KR20100105289A - Heat-sink for led lighting unit - Google Patents

Abstract

PURPOSE: A heat-sink for an LED lighting unit is provided to increase the efficiency of discharging heat to the outside through air which is circulated inside a body. CONSTITUTION: A body(10) has a penetration hole(11) passing through top and bottom of the body. An LED illumination module(50) is combined in an upper part of the body. A plurality of air current holes(20) are formed on the side of the body to flow air between the penetration hole and the outside. The air current holes are comprised of a plurality of small current holes, having a diameter which increases inward, as well as a plurality of large current holes, having a diameter which increases outward.

Description

Heat-Sink for LED Lighting Unit

The present invention relates to a heat sink for LED lighting, and more particularly, by the pressure difference between the inside and outside of the body, the air naturally flows between the inside and the outside of the body and radiates heat transmitted from the LED lighting module to the body more efficiently. In addition, the body relates to a heat sink for LED lighting that has the first powder and the second powder having a mutually symmetrical structure to be assembled in a male and female coupling method to increase productivity and assembly.

Luminaires are being developed using light-emitting diodes (LEDs) as light sources in traditional light sources such as incandescent lamps and fluorescent lamps. Lighting fixtures that use LEDs as light sources are expected to replace traditional lighting fixtures due to their low environmental pollution and long lifespan. Recently, many researches and developments have been made. .

In the field of LED lighting equipment, development items are largely concentrated in three parts. First, the study on the light source, that is, the PCB on which the LED is mounted, and the second, a study on the heat dissipation structure for radiating heat generated by the light emission of the LED. The third is a study on the power source for the light emission of the LED.

The present invention relates to a heat dissipation structure, which is the second development item in the field of LED lighting equipment, and in particular, the inventor can realize a multi-sided angle from the existing simple-type LED lighting PCB and improve efficiency in the manufacturing process and light irradiation range. The present invention relates to a more preferable heat dissipation structure for heat dissipation of LED lighting modules, which have been developed under the patent registration Nos. 885197 and 875724 by developing a printed circuit board for LED lighting lamps.

Early heat sinks for LED lighting (heat sinks) simply contacted heat sinks with high heat transfer rates, such as aluminum, to the bottom of PCBs on which LEDs were mounted, but the heat dissipation efficiency was not satisfactory. Thus, in order to further improve heat dissipation efficiency, an improved heat dissipation structure for LED lighting is disclosed in Korean Patent No. 754405 "Lighting Mechanism" and Korean Patent No. 2008-71812 "LED Lighting Assembly with Cooling Device Using Heat Pipe."

The registered patent and the published patent is the LED lighting module is coupled to the upper body, the through-hole through which the cable for supplying power to the LED lighting module is inserted is formed through the upper and lower, and the vertical direction in the outer periphery of the body Or it is formed to include a plurality of cooling fins protruding in the left and right to release heat to the outside.

The heat dissipation structure (heat sink) of the patent and the disclosed patent is configured to increase the air contact area of the cooling fins so that the heat transmitted by direct contact with the LED lighting module can be easily released to the outside through the cooling fins. The heat (ie, heated air) introduced into the through-holes inside the body without being directly contacted with the body is contacted with the inner surface of the body through-holes and gradually released through the cooling fins on the outer surface (outer circumference) of the body, It is released slowly through the through hole opening. That is, the heat dissipation structure of the registered patent and the published patent can be said to be higher heat dissipation efficiency than the existing heat sink, but is not satisfactory.

However, it is not preferable to increase the heat dissipation efficiency and increase the power consumption to increase the heat dissipation efficiency by forcibly circulating the air inside and outside the body by using a coolant flow through the blower fan.

In other words, there is a need for a means (structure) to increase heat dissipation efficiency without installing a separate device such as cooling water or a fan.

The present invention has been made to solve the above problems, the heat transmitted directly from the LED lighting module in direct contact with the body is released through the cooling fins (that is, the heat dissipation wings) formed on the outer periphery of the body, the inside of the body The heat introduced into the through-holes is emitted through the air circulated naturally through the airflow holes formed on the side of the body to provide a heat sink for LED lighting with a one-dimensional height of heat dissipation efficiency.

And the body is made of a symmetrical structure and is made of a first powder and a second powder are assembled by male and female at the contact portion of both sides to provide a heat sink for LED lighting with improved productivity and assembly.

It also has a built-in power supply member that processes the input power and supplies driving power to both LED lightings, and has a base at the bottom that is electrically connected to the power supply member and has a base for receiving commercial power and supplying it to the power supply member. Another object of the present invention is to provide a heat sink for LED lighting, which is simply screwed on and electrically coupled to the LED.

LED lighting heat sink of the present invention for achieving the above object

A through hole penetrating the upper and lower sides is formed, the upper body is the LED lighting module is coupled;

And a plurality of airflow holes formed on the side of the body to move air between the through holes and the outside.

And the plurality of air flow holes are characterized in that it consists of a plurality of small air flow holes that the diameter gradually decreases from the outer surface to the inner surface, and a plurality of air flow holes gradually increasing in diameter from the outer surface to the inner surface,

A housing coupled to the lower portion of the body;

A radiator having a hollow penetrating up and down and communicating with the through hole, and having a plurality of heat dissipation pieces formed in a longitudinal direction at an outer circumference thereof, the radiator being disposed inside the LED lighting module having a hemispherical shape and coupled to an upper portion of the body;

A protective cover surrounding and protecting the LED lighting module;

And a coupling member coupled to the radiator while surrounding the lower outer edge of the LED lighting module, wherein the coupling member is fixed to the protective cover.

A power supply member disposed inside the housing and processing input power to supply driving power to the LED lighting module;

And a base electrically connected to the power supply member and coupled to the lower portion of the housing and coupled to a socket for inputting commercial power to the power supply member.

The outer periphery of the body is formed with a plurality of heat dissipation wings in the longitudinal direction, the body is provided with the air flow hole and the heat dissipation wings, respectively, characterized in that the first powder and the second powder having a symmetrical shape is formed by female and female coupling do.

The present invention having the configuration as described above is excellent in heat dissipation efficiency by releasing heat inside the body through the air circulating naturally inside and outside the body through the airflow hole, the body is the first powder and the second powder having a symmetrical shape It has excellent productivity and assemblability, and has a base that is simply electrically connected to the socket.

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

1 is a perspective view of the LED lighting module L is coupled to the heat sink H according to the present invention, FIG. 2 is an exploded perspective view of FIG. 1, and FIG. 3 is a cross-sectional view of FIG. 1.

As shown in the figure, the present invention is roughly divided into a body 10, a plurality of airflow holes 20 formed on the side of the body 10, a housing 30 coupled to the lower part of the body, and an upper portion of the body. A heat dissipation unit 60 coupled to the heat dissipation unit, a protective cover 70 surrounding and protecting the LED lighting module 50, a coupling member 80 coupled to the heat dissipation unit, and a protective cover coupled thereto, and a power supply built into the housing. And a base 40 coupled to the lower portion of the housing.

The upper part of the body 10 is equipped with an LED lighting module (L) through the heat sink 60,

On the outer surface, a plurality of heat dissipation blades 13 are formed in the longitudinal direction (that is, the vertical direction) to increase the contact area with air and to increase the heat dissipation efficiency.

In the center, a through hole 11 penetrating up and down is formed. A cable (not shown) for supplying driving power to the LED lighting module 50 is inserted through the through hole 11.

In addition, the airflow hole 20 is formed at the side of the body 10 to connect the outside and the inside of the body 10 (that is, the through hole 11) to form a circulation (movement) path of air.

The airflow hole 20 is formed on the side of the body 10 to communicate the inside and outside of the body 10 to allow air to circulate inside and outside the body 10.

Some of the heat emitted from the LED lighting module 50 is transferred to the body 10 or the protective cover 70 is directly discharged to the outside, and some of the inside (space enclosed by the protective cover and through-hole space inside the body) Heat the air. The heated air expands to create a pressure difference with the outside. Therefore, the air inside the body 10 and the protective cover 70 is naturally discharged to the outside of the body 10 through the airflow hole 20 due to the pressure difference between inside and outside, and as much as the amount of air discharged as the air inside is discharged. Cold outside air is introduced into the station in reverse. As the air is naturally circulated by the heating, expansion, and pressure difference of the air, the heat emitted from the LED lighting module 50 is efficiently discharged to the outside.

And the air flow hole 20 has a plurality of small air flow holes (20a) gradually decreases in diameter as the diameter goes from the outer surface to the inner surface of the body 10, a plurality of air flow holes (20b) that gradually increases in diameter from the outer surface to the inner surface It is preferable that the small airflow holes 20a and the airflow holes 20b are alternately arranged. By providing a small airflow hole (20a) and the airflow hole (20b) that the inner diameter is gradually smaller or larger, and by arranging them alternately, the circulation of air inside and outside the body 10 is made smoother. Heated air inside the body 10 is discharged to the outside through the small air flow hole (20a), cold air outside the body 10 is introduced into the interior through the air flow hole (20b).

The body 10 is assembled by combining the first powder H1 and the second powder H2 having a symmetrical shape with each other. The female coupling part 18 and the male coupling part 17 are provided on one surface and the other surface of the (first and second) powders for the male and female coupling of the first powder H1 and the second powder H2, respectively.

The overall body 10 is cylindrical, and the body 10 of the structure in which the outside and the inside are spatially blocked is not only difficult to manufacture by a mold or a die casting method, but also a mold or a die casting equipment is complicated and productivity is low.

Thus, in the present invention, the first powder H1 and the second powder H2 are formed by assembling the first and second powders H1 and H2 having spatially connected interiors and exteriors. To facilitate the manufacture of the body and the body 10 is formed by assembling them,

The first powder H1 and the second powder H2 have a symmetrical shape to increase productivity. That is, the first powder H1 and the second powder H2 have the same shape, and one surface of the first powder H1 is the other surface of the second powder H2 and the other surface of the first powder H1 is the second powder. It consists of a structure that is in contact with one surface of the (H2), the manufacturing apparatus for manufacturing the first powder (H1) and the second powder (H2) is not required each, but a large number of powders of the same shape with a single manufacturing device After the two powders are assembled, the two powders become one powder (H1) and the second powder (H2).

The housing 30 is coupled to the lower portion of the body 10, the power supply member 90 is embedded therein, and the base 40 is coupled to the lower portion thereof.

The upper part of the housing is formed with a catching hole 35 for engaging the engaging projection 15 is formed in the lower portion of the body, the inner surface of the housing a plurality of support for supporting the edge of the power supply member 90 is built A step portion 32 supporting the edges of the 31 and the body 10 is formed, and a plurality of vent holes 33 for dissipating heat emitted from the power supply member 90 to the outside are provided on the lower surface of the housing. Is formed, the engaging portion 37 to which the base 40 is coupled is formed in the lower center protruding. A cable (not shown) electrically connects the base and the power supply member through the holes 37h formed in the coupling portion.

The base 40 has a thread 41 which is screwed to a socket (not shown) at the outer circumference of the base, such as a base provided in a general incandescent lamp, and a first terminal 43 electrically connected to the socket at a lower portion thereof. ) Is provided and the predetermined portion of the thread (or the thread itself) is provided with a second terminal electrically connected to the socket.

For reference, the LED lighting module 50 includes an LED 51 as a light source, and a metal PCB 53 on which the LED 51 is mounted and excellent in heat dissipation efficiency. And it has a hemispherical multi-sided structure (6 sides in the figure) so as to illuminate the front and side all directions, and in the upper part of the center to allow the heated air to move to the through hole 11 of the body The distribution hole 55 is formed.

The radiator 60 is contact-coupled (not shown in the coupling structure) to the upper portion of the body 10 and disposed inside the LED lighting module 50 in a hemispherical shape to transfer heat transferred from the LED lighting module to the body.

In addition, a plurality of heat dissipation pieces 61 are formed on the outer periphery of the heat dissipator to increase the contact area with the air to more efficiently transmit heat emitted from the LED lighting module 50 to the body 10. .

A hollow 63 penetrating the upper and lower sides is formed to communicate the inside of the LED lighting module 50 and the protective cover 70 with the through hole 11 of the body 10 so that air can move smoothly between them. .

The protective cover 70 surrounds and protects the hemispherical LED lighting module 50 and is made of a transparent material to transmit light emitted from the LED 51.

And the lower portion is formed with a locking hole 75 is inserted into the engaging projection 85 is formed protruding to the outer periphery of the coupling member (80).

The coupling member 80 is coupled to the radiator 60 while surrounding the outer circumference of the hemispherical LED lighting module 50 (not shown in the coupling structure), and the lower portion of the protective cover 70 is coupled to the upper portion.

In order to engage with the protective cover, an upper locking protrusion 85 is formed at the upper portion of the locking hole 75 of the protective cover, and a stepped portion 81 is formed at the upper outer circumference so that the combined protective cover does not protrude.

And the inner surface of the coupling member is a multi-faceted structure (six-faced structure on the drawing) corresponding to the multi-faceted structure of the LED lighting module 50 so that the inserted LED lighting module does not move.

In the above description of the present invention, a heat sink for LED lighting having a specific shape and structure has been described with reference to the accompanying drawings. However, the present invention can be variously modified and changed by those skilled in the art. It should be interpreted as falling within the protection scope of.

1 is a perspective view of the LED lighting module coupled to the heat sink according to the present invention.

Figure 2 is an exploded perspective view of Figure 1;

3 is a cross-sectional view of FIG.

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

10: body 11: through hole

13: heat dissipation wing 15: jamming projection

20: air flow hole 20a: small air flow ball

20b: air flow hole 30: housing

31: support 33: aeration hole

40: base 50: LED lighting module

60: radiator 61: radiator

63: hollow 70: protective cover

80: coupling member 90: power supply member

Claims (5)

A through hole penetrating the upper and lower sides is formed, the upper body is the LED lighting module is coupled; Heat sink for LED lighting using airflow, including; a plurality of airflow holes formed on the side of the body to move the air between the through-hole and the outside. The method of claim 1, The plurality of air flow holes for the LED light using the air flow, characterized in that composed of a plurality of small air flow holes whose diameter gradually decreases from the outer surface to the inner surface, and a plurality of air flow holes gradually increasing in diameter from the outer surface to the inner surface Heatsink. The method according to claim 1 or 2, A housing coupled to the lower portion of the body; A radiator having a hollow penetrating up and down and communicating with the through hole, and having a plurality of heat dissipation pieces formed in a longitudinal direction at an outer circumference thereof, the radiator being disposed inside the LED lighting module having a hemispherical shape and coupled to an upper portion of the body; A protective cover surrounding and protecting the LED lighting module; And a coupling member coupled to the radiator while surrounding the lower outer edge of the LED lighting module and fixed to the protective cover. The method of claim 4, wherein A power supply member disposed inside the housing and processing input power to supply driving power to the LED lighting module; And a base electrically connected to the power supply member and coupled to a lower portion of the housing and coupled to a socket for inputting commercial power into the power supply member. The method of claim 4, wherein The outer periphery of the body is formed with a plurality of heat dissipation wings in the longitudinal direction, the body is provided with the air flow hole and the heat dissipation wings, respectively, characterized in that the first powder and the second powder having a symmetrical shape is formed by female and female coupling Heat sink for LED lighting

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