KR102103728B1 - An LED in which a radiating fin is directly attached to a metal PCB - Google Patents

Abstract

An existing LED lighting has a problem that a configuration and a fastening process for a radiation fin are complicated. A LED lighting of the present invention has been made to solve the problem. An objective of the present invention is to provide the LED lighting having a radiation fin, which has a simple manufacturing process and has high radiation efficiency by directly connecting a metal PCB with a LED element to the radiation fin, for easy assembly directly attached to the metal PCB, and a manufacturing method thereof. The outdoor LED lighting comprises: a metal PCB having an LED element formed on one side thereof; a fastening female screw bar formed around the other side of the metal PCB, coupled with the metal PCB through a fastening screw, and forming a fastening line between a gap with the metal PCB; and a radiation fin having a fastening protrusion fitted into the fastening line and having one side thereof in contact with the other side of the metal PB.

Description

An LED in which a radiating fin for easy assembly is attached directly to a metal PCB {An LED in which a radiating fin is directly attached to a metal PCB}

The present invention relates to an LED light in which a heat dissipation fin for easy assembly is directly attached to a metal PCB, and more specifically, a metal PCB in which an LED element is formed and a heat dissipation fin for dissipating heat of the LED element to the outside are combined through a simple method, The manufacturing process is simple, and the heat dissipation performance is high, and it is related to the LED lighting in which the heat dissipation fins for assembly having a high fixing effect are directly attached to the metal PCB.

LED lighting is a lighting device using a light emitting diode, and is widely used due to its characteristics such as low power and long life.

 Since the heat dissipation of the LED is a life-determining factor, heat dissipation is a very important factor in the manufacture of LED lighting.

Therefore, conventionally, heat dissipation means such as heat dissipation fins, heat sinks, heat pipes, etc. are used to effectively dissipate heat generated from the LEDs.

Referring to the Republic of Korea Patent Publication No. 10-2018-0086119, as shown in Figure 1, the conventional LED lighting fixture having a natural convection type heat dissipation structure is a PCB substrate 100, LED element 200, heat sink 300 ). A plurality of LED elements 200 are mounted and arranged on one surface of the PCB substrate 100, and a heat sink made of a metal material absorbing heat emitted from the LED elements 200 is disposed on the back surface of the PCB substrate 100 ( 300) are combined. The heat sink 300 is made of the same flat plate as the PCB substrate 100 so as to be in surface contact with the PCB substrate 100, and the LED element is disposed on the upper surface of the heat sink 300 and the PCB substrate 100. 200) The fastening holes 310 and 110 penetrated therebetween are formed, and the heat sink 300 and the PCB substrate 100 are coupled by bolts 500 fastened to the fastening holes 310 and 110. In addition, referring to FIG. 2, heat sink fins 900 for radiating radiant heat on the top surface may be further provided on both sides of the top surface of the heat sink 300, and the heat sink fins 900 and the heat sink 300 It can be seen that it is fastened by a bolt 500 that fastens the PCB substrate 100.

However, the conventional LED is formed by tapping the heat sink base, and fixing the metal PCB on which the LED element is formed with a plurality of screws so that heat generated from the LED element is transferred to the heat sink fins connected to the heat sink base, thereby performing tap processing. In consideration of this, the circuit pattern of the metal PCB has to be formed, and there is a problem in that the configuration and the fastening process for heat dissipation are complicated.

Republic of Korea Patent Publication No. 10-2018-0086119 (Publication date 2018.07.30.)

The present invention is to solve the above problems, by directly connecting the heat dissipation fin to the metal PCB on which the LED element is formed, the manufacturing process is simple, and the heat dissipation fin with high heat dissipation efficiency is attached directly to the metal PCB. The purpose is to provide lighting.

An LED light in which an easy heat dissipation fin for assembly according to an embodiment of the present invention is directly attached to a metal PCB, in an outdoor LED light, is formed around a metal PCB where an LED element is formed on one side and the other side of the metal PCB. , A coupling female screw coupled to the metal PCB through a fastening screw, a fastening female thread bar forming a fastening line between the metal PCB and a fastening protrusion fitted to the fastening line are formed, and one side faces the other side of the metal PCB. It may be characterized in that it comprises a radiating fin in contact.

Furthermore, the LED lighting, in which an easy-to-assemble heat-dissipating fin according to an embodiment of the present invention is directly attached to a metal PCB, further includes an adhesive applied to the heat-dissipating fin and adhering one side of the heat-dissipating fin to the other side of the metal PCB. It can be characterized in that made by.

Further, the heat dissipation fin may be characterized in that it is formed at least one spaced apart on one side of the heat dissipation fin, further comprising an adhesive avoidance hole for discharging the adhesive.

Further, the heat dissipation fin may be characterized in that it is formed at least one spaced apart on one side of the heat dissipation fin, and further comprises an adhesive accommodating portion protruding a certain distance toward the other side of the heat dissipation fin to receive the adhesive.

Further, the heat dissipation fin is characterized in that it comprises a contact heat dissipation part that is in surface contact with the other side of the metal PCB and a heat dissipation part which is formed extending from the contact heat dissipation part in the other direction of the metal PCB and has a certain length. You can.

Further, the length heat dissipation unit may be characterized in that a certain length is cut at regular width intervals, and one side and the other side are twisted at different angles based on the center of the plane direction.

A method for manufacturing an LED light in which an easy heat dissipation fin for assembly according to an embodiment of the present invention is directly attached to a metal PCB, in a method for manufacturing an outdoor LED light, is fastened to the other side of a metal PCB where an LED element is formed on one side. Loosely fastening the female screw bar with a fastening screw, the first fastening step of forming a fastening line, the assembling step of inserting one or more heat dissipation fins formed with fastening projections on the fastening line, and tightening the fastening screws to tighten the metal PCB, the heat dissipation pin, and the fastening female screw It may be characterized in that it comprises a second fastening step of tightening the bar.

Further, the LED lighting manufacturing method in which the heat dissipation fin for easy assembly according to an embodiment of the present invention is directly attached to a metal PCB, immediately after the first fastening step, adhesives on one side of the heat dissipation fin that touches the other side of the metal PCB It may be characterized in that it further comprises a first adhesive applying step of applying a.

A method for manufacturing an LED light in which a heat dissipation fin for easy assembly according to another embodiment of the present invention is directly attached to a metal PCB, in a method for manufacturing an outdoor LED light, on the other side of a metal PCB where an LED element is formed on one side, The arrangement step of arranging a plurality of heat radiation fins in surface contact with the other side of the metal PCB and having a fastening protrusion formed thereon and a fastening female screw bar formed around the other side of the metal PCB to form a fastening line through which the fastening protrusion is fitted. It may be characterized in that it comprises a single fastening step of screw fastening through the PCB and the fastening screw.

Further, in the LED lighting manufacturing method in which the heat dissipation fin for easy assembly according to another embodiment of the present invention is directly attached to a metal PCB, immediately before the arrangement step, an adhesive is applied to one side of the heat dissipation fin that touches the other side of the metal PCB It may be characterized in that it further comprises a second adhesive applying step.

In the embodiment of the present invention, an LED light having an easy-to-assemble heat-dissipating fin attached directly to a metal PCB has an effect of simplifying the manufacturing process and increasing heat dissipation efficiency by directly connecting the heat dissipation fin to the metal PCB on which the LED element is formed. have.

In addition, there is an effect that the pattern work for forming a pattern on one side of the metal PCB for the operation of the LED element is not disturbed by the position of the PCB fastening holes for coupling between components, so that the work is easy.

1 is a perspective view of a conventional LED lighting fixture having a natural convection type heat dissipation structure
Figure 2 is a perspective view showing a state in which a plurality of heat dissipation fins are arranged at regular intervals on the top surface of a heat sink of a conventional LED lighting fixture having a natural convection type heat dissipation structure
3 is a perspective view of an LED light in which a heat dissipation fin for assembly of the present invention is directly attached to a metal PCB.
4 is an exploded view of an LED light in which a heat dissipation fin for assembly of the present invention is directly attached to a metal PCB.
Figure 5 is a cross-sectional view of the right side of the LED light is attached to the heat sink is easy to assemble the metal PCB of the present invention
6 is an enlarged view of an LED light in which a heat dissipation fin for assembly of the present invention is directly attached to a metal PCB.
7 is a perspective view of a heat radiation fin according to an embodiment of the present invention
8 is a perspective view of a heat radiation fin according to another embodiment of the present invention
9 is a flow chart of a method for manufacturing an LED light in which a heat dissipation fin for easy assembly according to an embodiment of the present invention is directly attached to a metal PCB.
10 is a flow chart of a method for manufacturing an LED light in which a heat dissipation fin for easy assembly according to another embodiment of the present invention is directly attached to a metal PCB.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to ordinary or lexical meanings, and the inventor appropriately explains the concept of terms to explain his or her invention in the best way. Based on the principle that it can be defined, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, and at the time of this application, various alternatives are possible. It should be understood that there may be variations.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings. The accompanying drawings are only examples shown in order to describe the technical spirit of the present invention in more detail, so the technical spirit of the present invention is not limited to the form of the accompanying drawings.

The present invention
For outdoor LED lighting,
A metal PCB 200 on which an LED element 210 is formed;
It is formed on the upper and lower sides of the other side of the metal PCB 200, is coupled through the metal PCB 200 and the fastening screw 310, to form a fastening line 330 between the metal PCB 200 and Fastening female screw bar 300;
A fastening protrusion 430 fitted to the fastening line 330 is formed, and one side faces in contact with the other side of the metal PCB 200, but in contact heat dissipation in contact with the other side of the metal PCB 200 A portion 440, a heat radiation fin support 460 formed in the other direction of the contact heat dissipation unit 440, and is formed to extend from the heat radiation fin support 460 toward the other direction of the metal PCB 200 to a certain length, A heat radiation fin 400 made of a length heat dissipation part 450 which is formed by twisting a predetermined length at regular intervals, and having one side and the other side twisted at different angles based on the center of the plane direction;
It is made of, including; the adhesive 500 is applied to the heat dissipation fin 400 to adhere one side of the heat dissipation fin 400 to the other side of the metal PCB 200;
The heat dissipation fin 400 is
One or more adhesive avoidance holes 410 for discharging the adhesive 500 on one side of the heat dissipation fin 400 are formed at regular intervals, and the adhesive 500 avoids the adhesive without flowing out of the contact heat dissipation unit 440 It is discharged to the hole 410 to increase the fixing force,
The fastening female thread bar 300 is
It is formed in the shape of an 'a' in which the middle is bent, and one end (A) of the arc-shaped gap groove 470 between the fastening protrusion 430 and the radiating fin support 460 is inserted into a circular arc and is inserted into contact. , The other side (B) is fixed while being in surface contact with the radiating fin support 460 to facilitate installation,
The fastening screw 310 is
The metal PCB 200 and the fastening female screw bar 300 are continuously penetrated and fastened, but one lower end (A) and the other (B) of the fastening female screw bar 300 are fastened to the radiating fin support 460 by fastening force, respectively. Characterized as possible.

Referring to FIGS. 3 and 4, the LED light 100 to which the heat dissipation fin for easy assembly of the present invention is directly attached to a metal PCB is a metal PCB 200 in which an LED element 210 is formed on one side in an outdoor LED light. ), Is formed around the other side of the metal PCB 200, coupled through the metal PCB 200 and the fastening screw 310, to form a fastening line 330 between the metal PCB 200 and A fastening female threaded bar 300 and a fastening protrusion 430 fitted to the fastening line 330 are formed, and one side surface comprises a heat dissipation fin 400 in contact with the other side surface of the metal PCB 200. It is characterized by.

Referring to FIG. 4, the LED element 210 is configured to emit light, and operates by receiving an electrical signal through a pattern engraved on one side of the metal PCB 200, and may be operated according to the requirements of the installation environment. It is preferable that the LED elements 210 are installed on the metal PCB 200.

Preferably, the metal PCB 200 is provided with the LED element 210 on one side, and is formed to allow power supply from the external power source to the LED element 210 through a central portion or a predetermined portion.

The fastening screw 310 is configured to fix the metal PCB 200, the fastening female screw bar 300, and the heat dissipation fin 400 to each other, and the head portion of the fastening screw 310 is the metal PCB 200. It is preferable to come into contact with one side of the, the body portion engraved with a thread is inserted into the PCB fastening hole 220 and the fastening female screw bar 300.

The heat dissipation fin 400 is configured to receive heat generated from the LED element 210 through the metal PCB 200 and discharge it to the outside. One side is in surface contact with the other side of the metal PCB 200, , It is preferable that the other side is made of a metal plate formed to be bent and extended in the other direction of the metal PCB (200).

In addition, one or more of the heat dissipation fins 400 may be installed depending on the size of the metal PCB 200, and when a plurality of heat sinks are installed, it is preferable that they are installed with a predetermined interval therebetween.

In addition, the heat dissipation fin 400 is preferably installed so that the center or a certain portion of the metal PCB 200 is penetrated to allow power supply from the external power supply to the LED element 210, so as not to block the penetration portion.

Referring to FIG. 5, the LED light 100 in which the heat dissipation fin for assembly of the present invention is directly attached to a metal PCB is coated on the heat dissipation fin 400 and the heat dissipation fin 400 on the other side of the metal PCB 200. It may be made to further include an adhesive 500 for adhering one side.

The adhesive 500 is configured to bond the metal PCB 200 and the heat dissipation fin 400 to each other, and any material can be applied if it is an adhesive material capable of attaching the metal PCB 200 and the heat dissipation fin 400. It is possible. Silicon, thermally conductive grease, etc. may be used as the embodiment.

Referring to FIG. 6, the fastening female thread bar 300 is formed in an 'a' shape in which the middle is bent, and one lower end (A) and the other (B) are rounded, but the fastening protrusion 430 is provided. The one lower end (A) corresponds to the arc shape and is inserted into the interstitial groove 470 between the and the heat sink fin support 460, and the other side (B) is fixed while being in surface contact with the heat sink fin support 460 for easy installation. And, the fastening screw 310 has a structure in which the metal PCB 200 and the fastening female screw bar 300 are continuously penetrated to one side of the heat sink fin support 460.
The metal PCB 200 is formed around the metal PCB 200 and the metal PCB 200 includes a PCB fastening hole 220 into which the fastening screw 310 is inserted. The PCB fastening hole 220 does not interfere with the pattern work of forming a pattern on one side of the metal PCB 200 for the operation of the LED element 210 by the position of the PCB fastening hole 220, It has the effect of being easy to work.

The fastening female screw bar 300 presses the metal PCB 200 and the heat dissipation fin 400 through coupling with the fastening screw 310 to fix the metal PCB 200 and the heat dissipation fin 400 to each other. In the configuration, a female screw hole 330 that is screwed with the fastening screw 310 is formed.

The fastening line 330 is the fastening female screw bar when the PCB fastening hole 220 and the female screw hole 330 are concentric for the connection between the fastening female screw bar 300 and the metal PCB 200. As a space formed between the 300 and the metal PCB 200, a fastening protrusion 430 formed on one side or the other end in the longitudinal direction of the heat dissipation fin 400 is fitted, and the metal PCB 200 and the heat dissipation fin It is possible to combine the 400 and the fastening female screw bar 300.

When the fastening female screw bar 300 is formed in a pair, the fastening line 330 is also formed in a pair, wherein the fastening protrusions 430 formed on both ends in the longitudinal direction of one side of the heat dissipation fin 400 It is fitted into the pair of fastening lines 330.

Referring to FIG. 7, the heat dissipation fin 400 is formed at one or more intervals on one side of the heat dissipation fin 400 to further include an adhesive avoidance hole 410 for discharging the adhesive 500. have.

When the adhesive avoidance hole 410 attaches the heat dissipation fin 400 to the other side of the metal PCB 200 using the adhesive 500, the adhesive 500 applied to the heat dissipation fin 400 is The adhesive heat-radiating portion 440 is discharged to the adhesive avoidance hole 410 without flowing out, and at the same time, the adhesive force 500 is thinly applied between the heat-radiating fin 400 and the metal PCB 200. It has the effect of making it possible.

The adhesive avoidance hole 410 is formed in a circular shape, as shown, is only one embodiment, and any shape that can discharge the adhesive 500 penetrates through one side of the heat dissipation fin 400 in any shape. Can be formed.

Referring to FIG. 8, the heat dissipation fin 400 is formed at one or more intervals on one side of the heat dissipation fin 400, and protrudes a certain distance toward the other side of the heat dissipation fin 400 to accommodate the adhesive 500. It may be made to further include an adhesive receiving portion 420.

The adhesive accommodating part 420 is configured to fill the adhesive 500 in the adhesive accommodating part 420 and attach the heat dissipation fin 400 to the metal PCB 200. At this time, the adhesive accommodating part 420 It is preferable not to apply the adhesive 500 on one side of the heat dissipation fin 400 except.

Through this adhesive accommodation portion 420, the fixing force between the metal PCB 200 and the heat dissipation fin 400 is increased, and the other side of the metal PCB 200 and one side of the heat dissipation fin 400 are directly in contact with each other. It has the effect of increasing the thermal conductivity.

The adhesive accommodating part 420 is formed in a rectangular box shape with one surface open as shown, and is only one embodiment, and may be formed in any shape as long as it can accommodate the adhesive 500. You can.

Referring to Figures 7 and 8, the heat dissipation fin 400, one side is in contact with the other side of the metal PCB 200, the contact heat dissipation unit in contact with the other side of the metal PCB (200) ( 440), the heat dissipation fin support 460 formed in the other direction of the contact heat dissipation unit 440, and is formed extending from the heat dissipation fin support 460 toward the other direction of the metal PCB 200 to a certain length, and a certain width A certain length may be cut at intervals, and may include a length radiator 450 formed by twisting one side and the other side at different angles based on the center of the plane direction.

The contact heat dissipation part 440 may be formed by surface-contacting the other side surface of the metal PCB 200, and at this time, one end of the longitudinal direction of the contact heat dissipation part 440 or the other end or both ends may protrude. It is preferable that the fastening projection 430 is fitted to the fastening line 330 is formed.

The length heat dissipation part 450 is configured to receive heat generated from the LED element 210 through the contact heat dissipation part 440 that comes into contact with the metal PCB 200 and discharge it to the outside. 450) is formed extending from one end or the other end in the width direction of the contact heat dissipation portion 440 in the other direction of the metal PCB 200, it is characterized in that it forms a wide surface.

In addition, the length of the heat dissipation unit 450 may be characterized in that a certain length is cut at regular width intervals, and one side and the other side are twisted at different angles based on the center of the plane direction. Through the configuration of the length of the heat dissipation unit 450, the amount of air flowing through the heat dissipation fin 400 per the same area increases, so that cooling occurs more, so that the heat dissipation performance of the heat dissipation fin 400 can be increased.

The length of the heat dissipation unit 450, as shown, may be made of a first leg portion 451 and a second leg portion 452, although not shown, may be made of a shape having three or more different angles. .

Referring to FIG. 9, a method for manufacturing an LED light 100 in which an easy-to-assemble heat-radiating fin according to an embodiment of the present invention is directly attached to a metal PCB, in a method of manufacturing an outdoor LED light, includes an LED element ( The first fastening step (S100) of forming a fastening line 330 by loosely fastening the fastening female screw bar 300 with the fastening screw 310 to the other side of the metal PCB 200 on which the 210 is formed (S100), the fastening line The assembly step (S300) of inserting one or more heat sink fins 400 having a fastening protrusion 430 formed thereon (S300) and the fastening screws 310 to tighten the metal PCB 200, the heat sink fins 400, and the fastening female screws It may be characterized in that it comprises a second fastening step (S400) to tighten the bar (300).

In the first fastening step (S100), the PCB fastening hole 220 formed on the metal PCB 200 and the female screw hole 320 formed on the fastening female screw bar 300 are concentric, and the A step of inserting the fastening screw 310 into the PCB fastening hole 220 and the female screw hole 320, wherein the fastening line is a space between the metal PCB 200 and the fastening female screw bar 300. 330) is formed.

In the assembling step (S300), the heat dissipation fin 400 may be inserted at one end of the fastening line 330 and moved in the other direction of the fastening line 330 to adjust its position, and the fastening line 330 ) Is inserted at the other end of the fastening line 330 may be moved in one direction to adjust the position. In addition, when the center or a certain portion of the metal PCB 200 is penetrated to allow power supply from the external power supply to the LED element 210, the heat dissipation fin 400 is formed through the metal PCB 200. It is preferably installed so as not to block.

In the second fastening step (S400), the fastening screw 310 is screwed with the female screw hole 320 formed in the fastening female screw bar 300, the metal PCB 200, the heat dissipation fin 400, and the fastening As a step of coupling the female screw bars 300 to each other, it is preferable to fix the heat sink to the metal PCB 200 so as to be in close contact with each other.

In addition, the manufacturing method of the LED 100 in which the heat dissipation fin 400 according to an embodiment of the present invention is directly attached to the metal PCB 200 is immediately after the first fastening step (S100). A first adhesive application step (S200) of applying an adhesive 500 to one side of the heat dissipation fin 400 touching the side may be further included.

In the first adhesive application step (S200), it is preferable to apply the adhesive 500 thinly on one side of the heat dissipation fin 400, but an adhesive accommodation portion 420 is formed on one side of the heat dissipation fin 400. If possible, it is preferable to inject the adhesive 500 only to the adhesive accommodation portion 420, so that the adhesive 500 is not applied to one side of the heat dissipation fin 400 excluding the adhesive accommodation portion 420. Do.

Referring to FIG. 10, a method for manufacturing an LED 100 in which the heat dissipation fin 400 according to another embodiment of the present invention is directly attached to a metal PCB 200, in a method for manufacturing an outdoor LED light, includes an LED on one side. Arrangement step of arranging a plurality of heat dissipation fins 400 on the other side of the metal PCB 200 on which the device 210 is formed, in surface contact with the other side of the metal PCB 200 and having fastening protrusions 430 formed thereon ( S210) and a fastening screw bar 300 formed around the other side of the metal PCB 200 to form a fastening line 330 into which the fastening protrusion 430 is fitted, the fastening screw with the metal PCB 200 ( It characterized in that it comprises a single fastening step (S310) for screw fastening through (310).

In the arrangement step (S210), a plurality of the heat dissipation fins 400 are arranged in parallel with a certain distance from each other, and at this time, the fastening protrusion 430 is the metal PCB (on which the fastening female screw bar 300 is installed) It is preferably located around the other side of (200).

In the single fastening step (S310), the PCB fastening hole 220 formed on the metal PCB 200 and the female screw hole 320 formed on the fastening female thread bar 300 are concentric, and the PCB A step of inserting the fastening screw 310 into the fastening hole 220 and the female screw hole 320, wherein the fastening line formed in a space between the metal PCB 200 and the fastening female screw bar 300 ( 330) is characterized in that the plurality of fastening projections 430 are fitted.

In addition, the manufacturing method of the LED 100 in which the heat dissipation fin 400 according to another embodiment of the present invention is directly attached to the metal PCB 200 is directly on the other side of the metal PCB 200 immediately before the arrangement step (S210). A second adhesive coating step (S110) of applying an adhesive to one side of the radiating fin 400 may be further included.

In the second adhesive application step (S110), it is preferable to apply the adhesive thinly on one side of the heat dissipation fin 400, but when the adhesive accommodation portion 420 is formed on one side of the heat dissipation fin 400, It is preferable that the adhesive 500 is not applied to one side of the heat dissipation fin 400 except for the adhesive accommodating portion 420 by injecting the adhesive 500 only into the adhesive accommodating portion 420.

In addition, in the second adhesive application step (S110), it is preferable to attach the heat dissipation fin 400 to the other side of the metal PCB 200 and apply pressure to increase the adhesion.

The present invention is not limited to the above-described embodiments, and the scope of application is various, of course, and various modifications can be implemented without departing from the gist of the present invention as claimed in the claims.

100: LED light with an easy-to-assemble heat-dissipating fin attached directly to a metal PCB
200: metal PCB 210: LED device
220: PCB fastening hole
300: fastening female thread bar
310: fastening screw 320: female screw hole
330: fastening line
400: heat radiation fin 410: adhesive avoidance hole
420: adhesive receiving portion 430: fastening projection
440: contact heat dissipation section 450: length heat dissipation section
451: first leg 452: second leg
460: heat sink fin support 470: gap groove
500: adhesive
S100: 1st fastening step S200: 1st adhesive application step
S300: Assembly step S400: Secondary tightening step
S110: Second adhesive application step S210: Arrangement step
S310: single fastening step

Claims (10)

For outdoor LED lighting,
A metal PCB 200 on which an LED element 210 is formed;
It is formed on the upper and lower sides of the other side of the metal PCB 200, is coupled through the metal PCB 200 and the fastening screw 310, to form a fastening line 330 between the metal PCB 200 and Fastening female screw bar 300;
A fastening protrusion 430 fitted to the fastening line 330 is formed, and one side faces in contact with the other side of the metal PCB 200, but in contact heat dissipation in contact with the other side of the metal PCB 200 A portion 440, a heat radiation fin support 460 formed in the other direction of the contact heat dissipation unit 440, and is formed to extend from the heat radiation fin support 460 toward the other direction of the metal PCB 200 to a certain length, A heat radiation fin 400 made of a length heat dissipation part 450 which is formed by twisting a predetermined length at regular intervals, and having one side and the other side twisted at different angles based on the center of the plane direction;
It is made of, including; the adhesive 500 is applied to the heat dissipation fin 400 to adhere one side of the heat dissipation fin 400 to the other side of the metal PCB 200;
The heat dissipation fin 400 is
One or more adhesive avoidance holes 410 for discharging the adhesive 500 on one side of the heat dissipation fin 400 are formed at regular intervals, so that the adhesive 500 does not flow out of the contact heat dissipation unit 440 and avoids the adhesive It is discharged to the hole 410 to increase the fixing force,
The fastening female thread bar 300 is
It is formed in the shape of an 'a' in which the middle is bent, and one lower end (A) is inserted into the arc-shaped gap groove 470 between the fastening projection 430 and the radiating fin support 460, and is inserted into contact with the other side ( B) is fixed while being in surface contact with the heat sink fin support 460 to facilitate installation,
The fastening screw 310 is
The metal PCB 200 and the fastening female screw bar 300 are continuously penetrated and fastened, but one lower end (A) and the other (B) of the fastening female screw bar 300 are fastened to the radiating fin support 460 by fastening force, respectively. An LED light with an easy-to-assemble heat sink pin attached directly to a metal PCB.
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