JP2019192348A - Electric power unit and lighting system - Google Patents

Abstract

To provide a lighting system that facilitates wiring work in constructing a lighting fixture.SOLUTION: An integrated electric power unit 100 comprises: a main body part 10; a cover part 50 which covers one end part 14 in an open state; a spring part 60 which is fitted on the side of the one end part 14; a power supply terminal board 21 which is fitted to the main body part 10 and receives an input of an AC voltage from a commercial power supply; an electric power supply part 30 which is accommodated in the main body part 10, receives an input of an AC voltage from the power supply terminal board 21, converts the AC voltage into a DC voltage, and outputs the DC voltage; and an output terminal board 41 which is fitted to the main body part 10, receives an input of the DC voltage from the power supply part 30, can be connected with a plurality of lighting fixtures having light sources, and supplies the DC voltage to the light sources of the lighting fixtures when the lighting fixtures are connected.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a power supply device that supplies power to a lighting fixture.

In a general lighting fixture, one power supply device is built in with respect to one lighting fixture (for example, patent document 1).
Conventionally, a wiring module that facilitates wiring work to a plurality of lighting fixtures has been installed behind the ceiling (for example, Patent Document 2).

Japanese Patent Laid-Open No. 2006-157667 Japanese Patent Laying-Open No. 2006-122607

At present, as in Patent Document 1, one power supply device is built in one lighting fixture. Although there is description also in patent document 2, the request | requirement of short-term construction is strong in lighting wiring construction, and a simple construction specification is calculated | required.
The wiring module of Patent Document 2 is designed to improve the efficiency of wiring work by combining them into one. However, it is considered that the worker needs to work behind the ceiling, and it takes time for wiring work behind the ceiling. It is done.

  An object of this invention is to provide the power supply device which makes the wiring operation | work at the time of constructing a lighting fixture easy.

The power supply device of this invention is
A main body having a hollow body shape, one end of which is open;
A lid that closes the one end that is open;
A plurality of spring portions attached to the one end side;
A power supply terminal block that is attached to the main body portion on the other end side of the main body portion, and into which an AC voltage is input from an AC power source,
A power supply unit that is housed in the main body, receives the AC voltage from the power supply terminal block, converts the input AC voltage into a DC voltage, and outputs the DC voltage;
The light source of the luminaire is attached to the main body, can be connected to a plurality of luminaires having a light source when the DC voltage is input from the power source, and the luminaires are connected. And an output terminal block for supplying the DC voltage.

  The power supply device of the present invention is attached to the opening provided in the attached portion, thereby facilitating the wiring work when constructing the lighting fixture.

FIG. 3 is a diagram of the first embodiment and is a schematic diagram illustrating a lighting system 1000. FIG. 3 is a diagram of the first embodiment, and is a perspective view of the centralized power supply device 100. FIG. 3 is an exploded view of the centralized power supply device 100 in the first embodiment. The figure of Embodiment 1 is a figure which shows the attachment method to the to-be-attached part 300 of the concentrated power supply apparatus 100. FIG. FIG. 3 is a diagram of the first embodiment, and is a schematic diagram illustrating an input side opening 12; FIG. 3 is a diagram of Embodiment 1 and shows an electrical connection relationship of lighting system 1000.

Embodiment 1 FIG.
<Configuration of lighting system>
A lighting system 1000 according to Embodiment 1 will be described with reference to FIGS. 1 to 6.
FIG. 1 is a schematic diagram illustrating a lighting system 1000.
FIG. 2 is a perspective view of the centralized power supply device 100.
FIG. 3 is an exploded view of the centralized power supply device 100.
FIG. 4 is a diagram illustrating a method for attaching the centralized power supply device 100 to the attached portion 300. In the following description, a ceiling is assumed as the attached portion 300. However, the attached portion 300 is not limited to the ceiling. FIG. 5 is a diagram for illustrating the input side opening 12 of the centralized power supply device 100. In FIG. 5, the left side view in the X direction is simplified, and for example, the spring portion 60 is omitted.
FIG. 6 is a diagram illustrating an electrical connection relationship of the lighting system 1000.

<Lighting system 1000>
The lighting system 1000 includes a centralized power supply device 100 that is a power supply device and a plurality of lighting fixtures 200.
Although FIG. 1 shows a state in which three lighting fixtures 200 are connected to the centralized power supply device 100, the number of lighting fixtures 200 is not limited to three.
The centralized power supply device 100 can be connected to a plurality of lighting fixtures 200, and has a function of a power supply device for each of the connected plurality of lighting fixtures 200. A light source supplies power supplied from the commercial power supply 400. The power is converted into light that can be emitted.
The centralized power supply device 100 is a device in which the power supply devices that have conventionally existed in each lighting fixture 200 are concentrated on one centralized power supply device 100.
Although a plurality of lighting fixtures 200 can be connected to the centralized power supply device 100, it is sufficient that one or more lighting fixtures 200 are connected.

<Centralized power supply device 100>
The centralized power supply device 100 is supplied with AC voltage from the commercial power source 400, converts the AC voltage into DC voltage, and supplies the converted DC voltage to each lighting fixture 200, thereby turning on the light source 201 of the lighting fixture 200.
The concentrated power supply device 100 is embedded in the attached portion 300.

*** Explanation of configuration ***
As shown in FIG. 3, the centralized power supply device 100 includes a main body portion 10, a lid portion 50, a plurality of spring portions 60, a power supply terminal block 21, a power supply portion 30, and an output terminal block 41.
(1) The main body 10 has a hollow body shape, and one end 14 is open. One end portion 14 is formed with a flange-shaped opening 11. An opening 11 a is formed in the opening 11.
(2) The lid portion 50 closes the one end portion 14 that is open. The lid 50 closes the opening 11a. (3) The plurality of spring portions 60 are attached to the one end portion 14 side. Although two spring portions 60 are shown in FIG. 3, three or more spring portions 60 may be used. The spring part 60 is an elastic body such as a leaf spring or a wire spring.
(4) The power terminal block 21 is attached to the main body 10 on the other end 15 side of the main body 10, and an AC voltage is input from the commercial power source 400.
(5) The power supply unit 30 is housed in the main body unit 10, receives an AC voltage from the power supply terminal block 21, converts the input AC voltage into a DC voltage, and outputs the DC voltage.
(6) The output terminal block 41 is attached to the main body unit 10, can be connected to a plurality of lighting fixtures 200 having a light source 201 when a DC voltage is input from the power supply unit 30, and the lighting fixture 200 is connected to the output terminal block 41. When it is done, a DC voltage is supplied to the light source 201 of the luminaire 200.

<Main body 10>
As shown in FIGS. 3 and 5, the main body 10 has an output side opening 13 and an input side opening 12 on the other end 15 side.

<Power supply terminal unit 20>
As shown in FIG. 3, the power supply terminal portion 20 includes a power supply terminal block 21 and a mounting bracket 22. The power supply terminal portion 20 is fixed to the bottom surface portion 16 present at a position facing the opening portion 11.
The power supply terminal block 21 has a box shape and receives power supply from an external commercial power supply 400. The commercial power source 400 is an AC power source.
The power supply terminal block 21 is attached to the main body 10 by a mounting bracket 22.
In the state where the power supply terminal block 21 is attached to the main body 10, the power supply wire 81 is inserted.
The power terminal block 21 is electrically connected to the power supply unit 30.
With reference to FIG. 6, the electrical connection of the illumination system 1000 is summarized.
A commercial power source 400, which is an AC power source, and a power terminal block 21 are connected by a power source wire 81.
The power supply terminal block 21 and the power supply unit 30 are connected by an electric wire 23.
As will be described later, the output terminal block 41 is installed on the substrate 32 a, and the output terminal block 41 is electrically connected to the power supply unit 30.
The output terminal block 41 and each lighting fixture 200 are connected by an output electric wire 82.

<Power supply unit 30>
The power supply unit 30 is disposed inside the main body unit 10.
The power supply unit 30 includes a power supply circuit unit 31, a control circuit unit 32, and a holder 33.
The power supply circuit unit 31 converts an AC voltage supplied from the commercial power supply 400 into a DC voltage.
The power supply unit 30 includes a control circuit unit 32 that dims the light source 201 of the connected lighting fixture 200 when a dimming signal is input.
The control circuit unit 32 receives a control signal and dimmes the lighting fixture 200 according to the control signal. A power supply circuit unit 31 and a control circuit unit 32 are attached to the holder 33.

As shown in FIG. 3, an output terminal block 41 is provided on the substrate 32 a of the control circuit unit 32 of the power supply unit 30.
The output terminal block 41 is electrically connected to the power supply unit 30.
Specifically, as shown in FIG. 3, the power supply circuit unit 31 and the control circuit unit 32 are electrically connected by a connecting wire 34, and the control circuit unit 32 and the output terminal block 41 are electrically connected. It is connected. The commercial power supply 400 is electrically connected to the power supply terminal block 21, and the power supply terminal block 21 is electrically connected to the power supply circuit unit 31.
As shown in FIG. 2, the output terminal block 41 is exposed from the output side opening 13 in a state where the power supply unit 30 is housed in the main body unit 10.

<Power supply circuit unit 31>
The power supply circuit unit 31 is formed on the substrate 31a.
The power supply circuit unit 31 converts the commercial power supply 400 such as AC100V or AC200V supplied via the power supply terminal block 21 into a DC voltage, and turns on the light source 201 of the lighting fixture 200 with a constant current.
The power supply circuit unit 31 is connected in series with the plurality of lighting fixtures 200 via the output terminal block 41, and supplies a constant current to each lighting fixture 200.

<Control circuit section 32>
The control circuit unit 32 is formed on the substrate 32a. The control circuit unit 32 includes a microcomputer. The microcomputer executes dimming control described later.
The control circuit unit 32 is connected to the power supply circuit unit 31 by a connection wire 34.
The control circuit unit 32 controls the lighting state of the light source 201 of the luminaire 200 according to the input signal input from the external device with the current output to the output terminal block 41.
The control circuit unit 32 dims each lighting fixture 200 connected to the output terminal block 41.
Dimming includes turning on and off.
An input signal input from an external device is an analog signal, a digital signal, or a combination thereof.
The input signal may be input to the control circuit unit 32 as a wired signal physically connected to the control circuit unit 32, or may be input to the control circuit unit 32 as a wireless signal.

<Holder 33>
The holder 33 has a power supply circuit unit 31 attached to one side of the both surfaces and a control circuit unit 32 attached to the other side.
The holder 33 is molded from a resin material.
With the power supply circuit unit 31 and the control circuit unit 32 attached, the holder 33 is inserted into the main body 10 from the opening 11 a of the opening 11 of the main body 10 and is accommodated in the main body 10.

<Output terminal block 41>
The output terminal block 41 supplies a DC voltage to the lighting fixture 200.
When driving a plurality of lighting fixtures 200, the output terminal block 41 is wired so that the respective lighting fixtures 200 are electrically connected in series. By connecting in series, a constant value of current is supplied to each lighting fixture 200, so that variations in the brightness of each lighting fixture 200 can be suppressed. In the output terminal block 41, a jumper is connected to an insertion port to which the output electric wire 82 is not connected.

<Cover 50>
The lid 50 is formed in a circular shape, and is attached to the main body 10 so as to close the opening 11 a of the opening 11 of the main body 10.
The lid part 50 is detachably attached to the main body part 10.
The detachable configuration may be realized by an elastic member such as a spring, or may be realized by engagement of a screw portion formed on the lid portion 50 and a screw formed on the main body portion 10. .

<Spring part 60>
The spring part 60 is movable with respect to the main body part 10 from a substantially horizontal state to a parallel state with respect to the side surface part of the main body part 10.
As shown in FIG. 4, the spring portion 60 holds the main body portion 10, that is, the centralized power supply device 100 in a state where the main body portion 10 is inserted into the opening 301 provided in the attached portion 300.

<Lighting equipment 200>
The luminaire 200 has a light source 201. The light source 201 is an LED in the first embodiment. In addition to LEDs, any light source that emits light with a DC voltage may be used, and organic EL may be used.
At least one lighting fixture 200 is attached to the attached portion 300 with respect to the centralized power supply device 100.
As shown in FIG. 1, the luminaire 200 includes an LED light source module that is lit with a DC voltage as the light source 201.
The lighting fixture 200 is connected to the centralized power supply device 100 so that a DC voltage for turning on the light source 201 is supplied from the centralized power supply device 100.

<Mounting method of centralized power supply device 100>
FIG. 4 shows a method of attaching the centralized power supply device 100 to the attached portion 300.
4A shows a state before the centralized power supply device 100 is attached to the attached portion 300. FIG.
In FIG. 4A, the power supply wire 81 and the output wire 82 are not connected to the centralized power supply device 100.

In (b) of FIG. 4, the operator pulls out the power supply wire 81 connected to the commercial power supply 400 and the output wire 82 connected to the lighting fixture 200 from the opening 301 of the attached portion 300 to concentrate. Connect to the power supply device 100.
That is, the operator connects the power supply wire 81 to the power supply terminal block 21 and connects the output wire 82 to the output terminal block 41.

FIG. 4C shows a state in which the centralized power supply device 100 is attached to the attached portion 300. In FIG. 4C, the worker attaches the centralized power supply device 100 to the attached portion 300 by an attachment operation similar to that of the embedded illumination device.
The lid part 50 closes the opening 301 formed in the attached part 300 to which the main body part 10 is attached from the one surface 302 side of the attached part 300.
The main body 10 is embedded in the opening 301 so that the other end 15 is positioned on the back surface 303 side of the one surface 302 of the attached portion 300.
Each spring part 60 of the two spring parts 60 attaches the main body part 10 to the attached part 300 by pressing the edge 301 a of the opening 301 of the attached part 300.
Although not shown in FIG. 4C, each spring portion 60 holds the centralized power supply device 100 against the attached portion 300 by pressing the edge 301 a portion on the back surface 303 side.

  4 (a) to 4 (c), the centralized power supply device 100 is attached to the attached portion 300, and the centralized power supply device 100 can supply a DC voltage to the plurality of lighting fixtures 200.

*** Explanation of effects of embodiment 1 ***
The centralized power supply device 100 according to the first embodiment has the following effects.
(1) By integrating the power supply functions of the plurality of lighting fixtures 200 as one centralized power supply device 100 embedded in the attached portion 300 such as the ceiling surface, instead of inside each lighting fixture 200, a power cable The number of 81 wiring works can be reduced.
Further, assuming dimming control using a PWM signal as an input signal of the control circuit unit 32, wiring work for the dimming control can be reduced.
(2) The concentrated power supply device 100 is attached to the opening 301 after the output electric wire 82 is connected to the output terminal block 41. Therefore, it is not necessary to perform the wiring work behind the ceiling, so the work becomes easy.
(3) Since the centralized power supply device 100 includes the control circuit unit 32, the electric wires connected to the individual lighting fixtures 200 need only be the output electric wires 82 for power supply, and the wiring is simplified.
(4) By integrating the power supply of each lighting fixture 200 in one place in the centralized power supply device 100 embedded in the ceiling surface, it is not necessary to provide a power supply device in each lighting fixture 200, and the cost of the lighting system can be reduced. It becomes.
(5) Since the interior of the lighting fixture 200 is saved because the lighting fixture 200 does not incorporate a power supply device, there is an effect of increasing the degree of freedom of design of the lighting fixture 200 as in the case of a thinner lighting fixture. .
For this reason, if the lighting fixture 200 is a ceiling direct attachment type | mold, the protrusion amount from a ceiling will decrease and a protruding feeling will be improved.
Further, when the lighting fixture 200 is an embedded fixture, it is possible to reduce the height at which the ceiling is embedded, so that the possibility of interference with other equipment such as air conditioning or beams is reduced.
Moreover, the freedom degree of an instrument attachment hole also spreads. For example, the pitch of the suspension bolt can correspond to either the mounting dimension of 60 mm or 800 mm.
(6) By reducing the size of the lighting fixture 200, the weight of the lighting fixture 200 can be reduced.
Therefore, the load of the lighting fixture 200 itself can be reduced and the load bearing performance of each member of the lighting fixture 200 can be reduced.
Thus, the thickness of the material can be reduced. By making the lighting fixture 200 lighter, workability is also improved.
(7) The centralized power supply device 100, which is a power source, and the lighting fixture 200 corresponding to the light source module are separated in position, so that a temperature increase due to mutual heat generation does not occur.
Therefore, it is possible to achieve a long life. In addition, the heat dissipation system can be simplified.
(8) When there is a lighting failure in the lighting fixture 200, the power supply unit 30 of the centralized power supply device 100 can be easily confirmed by simply removing the lid 50 of the centralized power supply device 100.
Therefore, it is not necessary to work on the back of the ceiling for confirmation, and treatment such as replacement and repair of the power supply unit 30 can be easily performed.

(Modification of Embodiment 1)
As a modification of the first embodiment, the following configuration may be added.
(1) As shown in FIGS. 2 and 3, a sensor opening 51 is formed in the lid 50.
The control circuit unit 32 of the power supply unit 30 adjusts the light source 201 of the connected lighting fixture 200 based on the detection result of the sensor. Dimming includes turning off and turning on. Specifically, it is as follows.
As shown in FIG. 3, various sensors such as a human sensor 71 or an illuminance sensor 72 are installed in the main body unit 10.
In the case of the human sensor 71, when the human sensor 71 detects the presence of the person, the human sensor 71 outputs a detection signal of the presence to the control circuit unit 32 to detect the absence of the person. When this occurs, the “absence” detection signal is output to the control circuit unit 32.
In the case of the illuminance sensor 72, the illuminance sensor 72 detects illuminance such as the illuminance on the desk surface or the illuminance on the floor surface, and outputs an illuminance detection signal to the control circuit unit 32.
The control circuit unit 32 may control lighting of the light source 201 of the lighting fixture 200 using the detection signals of these sensors.
Although the case of the human sensor 71 and the illuminance sensor 72 has been shown, the type of sensor is not limited to this.
(2) The main body 10 may be a hollow body, and may be cylindrical or rectangular.
(3) The concentrated power supply apparatus 100 may be connected to the output terminal block 41 in advance with an electric wire having a connector.
Since the worker can connect the connector to the lighting apparatus 200 at the time of construction, the worker's construction work is simplified.
(4) Although the power supply circuit unit 31 and the control circuit unit 32 are configured as separate substrates and attached to the holder 33 on one side and the other side, the power supply circuit unit 31 and the control circuit unit 32 May be integrated on a single substrate.
(5) Although the shape in which the control circuit unit 32 includes the output terminal block 41 has been described, the output terminal block 41 may be provided in the power circuit unit 31, or the power circuit unit 31 and the control circuit unit 32. It may be formed on a different substrate.

  DESCRIPTION OF SYMBOLS 10 Main body part, 11 opening part, 11a opening, 12 input side opening part, 13 output side opening part, 14 one edge part, 15 other edge part, 16 bottom face part, 20 power supply terminal part, 21 power supply terminal block , 22 mounting bracket, 30 power supply section, 31 power supply circuit section, 31a board, 32 control circuit section, 32a board, 33 holder, 34 connecting wire, 41 output terminal block, 50 lid section, 51 sensor opening, 60 spring section , 71 Human sensor, 72 Illuminance sensor, 81 Power supply wire, 82 Output wire, 100 Centralized power supply device, 200 Lighting fixture, 201 Light source, 300 Mounted part, 400 Commercial power supply, 301 Opening, 301a Edge, 302 One surface, 303 Backside, 1000 Illumination system.

Claims (6)

A main body having a hollow body shape, one end of which is open;
A lid that closes the one end that is open;
A plurality of spring portions attached to the one end side;
A power supply terminal block that is attached to the main body portion on the other end side of the main body portion, and into which an AC voltage is input from an AC power source,
A power supply unit that is housed in the main body, receives the AC voltage from the power supply terminal block, converts the input AC voltage into a DC voltage, and outputs the DC voltage;
The light source of the luminaire is attached to the main body, can be connected to a plurality of luminaires having a light source when the DC voltage is input from the power source, and the luminaires are connected. A power supply device comprising: an output terminal block for supplying the direct-current voltage. The lid is
The opening formed in the attached part to which the main body part is attached is closed from one surface side of the attached part,
The main body is
Embedded in the opening so that the other end is located on the back side of the one surface of the attached portion,
Each spring part of the plurality of spring parts is
The power supply device according to claim 1, wherein the body portion is attached to the attached portion by pressing an edge of the opening of the attached portion. The power supply unit is
The power supply device according to claim 1, further comprising a control circuit unit that dims the light source of the connected lighting fixture when a dimming signal is input. The power supply device further includes:
A sensor housed in the main body,
The power supply unit is
The power supply device according to any one of claims 1 to 3, further comprising a control circuit unit that dimmes the light source of the connected lighting fixture based on a detection result of the sensor. The lid is
The power supply device according to claim 1, wherein the power supply device is detachably attached to the main body. A lighting system comprising a power supply device and a lighting fixture,
The power supply device
A main body having a hollow body shape, one end of which is open;
A lid that closes the one end that is open;
A plurality of spring portions attached to the one end side;
A power supply terminal block that is attached to the main body portion on the other end side of the main body portion, and into which an AC voltage is input from an AC power source,
A power supply unit that is housed in the main body, receives the AC voltage from the power supply terminal block, converts the input AC voltage into a DC voltage, and outputs the DC voltage;
The light source of the luminaire is attached to the main body, can be connected to a plurality of luminaires having a light source when the DC voltage is input from the power source, and the luminaires are connected. And an output terminal block for supplying the DC voltage to
The lid is
The opening formed in the attached part to which the main body part is attached is closed from one surface side of the attached part,
The main body is
Embedded in the opening so that the other end is located on the back side of the one surface of the attached portion,
Each spring part of the plurality of spring parts is
By pressing the edge of the opening of the attached part, the main body part is attached to the attached part,
At least one of the lighting fixtures is
A lighting system connected to the output terminal block.

Images