KR101206466B1 - Illuminating system - Google Patents

Abstract

The present invention relates to a lighting apparatus, which emits light by receiving external power, a heat dissipation part for dissipating heat emitted from the light emitting part to the outside, a cover part and heat dissipation combined with a heat dissipation part to protect the light emitting part. Provided is an illumination device composed of an additional foam.
According to the present invention, the device can be stably operated by releasing the heat inside the metal efficiently through a plurality of small holes formed in the metal and the metal having high thermal conductivity.

Description

Lighting device {ILLUMINATING SYSTEM}

The present invention relates to a lighting device for efficiently dissipating the heat inside.

In general, the lighting is an essential lighting device for modern people's daily life, and is used for night lighting by being installed on roadsides, alleys, and homes. Such lighting enables daily life due to lighting by securing a view in a dark place or a dark night. It is to prevent accidents of pedestrians walking or driving vehicles.

Such a very useful lighting in people living in the past, incandescent lamps, mercury lamps, sodium lamps, etc. have been used in the past, the trend is gradually changing to LED lamps in modern times.

Accordingly, LED lamps have a lot of attention because people consume less power than conventional lamps, have a longer lifespan, and LED lamps do not have harmful substances emitted during the disposal of conventional lamps.

However, in spite of these advantages, LED lights generate more heat than conventional lights, and when LEDs do not emit heat generated from the heat sink efficiently, the durability and service life of the LED lights There is a problem in that the substrate of the LED lamp burns out due to shortening and even high temperature.

In addition, the LED light has a risk of being burned if the work is performed immediately during the replacement of the LED bulb and the substrate, and there is an inconvenience of waiting for the internal heat to cool down.

The present invention has been made to solve the above problems, and an object thereof is to provide an illumination device capable of efficiently emitting internal heat generated while emitting light from an LED bulb to the outside.

In one aspect of the present invention, a lighting device includes: a light emitting unit emitting light by receiving external power; A heat dissipation unit for dissipating heat emitted from the light emitting unit to the outside; And a cover part coupled to a heat radiating part to protect the light emitting part. It includes, The heat dissipation portion is characterized in that the foam (發泡 體).

And a blocking unit positioned between the heat dissipating unit and the light emitting unit to block infiltration of foreign matters into the light emitting unit. And further comprising:

At this time, the heat radiating portion is characterized in that formed of a metal.

In addition, the heat dissipation portion is characterized in that the heat dissipation paint for reducing the temperature of the heat dissipation portion is coated.

On the other hand, the foam is characterized in that a plurality of holes are finely formed.

As described above, the present invention has the following effects.

First, the internal heat is efficiently released through a large number of small holes formed in the metal and the metal with high thermal conductivity, it is possible to operate the device stably.

Second, the heat dissipation unit is a metal consisting of a foam to release the heat inside the small hole there is an effect that can lower the internal temperature than the conventional LED lighting device.

Third, since the heat dissipation part is made of foam, the density of the interior is low, so that the weight of the lighting device can be reduced.

Fourth, the heat dissipation portion is coated with a heat dissipation paint for improving the heat dissipation has an effect that can efficiently release more heat inside.

Figure 1 shows a cross section of the lighting apparatus of the present invention.
Figure 2 shows a cross section of the present invention to show a number of small holes formed in the heat dissipating portion of the lighting apparatus.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for simplicity of explanation.

In the present invention, the lighting device 100 includes a light emitting unit 110, a heat dissipating unit 120, a cover 130 and a blocking unit 140, as shown in Figures 1 to 2.

The light emitting unit 110 emits light by being supplied with external power, and in the present invention, the LED bulb 111 has a long life time while using less power, thereby making the lighting function more efficient than the conventional light bulb. The LED bulb 111 is preferably configured to emit less heat while emitting brighter light to the outside by using a high-brightness LED bulb 111 that can emit as much light as possible with less heat emission.

In addition, in order for the LED bulb 111 to emit light, power must be supplied from the outside, and a plurality of LED bulbs 111 are mounted on a printed circuit board so that external power is supplied to the circuit of the circuit board 112. When it is configured to emit light from the LED bulb 111 mounted on the circuit board 112.

The heat dissipation unit 120 absorbs heat generated while emitting light from the light emitting unit 110 and emits the heat to the outside. The heat dissipating unit 120 is made of a metal having high thermal conductivity, thereby dissipating heat generated from the light emitting unit 110. 120 is absorbed and released to the outside, thereby lowering the internal temperature.

In addition, as shown in Figure 2, the heat dissipation unit 120 is preferably composed of a foam which can lower the internal temperature by dissipating the heat inside to the outside through a plurality of small holes 121. .

Here, the foam is formed so that a plurality of small holes 121 are formed inside or on the surface of the material to allow air to pass through the inside of the heat dissipation unit 120. The plurality of small holes 121 of the foam may have a size in some cases. May be configured differently, but it is also possible to form a hole finely to prevent the penetration of rainwater or foreign matter from the outside.

At this time, the heat dissipation unit 120 is preferably used to apply a heat dissipation paint to the heat dissipation unit 120 to release the phenomenon and corrosion and more heat to the outside, where the heat dissipation paint is coated on the heat By removing the heat by increasing the emissivity of the heat in the present invention by applying a heat dissipation paint to the heat dissipation unit 120 it is possible to efficiently discharge more heat inside.

Cover portion 130 is to protect the light emitting unit 110 is coupled to the lower end of the blocking unit 140 to be described later to act as a protective film to prevent the impact or foreign matter from penetrating into the light emitting unit 110 side. .

In addition, the cover unit 130 may be configured to diffuse light, thereby allowing the light emitted from the light emitting unit 110 to be widely distributed to the outside through the cover unit 130.

The blocking part 140 serves as a blocking film to prevent rain water or foreign matter, which may flow through the plurality of small holes 121 formed in the heat dissipating part 120, from penetrating into the light emitting part 110. It may be made of a resin or the like, which absorbs the heat inside and sent to the heat dissipation unit 120 side. In this case, if the blocking unit 140 is a metal, it may be composed of a metal that does not generate rust. Otherwise, it is preferable to coat the film with a thin film so that rust is not generated by rain or foreign matter.

In addition, it is possible to fix the light emitting unit 110 by being mounted with the circuit board 112 on the opposite side of the portion coupled to the heat dissipation unit 120.

That is, in the lighting device 100 of the present invention, as shown in FIGS. 1 and 2, the circuit board 112 is mounted on the metal blocking unit 140 to fix the light emitting unit 110. When the power supplied from the supplied to the circuit board 112 is configured to emit light from the LED bulb 111 mounted on the circuit board 112.

At this time, the cover 130 may be configured to diffuse the light emitted from the LED bulb 111 to emit a wide range of light to the outside, the impact or foreign matter from the outside does not penetrate into the light emitting unit 110. It will act as a shield against it.

In addition, when a light is emitted from the LED bulb 111, a lot of heat is generated, in order to emit this heat to the outside, the heat dissipation unit 120 is mounted on the upper portion of the blocking unit 140 to emit light from the light emitting unit 110 By emitting the internal heat generated while emitting to the outside to lower the internal temperature it is possible to stable operation of the lighting device (100).

Therefore, in order to lower the internal temperature as described above, the heat dissipation unit 120 of the present invention can emit heat to the outside by using a metal having high thermal conductivity, and as shown in FIG. Since 120 is made of foam, it is possible to dissipate more heat inside through a plurality of small holes 121. In addition, the heat dissipation part 120 of the present invention enables efficient heat dissipation by applying heat dissipation paint to the heat dissipation part 120 to emit more heat.

Accordingly, when the existing LED lighting device is to be checked when the lighting device is in operation, there is a risk of burn due to the high heat inside, and thus, the lighting device 100 of the present invention has to wait for the heat to cool down. Due to the excellent emission, a lot of heat does not remain inside, so the work can be performed immediately when checking the lighting fixtures.

In addition, since the heat dissipation unit 120 of the present invention is formed of a metal foam, the internal density is low due to the plurality of small holes 121 formed in the heat dissipation unit 120, so that the weight of the lighting device 100 can be lightly configured. There is an advantage.

On the other hand, the heat dissipation unit 120 is composed of a foam can be penetrated into the rain water or foreign matter through a plurality of small holes 121, by preventing the blocking unit 140 to penetrate to the light emitting unit 110. This can prevent equipment failures that may occur from the external environment.

Here, the plurality of small holes 121 formed in the heat dissipation unit 120 may have different sizes depending on the case, and may be penetrated from the outside when the holes are minutely formed so as to be invisible to the naked eye. Rain water or foreign substances can be somewhat prevented.

On the other hand, the blocking unit 140 may be configured to absorb the heat generated from the light emitting unit 110 to be transferred to the heat dissipating unit 120 side, which is the heat shield 120 is absorbed by the heat dissipating unit 120 In order to transfer heat to the side, a metal having high heat transfer may be used, but in addition, it may be made of a resin or the like that can perform the same function as the metal. Therefore, when the blocking part 140 is made of metal, it is preferable to coat it with a thin film so that rust does not occur, and in other cases, it is preferable to use a metal which does not generate rust.

Accordingly, when looking at the above-described contents, the lighting device 100 of the present invention is a metal and through the small hole 121 formed in the heat dissipation unit 120 and heat dissipation from the heat dissipation unit 120 coated with a heat dissipation paint. By dissipating heat, it has the advantage of dissipating the heat inside more efficiently than conventional LED lighting devices.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

100: lighting device
110: light emitting unit
111: LED bulb 112: circuit board
120: heat dissipation unit
121: eyelet
130:
140: breaker

Claims (5)

A light emitting unit emitting light by receiving external power;
A heat dissipation unit for dissipating heat emitted from the light emitting unit to the outside;
A cover part coupled to the heat radiating part to protect the light emitting part; And
A blocking unit disposed between the heat dissipating unit and the light emitting unit to block the infiltration of foreign substances in the light emitting unit, and configured to absorb heat generated from the light emitting unit and transfer heat to the heat dissipating unit; Including,
The heat dissipation unit is a metal foam, and a plurality of holes are finely formed, and the heat dissipation unit is coated with a heat dissipation paint for lowering the temperature of the heat dissipation unit.
Lighting equipment. delete delete delete delete

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