JP6886845B2 - Signal module and lighting equipment - Google Patents

Description

The present invention relates to a signal module and a lighting device including the signal module.

In recent years, wireless lighting device control has been advanced. Specifically, the lighting device wirelessly receives commands instructing operations such as turning on, turning off, and dimming. The lighting device includes a light source and a power supply device. The power supply outputs a direct current corresponding to the command to the light source. The light source performs operations such as turning on, turning off, and dimming according to the magnitude of direct current.

Patent Document 1 describes an example in which a signal module having a wireless communication function is arranged in a power supply device that operates based on a command in order to realize wireless control of a lighting device.

Japanese Unexamined Patent Publication No. 2013-236361

Although the above-mentioned lighting device realizes wireless control, its power supply device is dedicated to wireless control, and is not versatile because it cannot be used in an environment where wireless communication is not possible or in an environment where wireless communication is not possible. It becomes a thing.

In view of the above problems, the signal module and the lighting device according to the present invention aim to enhance the versatility of the power supply device.

In order to solve the above problems, the signal module according to the present invention is a signal module that outputs a connection shape that can be attached to a connection portion of an electric device and a secondary control signal that can control the electric device. Is provided with a connection portion to which a signal module that receives a primary control signal by the first communication method and outputs a secondary control signal corresponding to the primary control signal can be attached, and the signal module is a second communication. It includes a receiving unit that receives a device control signal according to a method, and an output unit that can be attached to a connection unit of the electrical device and outputs the secondary control signal.

With the above configuration, the signal module according to the present invention can receive commands not only by the first communication method but also by the second communication method, so that the versatility of the electric device can be enhanced.

The figure which shows the structure of the lighting system which concerns on one Embodiment of this invention. A perspective view showing a power supply device and a signal module included in the lighting device constituting the lighting system of FIG. 1. The figure for demonstrating the connection part provided in the power supply device of FIG. A block diagram showing the configuration of the signal module of FIG. A perspective view showing the appearance of the dimming signal terminal block constituting the lighting device of FIG. A perspective view showing the appearance of the power terminal block constituting the lighting device of FIG. 1. A perspective view showing the appearance of the signal module according to the modified example of the present invention.

Hereinafter, a lighting system including the lighting device 1 according to the embodiment of the present invention will be described with reference to the drawings.
<1. First Embodiment>
As shown in FIG. 1, the lighting system includes a lighting device 1 as an example of an electric device and a dimmer 3 as an example of an input device. The lighting device 1 and the dimmer 3 are electrically connected by a control signal line 35. The dimmer 3 has a rotary dimming knob 37 for the user to indicate the degree of dimming. The dimmer 3 outputs a device dimming control signal indicating a dimming degree (also referred to as a dimming rate) according to an angle at which the user turns the dimming knob 37. The lighting device 1 receives the device dimming control signal via the control signal line 35, and performs dimming according to the received device dimming control signal.

The lighting device 1 is installed on the ceiling 2 which is an example of the installation environment for installing the lighting device 1. The ceiling 2 includes a ceiling plate 31, a mounting bolt 32a, a mounting bolt 32b, a control signal line 35, and a power supply / ground line 36.

In FIG. 1, the expression is made as if the ceiling plate 31 was cut, because this is schematically shown for the sake of easy understanding. The ceiling plate 31 is a plate-shaped member, and it is sufficient that the ceiling plate 31 has an opening having a size and shape sufficient to accommodate the lighting device 1. On the ceiling 2, mounting bolts 32a and mounting bolts 32b are installed at positions corresponding to the positions where the lighting device 1 is mounted. Further, a control signal line 35 and a power supply / ground line 36 for supplying electric power from the electric power supply source to the lighting device 1 are arranged on the ceiling 2. The control signal line 35 is electrically connected to the dimming signal terminal block 24 included in the lighting device 1. The power supply / ground wire 36 is electrically connected to the power supply terminal block 25 included in the lighting device 1.

The lighting device 1 is fitted into the opening of the ceiling plate 31 from the surface 31a side of the ceiling plate 31. At the time of fitting, the mounting bolt 32a and the mounting bolt 32b are passed through the mounting bolt hole 28a and the mounting bolt hole 28b provided on the top plate of the lighting device 1. Then, the illuminating device 1 is fixed by sandwiching the washer 33a and the washer 33b in each of the mounting bolt 32a and the mounting bolt 32b and accumulating the nut 34a and the nut 34b.

Here, the lighting device 1 receives an operation instruction by a wired communication method which is an example of a second communication method different from the wireless communication method which is an example of the first communication method, and receives an operation instruction to the light source based on the operation instruction. It is equipped with a power supply device that instructs operations such as dimming. The lighting device 1 can use a power supply device designed on the premise that it is controlled by the first communication method as a power supply device that can be controlled by a wired signal. In the second communication method, for example, communication is performed by a PWM (Pulse Width Modulation) signal.

Hereinafter, the lighting device constituting the lighting system, particularly the signal module constituting the lighting device will be described in detail.

<Lighting device 1>
The lighting device 1 includes a light source unit 10 and a main body unit 20.
<Light source unit 10>
The light source unit 10 is fitted into the main body unit 20 to form the appearance of a substantially box-shaped lighting device 10.

As shown in FIG. 1, the light source unit 10 includes a frame unit 11, a light source module 12a, a light source module 12b, a module side connection line 13, and a module side connector 14.

The frame portion 11 is a substantially plate-shaped member that forms a part of the appearance of the lighting device 1. The frame portion 11 is provided with mounting holes for fitting the light source module 12a and the light source module 12b.

The light source module 12a and the light source module 12b include a substrate (not shown) in which a plurality of LED (Light Emitting Diode) elements are arranged as an example of a light source, and a heat sink (not shown) arranged on the back surface of the LED arrangement surface on the substrate. It is a module with (not shown). The light source module 12a and the light source module 12b are attached to the mounting holes of the frame portion 11 so that the light emitting surface 12aa and the light emitting surface 12ba due to the light emitted by each LED element face the outside of the lighting device 1.

The light source module 12a and the light source module 12b are driven by a light source drive output input from the power supply device 22 described later via the module side connection line 13. Each LED element in the light source module 12a and the light source module 12b emits light with a luminous flux having a magnitude substantially proportional to the magnitude of the light source drive output. The unit of the magnitude of the luminous flux is lumen. The light source drive output is, for example, a current having a current value of 0 to 150 milliamperes (hereinafter referred to as “mA”).

The module side connection line 13 is a connection line for transmitting the light source drive output. One end of the module-side connection line 13 is connected to the light source module 12a and the light source module 12b, and the module-side connector 14 is attached to the other end.

The module-side connector 14 is a connector connected to the main body-side connector 27, which will be described later. The module-side connector 14 is connected to the main body-side connector 27 to electrically connect the module-side connection line 13 and the main body-side connection line 26, which will be described later.
<Main body 20>
As shown in FIG. 1, the main body 20 is a member of the lighting device 1 that is fitted into an opening provided in the ceiling 2, and is a housing 21, a power supply 22, a wired signal module 23, and a dimming signal terminal block. 24, a power terminal block 25, a main body side connection line 26, and a main body side connector 27 are provided.

The housing portion 21 is a box-shaped member having an open surface on one side, and can accommodate parts and the like. The outer peripheral portion of the frame portion 11 of the light source portion 10 is fitted into the opening portion of the housing portion 21. Further, the bottom plate of the main body 20 corresponds to the top plate of the above-mentioned lighting device 1, and the bottom plate is formed with mounting bolt holes 28a, mounting bolt holes 28b, and signal line holes 28c.
<Power supply unit 22>
The power supply device 22 is a power supply device including a constant current circuit for outputting a light source drive output, which is electric power for causing the light source to emit light with a desired brightness, to the light source module 12a and the light source module 12b. The power supply device 22 includes at least a part of a switching circuit, a diode, a smoothing capacitor, a FET (Field Effect Transistor), a transistor, a resistor, and the like.

The power supply device 22 outputs a light source drive output having a size determined by the power supply control signal to the main body side connection line 26. The power supply control signal is, for example, a 3V, 1 kHz PWM (Pulse Width Modulation) signal. In this case, the power supply device 22 performs a light source drive output of a current value substantially proportional to the magnitude of the duty ratio of the PWM signal as an example.

As shown in FIG. 2, the power supply device 22 includes a connection unit 29 for inserting a signal module having a predetermined connection shape and power supply control signal format. A wired signal module 23 is inserted into the connection unit 29 as an example of the signal module. The wireless signal module 50 as an example of the signal module can be inserted into the connection unit 29.

FIG. 3 is a diagram schematically showing the vicinity of the connecting portion 29 in the XX cross section in FIG. 2 in order to explain the inside of the connecting portion 29. A socket portion 61 is arranged inside the connection portion 29. The socket portion 61 includes a terminal portion 62 including a metal terminal. The terminal portion 62 is electrically connected to the circuit in the power supply device 22. The power supply device 22 receives a signal from the outside via the terminal portion 62, and operates according to the received signal.

Here, the above-mentioned predetermined connection shape and power supply control signal format have a shape that can be inserted into the connection portion 29, and when inserted, the terminals of the signal module are arranged in the terminal portion 62. It is a connection shape and power supply control signal format that satisfies the condition that it is appropriately electrically connected and the signal can be appropriately transmitted through both electrically connected terminals.

The connection portion 29 of the power supply device 22 is provided in a part of the housing of the power supply device, but a connection portion may be provided from the power supply via a cord (in that case, the power supply, the cord and the connection portion may be provided. Collectively referred to as a power supply).
<Wired signal module 23>
The wired signal module 23 is a module that receives the device dimming control signal which is the primary control signal and outputs the power supply control signal which is the secondary control signal corresponding to the device dimming control signal to the power supply device 22. As an example, the wired signal module 23 appropriately converts the voltage and frequency of the device dimming control signal to generate a power supply control signal. In the example of the present embodiment, since the frequency of the device dimming control signal and the power supply control signal are the same, the configuration for realizing the frequency conversion function in the wired signal module 23 can be omitted.

As shown in FIG. 2, the wired signal module 23 includes a main body portion 41 and a connector portion 42 having the above-mentioned predetermined connection shape.

The main body 41 is a member having a circuit inside the housing.

The connector portion 42 is a connector having a terminal portion 43 made of metal terminals. The terminal unit 43 is an input / output terminal capable of outputting a signal output by the main body unit 41.

One end of the device control signal line 44a and the device control signal line 44b is connected to the main body 41. The other ends of the device control signal line 44a and the device control signal line 44b are connected to the dimming signal terminal block 24. The device control signal line 44a and the device control signal line 44b transmit a device dimming control signal output from the dimmer 3 and relayed by the dimming signal terminal block 24.

Here, the device dimming control signal is a PWM signal of 12 V, a frequency of 1 kilohertz (hereinafter referred to as “kHz”), and a duty ratio of 0 to 100%. The duty ratio of the PWM signal represents the degree of dimming.

FIG. 4 is a block diagram functionally representing the wired signal module 23.

The wired signal module 23 functionally includes a control signal input unit 71, a conversion unit 72, an output terminal unit 73, and an input terminal unit 74. The conversion unit 72 may omit a part or all of the configuration if signal conversion is not necessary.

The control signal input unit 71 is an input unit into which a device dimming control signal is input. The device control signal line 44a and the device control signal line 44b are connected to the control signal input unit 71. The device dimming control signal is input to the control signal input unit 71 via the device control signal line 44a and the device control signal line 44b. The input device dimming control signal is transmitted to the conversion unit 72.

The conversion unit 72 has a function of receiving the device dimming control signal, converting the received device dimming control signal into a power supply control signal, and outputting the signal. More specifically, the conversion unit 72 is composed of a member capable of signal processing such as an IC (Integrated Circuit), an LSI (Large Scale Integration), and a DSP (Digital Signal Processor), and a program for controlling these.

The conversion unit 72 includes a signal level conversion unit 75 and a frequency conversion unit 76.

The signal level conversion unit 75 has a function of converting the level (magnitude) of the input signal into the level of the signal to be output. Here, the device dimming signal input has a signal level of 12V. The signal level of the power supply control signal, which is a signal to be output, is 3V. Therefore, the signal level conversion unit 75 converts the signal level of 12V into 3V.

The frequency conversion unit 76 has a function of converting the frequency of the input signal into the frequency of the signal to be output. Here, in the present embodiment, since the frequency of the input device dimming signal and the frequency of the power supply control signal which is the signal to be output are both 1 kHz, it is desirable to omit the frequency conversion unit 76.

The output terminal unit 73 has a function of outputting a signal generated and output by the conversion unit 72 to the outside. Specifically, the output terminal portion 73 is a metal terminal. The power supply control signal 68 is output by the output terminal unit 73.

The input terminal unit 74 has a function of receiving a signal input from the outside. Specifically, the input terminal portion 74 is a metal terminal. The signal input to the input terminal unit 74 is, for example, a status signal output by the power supply device 22 indicating an error state, a communication state, or the like of the power supply device 22. When the power supply device 22 does not output the above-mentioned status signal, the input terminal unit 74 may be omitted or omitted.
<Dimming signal terminal block 24>
The dimming signal terminal block 24 shown in FIG. 1 is a member for branching and relaying an electric wire for transmitting a dimming control signal.

As shown in FIG. 5, the dimming signal terminal block 24 includes a main body 81, a terminal 82a, a terminal 82b, a terminal 82c, a terminal 83a, a terminal 83b, a terminal 83c, a release button 84a, and a release button 84b. To be equipped.

The main body 81 is formed by accommodating a member in a housing that constitutes the appearance of the dimming signal terminal block 24.

The terminal portion 82a, the terminal portion 82b, and the terminal portion 82c have an electric wire insertion port, and include a mechanism for fixing the electric wire inserted into the electric wire insertion port. The terminal portion 82a, the terminal portion 82b, and the terminal portion 82c are electrically connected. Therefore, when an electric wire is inserted into each of the terminal portion 82a, the terminal portion 82b, and the terminal portion 82c, the inserted electric wires are electrically connected to each other.

The terminal portion 83a, the terminal portion 83b, and the terminal portion 83c have an electric wire insertion port, and include a mechanism for fixing the electric wire inserted into the electric wire insertion port. The terminal portion 83a, the terminal portion 83b, and the terminal portion 83c are electrically connected. Therefore, when an electric wire is inserted into each of the terminal portion 83a, the terminal portion 83b, and the terminal portion 83c, the inserted electric wires are electrically connected to each other.

The dimming signal terminal block 24 is used to branch the control signal line 35 into wiring to the wired module 23 and feeding wiring to another lighting device.

Here, the control signal line 35 includes a control signal electric wire and a ground electric wire. Of the control signal lines 35, the electric wire for the control signal is inserted into the terminal portion 82a. Then, the feed wiring to another lighting device is inserted into the terminal portion 82b, and the control signal line 44a is inserted into the terminal portion 82c. The ground wire of the control signal line 35 is inserted into the terminal portion 83a. Then, the feed wiring to another lighting device is inserted into the terminal portion 83b, and the control signal line 44b is inserted into the terminal portion 83c.

The release button 84a is a button for releasing the fixing of the electric wire by the terminal portion 82a, the terminal portion 82b, and the terminal portion 82c. Specifically, while the release button 84a is pressed, the mechanism for fixing the electric wire in the terminal portion 82a, the terminal portion 82b, and the terminal portion 82c releases the fixing of the electric wire. On the other hand, when the release button 84a is not pressed, the mechanism for fixing the electric wire in the terminal portion 82a, the terminal portion 82b and the terminal portion 82c fixes the electric wire, and electrically connects each terminal and the inserted electric wire. To do.

The release button 84b is a button for releasing the fixing of the electric wire by the terminal portion 83a, the terminal portion 83b, and the terminal portion 83c. Specifically, while the release button 84b is pressed, the mechanism for fixing the electric wire in the terminal portion 83a, the terminal portion 83b, and the terminal portion 83c releases the fixing of the electric wire. On the other hand, when the release button 84b is not pressed, the mechanism for fixing the electric wire in the terminal portion 83a, the terminal portion 83b and the terminal portion 83c fixes the electric wire, and electrically connects each terminal and the inserted electric wire. To do.
<Power terminal block 25>
The power terminal block 25 is a member for branching and relaying an electric wire for supplying electric power.

As shown in FIG. 6, the power terminal block 25 includes a main body 91, a release button 92a, a release button 92b, a terminal 93a, a terminal 93b, a terminal 93c, a release button 94a, a release button 94b, a terminal 95a, and a terminal. A portion 95b and a terminal portion 95c are provided.

The main body 91 is formed by accommodating a member in a housing that constitutes the appearance of the power terminal block 25.

The terminal portion 93a, the terminal portion 93b, and the terminal portion 93c have an electric wire insertion port, and have a mechanism for fixing the electric wire inserted into the electric wire insertion port. The terminal portion 95a, the terminal portion 95b, and the terminal portion 95c have an electric wire insertion port, and have a mechanism for fixing the electric wire inserted into the electric wire insertion port. The terminal portion 93a and the terminal portion 95a are electrically connected and are electrically connected to the power supply device 22. Therefore, when an electric wire is inserted into each of the terminal portion 93a and the terminal portion 95a, the inserted electric wires are electrically connected to each other. The terminal portion 93b and the terminal portion 95b are electrically connected and electrically connected to the power supply device 22. Therefore, when an electric wire is inserted into each of the terminal portion 93b and the terminal portion 95b, the inserted electric wires are electrically connected to each other.

Further, the terminal portion 93c and the terminal portion 95c are electrically connected and electrically connected to the power supply device 22. Therefore, when an electric wire is inserted into each of the terminal portion 93c and the terminal portion 95c, the inserted electric wires are electrically connected to each other.

The release button 92a is a button for releasing the fixing of the electric wire. Specifically, while the release button 92a is pressed, the mechanism for fixing the electric wire in the terminal portion 93a and the terminal portion 93b releases the fixing of the electric wire. On the other hand, when the release button 92a is not pressed, the mechanism for fixing the electric wire in the terminal portion 93a and the terminal portion 93b fixes the electric wire.

The release button 92b, the release button 94a, and the release button 92b are buttons having the same mechanism as the release button 92a, respectively, and fix and fix the electric wires in the terminal portion 93c, the terminal portion 95a, the terminal portion 95b, and the terminal portion 95c. Switch the release.

Here, of the power supply / ground wire 36, the power supply line 36a and the power supply line 36b are inserted into the terminal portion 93a and the terminal portion 93b. Of the power supply / ground wire 36, the ground wire 36c is inserted into the terminal portion 93c. As for the feed wiring, the power supply line of the feed wiring is inserted into the terminal portion 94a and the terminal portion 94b as in the case of the power supply / ground wire 36. Then, the ground wire of the feed wiring is inserted into the terminal portion 93c.
<Wireless signal module 50>
The wireless signal module 50 receives a command, which is a primary control signal transmitted by wireless communication, by wireless communication based on control information such as dimming degree manually or automatically input by an input device such as a tablet or PC. This module has a function of outputting a power supply control signal, which is a secondary control signal corresponding to this command, to the power supply device 22. Here, the power supply control signal output when the wired signal module 23 receives the device dimming control signal and the power supply control output by the wireless signal module 50 when the wireless signal module 50 receives the command corresponding to the device dimming control signal. The signal is a signal of the same type.

As shown in FIG. 2, the wireless signal module 50 includes a main body portion 51 and a connector portion 52.

The main body 51 is a member having a circuit inside the housing.

The main body 51 includes a DSP and outputs a power control signal corresponding to the received device dimming control signal to the power supply device 22 via the connector 52.

The connector portion 52 is a connector having a terminal portion made of metal terminals, and has substantially the same shape as the connector portion 42 included in the wired signal module 23. The wireless signal module 50 has a connection shape and a power control signal format compatible with the above-mentioned wired signal module, and when inserted into the connection unit 29, each terminal included in the connector unit 52 becomes a socket unit 61. Electrically connect to each terminal provided.

The wireless signal module 50 can transmit and receive a signal conforming to the IEEE802.5.4 standard as a wireless signal, but is not limited to this, and performs communication such as the IEEE802.5.1 standard and the IEEE802.11 standard. May be good.
<Effect>
As described above, the wired signal module according to the embodiment of the present invention has the same connection shape and the same power supply control signal format as the wireless signal module. Then, like the wireless signal module, it can be attached to the connection portion of the power supply device. Therefore, a power supply device designed on the assumption that it is controlled by a wireless signal can be used as a power supply device that can be controlled by a wired signal. Therefore, after installing the power supply device, it is possible to change whether to control by wired control or wireless control. Further, instead of preparing both the wireless control power supply and the wired control power supply, one of them can be prepared as an example and effectively used as the wired control power supply.
<2. Second embodiment>
In the first embodiment, the lighting device 1 has the dimming signal terminal block 24, but the dimming signal terminal block corresponding to the dimming signal terminal block 24 may be integrated with the wired signal module. ..

In a lighting device controlled by radio, the radio signal module receives a command (primary control signal) corresponding to the device dimming control signal wirelessly, so it is necessary to provide a dimming signal terminal block for branching a wired signal. Absent. Therefore, by integrating the dimming signal terminal block with the wired signal module, the configuration excluding the signal module in the lighting device can be standardized between the case of wired control and the case of wireless control. That is, by mounting a wired signal module integrated with the dimming signal terminal block according to the present embodiment instead of the wireless signal module mounted on the power supply device, the power supply device for wireless control can be used for wired control. Can be used.

Hereinafter, the second embodiment will be described focusing on the configuration of the wired signal module.

FIG. 7 is a perspective view for explaining the wired signal module 100 according to the present embodiment.

As shown in FIG. 7, the wired signal module 100 includes a main body portion 101, a connector portion 42, and a terminal block portion 102.

The main body 101 has the same configuration and function as the main body 41 in the first embodiment.

The terminal block 102 has a function similar to that of the dimming signal terminal block 24, that is, a function of branching and relaying an electric wire for transmitting a dimming control signal.

Here, in the wired signal module 23 of the first embodiment, the main body 41 and the dimming signal terminal block 24 are electrically connected by the device control signal line 44a and the device control signal line 44b. .. On the other hand, in the wired signal module 100, the electrical connection between the main body 101 and the terminal block 102 is performed inside the housing of the wired signal module 100, and the signal lines for these connections are the housing. Not exposed to the outside.

The terminal block 102 includes a terminal 111a, a terminal 111b, a terminal 112a, and a terminal 112b.

The terminal portion 111a and the terminal portion 111b correspond to the terminal portion 82a and the terminal portion 82b. The terminal portion 111a and the terminal portion 111b have an electric wire insertion port, and have a mechanism for fixing the electric wire inserted into the electric wire insertion port. The terminal portion 111a and the terminal portion 111b are electrically connected. Therefore, when an electric wire is inserted into each of the terminal portion 111a and the terminal portion 111b, the inserted electric wires are electrically connected to each other. The terminal portion 111a and the terminal portion 111b are electrically connected to the main body portion 101.

The terminal portion 112a and the terminal portion 112b correspond to the terminal portion 83a and the terminal portion 83b. The terminal portion 112a and the terminal portion 112b have an electric wire insertion port, and have a mechanism for fixing the electric wire inserted into the electric wire insertion port. The terminal portion 112a and the terminal portion 112b are electrically connected. Therefore, when an electric wire is inserted into each of the terminal portion 112a and the terminal portion 112b, the inserted electric wires are electrically connected to each other. The terminal portion 112a and the terminal portion 112b are electrically connected to the main body portion 101.

The release button 113a, the release button 113b, the release button 114a, and the release button 114b are buttons for releasing the fixing of the electric wire, and the mechanism for fixing the electric wire in each terminal portion while each release button is pressed is provided. Release the wire. On the other hand, when each release button is not pressed, the mechanism for fixing the electric wire at each terminal portion fixes the electric wire.

As described above, by making the wired signal module 100 have the above-described configuration, it is not necessary to provide a dimming signal terminal block in the lighting device. Therefore, in the power supply device and the lighting device, the number of places where the configuration should be changed can be reduced or eliminated depending on whether the wireless control or the wired control is used. That is, the configuration of the lighting device excluding the signal module can be standardized between the case of performing wired control and the case of performing wireless control.
<3. Modification example>
Although the embodiments of the lighting system, the lighting device, and the wired signal module according to the present invention have been described above, the illustrated lighting system, the lighting device, and the wired signal module can be modified as follows. lighting system as shown in the above embodiments, it is Ru course der not limited to the lighting device and wired signal module.

(1) In the first embodiment, the example of using a substantially square base light in which a part of the housing is embedded in the ceiling has been described as the lighting device 1, but the lighting device is not limited to this, and any lighting device is sufficient. The lighting device 1 is, for example, base light, base down light, universal down light, but it may also be a lighting spotlights and high ceiling.

(2) In the first embodiment, an example in which the user uses the dimmer 3 to cause the lighting device 1 to perform the dimming operation has been described. However, the operation to be performed by the lighting device 1 is not limited to the dimming operation, and any operation that can be performed by the lighting device 1 is sufficient. For example, as a feasible operation, a toning operation that changes the color temperature of the light source or an arbitrary color selection operation may be performed. Further, the radiation angle may be changed by moving the lens of the light source or the like. Further, when the lighting device is a spotlight, the light distribution direction may be changed by swinging the lamp body portion including the light source. Further, when the lighting device is a spotlight of a type attached to the duct rail and the lamp body portion including the light source has a function of moving along the duct rail, the lamp body portion moves along the duct rail. also not good.

(3) In the first embodiment, the device dimming control signal, which is the device control signal, has been described with reference to an example in which the device dimming control signal is a PWM signal having a voltage of 12 V, a frequency of 1 kHz, and a duty ratio of 0 to 100%. However, the device control signal is not limited to this format, and any format that can convey an instruction to the lighting device is sufficient. The device control signal may be, for example, a signal having a different voltage or frequency, a signal in a format other than the PWM signal such as a pulse amplitude modulation signal, or a digital signal.

Further, in the first embodiment, an example in which the power supply control signal is a PWM signal having a voltage of 3 V and a frequency of 1 kHz has been described. However, the power supply control signal is not limited to this format, and any format that can convey an instruction to the power supply device is sufficient. Power supply control signal, for example, voltage, may be a different frequency, but it may also as a pulse amplitude modulated signal format signal other than the PWM signal such.

(4) In the first embodiment, the lighting device 1 is used as an example of the electric device, but the present invention is not limited to this, and the electric device that inputs a control signal, a command, etc. from the outside and performs an operation based on the input. That's enough. For example, electrical equipment, motion sensors attached to the ceiling, it may be a such as a camera, a refrigerator, but it may also be a consumer electronics such as such as washing machines.

(5) In the first embodiment, the dimming signal terminal block 24 is configured to branch the input signal into two, but the present invention is not limited to this, and the dimming signal terminal block 24 may be configured to have three or more branches. Similarly, the power supply terminal block 25, had been configured to 2 branches a signal input, but it may also a 3 branched possible above configuration is not limited thereto.

(6) In the first embodiment, the lighting device 1 has been described with the example of including one power supply device, but the present invention is not limited to this, and two or more power supply devices may be provided. For example, each of the plurality of power supply devices may be configured to control each of a plurality of types of light source modules such that the color temperature at which they emit light is different. In this case, for example, using a power supply terminal block having a large number of branches as shown in the above modification (5), wiring is performed between a plurality of power supply devices so that the electric wire for supplying power becomes a feed wiring. also not good.

(7) The above-described embodiment and each modification may be partially combined.
<4. Supplement>
Hereinafter, described further illumination system according to an embodiment of the present invention, the illumination device and a wired signal module structure and a modification and effects.

(1) The signal module according to the embodiment of the present invention is a signal module that outputs a connection shape that can be attached to a connection portion of an electric device and a secondary control signal that can control the electric device, and is the electric device. Is provided with a connection portion to which a signal module that receives a primary control signal by the first communication method and outputs a secondary control signal corresponding to the primary control signal can be attached, and the signal module is a second communication. It includes a receiving unit that receives a device control signal according to a method, and an output unit that can be attached to a connection unit of the electrical device and outputs the secondary control signal.

With this configuration, Ru can increase the versatility of electrical equipment to allow reception of the command by the second communication method not only the first communication method.

(2) Further, the first communication method may be a wireless communication method, and the second communication method may be a wired communication method.

With this configuration, the electrical equipment that is controlled by using the wireless communication, Ru can allow for control using the wired communication.

(3) Further, the wired communication method may be a method for communicating a PWM signal.

With this configuration, Ru can control electrical equipment using a PWM signal.

(4) Further, the electric device may be a power supply device.

With this configuration, the power supply unit is controlled using a wireless communication, Ru can be controlled by using a wired communication.

(5) The lighting device according to the embodiment of the present invention is a lighting device including an input device, a second signal module, a power supply device, and a light source driven by the power supply device, and is the second. Signal module includes a receiving unit that receives a device control signal emitted by the input device and transmitted by a second communication method, and an output unit that outputs a secondary control signal, and the power supply device includes a connecting unit. The second signal module can be attached to and detached from the connection portion and can be controlled by the secondary control signal, and the connection portion is transmitted by a second communication method different from the first communication method. A first signal module that converts a primary control signal into a secondary control signal and outputs the signal can be mounted, and by exchanging the first signal module connected to the connection portion with the second signal module. , The control by the first communication method and the second communication method is possible.

This configuration regardless of the first communication method and the second communication method, Ru bovine sharing the configuration of the illumination device.

(6) Further, the first communication method may be a wireless communication method, and the second communication method may be a wired communication method.

With this configuration, the illumination device is controlled using a wireless communication, Ru can allow for control using the wired communication.

(7) Further, the wired communication method may be a method for communicating a PWM signal.

With this configuration, Ru can control a lighting device using a PWM signal.

(8) Further, the command may control at least one of dimming, toning, emission angle, light distribution direction, and movement of the light source.

With this configuration, it is selected whether at least one control of the dimming, toning, radiation angle, light distribution direction, and movement of the light source in the lighting device is performed by using the first communication method or the second wired communication. be able to.

1 Lighting device 2 Ceiling 3 Dimmer 10 Light source part 11 Frame part 12a, 12b Light source module 13 Module side connection line 14 Module side connector 20 Main body 21 Housing part 22 Power supply device 23 Wired signal module 24 Dimming signal terminal block 25 Power terminal block 26 Main unit side connector 27 Main unit side connector 29 Connection unit 31 Ceiling plate 35 Control signal line 36 Power supply / ground wire 41 Main unit 42 Connector unit 43, 44a, 44b Control signal line 50 Radio signal module 51 Control signal input unit 52 Control unit 61 Socket unit 62 Terminal unit 71 Control signal input unit 72 Conversion unit 73 Output terminal unit 74 Input terminal unit 75 Signal level conversion unit 76 Frequency conversion unit 81 Main unit 100 Wired signal module 101 Main unit 102 Terminal base

Claims (6)

A wired signal module that outputs a secondary control signal that can control the power supply.
The power supply device includes a connection unit into which a wireless signal module that receives a primary control signal wirelessly and outputs a secondary control signal corresponding to the primary control signal can be inserted, and is connected to a power supply line.
The wired signal module
The power supply for wireless control has been changed to a power supply for wired control, and it does not have a wireless communication function and can be inserted into the connection.
One end of a device control signal line separate from the power supply line is connected to a position exposed to the outside of the power supply device in a state of being inserted into the connection portion, and device control is performed via the device control signal line. The receiver that receives the signal and
A wired signal including an output unit that is not exposed to the outside of the power supply device in a state of being inserted into the connection unit, is connected to a terminal in the connection unit, and outputs a secondary control signal corresponding to the device control signal. module. The wired signal module according to claim 1, wherein the device control signal is a PWM signal. The wired signal module according to claim 1 or 2, wherein the device control signal controls at least one of dimming, toning, radiation angle, light distribution direction, and movement of a light source. It ’s a lighting device,
Built-in wired signal module that changes the power supply for wireless control to a power supply for wired control, and a power supply that drives the light source
The power supply apparatus receives a primary control signal by radio, the radio signal module for outputting a controllable secondary control signal said power supply comprises a connection portion can be inserted in response to the primary control signal, the power supply line Connected to
The wired signal module does not have a wireless communication function and can be inserted into the connection portion.
One end of a device control signal line separate from the power supply line is connected to a position that is not visible from the outside of the lighting device and is exposed to the outside of the power supply device in a state of being inserted into the connection portion. And a receiving unit that receives the device control signal via the device control signal line,
A lighting device including an output unit that is not exposed to the outside of the power supply device in a state of being inserted into the connection unit, is connected to a terminal in the connection unit, and outputs a secondary control signal corresponding to the device control signal. .. The lighting device according to claim 4, wherein the device control signal is a PWM signal. The lighting device according to claim 4 or 5, wherein the device control signal controls at least one of dimming, toning, radiation angle, light distribution direction, and movement of the light source.

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