KR101132984B1 - Led lighting device for improving heat radiation efficiency - Google Patents

Abstract

PURPOSE: An air ventilation led lighting device with an improved heat dissipation function is provided to improve the stability of a product by maximizing the heat dissipation and cooling efficiency. CONSTITUTION: A plurality of LEDs is installed in an LED substrate(110). The LED substrate is placed along the outer surface of an air ventilation radiating unit(120). The air ventilation radiating unit rapidly absorbs and releases conductive heat generated from the LED substrate. The air ventilation radiating unit comprises an air ventilation through-hole(121) and multiple concavo-convex portions(122). A transparent cap(130) is made of transparent or translucent materials transmitting the light. A reflector(140) comprises an inner side made of a light-reflecting material in order to irradiate LED light in the specific direction. The transparent cap blocks the opened side of the reflector.

Description

Air-distributed LED lighting device with improved heat dissipation {LED lighting device for improving heat radiation efficiency}

The present invention relates to an air circulation type LED lighting device with improved heat dissipation, and more particularly, to an LED lighting device that maximizes heat dissipation and cooling efficiency and improves stability by allowing air to flow freely inside the LED lighting device. will be.

As the light source used in the indoor and outdoor lighting apparatuses according to the prior art, a lamp of a filament and discharge light emitting type such as a metal halide lamp, a mercury lamp, a sodium lamp, and the like is mainly used.

However, the conventional filament and discharge light bulbs have the disadvantages of high power consumption and poor durability, and since a large portion of the supplied power is emitted as heat, the energy output from the visible light used for the actual lighting is determined by the amount of power used. Only about 5 to 28% of energy efficiency was very low.

On the other hand, LED (Light Emitting Diode) has many advantages such as high brightness, long life span, and low manufacturing cost compared to size and power consumption. Is rising. In addition, since such LEDs typically have a high energy efficiency of about 50 to 60% and can provide high quality lighting with less energy, they are spotlighted as a new lighting means to replace existing light bulbs.

Lighting devices using these LEDs are gradually expanded to replace indoor lighting devices such as incandescent lamps and fluorescent lamps, and to replace light sources such as signal lamps with LEDs.In recent years, high-power LEDs of more than 1W have been commercialized, and outdoor lighting devices such as street lamps and security lamps have been commercialized. The scope of application is gradually increasing.

However, LED has a disadvantage in that it is very vulnerable to heat in spite of many advantages, so if the heat of the LED is not rapidly released during use, the life of various circuit components including the LED element is shortened or damaged due to internal overheating.

In other words, the LED shows high luminance compared to low power consumption, and the service life of the product itself is very long. However, the existing LED lighting device has poor heat dissipation performance, so that the LED device can be easily damaged, and the damaged LED is not lit. Because it does not look aesthetically good, the overall luminous brightness of the lamp is lowered, and sometimes there is a problem that the overall function of the LED lighting device is disabled due to poor heat dissipation performance.

In addition, the conventional LED lighting device is usually formed with a separate heat dissipation portion on the outside rear of the reflector, there was a problem that the size of the heat dissipation portion is too large to occupy a large volume to improve the cooling performance, the heat dissipation portion formed of a metal material There was also a problem that the weight is increased according to the volume, the heat dissipation portion of the lighting device also requires a separate assembly process when connecting to the light emitting unit, there was also a problem that the overall productivity is lowered.

Therefore, the present invention has been made to solve the above-mentioned problems of the prior art, the air-distribution type LED lighting that installs the heat dissipation unit inside the reflector with the LED substrate, so that the outside air can flow freely to improve the heat dissipation and cooling efficiency It is an object of the present invention to provide a device.

As a technical means for achieving the above object, the present invention provides a plurality of LED substrates around the heat dissipation unit installed in the center of the reflection shade, the heat dissipation unit is formed through holes in the longitudinal direction, the heat dissipation performance as air is freely distributed As an improvement, the present invention provides a configuration of an LED lighting device having a transparent cap for blocking foreign substances and a reflecting lamp for refracting light in one direction so that external air can be smoothly introduced into the radiator.

According to the air-distribution type LED lighting device with improved heat dissipation according to the present invention, since the heat dissipation unit is formed integrally with the LED substrate in the reflection shade, the volume of the LED lighting device is reduced, the weight is reduced, and a separate heat dissipation unit is disposed outside the reflection shade. There is no effect of extending the installation, so the productivity is improved.

In addition, the both sides of the heat dissipation portion is penetrated so that the outside air is freely circulated has the effect of maximizing the heat dissipation and cooling efficiency to improve the stability of the product, and extend the service life of the LED lighting device.

1 is an exploded perspective view of an LED lighting apparatus according to a first embodiment of the present invention.
2 is an assembled cross-sectional view of the LED lighting apparatus according to the first embodiment of the present invention.
3 is an exploded perspective view of the LED lighting apparatus according to the second embodiment of the present invention.
4 is an assembled cross-sectional view of the LED lighting apparatus according to the second embodiment of the present invention.
5 is a bottom view illustrating an airflow type heat dissipation unit according to the present invention.
6 is an assembled cross-sectional view showing the installation structure of the heat radiation plate in the heat radiation portion configuration of the LED lighting apparatus according to the third embodiment of the present invention.
7 is an assembly cross-sectional view showing the installation structure of the heat radiation plate in the heat radiation portion configuration of the LED lighting apparatus according to the fourth embodiment of the present invention.
8 is an assembly cross-sectional view showing the installation structure of the heat radiation plate in the heat radiation portion configuration of the LED lighting apparatus according to the fifth embodiment of the present invention.

According to the present invention, an air circulation type LED lighting device having an improved heat dissipation function includes a plurality of LED substrates installed around a heat dissipation unit installed at a central portion, and a heat dissipation unit forms a through-hole in the longitudinal direction to provide heat dissipation performance as air is freely distributed. As an improvement, the transparent cap and the reflection shade are also penetrated together so that the outside air can smoothly flow into the heat radiating portion.

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

1 to 4 show the configuration of the LED lighting apparatus according to an embodiment of the present invention.

As described above, the LED lighting apparatus according to the present invention, the LED substrate 110 mounted with a plurality of LEDs 111 and the LED substrate 110 while fixing the connection so that the plurality of the LED substrate 110 is arranged in multiple directions. An air-distributing heat dissipation unit 120 that absorbs and releases conductive heat of the conductive material, a transparent cap 130 that protects rainwater and foreign substances from entering the LED substrate 110, and the LED light is refracted to be irradiated in one direction. And a condenser lens 170 for condensing the light irradiated through the LED 111 and improving the light efficiency.

The LED substrate 110 includes an LED 111 as a light emitter, and a plurality of LED substrates 110 are disposed around the heat dissipation unit 120 to irradiate LED light in multiple directions.

The air flow-type heat dissipation unit 120 connects and fixes a plurality of LED substrates 110 around the outer periphery having a polyhedral shape, and is made of a metal material having excellent thermal conductivity to quickly absorb and conduct heat generated from the LED substrate 110. To release.

In addition, the air flow type heat dissipation part 120 has an air flow type through hole 121 formed in a longitudinal direction at the inner center thereof, which is freely distributed after the outside air flows into the inner space of the heat dissipation part 120. Fast cooling of 120 is to be made.

In addition, an uneven portion 122 is formed on a plurality of inner surfaces facing the air flow-through hole 121 to increase the contact area with air.

The transparent cap 130 is used to block rainwater or foreign matter from entering the LED substrate 110, and is formed of a transparent or translucent material so that light can pass therethrough.

According to the first embodiment of the present invention, the transparent cap 130 is to block the open one surface of the reflection shade 140, the center is formed through the through hole, but the coupling portion 131 protrudes in one direction It is formed in a structure that is fitted into the through-hole 121 of the heat dissipation unit 120.

In addition, according to the second embodiment of the present invention, the transparent cap 130 is to cover only the LED substrate 110 disposed around the heat dissipation unit 120, the cylindrical shape having a space portion through the inner side It is made of, one end is to form a fitting portion 132 bent in the inner direction, by forming a fitting groove 123 at one end of the heat dissipating portion 120 to be mutually fixed with the fitting portion 132 I would have to.

As described above, the shape of the transparent cap 130 as the first embodiment and the second embodiment of the present invention protects the LED substrate 110 from rain and inflow of various foreign substances, but the through hole of the heat dissipation unit 120 ( The air flow into 121 is configured not to block.

The reflection shade 140 has an inner surface formed of a light reflective material and made of a curved or inclined surface so that the LED light is refracted and irradiated in one direction.

In addition, the central portion of the reflection shade 140 is penetrated so that the air flow to the heat radiating portion 120 is made smoothly.

The fixing part 150 connects and fixes each component including the heat dissipation part 120 and the reflection shade 150, and the central part penetrates to smoothly distribute the air to the heat dissipation part 120. Connection members may be further formed to be installed on the structure.

The condenser lens 170 is installed to improve the light efficiency at any one position where the LED 111 light is irradiated, and preferably, a hemispherical convex lens capable of condensing the LED light is provided on each LED 111. It is installed at any position adjacent to or spaced apart from the LED is configured to collect the light.

As shown in FIGS. 2 and 4, the air circulation type LED lighting device having an improved heat dissipation function configured as described above is configured to allow external air to penetrate the inside of the lighting device. In addition to the external air flows smoothly to the unit 120 is to improve the heat dissipation and cooling performance.

6 to 8 are further provided with a heat dissipation plate in the heat dissipation unit configuration of the LED lighting apparatus according to the present invention.

6 is an assembled sectional view showing the installation structure of the heat radiation plate according to the third embodiment of the present invention. As described above, according to the third embodiment of the present invention, a heat dissipation plate 160 is further installed between the heat dissipation unit 120 and the LED substrate 110 to improve heat dissipation performance. It is made of a metal material having excellent thermal conductivity to quickly absorb the conductive heat generated from the LED substrate 110, and the cooling space portion 161 of the hollow shape is formed in the heat radiation plate 160.

In addition, although the cooling medium may be accommodated in the cooling space 161, the cooling space 161 may be formed as a hollow space without the cooling medium.

In addition, a plurality of the cooling spaces 161 may be disposed in the heat dissipation plate 160.

Figure 7 shows the installation structure of the heat dissipation plate according to the fourth embodiment of the present invention, the heat dissipation plate 160 is formed on one side of the heat dissipation unit 120 in a plurality of stacked form.

8 shows the installation structure of the heat dissipation plate according to the fifth embodiment of the present invention, wherein the heat dissipation unit 120 and the heat dissipation plate 160 may be injection molded in an integral shape.

As described above, although the technical idea of the present invention has been described with reference to the preferred embodiments, those skilled in the art will be able to vary the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be modified and changed.

110: LED substrate 111: LED
120: heat radiating portion 121: through hole
122: uneven portion 123: fitting groove
130: transparent cap 131: coupling portion
132: fitting 140: reflection shade
150: fixed portion 160: heat dissipation plate
161: cooling space 170: condensing lens

Claims (8)

delete A plurality of LEDs 111 are mounted to irradiate LED light, and a plurality of LED substrates 110 are disposed around the heat dissipation unit 120; A plurality of LED substrates 110 are connected and fixed to the outer circumference of a polyhedron shape, respectively, and are made of a metal material having excellent thermal conductivity to quickly absorb and release conductive heat generated from the LED substrate 110. An air distribution type through hole 121 is formed in the center in the longitudinal direction, and a plurality of inner surfaces facing the air distribution type through hole 121 are formed with an uneven portion 122 to increase the contact area with air. A type heat dissipation unit 120; Blocking rainwater or foreign matter from entering the LED substrate 110, the center is formed to penetrate to correspond to the through-hole 121 of the heat dissipation unit 120 so that the outside air can be introduced into the lighting device. A transparent cap 130 formed of a transparent or translucent material to allow light to pass therethrough; The inner surface is formed of a light reflective material so that the LED light can be irradiated in one direction, and is formed of a curved or inclined surface, and the center portion is fixed to one end of the heat dissipation part 120 and air flows to the heat dissipation part 120. In the LED lighting device comprising a;
The transparent cap 130 is to block the open one surface of the reflector 140, the center to form a through hole, but the coupling portion 131 protrudes in one direction through hole 121 of the heat dissipation portion 120 Heat dissipation enhanced air circulation type LED lighting device, characterized in that the fitting inside.
A plurality of LEDs 111 are mounted to irradiate LED light, and a plurality of LED substrates 110 are disposed around the heat dissipation unit 120; A plurality of LED substrates 110 are connected and fixed to the outer circumference of a polyhedron shape, respectively, and are made of a metal material having excellent thermal conductivity to quickly absorb and release conductive heat generated from the LED substrate 110. An air distribution type through hole 121 is formed in the center in the longitudinal direction, and a plurality of inner surfaces facing the air distribution type through hole 121 are formed with an uneven portion 122 to increase the contact area with air. A type heat dissipation unit 120; Blocking rainwater or foreign matter from entering the LED substrate 110, the center is formed to penetrate to correspond to the through-hole 121 of the heat dissipation unit 120 so that the outside air can be introduced into the lighting device. A transparent cap 130 formed of a transparent or translucent material to allow light to pass therethrough; The inner surface is formed of a light reflective material so that the LED light can be irradiated in one direction, and is formed of a curved or inclined surface, and the center portion is fixed to one end of the heat dissipation part 120 and air flows to the heat dissipation part 120. In the LED lighting device comprising a;
The transparent cap 130 is to cover only the LED substrate 110 disposed around the heat dissipation unit 120, the inside of the through-hole 121 of the heat dissipation unit 120 is formed in a cylindrical shape having a space portion through The outside air may be introduced into), and one end of the transparent cap 130 forms a fitting portion 132 that is bent inwardly, and one end of the heat dissipating portion 120 is coupled to the fitting portion 132. Air circulation type LED lighting device with improved heat dissipation, characterized in that the fitting groove 123 to be formed so that they can be coupled to each other.
A plurality of LEDs 111 are mounted to irradiate LED light, and a plurality of LED substrates 110 are disposed around the heat dissipation unit 120; A plurality of LED substrates 110 are connected and fixed to the outer circumference of a polyhedron shape, respectively, and are made of a metal material having excellent thermal conductivity to quickly absorb and release conductive heat generated from the LED substrate 110. An air distribution type through hole 121 is formed in the center in the longitudinal direction, and a plurality of inner surfaces facing the air distribution type through hole 121 are formed with an uneven portion 122 to increase the contact area with air. A type heat dissipation unit 120; Blocking rainwater or foreign matter from entering the LED substrate 110, the center is formed to penetrate to correspond to the through-hole 121 of the heat dissipation unit 120 so that the outside air can be introduced into the lighting device. A transparent cap 130 formed of a transparent or translucent material to allow light to pass therethrough; The inner surface is formed of a light reflective material so that the LED light can be irradiated in one direction, and is formed of a curved or inclined surface, and the center portion is fixed to one end of the heat dissipation part 120 and air flows to the heat dissipation part 120. In the LED lighting device comprising a;
A heat dissipation plate 160 is further installed between the heat dissipation unit 120 and the LED substrate 110 to improve heat dissipation performance. The cooling space 161 is hollow in the heat dissipation plate 160. Air circulation type LED lighting device is improved heat dissipation, characterized in that formed.
The method of claim 4, wherein
The cooling space unit 161 is an air circulation type LED lighting device with improved heat dissipation, characterized in that the cooling medium is accommodated.
The method of claim 4, wherein
The heat dissipation plate 160 is an air circulation type LED lighting device with improved heat dissipation function, characterized in that a plurality of mutually laminated on one side of the heat dissipation unit 120.
The method of claim 4, wherein
The heat dissipation unit 120 and the heat dissipation plate 160 is an air flow type LED lighting device with improved heat dissipation, characterized in that the injection molding in an integral shape.
The method according to any one of claims 2 to 7,
Heat distribution type LED lighting device with improved heat dissipation function, characterized in that the condenser lens 170 is further installed at any position adjacent or spaced apart from each LED 111 in one direction in which the LED 111 light is irradiated .

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