning area 112a) is higher than the lightness of the color of the non-toning area 112b. Therefore, it becomes easier for the user to recognize the toning area 112a.

  Furthermore, it is preferable that the brightness of the color of the non-tonal region 112b is higher than the brightness of the color of the background 97. Since the entire toning icon 112 is more conspicuous than the background 97, the user can more easily identify the toning unit 110.

  The toning operator 114 adjusts the light color of the light emitted from the lighting fixture 6. The toning operator 114 rotates around the center of the toning icon 112 with the reference line 115 as a starting point by a user's touch operation. The light color of the luminaire 6 is adjusted according to the rotational position of the toning operator 114. In the second modification, the light color of the lighting fixture 6 is adjusted so that the color of the toning region 112a in the vicinity of the toning operator 114 and the light color of the lighting fixture 6 are linked. Is done. Therefore, compared with the case where the color of the toning region is a single color, the user can easily adjust the light color of the light of the lighting fixture 6 by an intuitive operation.

  Specifically, the communication terminal 9 generates a first control signal indicating a light color corresponding to a color in the vicinity of the toning operator 114 among the colors of the toning region 112a, and similarly to the first modified example. The light color of the lighting fixture 6 is controlled via the lighting control unit 5.

  As described above with reference to FIG. 4, according to the second modification, the color arrangement of the dimming icon 103 (particularly the dimming area 103 a) and the color arrangement of the toning icon 112 (particularly the toning area 112 a) Different. Therefore, compared with the case where the color arrangement of the dimming icon and the color arrangement of the toning icon are the same or similar, the user can adjust the dimming icon 103 (especially the dimming area 103a) and the toning icon 112 (particularly the toning The region 112a) can be easily identified by appearance. As a result, the user can clearly distinguish and recognize the amount of light and the light color of the lighting fixture 6. Further, the light amount and the light color of the luminaire 6 can be clearly distinguished and adjusted by touch operations of the light adjustment operator 104 and the color adjustment operator 114.

  Note that the color of the toning region 112a is not limited to continuously changing from a cold color to a warm color as long as the difference in light color can be recognized. This is the same as the color of the toning bar 95a of the first modification.

  Similarly to the first modification, the display unit 91 may display the balloon image IM1 on the dimming operator 104 or display the balloon image IM2 on the toning operator 114. Good. Note that the effect of not displaying the balloon image IM1 and the balloon image IM2 is the same as that of the first modification.

(Third Modification)
With reference to FIG. 5, the electric power system 100 which concerns on the 3rd modification of embodiment of this invention is demonstrated. The third modification mainly differs from the second modification in that the communication terminal 9 of the power system 100 according to the third modification displays the circular band-shaped dimming icon 103 and the toning icon 112. Hereinafter, the difference between the third modification and the second modification will be mainly described.

  FIG. 5 is a diagram showing the communication terminal 9 of the power system 100 according to the third modification. As shown in FIG. 5, the dimming unit 102 includes a dimming icon 103, a dimming operation element 104, and a center icon 106. The dimming icon 103 has a circular band shape. The center icon 106 has a circular shape. The center icon 106 is surrounded by the dimming icon 103 and is arranged at the center of the dimming unit 102. The central icon 106 may include light amount information indicating a light amount level corresponding to the rotational position of the light control operator 104, as in the balloon image IM1 of the first and second modified examples. The light amount information is the same as the light amount information included in the balloon image IM1.

  The toning unit 110 includes a toning icon 112, a toning operator 114, and a center icon 116. The toning icon 112 has a circular band shape. The center icon 116 has a circular shape. The center icon 116 is surrounded by the toning icon 112 and is arranged at the center of the toning unit 110. The central icon 116 may include light color information indicating the light color level corresponding to the rotational position of the toning operator 114, as in the balloon image IM2 of the first and second modified examples. The light color information is the same as the light color information included in the balloon image IM2.

(Fourth modification)
With reference to FIG. 6, the electric power system 100 which concerns on the 4th modification of embodiment of this invention is demonstrated. The fourth modification example is that the communication terminal 9 of the power system 100 according to the fourth modification example displays a light control unit 202 including a plurality of light control segments 204 and a toning unit 210 including a plurality of toning segments 212. Mainly different from the first modification. Hereinafter, the difference between the fourth modification and the first modification will be mainly described.

  FIG. 6 is a diagram illustrating the communication terminal 9 of the power system 100 according to the fourth modification. As shown in FIG. 6, the display unit 91 displays the light control unit 202. The dimming unit 202 includes a first predetermined number NM1 of dimming segments 204. The first predetermined number NM1 is an integer of 2 or more. The first predetermined number NM1 of light control segments 204 are aligned on a straight line at equal intervals. Each of the light control segments 204 has a rectangular shape, for example.

  Each dimming segment 204 belongs to one of the dimming area 206 and the non-dimming area 208. The dimming area 206 represents the amount of light emitted from the luminaire 6. The display unit 91 displays the dimming segment 204 belonging to the dimming area 206 in the first color. The first color is a single color. The display unit 91 displays the dimming segment 204 belonging to the non-dimming area 208 in the second color. The second color is a single color. The first color in the dimming area 206 is different from the second color in the non-dimming area 208. The longer the dimming area 206 is, that is, the greater the number of dimming segments 204 included in the dimming area 206 is, the larger the light amount of the lighting fixture 6 is. Therefore, the user can easily grasp the brightness level (brightness / darkness) of the luminaire 6 based on the length of the light control region 206. Each of the first color and the second color may be multicolored.

  The display unit 91 enlarges or reduces the length of the light control region 206 according to the touch position of the finger FG that has touched the light control unit 202. Specifically, in the dimming unit 202, when the touch position of the finger FG moves in the direction D1, the length of the dimming region 206 is expanded, and the dimming segment 204 having the first color is increased. On the other hand, when the touch position of the finger FG moves in the direction D2 in the light control unit 202, the length of the light control region 206 is reduced, and the light control segment 204 having the first color is decreased. The touch position of the finger FG defines the boundary between the light control area 206 and the non-light control area 208.

  The lightness of the first color in the light control region 206 is higher than the lightness of the color of the background 97 of the light control unit 202 and the color control unit 210. Therefore, according to the fourth modification, it is easier for the user to recognize the light control region 206 than when the lightness of the first color of the light control region is lower than the lightness of the background color. As a result, the user can more easily grasp the brightness level (brightness / darkness) of the luminaire 6 based on the length of the light control region 206.

  Further, the lightness of the first color in the light control area 206 is higher than the lightness of the second color in the non-light control area 208. Therefore, it becomes easier for the user to recognize the light control area 206.

  Furthermore, it is preferable that the brightness of the second color in the non-dimming area 208 is higher than the brightness of the color of the background 97. The user adjusts the current dimming level (the length of the dimming area 206) with respect to the maximum dimming level represented by the total length of the dimming unit 202 (the length of the dimming area 206 + the length of the non-dimming area 208). This is because it can be easily grasped.

  In the fourth modification, the amount of light (luminance) of the luminaire 6 is adjusted in proportion to the length of the dimming area 206, that is, in proportion to the number of dimming segments 204 of the first color. Therefore, the user can easily adjust the light amount of the lighting fixture 6 to a desired light amount by moving the touch position of the finger FG while looking at the light control region 206.

  Specifically, the communication terminal 9 generates a first control signal indicating the amount of light according to the touch position of the finger FG on the light control unit 202, and passes through the illumination control unit 5 as in the first modification. Then, the light quantity of the lighting fixture 6 is controlled.

  The display unit 91 displays the toning unit 210. The toning unit 210 includes a second predetermined number NM2 of toning segments 212. The second predetermined number NM2 is an integer of 2 or more. In the fourth modification, the second predetermined number NM2 is the same as the first predetermined number NM1. The second predetermined number NM2 of the toning segments 212 are arranged on a straight line at equal intervals. Each of the toning segments 212 has a rectangular shape, for example.

  Each toning segment 212 belongs to one of the toning area 214 and the non-toning area 216. The toning region 214 represents the light color of the light emitted from the lighting fixture 6. The display unit 91 displays a plurality of toning segments 212 belonging to the toning area 214 so as to form a color gradation. As a result, the toning region 214 represents a change in light color due to a color gradation. In the fourth modified example, the colors of the plurality of toning segments 212 belonging to the toning area 214 continuously change from, for example, a cold color to a warm color from the lower end to the upper end. In FIG. 6, the change in the color of the toning region 214 is represented by the density of dot hatching.

  Of the toning segments 212 belonging to the toning area 214, the color of the toning segment 212 located at the upper end represents the current light color. The color of the toning segment 212 belonging to the non-toning region 216 is a single color. Note that the color of the toning segment 212 belonging to the non-toning region 216 may be multicolored.

  The lightness of the color of the toning region 214 (for example, the average value of the lightness of the color of the toning segment 212 belonging to the toning region 214) is higher than the lightness of the color of the background 97. Therefore, according to the fourth modified example, it becomes easier for the user to recognize the toning area 214 than when the color brightness of the toning area is lower than the brightness of the background color.

  Further, the lightness of the color of the toning area 214 (for example, the average value of the lightness of the color of the toning segment 212 belonging to the toning area 214) is higher than the lightness of the color of the non-toning area 216. Therefore, it becomes easier for the user to recognize the toning area 214.

  Furthermore, it is preferable that the brightness of the color of the non-tonal region 216 is higher than the brightness of the color of the background 97. Since the entire toning unit 210 is more conspicuous than the background 97, the user can more easily identify the toning unit 210.

  The display unit 91 enlarges or reduces the length of the toning region 214 according to the touch position of the finger FG that has touched the toning unit 210. Specifically, in the toning unit 210, when the touch position of the finger FG moves in the direction D1, the length of the toning region 214 is expanded. On the other hand, in the toning unit 210, when the touch position of the finger FG moves in the direction D2, the length of the toning region 214 is reduced. The touch position of the finger FG defines the boundary between the toning area 214 and the non-toning area 216.

  In the fourth modified example, among the toning segments 212 belonging to the toning region 214, the color of the toning segment 212 located at the upper end and the light color of the lighting fixture 6 are coordinated. The light color of light is adjusted. Therefore, the user can easily adjust the light color of the light of the lighting fixture 6 to a desired light color by moving the touch position of the finger FG while looking at the toning region 214.

  Specifically, the communication terminal 9 generates a first control signal indicating a light color corresponding to the touch position of the finger FG on the toning unit 210, and the illumination control unit 5 is set in the same manner as in the first modification. The light color of the luminaire 6 is controlled via

  As described above with reference to FIG. 6, according to the fourth modified example, the color arrangement of the light control unit 202 (specifically, the light control region 206) and the color adjustment unit 210 (specifically, the toning region). The color scheme of 214) is different. Therefore, as compared with the case where the color arrangement of the light adjustment unit and the color arrangement of the color adjustment unit are the same or approximate, the user can adjust the light adjustment unit 202 (specifically, the light adjustment region 206) and the color adjustment unit 210 ( Specifically, the toning region 214) can be easily identified by the appearance. As a result, the user can clearly distinguish and recognize the amount of light and the light color of the lighting fixture 6. Moreover, the light quantity and light color of the lighting fixture 6 can be clearly distinguished and adjusted by the touch position of the finger FG.

  Note that the color of the toning region 214 is not limited to continuously changing from a cold color to a warm color as long as the difference in light color can be recognized. This is the same as the color of the toning bar 95a of the first modification.

  Similarly to the first modification, the display unit 91 may display the balloon image IM1 at the touch position of the finger FG on the dimming unit 202, or touch the finger FG on the toning unit 210. The balloon image IM2 may be displayed for the position. Note that the effect of not displaying the balloon image IM1 and the balloon image IM2 is the same as that of the first modification.

  Note that the communication terminal 10 shown in FIG. 1 may function in the same manner as the communication terminal 9 of any one of the first to fourth modifications. That is, the communication terminal 10 includes a display unit similar to the display unit 91, and the display unit displays the light control unit and the color control unit similar to the light control units 92, 102, 202 and the color control units 95, 110, 210. May be. Further, the operation unit 53 of the illumination control unit 5 shown in FIG. 2 can also display a light control unit and a color control unit similar to the light control units 92, 102, 202 and the color control units 95, 110, 210.

  The embodiments (including modifications) 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 (for example, (1) to (8) shown below). 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. In addition, the material, shape, dimensions, and the like of each component 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.

  (1) As described with reference to FIG. 2, in the present embodiment, the illumination control unit 5 is a four-wire type, but is not limited to the four-wire type, and the illumination control unit 5 includes a plurality of lighting fixtures. As long as 6 can be controlled, the illumination control unit 5 may be, for example, a two-wire system (a form in which only two signal lines are connected).

  (2) As described with reference to FIG. 1, in this embodiment, the distribution board 7 supplies external power to the signal conversion unit 4, the lighting control unit 5, and the plurality of home appliances 8. However, a solar power generation system may be connected to the distribution board 7, and the distribution board 7 converts the power generated by the solar power generation system into the signal conversion unit 4, the lighting control unit 5, and a plurality of home appliances. 8 may be supplied.

  (3) As described with reference to FIG. 2, in the present embodiment, the lighting fixture 6 has two-color LEDs that emit light of different light colors as the lighting element. As long as it lights, the lighting fixture 6 may have only one color LED. In this case, only dimming control is performed.

  (4) As described with reference to FIG. 2, in the present embodiment, the notification unit 43 is an LED, but as long as the notification unit 43 is lit, the notification unit 43 is, for example, an organic EL element or an incandescent bulb. There may be.

  (5) Each of the plurality of lighting fixtures 6 described with reference to FIGS. 1 and 2 may have a unique address (destination) set for each lighting fixture 6. In this case, the system control device 1 generates the first control signal including the address. Therefore, the control part 52 can control each lighting fixture 6 separately.

  (6) As described with reference to FIG. 2, in the present embodiment, the notification unit 43 is a lighting element such as an LED. However, as long as the notification unit 43 notifies the energized state and / or the communication state of the signal conversion unit 4, the notification unit 43 may be an audio output element such as a buzzer. When the energization state and / or communication state of the signal conversion unit 4 changes, the signal conversion unit 4 can notify the change of the energization state and / or communication state of the signal conversion unit 4 by outputting sound. Good.

  (7) As described with reference to FIG. 1, in this embodiment, the signal conversion unit 4 and the illumination control unit 5 are connected by wire. However, as long as the signal conversion unit 4 and the illumination control unit 5 can communicate with each other, the signal conversion unit 4 and the illumination control unit 5 may be wirelessly connected. In this case, the communication unit 41 of the signal conversion unit 4 may transmit the second control signal to the communication unit 51 of the lighting control unit 5 via the router 2 or may be Bluetooth (registered trademark) or the like. The second control signal may be transmitted to the communication unit 51 of the illumination control unit 5 via wireless communication.

  (8) As described with reference to FIG. 1, in the present embodiment, the lighting system 200 includes a plurality of lighting fixtures 6. However, the lighting system 200 may include a single lighting fixture 6. Accordingly, the lighting control device 3 controls one or a plurality of lighting fixtures 6.

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

DESCRIPTION OF SYMBOLS 3 Signal converter 3a Case 4 Signal conversion unit 41 Communication part 42 Conversion part 43 Notification part 44 Sensor 5 Illumination control unit 51 Communication part 52 Control part 6 Lighting fixture

Claims (7)

A signal conversion unit connectable to a lighting control unit capable of controlling a plurality of lighting fixtures,
A communication unit that receives a first control signal indicating control information of the lighting fixture;
A signal conversion unit comprising: a conversion unit that converts the first control signal into a second control signal that can be recognized by the illumination control unit.   The signal conversion unit according to claim 1, further comprising a notification unit that notifies an energized state and / or a communication state of the signal conversion unit.   The signal conversion unit according to claim 1, wherein the communication unit receives the first control signal via wireless communication. A sensor for detecting a change in ambient environment or infrared rays of the signal conversion unit;
The signal conversion unit according to any one of claims 1 to 3, wherein the conversion unit generates a third control signal indicating control information of the lighting fixture based on a detection signal of the sensor. A signal conversion unit;
A lighting control unit and
The signal conversion unit is:
A communication unit that receives a first control signal indicating control information of the lighting fixture;
A conversion unit that converts the first control signal into a second control signal that can be recognized by the lighting control unit;
The communication unit transmits the second control signal to the illumination control unit;
The lighting control unit is
A communication unit for receiving the second control signal;
A control unit that controls the lighting apparatus according to the second control signal.   The illumination control apparatus according to claim 5, further comprising a housing that accommodates the illumination control unit and the signal conversion unit. A signal conversion unit;
A lighting control unit;
With lighting fixtures,
The signal conversion unit is:
A communication unit that receives a first control signal indicating control information of the lighting fixture;
A conversion unit that converts the first control signal into a second control signal that can be recognized by the lighting control unit;
The communication unit transmits the second control signal to the illumination control unit;
The lighting control unit includes:
A communication unit for receiving the second control signal;
A control unit for controlling the lighting fixture according to the second control signal,
The lighting system is turned on according to the control unit.

Images