KR101079669B1 - Heat sink for ＬＥＤlighting unit - Google Patents

Abstract

The present invention relates to a heat radiator for LED lighting, and more particularly, a heat radiator formed by assembling and combining a plurality of unit units comprising a plurality of heat dissipation fins protruding on both sides of the base and the base, the structure of the unit unit Simplify to increase the productivity of the unit unit, and relates to a heat sink that can have a variety of shapes and various sizes according to the assembly method of the unit units.

Prefabricated heat sink for LED lighting of the present invention is a base; A plurality of heat dissipation fins protruding in the vertical direction on both sides of the base; A plurality of unit units comprising a first female coupling portion and a first male coupling portion respectively formed on the left and right heat dissipation fin ends formed on one surface of the base are assembled by male and female coupling portions and male coupling portions.

LED, lighting, heat dissipation, unit unit, assembly, male and female

Description

Prefabricated heat sink for LED lighting {Heat sink for LED lighting unit}

The present invention relates to a heat radiator for LED lighting, and more particularly, a heat radiator formed by assembling and combining a plurality of unit units comprising a plurality of heat dissipation fins protruding on both sides of the base and the base, the structure of the unit unit Simplify to increase the productivity of the unit unit, and relates to a heat sink that can have a variety of shapes and various sizes according to the assembly method of the unit units.

In recent years, LED has been spotlighted as a light source of illumination. LEDs are rapidly replacing conventional incandescent bulbs and fluorescent lamps due to their advantages such as semi-permanent life, low power consumption and high brightness.

LEDs are known to have a semi-permanent lifespan, but that's what the environment is backed by. Of the surroundings, temperature (heat) is particularly important. In other words, it is important to dissipate heat emitted from the LED quickly and efficiently so that the LED and the PCB on which the LED is mounted are not exposed to high temperature.

Since several LEDs are usually mounted on a PCB and used as lighting, if any one LED is damaged and not lit, the lighting is not only poorly aesthetically deteriorated but also its quality is drastically deteriorated.

Therefore, most of the lighting using the LED is provided with a heat sink for emitting the radiating heat of the LED to the outside.

The heat sink used in the conventional LED lighting is fixed in shape and size. In other words, the conventional heat sink is coupled one-to-one with a PCB of a specific shape and size in which the LED is mounted. Thus it cannot be used for PCBs of different shapes and sizes.

Therefore, the heat sink used in the conventional LED lighting had to be manufactured separately as a heat sink having a structure corresponding to the shape or size of the PCB on which the LED is mounted.

In addition, the conventional heat sink has a problem in that the heat sink for molding the mold has a complicated structure in order to increase the heat dissipation efficiency, the structure of the mold is complicated, the heat sink produced by extrusion has a long extrusion process and a long extrusion time. .

The present invention has been made in order to solve the above problems, it is possible to manufacture a heat sink of various sizes and various shapes according to the number and method of the unit unit assembled by a plurality of unit units are assembled together to form a heat sink, An object of the present invention is to provide a heat sink for LED lighting that can simplify the mold or extrusion process for manufacturing a unit by simplifying the structure of the unit.

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

Base;

A plurality of heat dissipation fins protruding in the vertical direction on both sides of the base;

A plurality of unit units comprising a first female coupling portion and a first male coupling portion respectively formed on the left and right heat dissipation fin ends formed on one surface of the base are assembled by male and female coupling portions and male coupling portions.

And a second female coupling part and a second male coupling part respectively formed at left and right heat dissipation fin ends formed on the other surface of the base.

The unit unit is characterized in that the plurality of the second female coupling portion and the second male coupling portion is assembled with each other male and female,

The first and second female coupling portions have a groove structure in which a locking groove is formed, and the first and second male coupling portions have a protrusion structure in which a locking protrusion that is engaged with the locking groove is formed. The protruding structure of the male coupling part is slidably inserted into the groove structure of the first and second female coupling parts, respectively,

The heat dissipation fins formed on one surface of the base are formed of inner heat dissipation fins that are arranged to protrude at a predetermined length on the inside, and outer heat dissipation fins which are arranged to protrude at a predetermined length on the outside and have a longer protruding length than the inner heat dissipation fins.

The heat dissipation fins formed on the other surface of the base are composed of central heat dissipation fins arranged to protrude at a predetermined length inside, and inclined heat dissipation fins gradually shortening toward the outside.

The two unit units are assembled to face each other to form a hole in the center and form a cylindrical shape as a whole,

Four unit units are assembled to face each other so that a hole is formed in the center and forms a rectangular pillar shape as a whole.

The present invention having the configuration as described above is simple in the structure of the unit unit is high productivity of the unit unit, it is possible to manufacture a variety of heat sinks having various shapes and sizes according to the way of assembling the unit unit, Assembly is also easy.

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

1 is a plan view of a unit unit according to an example of the present invention, FIG. 2 is a perspective view of a heat sink formed by assembling the unit unit of FIG. 1, and FIG. 3 is another shape formed by assembling the unit unit of FIG. The heat sink of the is shown.

As shown in the drawing, the heat sink (HS; Heat Sink) of the present invention, the unit unit (U) is assembled with each other to form a heat sink (HS) having various shapes and sizes, LED (1) on the heat sink (HS) ) Is mounted a PCB (3).

The unit unit U includes a base 10, a heat dissipation fin 20, first and second female coupling parts 31 and 41d, and first and second male coupling parts 36 and 46.

The unit unit (U) is generally made of an aluminum material which is light and excellent in thermal conductivity, manufactured by injection molding using a mold, or manufactured by compression using a grind (grind) device.

The base 10 forms a skeleton of the unit unit U,

The heat dissipation fins 20 are formed on both sides of the base 10 in the vertical direction, respectively,

The first female coupling part 31 and the first male coupling part 36 are formed at ends of the heat dissipation fins 21 and 23 on the left and right sides formed on one surface of the base 10, and are assembled to other unit units U. The first male coupling part 36 and the first female coupling part 31 of the male and female,

The second female coupling part 41 and the second male coupling part 46 may be formed at the ends of the left and right heat dissipation fins 26 and 28 formed on the other surface of the base 10. The second male coupling portion 46 and the second female coupling portion 41 is male and female.

As shown in FIG. 2, the unit units U may be coupled to each other so as to face each other to form a radiator HS having a specific shape. As shown in FIG. 3, the unit units U may face each other as shown in FIG. 3. It may be assembled to form a heat sink (HS) of another shape. And as shown in Figure 4 it is also possible to increase the size of the heat sink by assembling the unit unit again to each unit unit of the assembled heat sink of the four unit units.

In addition, it is natural that three, five, six, or more unit units U may be assembled to face each other by adjusting the protruding length of the heat radiation fins formed on the other surface. Thus, as shown in the drawings, not only the cylindrical radiator (HS) and the square column radiator (HS), but also the triangular, pentagonal, and hexagonal radiators (HS) may be manufactured.

And holes (h1, h2) are formed in the center of the heat-radiating body (HS) is assembled and coupled to allow the air to circulate more smoothly, so as to increase the heat radiation efficiency,

The heat dissipation fins formed on one surface of the base 10 are composed of an inner heat dissipation fin 21 and an outer heat dissipation fin 23, and the heat dissipation fins formed on the other surface of the base 10 are composed of a central heat dissipation fin 26 and an inclined heat dissipation fin 28.

The outer heat dissipation fins 23 do not collide with the outer heat dissipation fins 23 of the other unit unit U assembled by forming a straight line with a constant protruding length,

The inner heat dissipation fins 21 form a straight line with a constant protruding length, but the protruding length is shorter than the outer heat dissipation fins 23, so that the inner heat dissipation fins 21 together with the inner heat dissipation fins 21 of the other unit units U are assembled. A hole h1 is formed in the center.

In addition, the inclined heat dissipation fins 28 extend from the inside of the base 10 to the outside thereof, and the protruding length is gradually shortened to form a virtual inclined line, and to be in contact with the inclined dissipation fins 28 of the other unit unit U assembled. do. The number of unit units U forming the heat dissipating body HS according to the angle of the inclined line forming the inclined heat dissipating fins 28 is different, and thus the shape of the heat dissipating body HS is changed.

The central heat dissipation fins 26 are formed to protrude inside the other surface of the base and have a constant protruding length to form a straight line. In addition, the hole h2 is formed in the center of the heat sink HS together with the central broadcasting pins of the other unit units U assembled.

In addition, the first and second female coupling parts 31 and 41 and the male coupling parts 36 and 46 are formed of a groove structure and a protrusion structure which are assembled by being male and female coupled to each other by a slide type, and are not easily separated after assembly. The female coupling parts 31 and 41 and the male coupling parts 36 and 46 are provided with locking grooves 33 and 43 and locking projections 38 and 48, respectively.

Thus, the first male coupling portion 31 provided on one surface of one unit unit U and the first male coupling portion 31 provided on one surface of the other unit unit U in the first male coupling portion 36 ( 36) and the first female coupling portion 31 are inserted into each of the male and female by sliding forward. The second female coupling portion 41 and the second male coupling portion 46 are also male and female coupling in this manner.

In this way, after the female coupling parts 31 and 41 and the male coupling parts 36 and 46 are male and female, the locking protrusions 38 and 48 are locked to the locking grooves 33 and 43, thereby providing a heat dissipation body (HS). Prevents the unit units U forming a shape from being separated from each other in the horizontal direction (left and right directions), and only allows separation in the vertical direction. And when the PCB (3) mounted with the LED (1) mounted on the heat sink (HS) is combined and other components are combined to complete the LED lighting product PCB or other components move the unit unit (U) in the vertical direction Therefore, the risk that the unit units U forming the heat sink HS are separated from each other disappears.

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

1 is a plan view of a unit unit forming a heat sink according to the present invention.

2 is a perspective view illustrating an example of a heat sink formed by assembling unit units;

Figure 3 is a perspective view showing an example of a heat sink of another shape formed by the assembly of the unit.

4 is a perspective view showing an example of a heat sink of another shape formed by the assembly of the unit units.

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

U: unit unit HS: radiator

10: base 20: heat dissipation fin

31,41: 1st, 2nd female coupling portion 36,46: 1st, 2nd male coupling portion

Claims (4)

Base; A plurality of heat dissipation fins protruding in the vertical direction on both sides of the base; A plurality of unit units comprising a first female coupling portion and a first male coupling portion formed on each of the left and right heat dissipation fin ends formed on one surface of the base, the female coupling portion and the male coupling portion are assembled with each other male and female, And a second female coupling part and a second male coupling part respectively formed at the left and right heat dissipation end portions formed on the other surface of the base. The unit unit is a plurality of heat dissipation prefabricated LED lighting, characterized in that the second female coupling portion and the second male coupling portion is assembled with each other. delete The method of claim 1, The first and second female coupling portions have a groove structure in which a locking groove is formed, and the first and second male coupling portions have a protrusion structure in which a locking protrusion that is engaged with the locking groove is formed. 2, the protruding structure of the male coupling portion is slidably inserted into the groove structure of the first and second female coupling portion, respectively, and assembled. The method of claim 3, wherein The heat dissipation fins formed on one surface of the base are formed of inner heat dissipation fins that are arranged to protrude at a predetermined length on the inside, and outer heat dissipation fins which are arranged to protrude at a predetermined length on the outside and have a longer protruding length than the inner heat dissipation fins. The heat dissipation fins formed on the other surface of the base are composed of central heat dissipation fins arranged to protrude at a predetermined length inside, and inclined heat dissipation fins gradually shortening toward the outside. The two unit units are assembled to face each other to form a hole in the center and form a cylindrical shape as a whole, Prefabricated heat sink for LED lighting, characterized in that the four unit units are assembled to face the other surface to form a hole in the center and form a square pillar as a whole.

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