KR20100090158A - A light emitting diode lighting with radiation heat - Google Patents

Abstract

PURPOSE: A light emitting diode lighting with a heat sink is provided to prevent the deterioration of LED due to overheat by inflowing cool air inside a dispersion cover. CONSTITUTION: A dispersion cover(130) corresponds to the front of a heat sink(110). A plurality of cooling fins are arranged on the outside of the heat sink. The dispersion cover includes a reflector having an uneven surface. A closing cap(150) is installed to make the dispersion cover adhere closely to the heat sink. A driving unit blocks and supplies power to the LED unit(113).

Description

LED lighting with heat dissipation device

The present invention forms an air flow hole to allow the inflow of external air from at least one of the heat dissipation member and the diffusion cover and the closing cap constituting the LED lighting to quickly discharge the heat generated from the LED unit while spreading the fresh air cover The present invention relates to an LED lighting device having a heat dissipation device that flows into an inner side of the LED unit and prevents a decrease in life of the LED unit due to overheating.

In general, a light emitting diode (LED) generates a minority carrier (electron or hole) injected using a pn junction structure of a semiconductor, and emits light by recombination thereof. There is a characteristic that the straightness becomes strong.

Such an luminaire using an LED may include a light bulb formed of a bulb having a conventional threaded socket and a bulb shape, and the bulb may receive an external commercial power source between the lower end of the bulb and the socket in a PWM manner. A power supply for supplying a current, a multi-layered LED substrate having a plurality of LEDs on the top of the power supply, a socket for supplying and fixing power to the multi-layered LED substrate and the like.

LED fluorescent lamps are disclosed in Korean Patent No. 784886 in connection with such a technique, and the configuration thereof is as shown in FIGS. 1A and 1B. The circuit board 30 is composed of a plurality of LED modules 20 having an LED in the longitudinal direction, one side thereof is provided with a current conversion mechanism 40 for converting AC into direct current. In addition, the lamp vison tube 60 is formed in a cylindrical pipe shape at both ends of the lamp socket 61 is sealed inside the closed configuration.

In addition, when assembling the lamp green tube 60 and the lamp socket 61, the completed circuit board 30 is embedded into the green tube 60, and the connectors provided at both ends of the circuit board 30 are conventional. In such a state that the lamp socket 61 is turned out, such as a fluorescent lamp, the airtightness can be maintained.

In this case, when power is supplied to the fluorescent lamp, light is generated in the LED module 20, and the light generated from each LED module 20 is applied to the fluorescent material (P) layer applied to the inside of the lamp green tube 50. The reflection is generated by the light, and the light is emitted to the soft light through the entire interior of the cylindrical lamp vitreous tube 60 lost straightness.

However, the fluorescent lamp as described above does not consider the heat dissipation part that minimizes the heat generation according to the operation of the LED module 20, which reduces the life of the actual lighting, occurs during the operation of the LED module 20 There is a problem that the light energy is reduced by the heat energy that is reduced to reduce the efficiency of the lighting.

An object of the present invention for improving the above problems, to efficiently dissipate heat to the outside to improve the heat dissipation characteristics, to prevent the degradation of the lighting efficiency due to the increase in the thermal energy, the beautiful on the outside While forming the exterior, the heat dissipation can be easily made, the heat transfer area can be maximized, the heat generated from the LED unit can be quickly discharged, and fresh air can be introduced into the diffusion cover, It is to provide an LED lighting having a heat dissipation device that can remove the moisture generated by the temperature difference inside and outside the LED unit.

The present invention, in order to achieve the above object, the heat dissipation member is provided with a plurality of LED units therein;

A diffusion cover installed to cover the front of the heat dissipation member; And,

It is made of a coupling structure of the closing cap which is in close contact with both ends of the heat dissipation member and the diffusion cover to form a closed space therein,

Provides an LED lighting having a heat dissipation device consisting of a configuration in which the air flow hole is integrally formed to allow the inflow of the outside air or the outflow of the internal air to at least one of the heat dissipation member or the closing cap.

In addition, the air flow hole of the present invention, the heat dissipation consisting of a configuration formed on the positioning jaw is mounted to the power pin while protruding to one side of the closing cap to form a space in which air flows between the closing cap and the socket Provides LED lighting with a device.

In addition, the air flow hole of the present invention provides an LED lighting having a heat dissipation device made of a configuration in which a plurality of injection holes of the diffusion type or reduction type is formed between the radiating fins of the heat radiating member.

As described above, according to the present invention, heat is efficiently dissipated to the outside to improve heat dissipation characteristics, to prevent a decrease in lighting efficiency due to an increase in thermal energy, to form a beautiful exterior on the outside, and to easily dissipate heat, and a heat transfer area. Maximizes the heat dissipation efficiency by increasing the heat dissipation efficiency, while quickly discharging the heat generated from the LED unit, introducing fresh external air into the inside of the diffusion cover, and easily removing moisture generated by the temperature difference between the LED unit and the outside. There is.

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

Figure 2 is a perspective view of the lighting according to the present invention, Figure 3 is an exploded view of the lighting according to the present invention, Figures 4a, b is a cross-sectional view showing the lighting according to the present invention, respectively, Figure 5 of the present invention A cross-sectional view showing a light according to another embodiment.

Lighting device 100 of the present invention, made of a connection structure of the heat dissipation member 110 and the diffusion cover 130 is formed so as to correspond to the front and the closing cap 150 is installed so that the diffusion cover in close contact with the heat dissipation member. A driving device (not shown) is provided at one side of the heat dissipation member 110 to cut off or supply power to the LED unit 113.

The heat dissipation member 110 is integrally mounted with a plurality of LED units 113 to be interconnected or separated through the PCB substrate 111 fixed to the inside.

At this time, the heat dissipation member 110, a plurality of heat dissipation fins 117 is protruded to maximize the contact area with the external air on the outer surface.

The diffusion cover 130 has a shape corresponding to one surface of the heat dissipation member to cover the front of the heat dissipation member, and a reflective layer 133 formed of an uneven surface for reflecting or coating a reflective material on the inner surface thereof is integrally formed. Is formed.

The closing cap 150 is in close contact with both ends of the heat dissipation member 110 and the diffusion cover 130 to be installed to form a closed space (CS) inside the diffusion cover to supply power to the LED unit 113. Power pin 152 for protruding.

In addition, at least one of the heat dissipation member 110 or the closing cap 150 may be integrally formed with one or more air flow holes 190 to enable the introduction of external air or the discharge of internal air.

In addition, the air flow hole 190 is formed through one side of the positioning jaw 155 so as to form a space in which air flows therebetween when mounted in a state in which the closing cap is in close contact with the socket.

In addition, the air flow hole 190 is formed between a plurality of heat dissipation fins 117 protruding on one side of the heat dissipation member 110, while the diameter of the diffusion type is increased toward one side or its diameter is reduced toward one side reduced It is made as an injection hole made of any one shape selected from the mold.

In addition, the air flow hole of the present invention has a configuration in which a selective permeable layer 195 made of a sheet for allowing air to flow while preventing penetration of moisture, such as Gore-Tex, is provided on one side thereof.

In addition, the heat dissipation fin 117 is provided with a concave-convex surface 117a to enlarge the heat dissipation area on its surface.

The operation of the present invention having the above configuration will be described.

2 to 5, the lighting of the present invention, when power is supplied through a driving device (not shown), power is supplied to a plurality of LED units 113 mounted on the PCB substrate 111 so that it lights up. do.

At this time, the light source is prevented from being concentrated through the diffusion cover 130 installed in front of the heat dissipation member 110 to uniformly diffuse the light as a whole.

The heat generated by the LED unit 113 is heat-exchanged with the outside through the heat dissipation member 110 in which the LED unit 113 is in close contact, thereby eliminating the problem caused by the overheating of the LED unit 113.

On the other hand, the heat dissipation member 110 of the present invention is provided with a concave-convex surface 117a on the surface of the heat dissipation fin 117 to have an arc shape in the circumferential direction so that the outside air exchanges heat while contacting at the maximum contact area, thereby improving heat exchange efficiency. To maximize.

Subsequently, the general LED fluorescent lamp is configured to fix by the closing cap 150 is in close contact with both sides after the diffusion cover 130 is located in front of the heat radiating member 110 to the heat generated during the operation of the LED unit 113. A plurality of heat is generated in the space formed inside the diffusion cover 130 to reduce the efficiency of the LED unit 113, but the present invention discharges the heat to the outside through the air flow hole 190, Try to solve the problem.

At this time, the air flow hole 190 is formed on one side of the positioning jaw 155 protruding from one side of the closing cap 150 to form a predetermined space so that the outside air is easily flowed.

In addition, the air flow hole 190 is formed between a plurality of heat sink fins 117 is provided with a diffusion type or reduction type inlet to allow the air to be quickly discharged or introduced.

In addition, the heat dissipation member 110 may be extended to a case of a luminaire.

In addition, the air flow hole of the present invention is further provided with a selective permeable layer 195 made of a gore-tex on one side thereof to prevent the inflow of water and to easily discharge the air therein so as to easily perform heat dissipation. will be.

1A and 1B are exploded views and cross-sectional views showing a conventional LED fluorescent lamp, respectively.

Figure 2 is a perspective view of the lighting according to the present invention.

Figure 3 is an exploded view of the lighting according to the present invention.

4A and 4B are cross-sectional views showing the lighting according to the present invention, respectively.

5 is a cross-sectional view showing an illumination according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100. Lighting unit 110 ... Heat dissipation member

130 ... Diffusion cover 150 ... Finish cap

170 ... Drive 190 ... Airflow

195 ... Selective Permeable Layer

Claims (6)

In the LED lighting made as a connection structure of the heat dissipation member and the diffusion cover formed to correspond to the front and the closing cap is formed to form a sealed space in front of the heat dissipation member, LED lighting having a heat dissipation device characterized in that at least one of the heat dissipation member or the closing cap is formed integrally with one or more air flow holes to enable air flow from the inside of the diffusion cover to the outside or from the outside of the diffusion cover to the inside According to claim 1, The heat radiating member, LED lighting having a heat dissipating device characterized in that a plurality of heat dissipating fins having an arc shape protrudes on one side to maximize the contact area with external air The LED lighting device having a heat dissipating device according to claim 2, wherein the heat dissipation member is formed with a concave-convex surface on the outside. The LED lighting device having a heat dissipation device according to claim 1, wherein the air flow hole is formed to be integrally formed on one side of the heat dissipation member so as to gradually decrease in diameter toward the inside. According to claim 1, The air flow hole, LED lighting having a heat dissipation device characterized in that formed on the positioning jaw protruding on one side of the closing cap The LED lighting device having a heat dissipating device according to any one of claims 1 to 6, wherein the air flow hole further includes a selective transmission layer.

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