KR20160100618A - Lighting device - Google Patents

Abstract

According to an embodiment of the present invention, there is provided a light emitting module including a first light emitting module, a second light emitting module spaced apart from the first light emitting module, a power supply module for converting the input ac power into first and second dc power, And a control module for controlling the power supply module such that at least one of the 2 dc power supplies is supplied to at least one of the first and second light emitting modules.

Description

Lighting device

An embodiment relates to a lighting device.

Generally, indoor or outdoor lighting is used as a lamp or a fluorescent lamp. In the case of such a bulb or fluorescent lamp, there is a problem that its lifetime is short and it is frequently exchanged. In addition, a conventional fluorescent lamp may deteriorate over time, and the illuminance may gradually decrease.

In order to solve such a problem, a light emitting diode (LED) capable of realizing excellent controllability, fast response speed, high electric light conversion efficiency, long swimming, low power consumption, Various types of lighting modules are being developed.

Light emitting diodes (LEDs) are a type of semiconductor devices that convert electrical energy into light. The light emitting diode has advantages of low power consumption, semi-permanent lifetime, fast response speed, safety, and environmental friendliness compared with conventional light sources such as fluorescent lamps and incandescent lamps. Accordingly, much research has been carried out to replace an existing light source with a light emitting diode, and a light emitting diode has been increasingly used as a light source for lighting devices such as various liquid crystal displays, electric sign boards, and street lamps used outside the room.

LEDs that have been used only for visual signal applications are being used as LED lights.

Although LED lighting is a lighting that is well-known for its high reliability and brightness, it also has limitations as a point light source.

In recent years, it is easy to electrically connect to a ballast that supplies ac power, and studies are underway to improve the light efficiency.

An object of the embodiment is to provide a lighting device that supplies dc power having different power levels to at least one of the first and second light emitting modules according to an input illumination control signal.

According to an embodiment of the present invention, there is provided a light emitting module including a first light emitting module, a second light emitting module spaced apart from the first light emitting module, a power supply module for converting the input ac power into first and second dc power, And a control module for controlling the power supply module such that at least one of the 2 dc power supplies is supplied to at least one of the first and second light emitting modules.

The lighting device according to the embodiment converts at least one of the first and second dc power into at least one of the first and second light emitting modules by converting the input ac power into a first and second dc power having different power levels, So that emotional illumination and power saving illumination can be performed.

1 is a system diagram illustrating a lighting system including a lighting device according to an embodiment.
2 is an exploded perspective view schematically showing the lighting device shown in Fig.
3 is a control block diagram showing a control configuration of the lighting device shown in Fig.
4 is a control block diagram showing a control configuration of the first power supply module shown in FIG.
5 is a control block diagram showing a control configuration of the second power supply module shown in FIG.
Figures 6 and 7 are various internal wiring diagrams for a lighting device according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the drawings.

FIG. 1 is a system diagram showing a lighting system comprising a lighting device according to an embodiment, and FIG. 2 is an exploded perspective view schematically illustrating the lighting device shown in FIG.

Referring to Figures 1 and 2, the illumination system may include an illumination device 100 and a ballast 150.

The illumination device 100 may include first and second end caps 106 and 107 coupled to both sides of the light source unit 101 and the light source unit 101. [

The light source unit 101 may include first and second light emitting modules 110 and 120 and an optical housing 105.

Here, the first and second light emitting modules 110 and 120 may be mounted on the printed circuit board 103, respectively, with first and second circuit patterns (not shown) formed independently of each other.

The light source unit 101 may further include a pattern connecting member 104 having a connection pattern for electrically connecting the first and second circuit patterns formed on the printed circuit board 103 to each other.

The optical housing 105 is opened on both sides and closed by the first and second end caps 106 and 107.

Here, each of the first and second end caps 106 and 107 can be coupled to the first and second output pair lines L1, L2 and L3 and L4 from which the two ac power sources (vac) are output from the ballast 150 have.

That is, the first end cap 106 is coupled to the first and third output lines L1 and L3 of the same polarity among the first and second output pair lines L1, L2 and L3 and L4 with two pins, The two-end cap 107 is coupled to the second and fourth output lines L2 and L4 of the first and second output pair lines L1, L2 and L3 and L4 with two pins.

At this time, the first and second power supply patterns (not shown) and the third and fourth power supply patterns (not shown) electrically connected to the first and second output lines L1 and L2 are formed on the printed circuit board 103, And third and fourth power supply patterns (not shown) electrically connected to the output lines L3 and L4, respectively.

The first and second power supply patterns and the third and fourth power supply patterns are independent of each other like the first and second circuit patterns and may be electrically connected to each other by the pattern connecting member 104.

The at least one of the first and second end caps 106 and 107 converts the ac power source vac input from the first and second light emitting modules 110 and 120 into first and second dc power sources vdc1 and vdc2, And a control module 140 for controlling the power supply module 130 and the power supply module 130.

The power supply module 130 is included in the first power supply module 132 and the second end cap 107 that are included in the first end cap 106 and supply the first dc power supply vdc1, and a second power supply module 134 for supplying the dc power source vdc2.

Although the power supply module 130 is shown as being divided into the first and second power supply modules 132 and 134 that supply the first and second dc power sources vdc1 and vdc2 in the embodiment, But may be included in any one of the caps 106 and 107, but is not limited thereto.

That is, the first power supply module 132 is connected to the first dc power source vdc1 by connecting the first and second power supply patterns electrically connected to each other by the pattern connecting member 104, And may supply the light to at least one of the first and second light emitting modules 110 and 120 according to the control of the control module 140.

The second power supply module 134 is connected to the second dc power source vdc2 via the pattern connecting member 104 so that the third and fourth power supply patterns are electrically connected to each other, And may be supplied to at least one of the first and second light emitting modules 110 and 120 under the control of the control module 140. [

The control module 140 controls the first and second dc power sources vdc1 and vdc2 to supply at least one of the first and second dc power sources vdc1 and vdc2 to at least one of the first and second light emitting modules 110 and 120 according to the input illumination control signal sc. And a detailed description thereof will be given later.

The illumination device 100 according to the embodiment may include first and second circuit patterns in which the first and second light emitting modules 110 and 120 are mounted and first and second circuit patterns, The first to fourth power supply patterns (not shown) coupled to the two output pair lines L1, L2 and L3, L4 can be electrically connected to one pattern connecting member 104, (150).

Also, the lighting device 100 according to the embodiment may include two ac power sources (vac) on at least one of the first and second end caps 106 and 107 at the same power level or different power levels, And the power is switched to the power sources vdc1 and vdc2 and supplied to the first and second light emitting modules 110 and 120 to perform power saving illumination (dimming control) and emotion illumination.

FIG. 3 is a control block diagram showing a control configuration of the lighting device shown in FIG. 2. FIG. 4 is a control block diagram showing a control configuration of the first power supply module shown in FIG. FIG. 7 is a control block diagram showing the control configuration of the module.

3 to 5, the lighting device 100 may include first and second light emitting modules 110 and 120, a power supply module 130, and a control module 140.

The first light emitting module 110 emits light of a first color temperature and includes a plurality of first light emitting elements (not shown) mounted on a first circuit pattern formed on the printed circuit board 101 described in FIG. 1 .

Here, the plurality of first light emitting devices may be connected in series, parallel, or series-parallel combination.

Here, the first circuit pattern may have one side connected to the power supply module 130, and the other side may be connected to the pattern connecting member 104 described in FIG. 1. A detailed description of the pattern connecting member 104 will be given later Will be described later.

The second light emitting module 120 emits light of the first color temperature or emits light of a second color temperature different from the light of the first color temperature in the same manner as the first light emitting module 110, And a plurality of second light emitting devices (not shown) mounted on a second circuit pattern formed on the first substrate 101.

The plurality of second light emitting devices may be connected in series, parallel, or series-parallel combination like the plurality of first light emitting devices.

One end of the second circuit pattern may be connected to the power supply module 130 and the other end of the second circuit pattern may be connected to the pattern connecting member 104. The other end of the second circuit pattern may be electrically connected to the first circuit pattern by the pattern connecting member 104 Can be connected.

The power supply module 130 may include first and second power supply modules 132 and 134 as described above with reference to FIG.

The first and second power supply modules 132 and 134 are connected to the first and second power supply lines L1 and L2 and L3 and L4, The ac power source (vac) input through the fourth power supply pattern can be converted into the first and second dc power sources (vdc1, vdc2).

That is, the first power supply module 132 includes a first rectifying part 132a for full-wave rectifying the ac power source vac to the first reference dc power source vdc01, a first rectifying part 132b for rectifying the first reference dc power source vdc01 to the first dc power source a first smoothing unit 132b for smoothing the first dc power source vdc1 and a first converter unit 132c for varying a power level of the first dc power source vdc1.

The second power supply module 134 includes a second rectifying part 134a for full-wave rectifying the ac power source vac to a second reference dc power source vdc02, a second rectifying part 134a for rectifying the second reference dc power source vdc02 to a second dc power source a second smoothing unit 134b for smoothing with the second dc power source vdc2 and a second converter unit 134c for changing the power level of the second dc power source vdc2.

Here, the first and second converter units 132c and 134c can vary the power levels of the first and second dc power sources vdc1 and vdc2, and the power of the first and second dc power sources vdc1 and vdc2, The levels can be varied equally or differently.

The first and second converter units 132c and 134c may be a buck converter, a boost converter or a flyback converter. The control unit 140 controls the power levels of the first and second dc power sources vdc1 and vdc2, .

The control module 140 controls the operation of the first and second light emitting modules 110 and 120 according to an illumination control signal s input from an external input module (not shown), a smart phone (not shown), or a wearable device (not shown) And at least one of the first and second power supply modules 132 and 134 is controlled such that light is emitted from at least one of the first and second power supply modules 110 and 120.

That is, if the illumination control signal s is a command signal for controlling the first and second light emitting modules 110 and 120 to emit light having the same first color temperature, the control module 140 controls the first power supply module 132, And controls the first and second light emitting modules 110 and 120 to supply the first dc power source vdc1.

The control module 140 controls the second power supply module 134 so that the first and second light emitting modules 110 and 120 emit light having the same second color temperature, And supplies the second control signal sc2 to the first and second light emitting modules 110 and 120 so that the second dc power source vdc2 is supplied.

The first and second power supply modules 132 and 134 may supply the first and second dc power sources vdc1 and vdc2 to the first and second light emitting modules 110 and 120, Are connected to each other by the pattern connecting member 104.

The first power supply module 132 supplies the first dc power source vdc1 only to the first light emitting module 110 and the second power supply module 134 supplies the first dc power source vdc1 to the second light emitting module 120, The pattern connecting member 104 can be connected so that only the second dc power source vdc2 can be supplied.

At this time, the control module 140 controls the lighting control signal s so that the first light emitting module 110 is emitted as light of the first color temperature and the second light emitting module 120 is emitted as the light of the second color temperature The first and second light emitting modules 110 and 120 can be controlled by supplying the third control signal sc3 to the first and second power supply modules 132 and 134. [

As described above, the pattern connecting member 104 electrically connects the first and second circuit patterns to each other as described above with reference to FIG. 1. The first and second power supply patterns and the first and second power supply patterns, 3, 4 The power supply pattern can be electrically connected to each other.

In addition, the pattern connecting member 104 may electrically connect only the first, second power supply patterns, and the third and fourth power supply patterns supplied with the ac power source (vac), unlike the above.

Figures 6 and 7 are various internal wiring diagrams for a lighting device according to an embodiment.

6 and 7 are wiring or connection diagrams inside the circuit for the first and second light emitting modules 110 and 120, the package connecting member 104 and the first and second power supply modules 132 and 134.

6, the lighting device 100 may include first and second light emitting modules 110 and 120, first and second power supply modules 132 and 134, and a pattern connecting member 104 .

In this case, the first light emitting module 110 is connected in series-parallel combination so that light is emitted by the first dc power source vdc1 output from the first power supply module 132. [

In addition, the second light emitting module 120 is connected in series-parallel combination so that light is emitted by the second dc power source vdc2 output from the second power supply module 134. [

Each of the first and second light emitting modules 110 and 120 can operate independently of each other by first and second dc power supplies vdc1 and vdc2 supplied from the first and second power supply modules 132 and 134 And the power levels of the first and second dc power sources vdc1 and vdc2 may be equal to or different from each other, but are not limited thereto.

The first power supply module 132 includes a first power supply pattern p1 connected to the first output line L1 of the first end cap 106 and a second power supply pattern p2 connected to the second end of the second end gap 107, When the second power supply pattern p2 connected to the output line L1 is electrically connected to each other by the pattern connecting member 104, one ac power source vac is supplied from the ballast 150, (vdc1).

The second power supply module 134 also has a third power supply pattern p3 connected to the third output line L3 of the first end cap 106 and a third power supply pattern p3 connected to the fourth output line When the fourth power supply pattern p4 connected to the first dc power source vdc2 is electrically connected to each other by the pattern connecting member 104, the other ac power source vac is supplied from the ballast 150, ). ≪ / RTI >

Here, the pattern connecting member 104 is formed on the printed circuit board 103 described in FIG. 1 and includes first and second power supply patterns p1 and p2 electrically insulated from each other and third and fourth power supply patterns p3 and p4 are electrically connected to each other so that the two ac power sources vac output from the ballast 150 can be supplied to the first and second power supply modules 132 and 134 one by one.

Referring to FIG. 7, the lighting device 100 may include first and second light emitting modules 110 and 120, first and second power supply modules 132 and 134, and a pattern connecting member 104.

6, the pattern connecting member 104 electrically connects one side of the first circuit pattern on which the first light emitting module 110 is mounted and one side of the second circuit pattern on which the second light emitting module 120 is mounted As in FIG. 3, the first and second power supply patterns p1 and p2 and the third and fourth power supply patterns p3 and p4, which are electrically insulated from each other, can be electrically connected.

At this time, the first and second power supply modules 132 and 134 are connected to the first and second light emitting modules 110 and 120 in accordance with the control of the control module 140 described above among the first and second dc power sources vdc1 and vdc2 Any one can be supplied.

The illumination device 100 shown in Figs. 6 and 7 is one embodiment, and may be modified differently from Figs. 6 and 7, but is not limited thereto.

The embodiments of the present invention are not intended to limit the scope of the present invention but to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (12)

A first light emitting module;
A second light emitting module spaced apart from the first light emitting module;
A power supply module for converting the input ac power into first and second dc power; And
And a control module for controlling the power supply module such that at least one of the first and second dc power supplies is supplied to at least one of the first and second light emitting modules according to an input illumination control signal. The method according to claim 1,
The first light emitting module includes:
A plurality of first light emitting elements mounted on a first circuit pattern formed on a printed circuit board,
The second light emitting module includes:
And a plurality of second light emitting elements formed on the printed circuit board and mounted on a second circuit pattern electrically insulated from the first circuit pattern. 3. The method of claim 2,
And a pattern connecting member mounted between the first and second circuit patterns formed on the printed circuit board and having a connection pattern for electrically connecting the first and second circuit patterns. The method of claim 3,
The pattern connecting member includes:
A first power supply pattern adjacent to the first circuit pattern and a power connection pattern electrically insulated from the first power supply pattern and electrically connecting second power supply patterns adjacent to the second circuit pattern to each other, Lt; / RTI > The method according to claim 1,
The power supply module includes:
A first power supply module for supplying the first dc power to at least one of the first and second light emitting modules; And
And a second power supply module for supplying the second dc power to at least one of the first and second light emitting modules. 6. The method of claim 5,
The first power supply module includes:
And supplies the first dc power to the first and second light emitting modules when a first control signal is input from the control module. 6. The method of claim 5,
The second power supply module includes:
And supplies the second dc power to the first and second light emitting modules when a second control signal is input from the control module. 6. The method of claim 5,
When the third control signal is inputted from the control module,
The first power supply module includes:
Supplying the first dc power to the first light emitting module,
The second power supply module includes:
And supplies the second dc power to the second light emitting module. 6. The method of claim 5,
The first power supply module includes:
A first rectifier for full-wave rectifying the ac power source to a first reference dc power source;
A first smoothing unit for smoothing the first reference dc power source to the first dc power source; And
And a first converter unit for varying a power level of the first dc power source. 6. The method of claim 5,
The second power supply module includes:
A second rectifying unit for full-wave rectifying the ac power source to a second reference dc power source;
A second smoothing unit for smoothing the second reference dc power source to the second dc power source; And
And a second converter unit for varying a power level of the second dc power source. 6. The method of claim 5,
The power supply level of the first dc power supply
And the power level of the second dc power source. The method according to claim 1,
The control module includes:
And outputs the first to third control signals so that light is emitted from at least one of the first and second light emitting modules according to the illumination control signal to control the power supply module.

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