KR101418563B1 - Floodlight - Google Patents

Abstract

The present invention relates to a floodlight. The floodlight includes a base part; a light emitting part installed on a bottom surface of the base part and having a plurality of light emitting diodes to emit light; a guide part for guiding the path of the light emitted from the light emitting part and installed in the base part to prevent foreign matters from being introduced into the light emitting part; a heat radiation part installed at one side of the base part in opposition to the light emitting part and having a plurality of heat radiation plates spaced apart from each other; a heat exchange part having one terminal, wherein a portion of an outer circumference of the terminal is buried on the bottom surface of the base part to be connected to the light emitting part, and an opposition terminal extending upward of the bottom surface of the base part to pass through the heat radiation part; and an angle adjusting part rotatably installed at one side of the heat radiation part. According to the floodlight of the present invention, the heat exchange part (heat pipe) used to radiate heat has an evaporation part installed lower than a condensation part, so that heat exchange media can smoothly flow, and thereby improving heat radiation performance. The internal air of the guide part, which is heated by the heat emitted from the light emitting part through a ventilation part installed in the guide part, is discharged to the outside and prevents the foreign matters, such as rain water or insects, from being introduced into the guide part. In addition, vapors can be prevented from being generated in the guide part to provide a stable floodlight having a long life span.

Description

Floodlight {Floodlight}

More particularly, the present invention relates to a floodlight which can quickly radiate heat to the outside by using a heat pipe, can remove water vapor by internal heat and prevent condensation, will be.

Light emitting diodes, particularly power LEDs (Light Emitting Diodes), are a kind of semiconductors that utilize a phenomenon in which electrical energy is changed to light energy and heat energy and emits light. Currently, it is used for electric sign boards, street lights, floodlights, pick-up lights, and harbors, and it has an advantage that light of various colors can be realized.

In the lighting apparatus using the LED, a substrate on which an LED is mounted is embedded in a housing, a cover is provided on a lower portion thereof, and a support is coupled to a portion connected to the support. In operation, heat generated by the high- There is a problem in that internal heat due to radiant heat inside the lighting apparatus can not be effectively discharged to the outside. When the temperature of the LED installed inside the lighting apparatus is increased, the voltage is lowered and the luminous efficiency is lowered and the service life is shortened.

Therefore, conventionally, as disclosed in Figs. 1 and 2 of Korean Patent Registration No. 10-1167085, a heat dissipation hole is formed on the upper, lower, and side surfaces of the housing of the LED lighting fixture to heat the inside of the LED lighting fixture to the outside .

However, since the conventional LED lighting fixture is not easily heat-exchanged with the outside, the efficiency of heat dissipation is lowered. In addition to the inflow of storm light through insulated openings, insects, foreign substances, etc., There is a problem that the number of times of maintenance increases and the lifetime of the LED lighting apparatus is shortened because the function is stopped due to corrosion or malfunction.

In addition, conventionally, a heat pipe installed in an LED lighting apparatus has a structure in which a heat pipe is horizontally connected and fixed to a substrate on which an LED is mounted, a plurality of heat dissipation fins are connected to the heat pipe, When the evaporation part at one end of the heat pipe is heated by injecting and then evacuating, the working fluid stored therein is vaporized and a pressure difference is generated at both ends. The working fluid moves to the condensation part according to the pressure difference, After cooling down through the process of condensation afterward, it returns to the side of the evaporator to cool the heat generated from the LED.

However, since the conventional heat pipe is installed horizontally with respect to the substrate, when the heat pipe can not maintain the horizontal position, the evaporation portion is located higher than the condensation portion, so that the flow of the working fluid is not smooth, There is a problem.

Disclosure of the Invention The present invention has been made to solve the above-mentioned conventional problems, and it is an object of the present invention to prevent foreign matter such as rain or insects from entering into the apparatus, and to prevent internal water vapor generation caused by heat generated from the LED, And the like.

It is another object of the present invention to provide a flood lamp which can smoothly flow a working fluid by installing a heat pipe for emitting heat generated from an LED, by placing the evaporator at a position lower than the condenser .

According to an aspect of the present invention, there is provided a floodlighting lamp comprising: a base; A light emitting portion provided on a bottom surface of the base portion and having a plurality of light emitting diodes for emitting light; A lamp unit installed on the base unit to guide a path of light emitted from the light emitting unit and to block foreign substances from entering the light emitting unit; A heat dissipation unit installed at one side of the base unit facing the light emitting unit, the heat dissipation unit having a plurality of heat dissipation plates spaced apart from each other; A heat exchange part installed on the bottom surface of the base part so as to be in contact with the light emitting part, and the other end extending upward from the bottom surface of the base part to penetrate the heat radiation part; And an angle adjusting unit rotatably installed on one side of the heat dissipating unit.

Wherein the heat exchanging part includes an evaporating part having one end in contact with the light emitting part, an extending part extending upward from the evaporating part, and a condensing part extending from the extending part to contact with the heat radiating part, And a heat transfer medium that is filled in the flow path and transfers between the evaporation unit and the condensation unit, and transfers heat generated in the light emission unit to the heat dissipation unit.

A reflector for reflecting the light emitted from the light emitting unit; a protective cap which is formed in a shape corresponding to the reflector and is installed to surround the outside of the reflector so as to be spaced apart from the reflector; The protection cover may further include a protection plate formed of a transparent material to seal the interior of the protection lid. The communication lid is installed to penetrate the protection lid to communicate the inside of the protection lid and the outside of the protection lid.

Wherein the ventilation part has a body part screwed into an engagement hole formed to penetrate the protective cap and having one end inserted into the protective cap and having a ventilation hole therein and a communication hole extending from the body and communicating with the ventilation hole, And an air permeable film provided on the ventilation hole for passing air flowing from the ventilation port to the communication port and for blocking foreign substances flowing into the ventilation port from the communication port.

The floodlighting lamp according to the present invention is provided with a heat exchanger (heat pipe) for discharging heat, a floodlight which can increase the heat radiation performance by making the flow of the heat exchange medium smooth by positioning the evaporator at a lower position than the condenser .

The floodlight lamp according to the present invention can prevent foreign matter such as rain or insects from flowing into the inside of the shade while discharging the air inside the shade portion heated by the heat generated in the light emitting portion through the vent portion provided on the shade portion, It is possible to provide a flood lamp which is stable and has a long life by suppressing the generation of water vapor inside the shovel.

1 is a perspective view of a flood lamp according to the present invention;
2 is an exploded perspective view of the floodlight shown in Fig. 1; Fig.
3 is a plan view showing a substantial part of a flood lamp according to the present invention.
Fig. 4 is an exploded perspective view showing the ventilation portion shown in Figs. 1 and 2. Fig.

Hereinafter, a floodlight according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 show a floodlight 1 according to the present invention.

Referring to Figs. 1 to 4, the floodlight 1 includes a base portion 10; A light emitting portion 20 provided on a bottom surface of the base portion 10 and having a plurality of light emitting diodes 22 for emitting light; A shade 30 installed on the base 10 for guiding a path of light emitted from the light emitting unit 20 and blocking foreign matter from entering the light emitting unit 20; A heat dissipating unit 40 installed at one side of the base unit 10 facing the light emitting unit 20 and having a plurality of heat dissipating plates 41 arranged to be spaced apart from each other; The other end of the base portion 10 extends upward from the bottom of the base portion 10 and is heat-exchanged to penetrate through the heat-radiating portion 40. The heat- (50); And an angle adjusting unit 60 rotatably installed on one side of the heat dissipating unit 40.

The base portion 10 is formed in a plate shape having a predetermined area so that the light emitting portion 20 and the shade portion 30 can be installed. The bottom portion of the base portion 10 is provided with an emboss groove 11 at a central portion thereof so as to embed a part of the pipe 51 of the heat exchanging portion 50 which will be described later. 51 are formed along the longitudinal direction of the base portion 10. The partition wall 12 is formed in the longitudinal direction of the base portion 10, The base portion 10 may be formed of a metal material for heat dissipation, or may be formed of a ceramic material.

The light emitting portion 20 includes a substrate portion 21 provided in close contact with the bottom surface of the base portion 10 and a plurality of light emitting diodes 22 provided on the substrate portion 21. The substrate portion 21 is preferably formed of a metal PCB formed of a metal material to transmit the heat generated from the light emitting diode 22 to the heat exchanging portion 50.

The plunger 30 is provided on the bottom surface of the base 10 to guide the path of the light emitted from the light emitting unit 20 and prevent foreign substances from flowing into the light emitting unit 20 side.

The hatch 30 includes a conical reflector 31 that reflects the light emitted from the light emitting portion 20 so as to be converged to a region to be projected, a reflector 31 that is formed in a shape corresponding to the reflector 31, And a protection plate 33 provided on the end of the protection lid 32 to seal the inside of the protection lid 32 and formed of a transparent material so as to surround the protection lid 32. [ .

The reflection gutters 31 are fixed to the inside of the protective gutters 32 and the protective gutters 32 are fixed to the bottom surface of the base portion 10. The protective plates 33 are preferably made of tempered glass and fixed by a fixing clamp Is coupled to the end of the protective lid (32).

The heat dissipating unit 40 includes a plurality of rectangular heat dissipating plates 41 arranged to be spaced apart from each other with the fixed frame 42 interposed therebetween and the base unit 10 facing the light emitting unit 20 And the heat dissipation unit 40 is coupled to the base unit 10 by a fixing frame 42. [ A plurality of holes are formed in the respective heat dissipation plates 41 so that the air can be easily moved into the space between the heat dissipation plates 41.

A part of the outer circumferential surface of the heat exchanging part 50 is embedded in a buried groove 11 provided on the bottom surface of the base part 10 so that one end of the heat exchanging part 50 is in contact with the light emitting part 20, And extends upward from the bottom surface of the base 10 to penetrate the plurality of heat dissipation plates 41.

The heat exchanging part (50) includes a pipe (51) provided with a flow path therein, and a heat transfer medium filled in the flow path to transfer heat.

The pipe 51 includes an evaporator 52 installed in contact with the base 21 and an extension 53 extending upward from the evaporator 52 toward the heat sink 40. The extension 53 And a condensing portion 54 extended from the heat radiating plate 40, that is, the heat radiating plate 41, so as to be in contact with the heat radiating plate 40, respectively.

The pipe 51 has evaporation portions 52 at both ends thereof, and a condensation portion 54 is formed at a central portion thereof. The pipe 51 is disposed such that the evaporation portions 52 provided at both ends face the central portion of the base portion 10 so that the extension portion 53 penetrates the heat radiation plate 41 through the condensation portion 54 Has been bent.

The heat transfer medium is not shown in the drawing but is adapted to transmit heat generated by the light emitting portion 20 to the heat dissipating portion 40 while moving between the evaporating portion 52 and the condensing portion 54.

The heat transfer medium absorbs heat generated in the light emitting portion 20 in the evaporator 52 and moves to the condenser 54 through the extension portion 53 in a state of being evaporated (heat absorbed) (Heat is released) while the heat is lost by the plurality of heat dissipation plates 41 in the evaporation unit 52, and the heat is released while repeating the process of moving to the evaporation unit 52.

The inside of the pipe 51 is preferably formed in a vacuum state, and is formed of a metal having excellent thermal conductivity such as copper, stainless steel, ceramics, and tungsten.

The heat transfer medium may be selected from methanol, acetone, water, and mercury.

The angle regulating portion 60 is rotatably installed on one side of the heat dissipating portion 40 to adjust the irradiation direction of the light emitted from the light emitting portion 20, And a fixing bracket 65 rotatably installed on the bracket 61 and fixed to the support, ceiling or wall surface.

The fixing hook 65 is rotatably coupled to the center of the bracket 61. A plurality of first fixing holes 62 are formed at the same distance with respect to the center of the bracket 61, The second fastening hole is formed at a position corresponding to the first fastening hole 62. [

The fixing hook 65 can be fixed in position by fastening the fastening member 69 so as to penetrate the selected one of the second fastening holes and the first fastening holes 62.

The floodlight 1 according to the present invention further includes a penetrating portion 70 penetrating the protective lid 32 to communicate the inside of the protective lid 32 and the outside of the protective lid 32.

The communicating portion 70 includes a body portion 71 screwed into a coupling hole formed to penetrate the protective lid 32 and inserted into the protective lid 32 at one end and provided with a ventilation hole 72 therein, A head portion 73 extending from the vent hole 72 and communicating with the vent hole 72 is provided on the inner side and a head portion 73 provided on the vent hole 72 and moving from the vent hole 72 to the communication hole 74 And an air permeable film 77 for passing air therethrough and blocking foreign substances flowing from the communication port 74 to the ventilation port 72.

The body portion 71 and the head portion 73 are formed in a bolt shape and a ventilation hole 72 extending along the longitudinal direction is formed in the body portion 71. A ventilation hole 72 is formed in the head portion 73, A communication hole 74 is formed through the head portion 73 in a direction orthogonal to the direction of the head portion 73. [ The vent hole (72) and the communication hole (74) are communicated with each other.

A nut 78 is fastened to the end of the trunk portion 71 to prevent the trunk portion 71 from being separated from the protective lid 32 from the inside of the protective lid 32. The head portion 73, And a packing 79 is interposed between the first and second plates 32 and 32.

A partition wall 75 for supporting the air permeable film 77 is formed in the vent hole 72 and a plurality of air holes are formed in the partition wall 75.

The breathable film 77 may be made by bonding an expanded poly-tetrafluoroethylene (e-PTFE) film or an e-PTFE film to the fiber. The air permeable film 77 is formed so as to have open pores so that gas can pass through and water particles can not pass through.

That is, in the above-mentioned passage portion 70, the air inside the shade portion 30 heated by the light-emitting portion 20 passes through the communication hole 74, the air-permeable film 77 and the ventilation hole 72, It is possible to prevent the generation of water vapor inside the shabbles 30 and to prevent foreign substances such as water and insects from flowing into the shabbles 30 from the outside of the shabbles 30 .

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. You will understand that an example is possible.

Accordingly, the scope of the true technical protection of the present invention should be determined by the technical idea of the appended claims.

1: floodlights
10: Base portion
20:
30:
40:
50: Heat exchanger
60:
70:

Claims (4)

A base portion formed in a plate shape having a predetermined area and formed with buried grooves in a central portion of the bottom surface and having a plurality of partition walls partitioning the buried grooves along the longitudinal direction;
A light emitting unit including a plurality of light emitting diodes disposed on the substrate unit and emitting light;
A lamp unit installed on the base unit to guide a path of light emitted from the light emitting unit and to block foreign substances from entering the light emitting unit;
A heat dissipation unit disposed at one side of the base portion opposite to the light emitting unit, the heat dissipation plates having a plurality of holes arranged apart from each other by a fixing frame;
A heat exchange part installed on the bottom surface of the base part so as to be in contact with the light emitting part, and the other end extending upward from the bottom surface of the base part to penetrate the heat radiation part;
A bracket that is rotatably installed on one side of the heat dissipating unit and adjusts the irradiation direction of light emitted from the light emitting unit, the bracket being coupled to the stationary frame and having a plurality of first fastening holes at the same distance with respect to the center, A fixing bracket rotatably installed on the bracket and having a second fixing hole formed at a position corresponding to the first fixing holes, and a fastening member fastened to any one of the first fastening holes and the second fastening hole, And an angle adjusting unit,
The heat exchanger includes an evaporator having a part of an outer circumferential surface thereof embedded in the buried groove so that one end of the heat exchanger is in contact with the substrate, an extension extending upward from the evaporator to the base, And a heat transfer member which is filled in the flow path and transfers heat generated in the light emitting unit to the heat dissipation unit while moving between the evaporation unit and the condensation unit, wherein the heat transfer plate includes a condensing unit extending through the heat dissipation plate, Media,
A reflector for reflecting the light emitted from the light emitting unit; a protective cap which is formed in a shape corresponding to the reflector and is installed to surround the outside of the reflector so as to be spaced apart from the reflector; And a protective plate formed of a transparent material to seal the inside of the protective cap,
And a communicating hole provided so as to penetrate the protective cap to communicate the inside of the protective cap and the outside of the protective cap,
The ventilation part is formed with a body part which is screwed into a coupling hole formed to penetrate through the protective cap and has one end inserted into the protective cap and having a ventilation hole formed along the longitudinal direction thereof and a body part extending from the body part and communicating with the ventilation hole And a ventilation film provided on the ventilation hole for passing air flowing from the ventilation port to the ventilation port and blocking foreign substances flowing into the ventilation port from the ventilation port. Lighting. delete delete delete

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