KR101020590B1 - Lighting device - Google Patents

Abstract

PURPOSE: A lighting device is provided to efficiently emit light by improving the replacement and assembly structure of a light source. CONSTITUTION: A first main body(310a) has a first side. A second main body(310b) has a second side. A plurality of light emitting diodes are installed on the first and second sides. A third main body(320) is formed between the first main body and the second main body. A combination unit is combined with two of first to third bodies and has a groove or protrusion.

Description

LIGHTING DEVICE

Embodiments relate to a lighting device.

Light emitting diodes (LEDs) are a type of semiconductor device that converts electrical energy into light. The light emitting diode has advantages of low power consumption, semi-permanent life, fast response speed, safety and environmental friendliness compared to conventional light sources such as fluorescent and incandescent lamps. Accordingly, many researches for replacing the existing light sources with light emitting diodes have been conducted, and the light emitting diodes have been increasingly used as light sources for lighting devices such as various lamps, liquid crystal displays, electronic displays, and street lamps that are used indoors and outdoors.

Embodiments provide an illumination device having a new structure.

Embodiments provide an illumination device that is easy to replace and assemble a light source unit.

Lighting device according to the embodiment, the coupling member is coupled to the inner upper surface of the housing, the housing, the insertion groove is formed in the direction toward the inner upper surface of the housing, the coupling member provided with a first connecting terminal in the middle of the insertion groove At least one reflector coupled between the inner wall surface of the housing and the outer wall surface of the coupling member, and a light source portion, wherein the light source portion has a first coupling portion detachably coupled to the coupling member through an insertion groove thereon; A first body having a first inclined surface inclined toward the reflector at a lower portion thereof, and a second coupling portion detachably coupled to the coupling member through an insertion groove at an upper portion thereof, and a second inclined surface inclined toward the reflector at a lower portion thereof The second body, the first inclined surface and the plurality of light emitting diodes provided on the second inclined surface, is installed between the first body and the second body, the coupling of the light source and the coupling member The intermediate body is provided with a second connecting terminal electrically connected to the first connecting terminal on the upper portion, and the first body, the second body, and is installed at at least one end of both ends of the intermediate body, the first body, the intermediate body And a coupling cap detachably coupling the second body to each other.

According to the embodiment, it is possible to provide a lighting device having a new structure.

According to the embodiment, it is possible to provide a lighting device that is easy to replace and assemble the light source unit.

1 is a perspective view of a lighting apparatus according to an embodiment.
2 is an exploded perspective view of the lighting apparatus according to the embodiment;
3 is a sectional view of a lighting apparatus according to an embodiment;
Figure 4a is a cross-sectional view of the coupling member shown in FIG.
4B is an enlarged view of a region A of FIG. 3.
5 and 6 are perspective views of the light source unit according to the embodiment.
7 is an exploded perspective view of the light source unit according to the embodiment;
8 is a perspective view illustrating a coupling relationship between a first connector and a second connector of the lighting apparatus according to the embodiment.
9A and 9B are top views of a first connector and a second connector of the lighting apparatus according to the embodiment.
10A and 10B illustrate a process of coupling and detaching a light source unit and a coupling member according to an embodiment.
11 and 12 are cross-sectional views of the light source unit and the coupling member of the lighting apparatus according to the modification.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings. However, the accompanying drawings are only described in order to more easily disclose the contents of the embodiments, the scope of the present invention is not limited to the scope of the accompanying drawings will be readily understood by those of ordinary skill in the art. Could be.

[ Example ]

1 is a perspective view of a lighting device 1 according to an embodiment. 2 is an exploded perspective view of the lighting device 1 according to the embodiment. 3 is a cross-sectional view of the lighting device 1 according to the embodiment. 4A is a cross-sectional view of the coupling member shown in FIG. 3. 4B is an enlarged view of a region A of FIG. 3.

1 to 4B, the lighting apparatus 1 according to the embodiment includes a housing 100, a coupling member 110, a reflector 200, a light source unit 300, and a power source driving unit 400.

One. housing 100 and Coupling member (110)

The housing 100 may be formed in the form of a box that can accommodate the coupling member 110, the reflector 200, and the power driving unit 400. The shape of the housing 100 may be rectangular when viewed from the outside, but is not limited thereto and may have various shapes.

The housing 100 may be formed of a material capable of effectively dissipating heat. For example, the housing 100 may include aluminum (Al), tin (Sn), nickel (Ni), silver (Ag), copper (Cu), titanium (Ti), molybdenum (Mo), tungsten (W), and gold. It may be formed of a metal such as (Au), platinum (Pt).

Connection grooves 107 may be formed on the side and / or upper surface of the housing 100 to electrically connect the power driver 400 to an external power source.

The housing 100 has an opening 101 to allow light emitted from the light source 300 to be reflected by the reflector 200 and emitted.

On the other hand, when the lighting device 1 is installed on an external support member such as a ceiling or a wall surface, an insertion portion corresponding to the shape of the lighting device 1 is formed on the external support member, and the lighting device 1 is inserted into the insertion portion. And fixed. At this time, the coupling frame 500 is coupled to the lower end of the side of the housing 100, it is possible to firmly couple the lighting device 1 to the external support member.

The coupling member 110 may be coupled on the inner upper surface of the housing 100. The coupling member 110 may be coupled to the housing 100 in various ways. For example, the coupling member 110 may be coupled to the housing 100 by coupling screws, adhesives, or the like.

Coupling member 110 may be formed to extend in the first direction on the upper surface 102 of the housing 100. For example, the coupling member 110 may be formed to extend from one inner wall surface of the housing 100 to the opposite inner wall surface.

The housing 100 and the coupling member 110 may be formed to detach the reflector 200.

A second groove 103 may be formed in the inner wall surface of the housing 100 into which the first side 210 of the reflector 200 may be inserted. The second groove 103 may be formed in one piece, or may be formed in plurality.

The first groove 111 may be formed on the outer wall surface of the coupling member 110. The first groove 111 may be formed to extend in the first direction. The second side 220 of the reflector 200 may be inserted into the first groove 111.

As the first side 210 of the reflector 200 is inserted into the second groove 103 of the housing 100, and the second side 220 is inserted into the first groove 111 of the coupling member 110, The housing 100 and the coupling member 110 may fix and support the reflector 200.

In addition, the coupling member 110 may be formed so that the light source 300 is detachable.

An insertion groove 112 may be formed in the middle portion of the coupling member 110. The insertion groove 112 may be inserted into a portion of the light source unit 300. Insertion groove 112 may be formed to extend in the first direction.

The third groove 113 may be formed on the inner wall surface of the insertion groove 112. The protruding end 313 of the light source unit 300 may be inserted into the third groove 113. Accordingly, the third groove 113 may firmly couple the light source unit 300 to the coupling member 110. A more detailed description of the coupling relationship between the light source unit 300 and the coupling member 110 will be described later.

The first connection terminal 120 may be formed in the middle portion of the insertion groove 112. When the light source unit 300 is inserted into the insertion groove 112, the first connection terminal 120 may be electrically coupled to the second connection terminal 330 of the light source unit 300. When the first connection terminal 120 and the second connection terminal 330 are connected, power and / or driving signals may be transmitted to the light source unit 300 through the first connection terminal 120 and the second connection terminal 330. Can be.

One or more first connection terminals 120 may be formed according to the design of the lighting device 1. A more detailed description of the first connection terminal 120 will be described later along with a detailed description of the second connection terminal 330.

In addition, the coupling member 110 may serve to directly discharge heat generated from the light source unit 300 or transfer it to the housing 100.

Coupling member 110 is preferably formed of a material that can effectively release and / or transfer heat. For example, the coupling member 110 may include aluminum (Al), tin (Sn), nickel (Ni), silver (Ag), copper (Cu), titanium (Ti), molybdenum (Mo), tungsten (W), It may be formed of a metal such as gold (Au), platinum (Pt).

Some regions of the coupling member 110 may have a concave-convex structure 116. The unevenness 116 may improve heat dissipation efficiency by widening the surface area of the coupling member 110.

2. Reflector 220

The reflector 200 may include a first reflector 200a and a second reflector 200b. The first reflector 200a and the second reflector 200b may be coupled to or separated from the housing 100 and the coupling member 110.

For example, when the second reflector 220b is coupled to the housing 100 and the coupling member 110, as shown in FIG. 2, the second side 220 of the second reflector 220b is coupled to the coupling member. It may be inserted into the first groove 111 of the 110, and the first side 210 may be coupled by being inserted into the second groove 103 of the housing 100. The second side 220 of the reflector 200 may be formed to have a step. In addition, the first side 210 of the reflector 200 may also be formed to have a step. In addition, one or more insertion ends 211 may be formed on the first side 210. At least one insertion end 211 that may be inserted into the second groove 103 may be formed on the first side 210 of the reflector 200. The second groove 103 may be formed to correspond to the shape of the insertion end 211.

The first reflector 200a and the second reflector 200b may have a parabolic surface and may be formed to extend in a first direction. Accordingly, the first reflector 200a and the second reflector 200b may form a parabola having two parabolic surfaces. However, the shape of the reflector 200 may be variously modified according to the desired illumination.

The reflector 200 may be formed of a metal material or a resin material having high reflection efficiency. For example, the resin material may include any one of PET, PC, and PVC resin. In addition, the metal material may include at least one of silver (Ag), an alloy including silver (Ag), an alloy including aluminum (Al), and aluminum (Al).

The surface of the reflector 200 may be coated with silver (Ag), aluminum (Al), a white photo solder resist (PSR) ink, a diffusion sheet, or the like, or an oxide film may be formed by anodizing.

However, the material and the color of the reflector 200 are not limited thereto, and may be variously selected according to the lighting to be implemented by the lighting device 1.

3. Power drive unit 400

The power driver 400 may provide at least one of a power source and a driving signal when the power driver 400 is connected to the light source unit 300.

2 and 3, the power driver 400 may be installed on a space provided between the inner surface of the housing 100 and the parabolic reflector 200. That is, an empty space is formed between the reflector 200 and the corner portion of the housing 100 by the parabolic shape of the reflector 200, and the power driver 400 may be installed on the empty space.

The power driver 400 may convert AC power input from the outside into DC power and output the DC power.

The power driver 400 may be electrically connected to the light source 300 by a wire or a flexible printed circuit board (FPCB). For example, the wire or FPCB extends from the power driver 400, and is electrically connected to the first connection terminal 120 through a connection hole formed in the coupling member 110, and the first connection terminal 120 is formed of the first connection terminal 120. By being electrically connected to the second connection terminal 330, the power driver 400 and the light source 300 may be electrically connected.

4. Light source (300)

5 and 6 are perspective views of the light source unit 300 according to the embodiment. 7 is an exploded perspective view of the light source unit 300 according to the embodiment.

5 to 7, the light source 300 according to the embodiment includes a first body 310a, a second body 310b, an intermediate body 320, and a plurality of light emitting diodes (LEDs) ( 312), and a coupling cap 350. The first body 310a, the second body 310b, and the intermediate body 320 form a body of the light source unit 300. The light source unit 300 may be formed to extend in a first direction, that is, along a length direction of the reflector 200.

1) the first body 310a and the second body 310b

The first body 310a may be formed to have a first inclined surface. The first inclined surface may be formed on the outer wall surface of the first body 310a. The first inclined surface may be formed to face the parabolic surface of the first reflector 200a. However, the first body 310a may have a plurality of inclined surfaces in addition to the first inclined surface.

The second body 310b may also be formed to have a second inclined surface. The second inclined surface may be formed on the outer wall surface of the second body 310b. The second inclined surface may be formed to face the parabolic surface of the second reflector 200b. However, the second body 310b may have a plurality of inclined surfaces in addition to the second inclined surface.

Light emitting grooves 316 may be formed in the first and second inclined surfaces, respectively.

The substrate 311 may be installed on the bottom of the light emitting groove 316. A plurality of light emitting diodes 312 are provided on the substrate 311, and the plurality of light emitting diodes 312 and the power driver 400 may be electrically connected by the substrate 311. Alternatively, a plurality of electrodes (not shown) may be disposed in the light emitting groove 316, and the plurality of light emitting diodes 312 and the power driver 400 may be electrically connected by the plurality of electrodes (not shown). An optical structure 318 may be installed on the plurality of light emitting diodes 312. The optical structure 318 will be described later.

The depth and width of the light emitting groove 316 may be variously adjusted according to the light distribution of the plurality of light emitting diodes 312 installed in the light emitting groove 316. That is, the lighting device 1 may adjust the depth and width of the light emitting groove 316 so that the light emitted from the light source 300 may be provided by the reflector 200 instead of being directly provided to the user. As a result, glare may be reduced to the user to provide soft light.

The light distribution angle of the light emitted through the light emitting groove 316 may be 90 ° to 110 °, the depth and width of the light emitting groove 316, the light emitted through the light emitting groove 316 of the reflector 200 It can be formed to be evenly incident on the entire area.

In addition, the depth and width of the light emitting groove 316 is, after a portion of the light emitted from the plurality of light emitting diodes 312 is emitted to the outside through the opening 101, the remaining portion is reflected by the reflector 200 It may be adjusted to be discharged to the outside through the opening 101.

The plurality of light emitting diodes 312 may be selected to have various combinations, for example, among red, green, blue or white light emitting diodes emitting red, green, blue or white light. In addition, the plurality of light emitting diodes 312 may be arranged in an array form in the light emitting grooves 316.

The plurality of light emitting diodes 312 may be controlled by a power source and / or a driving signal provided from the power source driving unit 400 to selectively emit light, or the luminance may be adjusted.

In addition, an optical structure 318 is disposed on the plurality of light emitting diodes 312 to adjust the light distribution and color of the light emitted from the plurality of light emitting diodes 312, and to provide a variety of brightness and colors as needed. Can be implemented.

Both ends of the optical structure 318 may be inserted into the fourth groove formed in the inner surface of the light emitting groove 316 in a sliding manner and coupled to the light source 300. For example, the fourth groove may be formed to extend in the first direction, and the optical structure 318 may be coupled to the light source unit 300 by being inserted into the fourth groove in the first direction.

The optical structure 318 may include at least one of a lens, a diffusion sheet, and a phosphor luminescent film (PLF).

The lens may include lenses having various shapes, such as a concave lens, a convex lens, and a condenser lens, depending on the design of the lighting device 1.

The diffusion sheet may evenly diffuse the light emitted from the plurality of light emitting diodes 312.

Photoexcitation film (PLF) is a film containing a phosphor. Since the phosphor included in the photoexcited film (PLF) is excited by the light emitted from the plurality of light emitting diodes 312, the lighting device 1 is driven by the first light and the phosphor emitted from the plurality of light emitting diodes 312. The excited second light may be mixed to implement emotional lighting having various colors.

For example, when the plurality of light emitting diodes 312 emits blue light, and the photoexcited film PLF comprises a yellow phosphor excited by blue light, the lighting device 1 is configured to emit blue light and yellow light. It can be mixed to emit white light.

Since the optical structure 318 may be easily coupled to the fourth groove, the optical structure 318 may be easily replaced with one of a lens, a diffusion sheet, and an optical excitation film according to a user's needs.

The first body 310a may be formed to have a first coupling part 315a. The first coupling portion 315a is a portion inserted into the insertion groove 112 of the coupling member 110 as an upper portion of the first body 310a.

The second body 310b may be formed to have a second coupling portion 315b. The second coupling portion 315b becomes a portion inserted into the insertion groove 112 of the coupling member 110 as an upper portion of the second body 310b.

The height of the first body 310a and the second body 310b may be higher than the height of the intermediate body 320 by the first coupling part 315a and the second coupling part 315b.

Protruding ends 313 may be formed at upper ends of the first coupling part 315a and the second coupling part 315b, respectively. The protruding end 313 may have a shape in which a part of the upper ends of the first coupling part 315a and the second coupling part 315b protrude outward. When the first coupling part 315a and the second coupling part 315b of the first body 310a and the second body 310b are inserted into and coupled to the insertion groove 112 of the coupling member 110, the protruding end The 313 is inserted into the third groove 113 formed in the insertion groove 112, thereby firmly coupling the light source unit 300 to the coupling member 110.

2) intermediate body (320)

The intermediate body 320 may be formed between the first body 310a and the second body 310b. In this case, both side surfaces of the intermediate body 320 may contact the inner surfaces of the first body 310a and the second body 310b. Here, the inner surfaces of the first body 310a and the second body 310b mean opposite surfaces of the outer surface on which the light emitting diode 312 is mounted. A portion of the bottom surface of the intermediate body 320 may be exposed between the first body 310a and the second body 310b.

The second connection terminal 330 may be installed on the upper portion of the intermediate body 320. When the light source unit 300 is inserted into the coupling member 110, the second connection terminal 330 is coupled to the first connection terminal 120 formed in the insertion groove 112 of the coupling member 110 to be electrically connected. Can be. The power driver 400 may provide a power source and / or a driving signal to the light source unit 300 through the first connection terminal 120 and the second connection terminal 330.

In addition, the spring 340 may be disposed between the first body 310a and the second body 310b on the intermediate body 320. For example, as illustrated in FIG. 4B, the spring 340 may be “c” shaped, and may have an upper surface of the intermediate body 320 and an inner portion of the first body 310a and the second body 310b. It may be arranged to contact the side. More specifically, the first coupling part 315a and the second coupling part 315b may be disposed to contact the inner surfaces.

The spring 340 may firmly couple the light source unit 300 to the insertion groove 112 of the coupling member 110 by providing an elastic force to the first body 310a and the second body 310b. The spring 340 may provide an elastic force to the first body 310a and the second body 310b in a direction away from the first body 310a and the second body 310b. That is, the spring 340 is formed between the first body 310a and the second body 310b to push the first body 310a and the second body 310b to each other. Therefore, when the light source unit 300 is inserted into the coupling member 110, the protruding end 313 formed at the upper end of the first body 310a and the second body 310b, the force applied by the spring 340 By this, it can be firmly coupled to the insertion groove 112 of the coupling member (110).

The intermediate body 320 may include a sensor unit 321 in the lower region. For example, the sensor unit 321 may be exposed between the first body 310a and the second body 310b to detect various data such as an image, audio, pressure, temperature, and radio waves.

The lighting device 1 may provide various functions in addition to providing light to the user by configuring the sensor unit 321. In addition, various data sensed by the sensor unit 321 may be used to drive the lighting device 1 to the environment in association with the driving of the plurality of light emitting diodes 312. For example, the brightness and the color of the plurality of light emitting diodes 312 may be adjusted by the data sensed by the sensor unit 321.

The sensor unit 321 may include at least one of a camera, a photo sensor, a pressure sensor, a temperature sensor, an anti-theft sensor, a radio wave sensor, and the like.

Heat generated in the plurality of light emitting diodes 312 may be emitted by the body of the light source unit 300 or transferred to the coupling member 110 to be emitted. Accordingly, the first body 310a, the second body 310b, and the intermediate body 320 are preferably formed of a material capable of effectively dissipating heat. For example, aluminum (Al), tin (Sn), nickel (Ni), silver (Ag), copper (Cu), titanium (Ti), molybdenum (Mo), tungsten (W), gold (Au), platinum It may be formed of a metal such as (Pt). In addition, irregularities are formed in a portion of the body of the light source unit 300, thereby effectively dissipating heat.

In addition, when the light source 300 is inserted into the insertion groove 112 of the coupling member 110, the first coupling portion 315a and the second coupling portion 315b may be formed in the insertion groove 112. It has a contact area with an inner side. As such, one surface of the first coupling part 315a and the second coupling part 315b comes into contact with the inner surface of the insertion groove 112 to form a heat conduction route from the light source part 300 to the coupling member 100. Can be. At this time, the heat dissipation effect may increase as the contact area is wider, but the height of the first body 310a and the second body 310b is increased, and as a result, the height of the housing 100 should be increased. Therefore, in order for the lighting device 1 to have an optimal heat dissipation effect, the relationship between the contact area and the height of the housing 100 should be considered.

In addition, the first body 310a and the second body 310b may be formed of a metal material such as aluminum having high thermal conductivity in order to increase the heat dissipation effect. Since electrical components are mounted in the intermediate body 320, it is preferable that heat is not transferred. Accordingly, the intermediate body 320 may be formed of a material such as a plastic having low thermal conductivity such that heat generated from the first body 310a and the second body 310b is not transferred.

3) Combined cap (350)

The first body 310a, the second body 310b, and the intermediate body 320 may be coupled to each other by coupling the coupling cap 350 to one end thereof. At this time, the first body 310a, the second body 310b and the intermediate body 320 may be coupled to be rotatable.

As shown in FIG. 7, a first groove 361a is formed at one central surface of the first body 310a, and a second groove 361b is formed at one central surface of the second body 310b. A third groove 361c may be formed in the central region of the central body 320. Here, the first groove 361a and the second groove 361b may be formed so that the outside thereof is opened.

A fourth groove 361d may be formed at the other lower side of the first body 310a, and a fifth groove 361e may be formed at the other lower side of the second body 310b. In addition, a sixth groove 361f may be formed below the intermediate body 320.

The coupling cap 350 has a first interference protrusion 351a, a second interference protrusion 351b, an upper fixing protrusion 351c, a first axis protrusion 351d, a second axis protrusion 351e, and a lower fixing protrusion 351f. ) May be formed.

In the first body 310a, the second body 310b, and the intermediate body 320, the first interference protrusion 351a of the coupling cap 350 is inserted into the first groove 361a, and the second interference protrusion is provided. 351b is inserted into the second groove 361b, the upper fixing protrusion 351c is inserted into the third groove 361c, the first shaft protrusion 351d is inserted into the fourth groove 361d, and The biaxial protrusion 351e is inserted into the fifth groove 361e, and the lower fixing protrusion 351f is inserted into the sixth groove 361f, thereby being coupled to each other.

The upper fixing protrusion 351c and the lower fixing protrusion 351f are inserted into the third groove 361c and the sixth groove 361f, respectively, so that the coupling cap 350 can be fixed to the intermediate body 320.

A force acts on the first body 310a and the second body 310b in a direction pushing each other by the spring 340. The force between the first body 310a and the second body 310b When it is opened to some extent, the first body 310a and the second body 310b are fixed by the first inhibiting protrusion 351a and the second inhibiting protrusion 351b so that they do not open any more. At this time, the angle between the first body 310a and the second body 310b has a maximum value by the first inhibiting protrusion 351a and the second inhibiting protrusion 351b.

The first shaft protrusion 351d is inserted into the fourth groove 361d to serve as a rotation axis of the first body 310a, and the second shaft protrusion 351e is inserted into the fifth groove 361e and the second body. It serves as a rotation axis of (310b). Accordingly, the first body 310a and the second body 310b may rotate with the first axis protrusion 351d and the second axis protrusion 351e as the rotation axis, respectively, and the first groove 361a and the first body 310b may be rotated. Since the second groove 361b is formed to be open to the outside, the second groove 361b may be separated from the first inhibiting protrusion 351a and the second inhibiting protrusion 351b of the coupling cap 350 during rotation. The first shaft protrusion 351d and the second shaft protrusion 351e formed in the lower region of the coupling cap 350 may be formed at positions adjacent to each other to serve as a rotation axis.

Meanwhile, since the first body 310a and the second body 310b are formed to have a first inclined surface and a second inclined surface facing the reflector 200, that is, a cross section of the light source 300, that is, the first body 310a and the first inclined surface. 2 The body 310b, the cross section that the intermediate body 320 is coupled may have a width of the lower end than the width of the upper end. For example, the cross section of the light source unit 300 may have a fan or polygonal shape. However, the present invention is not limited thereto, and the light source unit 300 may have various shapes.

4) the first connection terminal 120 and the second connection terminal 330

8 is a perspective view illustrating a coupling relationship between the first connection terminal 120 and the second connection terminal 330 of the lighting apparatus 1 according to the embodiment. 9A and 9B are top views of the first connection terminal 120 and the second connection terminal 330 of the lighting apparatus 1 according to the embodiment.

The first connection terminal 120 may include a first arm block 121a and a second arm block 121b, but is not limited thereto and may include one or more pairs of arm blocks.

For example, a pair of first and second terminals 123a and 123b and another pair of third and fourth terminals 123c and 123d may be formed in the first arm block 121a. . In addition, a pair of fifth and sixth terminals 123e and 123f and another pair of seventh and eighth terminals 123g and 123h may be formed in the second arm block 121b.

The first arm block 121a and the second arm block 121b are formed to have symmetrical structures with each other. That is, the first to fourth terminals 123a, 123b, 123c, and 123d and the fifth to eighth terminals 123e, 123f, 123g, and 123h are formed of the first arm block 121a and the second arm block 121b. It is formed in a symmetrical structure with respect to the space between.

The second connection terminal 330 may include a first male block 331a and a second male block 331b, but is not limited thereto and may include one or more pairs of male blocks.

For example, a pair of first and second sockets 331a and 331b and another pair of third and fourth sockets 333c and 333d may be formed on the first male block 331a. In addition, a pair of fifth and sixth sockets 333e and 333f and another pair of seventh and eighth sockets 333g and 333h may be formed in the second male block 331b.

The first male block 331a and the second male block 331b are formed to have a symmetrical structure with each other. That is, the first to fourth sockets 333a, 333b, 333c, and 333d and the fifth to eighth sockets 333e, 333f, 333g, and 333h are formed of the first male block 331a and the second male block 331b. It is formed in a symmetrical structure with respect to the space between.

Polarities of the first arm block 121a and the second arm block 121b may be symmetrically formed.

Polarities of the first and second terminals 123a and 123b are symmetrical with polarities of the seventh and eighth terminals 123g and 123h. For example, when the polarities of the first and second terminals 123a and 123b are '+' and '-', respectively, the polarities of the seventh and eighth terminals 123g and 123h are '-' and '+', respectively. If the polarity of the first and second terminals 123a and 123b are '-' and '+', respectively, the polarities of the seventh and eighth terminals 123g and 123h are respectively '+' and '- Becomes'

In addition, polarities of the third and fourth terminals 123c and 123d are symmetrical with polarities of the fifth and sixth terminals 123e and 123f. For example, when the polarities of the third and fourth terminals 123c and 123d are '+' and '-', respectively, the polarities of the fifth and sixth terminals 123e and 123f are '-' and '+', respectively. If the polarity of the third and fourth terminals 123c and 123d are '-' and '+', respectively, the polarities of the fifth and sixth terminals 123e and 123f are '+' and '-, respectively. Becomes'

The polarity of the first to eighth sockets 333a, 333b, 333c, 333d, 333e, 333f, 333g, and 333h is determined by the first to eighth terminals 123a, 123b, 123c, 123d, 123e, 123f, 123g, and 123h. It can be made in various ways depending on the polarity it has.

When the coupling member 110 and the light source unit 300 are coupled in the first direction, the first and second terminals 123a and 123b are inserted into the first and second sockets 333a and 333b, and the third and the third terminals. Four terminals 123c and 123d are inserted into the third and fourth sockets 333c and 333d, and fifth and sixth terminals 123e and 123f are inserted into the fifth and sixth sockets 333e and 333f. As the seventh and eighth terminals 123g and 123h are inserted into the seventh and eighth sockets 333g and 333h, the first and second connection terminals 120 and 330 may be electrically and physically connected. .

In addition, when the coupling member 110 and the light source unit 300 are coupled in a second direction (a direction opposite to the first direction or a direction in which the left and right sides are reversed), the first and second terminals 123a and 123b may be connected to the seventh and fifth terminals. 8 is inserted into the sockets 333g and 333h, the third and fourth terminals 123c and 123d are inserted into the fifth and sixth sockets 333e and 333f, and the fifth and sixth terminals 123e and 123f are inserted. The first and second sockets 333c and 333d and the seventh and eighth terminals 123g and 123h are inserted into the first and second sockets 333a and 333b, thereby providing a first connection terminal 120 and The second connection terminal 330 may be electrically and physically connected.

As such, since the first connection terminal 120 and the second connection terminal 330 have a symmetrical structure and polarity, the light source 300 is physically and electrically regardless of the direction in which the coupling member 110 is coupled. Can be connected. Accordingly, the lighting device 1 according to the embodiment can more easily couple the light source unit 300 to the coupling member 110, thereby increasing the convenience of use.

Meanwhile, when the coupling member 110 and the light source unit 300 are coupled, the first and second terminals 123a and 123b and the seventh and eighth terminals 123g and 123h are used as connectors for power transmission. The third and fourth terminals 123c and 123d and the fifth and sixth terminals 123e and 123f may or may not be used as connectors for transmitting driving signals.

On the contrary, the third and fourth terminals 123c and 123d and the fifth and sixth terminals 123e and 123f may be used as connectors for power transmission, and the first and second terminals 123a and 123b may be used. The seventh and eighth terminals 123g and 123h may or may not be used as connectors for transmitting driving signals.

5. Light source Desorption of the 300 and the coupling member 110

10A and 10B are views illustrating a process of coupling and separating the light source unit 300 and the coupling member 110 according to the embodiment.

1) Combined process

First, as shown in FIG. 10A, the first force F is applied to the first body 310a and the second body 310b of the light source unit 300 rotatably coupled with the lower region as the rotation axis. The angle between the body 310a and the second body 310b is reduced. In this case, the first force F may be opposite to the direction of the elastic force applied by the spring 340. Pressing the lower ends of the first coupling portion 315a and the second coupling portion 315b while applying the first force F, the gap between the first coupling portion 315a and the second coupling portion 315b is narrowed. The angle between the first body 310a and the second body 310b is reduced.

When the first force F is not applied, the first body 310a and the second body 310b are separated from each other by the elastic force provided from the spring 340, so that the light source unit 300 is coupled to the coupling member. It is difficult to insert into the insertion groove 112 of (110).

Next, as shown in Figure 10b, while applying the first force (F) to the first body (310a) and the second body (310b), the light source portion 300 is inserted into the groove 112 of the coupling member (110). Insert in At this time, when the first force (F) is not applied, the distance between the first body 310a and the second body 310b is further away by the elastic force, the protruding end 313 of the upper end of the light source unit 300 is inserted It may be inserted into the third groove 113 formed on the inner side of the groove 112. Accordingly, the light source unit 300 may be coupled to the coupling member 110.

In addition, when the light source unit 300 is coupled to the coupling member 110, the spring 340 disposed between the first body 310a and the second body 310b is the first body 310a and the second body ( Since the 310b) pushes each other, the protruding end 313 may be more firmly coupled to the third groove 113.

In addition, a uniform pressure is continuously applied to the contact surface between the first coupling portion 315a and the second coupling portion 315b and the insertion groove 112 by the spring 340. Accordingly, heat generated from the light source 300 may be more efficiently transferred through the contact surfaces of the first coupling portion 315a and the second coupling portion 315b and the coupling member 110.

2) Separation Process

When maintenance of the light source unit 300 is required, the light source unit 300 may be separated from the coupling member 110.

When the light source unit 300 is separated from the coupling member 110, a first force F is applied to the first body 310a and the second body 310b so that the first body 310a and the second body 310b are applied. After the small angle formed by the light source 300 is separated from the coupling member 110.

[ Variant ]

11 and 12 are cross-sectional views of the light source 300 and the coupling member 110 of the lighting apparatus according to the modification. In the description of the lighting device 1 according to the modification, the content overlapping with the above description will be omitted.

11 and 12, a plurality of third grooves 113a, 113b, and 113c may be formed on an inner side surface of the insertion groove 112 of the coupling member 110 of the lighting device 1. Three grooves 113a, 113b, and 113c are illustrated as being formed, but the number of the third grooves 113a, 113b, and 113c is not limited.

The light source unit 300 is inserted into and coupled to the insertion groove 112. In this case, the protruding end 313 of the upper end of the light source unit 300 may be inserted into any one of the plurality of third grooves 113a, 113b, and 113c to firmly couple the light source unit 300 to the coupling member 110.

As shown in FIG. 11, the formation depths of the plurality of third grooves 113a, 113b, and 113c may be different from each other, and the protruding end 313 of the light source unit 300 may include the plurality of third grooves 113a. According to which of the grooves 113b and 113c is inserted, the light distribution of the lighting device 1 may be variously adjusted.

In addition, as shown in FIG. 12, the inner surface of the insertion groove 112 has an inclination, and the plurality of third grooves 113a, 113b, and 113c are formed on the inner surface of the insertion groove 112 having an inclination. In this case, depending on which of the plurality of third grooves 113a, 113b, and 113c, the protruding end 313 is inserted into, the first body 310a and the second body 310b of the light source unit 300 are formed. Since the angle of view may change, the light distribution of the lighting device 1 can be variously adjusted.

As described above, by forming the plurality of third grooves 113a, 113b, and 113c on the inner surface of the insertion groove 112, the light distribution of the lighting apparatus 1 may be adjusted in various ways. Accordingly, even when the width or curvature of the reflector 200 is changed, efficient lighting can be provided without replacing the light source unit 300.

As described above, those skilled in the art to which the present invention pertains will understand that the present invention may be implemented in other specific forms without changing the technical spirit or essential features.

Therefore, the embodiments described above are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the following claims rather than the above description, and the meaning and scope of the claims And all changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

100: housing
110: coupling member
120: first connection terminal
200: reflector
200a: first reflector
200b: second reflector
300: light source
310a: first body
310b: second body
312 light emitting diode
320: intermediate body
330: second connection terminal
400: power drive unit

Claims (13)

A first body having a first face;
A second body having a second face;
A plurality of light emitting diodes provided on the first surface and the second surface;
A third body installed between the first body and the second body; And
A coupling body installed on at least one of the first body, the second body, and the third body, coupled to at least two of the first body, the second body, and the third body and having a groove or a protrusion; Lighting device comprising a. The method of claim 1,
The groove of the combination comprises a hole. The method of claim 1,
At least one end of each of the first body, the second body, and the third body is formed with at least one groove,
The combination is,
At least three or more protrusions are inserted into grooves formed at one end of the first body, the second body, and the third body,
The at least three protrusions are inserted into at least one groove in one end of each of the first body, the second body, and the third body, thereby providing the first body, the second body, and the third body. Combined with each other, lighting devices. housing;
A coupling member coupled to the housing, the coupling member having an insertion groove and provided with a first connection terminal in the insertion groove;
At least one reflector positioned between the housing and the coupling member; And
Including a light source unit,
The light source unit,
A first body having a first sloped surface inclined toward the reflector;
A second body having a first face;
A plurality of light emitting diodes provided on the first inclined surface;
Is installed on at least one end of the first body, the second body, the lighting device comprising a coupling unit having a groove or a projection, and coupling the first body and the second body. The method of claim 4, wherein
And an intermediate body installed between the first body and the second body and having the second connection terminal electrically connected to the first connection terminal at an upper portion thereof. The method of claim 4, wherein
And the first body and the second body have a symmetrical structure. The method of claim 4, wherein
And the combination detachably couples the first body and the second body. The method of claim 4, wherein
The combination is in the form of a cap protruding to surround one end of the first body and the second body, lighting device. The method of claim 5,
At least one end of each of the first body, the second body, and the intermediate body is formed with at least one groove,
The combination is,
At least three or more protrusions are inserted into grooves formed at one end of the first body, the second body, and the intermediate body,
The at least three or more protrusions are inserted into at least one of the grooves formed at one end of the first body, the intermediate body, and the second body, thereby connecting the first body, the intermediate body, and the second body to each other. Combined, lighting device. The method of claim 5,
The light source unit,
Is installed on the intermediate body and disposed between the first body and the second body, to provide an elastic force to the first body and the second body, the direction in which the distance between the first body and the second body is far The lighting device further comprises a spring for providing an elastic force. The method of claim 4, wherein
And the reflector is formed to have a parabolic face. The method of claim 11,
And a power driver installed on a space provided between the corner portion inside the housing and the reflector and providing at least one of a power source and a drive signal to the light source unit. The method of claim 4, wherein
A plurality of third grooves are formed on the inner wall surface of the insertion groove,
A protruding end is formed at an upper end of the first coupling part inserted into the insertion groove,
The protruding end is,
The lighting apparatus is coupled to the light source unit and the coupling member by being inserted into the third groove.

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