KR200454678Y1 - LED lamp - Google Patents

Abstract

The present invention relates to an LED lamp that can increase the durability and life by quickly and individually cooling the heat generated by the LED or a power supply for applying a suitable voltage to the LED.
The present invention has a cylindrical shape, a first heat sink for fixing a plurality of LED mounted support substrates on the outer circumferential surface thereof to radiate heat generated from the respective LEDs to the outside; A second heat sink continuously formed in a shape surrounding one end of the first heat sink to radiate heat to the outside when heat generated from each LED of the first heat sink is conducted; The second heat sink is fixed to be spaced apart at a predetermined interval, and a power supply for supplying power to each LED is mounted therein and is configured as a third heat sink to dissipate heat generated from the power supply to the outside. .

Description

LED lamp {LED lamp}

The present invention relates to an LED lamp, and more particularly, to increase the durability and lifespan by individually cooling the heat generated by the LED or a power supply device applying a suitable voltage to the LED.

As is well known, incandescent lamps and fluorescent lamps are most commonly used, and various lamps such as neon lamps, halogen lamps and mercury lamps may be applied to special parts.

However, the above-mentioned general lamp has a drawback in that the power consumption is large and the lamp has a short lifespan.

The LED lamp uses a power supply such as a circuit board having a plurality of LEDs attached thereto, a power supply such as an SMPS that drives an LED supported on the circuit board, and a heat that quickly dissipates heat generated from the LED and the power supply to the outside. The sinks are connected to each other.

However, in general, the LED is very sensitive to heat, so when the heat is high, the lifespan is shortened.

Therefore, in order to increase the lifetime of the LED, it can be said that it depends on how quickly the heat emitted when the LED is emitted to the outside. In general, the LED lamp has only one heat sink, whereas many LEDs, The circuit board supporting it and the power supply for supplying power to each LED are concentrated so that the heat generated when the LED is emitted can't be discharged to the outside quickly, and the heat generated from the power supply is the LED and its As the heat is transferred to the circuit board side and the heat generated from each LED is combined, the heat causes the circuit characteristics such as the resistance of the circuit board to be changed, thereby lowering the brightness or brightness of the LED as well as the life of the LED.

On the other hand, when manufacturing the LED lamp, each LED had to be attached to the circuit board one by one, there was a disadvantage in that workability and productivity are also disadvantageous, and in order to expand the light irradiation range of the LED lamp, it is preferable to configure the support on which the LED is mounted in a cylindrical shape. However, when the LED mounting portion is configured in a cylindrical shape, heat generated from each LED is trapped inside the cylindrical support, which inevitably makes the LED mounting portion cylindrical.

The present invention has been proposed in view of this point, and it is intended to provide an LED lamp that maintains the performance and life of the LED by dissipating the heat generated from the LED or the power supply for supplying the LED quickly and individually. .

In another aspect, each LED is easily attached to improve workability and productivity.

In another aspect, the support for mounting the LEDs is formed in a cylindrical shape so that the light irradiation range of the LED lamps can be widened, and the heat generated from each LED can be quickly dissipated without being trapped in the support, thereby smoothly performing the performance as an LED lamp. I want to keep it.

In order to solve this problem, the present invention is made of a cylindrical shape, a first heat sink that is fixed to each of the outer peripheral surface is equipped with a plurality of LED mounted support substrate to heat the heat generated from each of the LED to the outside; A second heat sink continuously formed in a shape surrounding one end of the first heat sink to radiate heat to the outside when heat generated from each LED of the first heat sink is conducted; And a third heat sink fixed in a state spaced apart from the second heat sink at a predetermined interval, and having a power supply device configured to supply power to each of the LEDs to radiate heat generated from the power supply device to the outside. Include.

Preferably, the second heat sink and the third heat sink may be connected to be spaced apart from each other by a connection screw made of a material different from the second heat sink and the third heat sink.

Preferably, at the free end of the first heat sink, a plurality of LEDs are mounted, and a support plate having a vent formed in the center thereof is fixed at a predetermined interval; A plurality of vent holes may be formed in the connection portion between the first heat sink and the second heat sink so that the space between the second heat sink and the third heat sink and the inner space of the first heat sink communicate with each other. have.

Preferably, a plurality of fitting grooves are formed at equal angles along the circumferential direction on the outer circumferential surface of the first heat sink, and the supporting substrate on which the plurality of LEDs are mounted is configured in a shape corresponding to the fitting groove to support each of the fitting grooves. Substrates may be inserted and respectively inserted from one side of the fitting grooves.

Preferably, a lower portion of the vent hole is formed, the upper portion of the thread is formed may be further provided with a housing screwed to the lower portion of the second heat sink.

According to the present invention, the heat generated from the LED can be quickly dissipated through the first heat sink and the second heat sink, and the heat generated from the power supply can be quickly dissipated through the third heat sink. Since the supply devices are isolated from each other, there is little effect of heat generated from each other, so that the performance and life of the LED can be maintained for a long time.

In addition, since a plurality of LED mounting substrates are respectively inserted into the first heat sink in a sliding manner, workability and productivity can be improved, and since the first heat sink is configured to be cylindrical or near cylindrical, the LED lamp is The light irradiation range is widened, and there is a space where heat can be trapped through both the outside and the heat generated from each LED so that the heat can be quickly radiated to the outside by convection, so that the performance of the LED lamp can be maintained smoothly.

1 is a perspective view of the LED lamp according to the present invention.
Figure 2 is an exploded perspective view of the LED lamp according to the present invention.
Figure 3 is a longitudinal sectional view of the LED lamp according to the present invention.
4 is a first cross-sectional plan view of the LED lamp according to the present invention.
5 is an exploded perspective view of the LED lamp according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments presented.

The present invention in the manufacture of the lamp using the LED 11 or the heat generated from the power supply device 20 for supplying power to the LED so that the heat dissipated separately to maintain the performance as the LED lamp as well as the LED (11) ) Is to extend the life of.

The LED lamp according to the present invention, like a general LED lamp, a plurality of LED (1) is mounted on the support substrate (2), power supply device such as SMPS that applies the power of the appropriate voltage to each LED ( 3) is electrically connected to the support substrate (2), the power supply (3) is made of a base (4) is connected, the heat sink is provided to dissipate heat generated from each LED (1) do.

In the present invention, such heat sinks are configured on the LED 1 side and the power supply 3 side individually, and at the same time, the LED 1 is arranged in a cylindrical shape to expand the light irradiation range. The first heat sink 10 and the second heat sink 20 are connected to the 1) side, and the third heat sink 30 is connected to the power supply device 3 side.

The first heat sink 10 is produced by extrusion molding an aluminum material into a cylindrical shape, and a plurality of fitting grooves 11 are formed on the outer circumferential surface of the first heat sink 10 at equal angles along the circumferential direction, and the fitting grooves 11 and A plurality of LEDs 1 are mounted on the supporting substrate 2 having a corresponding shape, respectively, and are inserted from one side of the fitting groove 11, and a plurality of free ends of the first heat sink 10 are provided. While the LED 1 is mounted, the support plate 6 having the vent hole 5 formed at the center thereof is fixed in a state spaced apart from the cylindrical first heat sink 10 at a predetermined interval.

The second heat sink 20 is formed of an aluminum material and a plurality of heat dissipation fins 21 are radially formed on the outside thereof, and the second heat sink 20 is continuously formed in a shape surrounding the end portions of the first heat sink 10 opposite the fixing plate.

In addition, the third heat sink 30 is also made of a plurality of heat dissipation fins 31 radially on the outside of the aluminum material, the third heat sink 30 is the second heat sink (through the connection screw 40) ( 20) is fixed at a predetermined interval, and inside the power supply unit 3 for supplying power to each of the LED 1 is seated, the power supply housing 7 and the base 4 is the third heat It is fixed to the sink 30.

At this time, the connection screw 40 connecting the second heat sink 20 and the third heat sink 30 is made of a material having low thermal conductivity so that thermal conductivity is not easily achieved. The third heat sink 30 may be made of aluminum having high thermal conductivity, and the connection screw 40 may be made of brass or the like.

In addition, the cylindrical first space and the space between the second heat sink 20 and the third heat sink 30 so that heat generated from the first heat sink 10 made of a cylindrical shape can be easily radiated to the outside by convection. A plurality of vent holes 12 are formed at connection portions of the first heat sink 10 and the second heat sink 20 so that inner spaces of the heat sink 10 communicate with each other.

The LED lamp according to the present invention may be configured such that the first heat sink 10 is exposed to the outside, but when it is fixed to the luminaire without the lampshade vent hole 51 in the lower center to secure the safety of the lamp The housing 50 having a screw thread 52 is formed on the upper portion thereof so as to be screwed to the lower portion of the second heat sink 20. In this case, the lower inner side of the second heat sink 20 may be disposed inside the housing. Obviously, threads corresponding to threads 52 of 50 are formed.

The LED lamp according to the present invention configured as described above, when a voltage suitable for each LED 1 is supplied to each LED 1 through the power supply device 3 and each LED 1 is turned on to act as a lamp. When heat is generated from each LED 1, the heat is individually radiated to the outside through each heat sink 10, 20, 30 to maintain the performance and circuit characteristics of the LED lamp as well as each LED 10. Lifespan).

That is, when heat is generated from each of the LEDs 10 when the LED lamp is driven, heat may first be dissipated to the outside of the first heat sink 10 in which the LEDs 10 are supported. 1 When the heat sink 10 is dissipated into the internal space, the air is spaced between the first heat sink 10 and the support plate 6 fixed to the lower part according to the temperature difference between the inside and the outside of the first heat sink 10. And a connection portion between the first heat sink 10 and the second heat sink 20 through the ventilation hole 6 in the center of the support plate 6 and the heat inside the first heat sink 10 as much as the introduced air. Through the vent hole 12 formed in the can be emitted to the outside through the space between the second heat sink 20 and the third heat sink 30.

In addition, when some heat generated from each LED 1 is conducted to the second heat sink 20 connected to the first heat sink 10, the heat is radially formed on the outside of the second heat sink 20. It is diverted to the outside through a plurality of heat dissipation fins 21 can quickly cool the heat generated from each LED (1).

In addition, when the LED lamp is driven, heat is also generated from the power generator 3, and this heat is conducted to the third heat sink 30 and rapidly to the outside through a plurality of heat radiation fins 31 radially formed outside. The second heat sink 20 and the third heat sink 30 are connected to each other by a connection screw 40 made of a material having low thermal conductivity. ) Heat can be radiated to the outside individually without conducting to each other so that the heat conduction does not affect the LED 1 and the circuit, so that the life and circuit characteristics of the LED 1 can be maintained smoothly.

On the other hand, the LED lamp according to the present invention is the first heat sink 10 is made of a cylindrical shape, the support substrate 2 is equipped with a plurality of LED 1 is provided radially, the first heat sink ( 10) the support plate 6 is equipped with a plurality of LED (1) is fixed to the lower portion of the LED (1) is turned on so that the light is shining toward the side and the bottom of the LED lamp and the light irradiation range You can expand it.

In addition, a plurality of fitting grooves 11 are formed on the outer circumferential surface of the first heat sink 10 at equal angles in the circumferential direction thereof, and the supporting substrate 2 having a shape corresponding to the fitting grooves 11 includes a plurality of LEDs ( Since 1) is made to be inserted from each side of the fitting groove 11 in a state where it is mounted is to greatly improve the workability and productivity when manufacturing the LED lamp.

1: LED 2: Support substrate
3: power supply 4: base
5, 12, 51: ventilator 6: support plate
7: power supply cover 10: first heat sink
11: fitting groove 20: second heat sink
21,31: heat sink fin 30: third heat sink
40: connecting screw 50: housing
52: thread

Claims (5)

The first substrate includes a plurality of LEDs mounted on an outer circumferential surface of the first heat sink for dissipating heat generated from the LEDs to the outside, and is continuously formed in a shape surrounding one end of the first heat sink. In the LED lamp comprising a second heat sink that radiates heat to the outside when the heat generated from each of the LEDs of the heat sink is conducted,
The first heat sink is formed in a cylindrical shape, and each support substrate is fixed at an equal angle to the outer surface of the first heat sink, and a plurality of LEDs are mounted at the free end of the first heat sink, and a vent hole is provided at the center thereof. Formed support plates are fixed to be spaced apart from each other at a predetermined interval so as to emit light of each LED in all directions;
The third heat sink is fixed to be spaced apart from the second heat sink at a predetermined interval, and a power supply device for supplying power to each of the LEDs is mounted therein to radiate heat generated from the power supply device to the outside. Provided;
A plurality of vent holes are formed at the connection portions of the first heat sink and the second heat sink so that the space between the second heat sink and the third heat sink and the inner space of the first heat sink communicate with each other. The LED lamp, characterized in that configured to dissipate heat from the LEDs and stays in the inner space of the first heat sink is naturally radiated to the outside by convection. The method of claim 1,
And the second heat sink and the third heat sink are connected to each other at a predetermined distance from each other by a connection screw made of a material different from the second heat sink and the third heat sink. delete The method of claim 1,
On the outer circumferential surface of the first heat sink, a plurality of fitting grooves are formed at equal angles along the circumferential direction, and the supporting substrate on which the plurality of LEDs are mounted is configured in a shape corresponding to the fitting groove so that each of the supporting substrates is fitted. LED lamps, characterized in that each insertion is made from one side of the groove. The method of claim 1,
LEDs, characterized in that the ventilation hole is formed in the lower center, the upper thread is formed in the upper housing further screwed to the lower portion of the second heat sink.

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