KR100960662B1 - Led lighting apparatus - Google Patents

Abstract

PURPOSE: A flat LED(Light Emitting Diode) lighting device is provided to smoothly emit the heat generated from a light source part by arranging a heat-sink frame in one side of a light guide plate. CONSTITUTION: A V groove is formed in the rear side of a light guide plate(110). A reflection sheet(120) is attached to the rear side of the light guide plate. A fixing plate(130) is arranged in the rear side of the reflection sheet. A light source part(150) comprises a LED light source and a LED substrate. A heat-sink frame(200) surrounds the light source part. The heat-sink frame comprises a first and a second container. The first container stores the light source part. The second container stores a substrate for supplying power. A protrusion part is projected from the heat-sink frame.

Description

Flat type LED lighting apparatus {LED lighting apparatus}

The present invention relates to a flat panel LED lighting device, and more particularly, to a heat sink for a flat panel LED lighting device to prevent the deterioration of the light source to facilitate the heat dissipation of the light source unit configured in the flat panel LED lighting device. .

In general, a lighting device mainly used as a backlight unit such as an LCD is installed on one side of a light guide plate made of an acrylic plate that is capable of transmitting a light source that emits light. In order to induce scattering is formed by forming a predetermined pattern of grooves, uneven dots or printing dots on one surface.

1 is a rear view showing the configuration of a lighting device mainly used as a general backlight unit, Figure 2 is a partial cross-sectional view of the line A-A of FIG.

1 and 2, the conventional lighting device 1 is provided with a light source 40 for emitting light on the side of the light guide plate 10 formed of a transmissive material, that is, an acrylic plate, the light source ( 40 includes a substrate (not shown) electrically connected thereto, and will be referred to hereinafter as a light source unit (not shown) including the light source 40 and the substrate.

On the rear surface of the light guide plate 10, a plurality of V grooves 11 are formed in the horizontal and vertical directions to uniformly scatter the light emitted from the light source 40 on the side to the front, and the V grooves 11 are formed. The reflective sheet 20 of PET or paper is attached to the rear surface of the light guide plate 10.

In addition, the front of the light guide plate 10 is attached to the diffusion film 30 for diffusing the light to the front display.

In addition, one side of the light guide plate 10 is fixed to the front and rear surfaces of the light guide plate 10 while accommodating the light source 40 and the substrate accompanying the light source 40 in the inner space to install the light source unit on the light guide plate 10. The frame 50 is installed.

However, the lighting device 1 mainly used as such a conventional backlight unit 1 includes a light source 40 and a substrate accompanying the inside of the frame 50 installed on one side of the light guide plate 10. 40 and the substrate are spaced apart from the inner surface of the frame 50, the transfer of heat generated from the light source 40 is not made smoothly to the frame 50 side, the heat dissipation effect is reduced, deterioration of the light source 40 is promoted Not only did the illuminance of the 40 deteriorate rapidly, but the life of the light source 40 was shortened.

Therefore, there is no problem in using the conventional backlight unit, but the illumination intensity should be high to use as a light source for direct lighting, and the heat generation of the LED is further intensified, thus causing a new problem to use for direct lighting.

Accordingly, the present invention is to solve the problems of the prior art as described above, by increasing the brightness of the conventional lighting mainly used as a backlight unit to further increase the brightness, as well as for lighting, advertising, lighting, floor of By constructing a flat panel LED lighting device to be used for exhibition lighting, induction furnace and decoration, etc., in order to solve the heat dissipation problem caused by this, by constructing a heat dissipation frame to closely wrap the substrate of the light source unit on one side of the light guide plate It is an object of the present invention to provide a heat dissipation device for a flat panel type LED lighting device which not only prevents deterioration of light source and deterioration of illuminance by extending the light source part smoothly, but also extends the life of the light source.

The above object is a flat panel type LED lighting device 100, the light guide plate 110, the V-groove 111 is formed on the rear; A reflection sheet 120 attached to a rear surface of the light guide plate; A fixing plate 130 installed at the rear of the reflective sheet 120; A light source unit 150 including an LED light source 151 and an LED substrate 152 installed in contact with an upper surface of the light guide plate 110; A heat radiation frame 200 in close contact with the light source unit 150 and surrounding the light source unit; And a protrusion 210 formed to protrude upward and outward of the heat dissipation frame 200 to form a separate accommodation space between the heat dissipation frame 200 and the heat dissipation frame 200. Including, but the heat radiation frame 200 is formed above the light guide plate 110, the light source unit 150 is accommodated in close contact with the substrate 152 of the light source unit 150 is formed to surround the light source unit The first accommodating part 220 and a rear side of the light guide plate 110 are formed to receive and surround the power supply substrate 153 accommodated in a direction parallel to the light guide plate 110 so as to be closely wrapped. And a second accommodating part 230 including a first end 200a in close contact with the fixing plate 130, wherein the heat dissipation frame 200 is in contact with the front surface of the light guide plate 110. 200b) from the first accommodating part 220, to the protrusion 210, the second accommodating part 230, and the first end portion 200a facing the first accommodating part 220. It is formed integrally, the first substrate 220, the LED substrate 152 in a sliding manner from at least one side of the left and right sides In order to be coupled, the power supply substrate 153 is coupled to the second receiving portion 230 in a sliding manner from at least one side of the left and right, thereby reducing the thickness of the flat panel LED lighting device 100. In addition, the coupling operation of the LED substrate and the power supply substrate can be made easily, and the protrusion 210 is formed as a length corresponding to the heat radiation frame 200, thereby maximizing the heat radiation area by maximizing the heat radiation effect. It is achieved by a heat dissipation device for a flat panel LED lighting device characterized in that.

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According to the heat dissipation device for a flat panel LED lighting device of the present invention, the heat dissipation frame surrounding the substrate of the light source unit in close contact with the light guide plate is configured to not only transfer heat generated from the light source unit through the heat dissipation frame in close contact with the heat dissipation frame. Since the heat dissipation through the protruding protrusions or the plurality of heat radiation fins of the light source unit is smoothly radiated to prevent degradation of the light source and degradation of illuminance, it has the effect of extending the life of the light source.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is an exploded perspective view showing the configuration of a flat panel LED lighting apparatus according to the present invention, Figure 4 is a cross-sectional view taken along line BB of Figure 3, Figure 5 is a flat panel LED lighting apparatus according to another embodiment of the present invention An exploded perspective view showing the configuration, Figure 6 is a cross-sectional view taken along line CC of FIG.

3 to 6, the flat LED lighting apparatus 100 of the present invention, the light guide plate 110 formed of an acrylic plate of a transmissive material, and is installed on one side of the light guide plate 110 to provide light It includes a light source unit 150 for emitting light.

On the rear surface of the light guide plate 110, a plurality of V grooves 111 are formed in the horizontal and vertical directions to uniformly scatter the light emitted from the light source 151 on the side, and the V grooves 111 are formed. The reflective sheet 120 of PET or paper is attached to the rear surface of the light guide plate 110, and the fixing plate 130 made of aluminum or steel is installed on the rear surface of the reflective sheet 120.

In addition, the front of the light guide plate 110 is provided with a diffusion film 140 for diffusing the light to the front display.

In addition, the light source unit 150 includes a light source 151 and a substrate 152 that is electrically connected to the light source 151 and is always accompanied by the light source 151, and the light source unit 150 is installed at one side of the light guide plate 110. It is accommodated in the interior of the heat radiation frame 200, 300 is provided.

Here, the light source 151 is made of an LED, the LED can be installed in any environment without being limited by the temperature, and has a long life advantage is strong compared to the conventional fluorescent lamps.

The flat panel LED lighting device 100 configured as described above includes lighting means such as a conventional backlight unit. The flat panel LED lighting device 100 includes LCD, advertisement, lighting, exhibition lighting, induction furnace and It can be used in various forms such as decoration.

The heat dissipation frames 200 and 300 may be formed of a material having good thermal conductivity, and preferably, made of aluminum.

As shown in FIGS. 3 and 4, the heat dissipation frame 200 accommodates and encloses the light source unit 150 therein at one side of the light guide plate 110 to be in close contact with the substrate 152 of the light source unit 150. Is installed.

The heat dissipation frame 200 has a first accommodating part 220 formed therein to be in close contact with the substrate 152 of the light source part 150 by accommodating the light source part 150 on one side thereof, and another substrate 153 on the other side thereof. A second accommodating part 230 is formed to be accommodated and tightly wrapped.

In this case, the substrates 152 and 153 are slidably coupled to the first and second accommodating parts 220 and 230 to not only reduce the thickness of the flat panel LED lighting device 100 but also to combine the same. It is easy to improve workability.

Further, an outwardly protruding protrusion 210 is further formed on the outside of the heat dissipation frame 200, and the protrusion 210 is bent from the heat dissipation frame 200 as illustrated in FIG. 4, and the protrusion 210 is formed. And a predetermined accommodation space may be further formed between the heat dissipation frame 200.

In particular, the protrusion 210 of the heat dissipation frame 200 protruded as described above is formed as a length corresponding to the heat dissipation frame 200, thereby maximizing the heat dissipation area to maximize the heat dissipation effect.

5 and 6 illustrate another embodiment of the heat dissipation frame 300, the heat dissipation frame 300 formed of an aluminum material having good thermal conductivity as shown in the drawing has a light source unit at one side of the light guide plate 110. While accommodating and enclosing 150 therein, it is installed in close contact with the substrate 152 of the light source unit 150.

Meanwhile, the first and second accommodating parts 320 and 330 are formed in the heat dissipation frame 300 according to the present embodiment, but the first accommodating part 320 has a light source 150 therein. ) Is tightly wrapped around the substrate 152 of the light source unit 150, while the second receiving unit 330 is installed on the rear surface of the light guide plate 110 when the substrate is not provided as shown in FIG. 6. One side end of the fixing plate 130 is to be installed in close contact.

The substrate 152 and the fixing plate 130 installed as described above are slide-coupled to the first and second accommodating parts 220 and 230, respectively, to reduce the thickness of the flat panel LED lighting device 100 as well as the combination thereof. Work is made simpler and workability is improved.

In addition, a plurality of heat dissipation fins 310 protrude from the outer surface of the heat dissipation frame 300, that is, the outer surfaces of the first and second accommodating portions 320 and 330, and wrinkled wrinkles on the surface of the heat dissipation fin 310. 311 is formed.

As described above, the plurality of heat dissipation fins 310 protruded to increase the contact area with the air to improve the heat dissipation effect of the heat dissipation fins 300, but to maximize the heat dissipation area by the wrinkles 311 formed on each heat dissipation fin 310. As a result, the heat radiation effect of the heat radiation frame 300 is maximized.

On the other hand, the heat dissipation frame 200, 300 is installed as described above, one side thereof is installed in contact with the fixed plate 130 is installed on the rear of the light guide plate 110, the fixed plate 130 is made of a good thermal conductivity aluminum material By being made of a steel material it is possible to dissipate the heat conducted from the radiating frame 200,300.

Therefore, the heat dissipation frames 200 and 300 installed as described above are housed with the light source unit 150 therein, and the substrate 152 of the light source unit 150 is installed in close contact with the substrate to generate heat generated from the light source unit 150. After being conducted to the heat dissipation frame 200 and 300 in contact with it through 152, the heat dissipation is made to the outside by the protrusions 210 or the plurality of heat dissipation fins 310 protruding from the heat dissipation frames 200 and 300. do.

Therefore, the heat dissipation area of the heat dissipation frames 200 and 300 is maximized by the protrusions 210 or the heat dissipation fins 310, thereby improving heat dissipation effect, and reducing the illuminance of the light source 151 and shortening the lifespan due to heat generation. Will be.

1 is a rear view showing the configuration of a lighting device used as a general backlight unit.

2 is a partial detailed cross-sectional view taken along the line A-A of FIG.

3 is an exploded perspective view showing the configuration of a flat panel LED lighting apparatus according to the present invention.

4 is a cross-sectional view taken along the line B-B in FIG.

5 is an exploded perspective view showing the configuration of a flat panel LED lighting apparatus according to another embodiment of the present invention.

6 is a cross-sectional view taken along the line C-C of FIG.

<Description of the symbols for the main parts of the drawings>

100: flat LED lighting device 110: light guide plate

111: V groove 120: Reflective sheet

130: fixed plate 140: diffusion film

150: light source 151: light source

152,153: 200 substrate: heat radiation frame

210: protrusion 220: first receiving portion

230: second receiving portion 300: heat dissipation frame

310: heat radiation fin 311: wrinkles

320: first accommodating part 330: second accommodating part

Claims (4)

As a flat type LED lighting device 100, A light guide plate 110 having a V groove 111 formed on a rear surface thereof; A reflection sheet 120 attached to a rear surface of the light guide plate; A fixing plate 130 installed at the rear of the reflective sheet 120; A light source unit 150 including an LED light source 151 and an LED substrate 152 installed in contact with an upper surface of the light guide plate 110; A heat radiation frame 200 in close contact with the light source unit 150 and surrounding the light source unit; And A protrusion 210 formed to protrude upward and outward of the heat dissipation frame 200 to form a separate accommodation space between the heat dissipation frame 200 and the heat dissipation frame 200; Including, The heat radiation frame 200, A first accommodating part 220 formed above the light guide plate 110 to accommodate the light source part 150 to be in close contact with the substrate 152 of the light source part 150 to surround the light source part; First to be formed on the rear of the light guide plate 110, the power supply substrate 153 accommodated in a direction parallel to the light guide plate 110 is formed so as to be wrapped in close contact, the first contacting the fixed plate 130 A second receiving portion 230 including an end portion 200a, The heat dissipation frame 200 may include the protruding portion at a position facing the first accommodating part 220 and the first accommodating part 220 from a second end 200b closely contacting the front surface of the light guide plate 110. 210, the second accommodating part 230, and up to the first end 200a are integrally formed. The first accommodating part 220 allows the LED substrate 152 to be coupled in a sliding manner from at least one side of the left and right sides, and the power supply substrate 153 is provided at least in the left and right sides of the second accommodating part 230. By being coupled in a sliding manner from one side, not only can reduce the thickness of the flat-panel LED lighting device 100, but also to facilitate the coupling operation of the LED substrate and the power supply substrate, The protrusion 210 is formed as a length corresponding to the heat radiation frame 200, heat dissipation device for a flat panel LED lighting device, characterized in that to maximize the heat dissipation effect by maximizing the heat dissipation area. delete delete delete

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