KR101039556B1 - Socket type LED lighting device having double cooling fin structure - Google Patents

Abstract

Disclosed is a socket type LED (LED) light emitting device having a double cooling fin structure. The present invention relates to an LED light emitting device using a light emitting diode as a light emitting element, and relates to a socket type LED light emitting device having a socket-shaped connection port coupled to an external power supply means. It has a dual cooling fin structure and is characterized in that the constant voltage supply means is installed in the socket-type connection port.
With this feature, the present invention is a socket type, which can be easily replaced with a general incandescent bulb by 1: 1, and can be implemented at low cost and small size compared to a heat dissipation area, and effectively discharges heat generated from the LED to internal junction of the LED. Since the temperature can be kept lower, high light efficiency can be maintained and the life of the LED can be extended.
In addition, the constant voltage supply means is installed in the socket-type connector, there is an effect that the constant voltage supply means can be replaced only by replacing the socket-type connector.

Description

Socket type LED lighting device having double cooling fin structure

The present invention relates to an LED light emitting device using a light emitting diode as a light emitting element, and more particularly, to a socket type LED light emitting device having a socket-shaped connection port coupled to an external power supply means, wherein a heat dissipation unit for dissipating heat generated from the LED is provided. The present invention relates to an LED light emitting device having a double cooling fin structure and having a constant voltage supply means installed in the socket-type connector so that the constant voltage supply means can be replaced only by replacing the socket-type connector.

Unlike conventional light sources, LEDs (Light Emitting Diodes) are spotlighted as next-generation lighting sources in response to climate change and environmental regulations due to their low power consumption, long lifespan, and environmentally friendly features without harmful components.

Despite these advantages, LED lighting fixtures are expected to be the next-generation energy-saving light sources replacing incandescent and fluorescent lamps, but they are inferior in light output, correlation color temperature, color rendering index, and price compared to conventional light sources.

Recently developed a 1: 1 replacement LED lighting product that can be installed only by replacing the existing luminaires by having the same specifications as the existing fluorescent or incandescent bulbs, but the consumer's accessibility to the LED lighting product has been considerably increased, but energy efficiency due to heat generation In order to increase energy efficiency, which is a merit of LED lighting fixtures due to a large reduction, a separate heat dissipation means is required, and thus, there is a problem that the price is considerably higher than that of general lighting fixtures.

In addition, when the volume of the heat dissipation device is increased in order to increase the heat radiation efficiency of the heat dissipation means, there is a problem in that the volume of the light fixture is increased and the marketability of the light fixture is impaired in appearance.

Referring to the LED lamp of the most common socket-type bulb type for example [Fig. 1], as shown in the drawings for explaining the general structure of the conventional socket-type LED lighting fixtures, LED lighting fixtures (LED bulbs for luminaires) is Light bulb socket parts 101 and 102 for connecting the LED bulbs to an external AC power (110V or 220V) socket, socket cover 103 for connecting the socket and the heat dissipation part, and high thermal conductivity such as aluminum to extract heat to the outside. Heat dissipation part 104 made of material and having a large number of heat dissipation fins to maximize heat transfer area, metal PCB 105 for mounting LEDs, LED 106, and diffusion plate 107 for evenly spreading the light of the LED And power supply lines 108 and 109 and constant voltage supply means 110 for converting the general household power into LED driving power.

The LED bulb of this general type radiates heat generated by the LED 106 by heat conduction from the metal PCB to the heat dissipation unit 104 and heat transfer by convection from the cooling fins to the outside air of the heat dissipation unit.

Therefore, since all the heat generated from the LED is transferred to the outside through the cooling fins of the heat radiating portion, it is most effective to maximize the number of cooling fins to widen the heat dissipation area.

However, there is a problem that it is practically difficult to add as many heat sink fins as large as desired due to the problem of the fixture and the size of the luminaire.

In addition, the most common problem in the use of LED lighting fixtures, LEDs have a lifespan of 50,000 to 100,000 hours, whereas constant voltage supply means (SMPS, DC power supply for supplying DC power to drive them) ) The life of LED is less than 5,000 hours, and the problem of not using the lighting fixture as the life of the LED and the maintenance cost increase due to the difficult structure of replacing SMPS when replacing the SMPS. have.

That is, the conventional LED lighting fixture is difficult to replace only the SMPS due to the relationship does not consider the replacement problem of the SMPS, there is a problem that a significant cost of repair, there is a problem that can not use the expensive LED lighting fixtures as long as the lifetime of the LED. .

The present invention was devised to solve the above problems, the socket-type can be easily replaced with a general incandescent bulb 1: 1, easy to install, low cost and small size can be implemented in the heat dissipation area, LED It is an object of the present invention to provide an LED lighting device that can effectively dissipate heat to keep the LED internal junction temperature lower, thereby maintaining high light efficiency and extending the life of the LED.

Furthermore, an object of the present invention is to provide an LED lighting device that can be easily replaced with a constant voltage supply means, thereby reducing the repair cost of the LED lighting device, and that can be used for the life of the actual LED.

The present invention for achieving the above object is a socket-type LED lighting device using an LED as a light emitting element, fastened to an external AC power source (110V or 220V) socket, the socket-type structure is fastened with the external AC power socket A light bulb connecting portion, a fastening structure capable of being coupled to and separated from the light bulb connecting portion, a socket cover having a central through hole and a peripheral discharge hole formed thereon, and one side of which is coupled to the socket cover, and a plurality of heat dissipation fins formed on an outer diameter surface; A metal PCB having an LED having a heat dissipation auxiliary means formed therein and an inlet formed in a side thereof, the other side of the heat dissipating portion having a mating surface and a wiring hole, and the mating surface in contact with the mating surface of the heat dissipating portion, and having a DC power input terminal. And a constant voltage supply means installed in the bulb connection part and having an input terminal connected to an electric circuit and outputting a DC power source. And a connection jack for electrically connecting an input terminal of the metal PCB mounted with the LED and an output terminal of the constant voltage supply means installed in the light bulb connection part, wherein the heat dissipation problem and the constant voltage supply means of the conventional socket type LED lighting device are provided. Solves the problem of replacement.

In addition, the heat dissipation auxiliary means of the heat dissipation unit is characterized in that the plurality of cooling fins formed on the inner diameter surface of the heat dissipation unit.

In addition, the heat dissipation auxiliary means of the heat dissipation portion is characterized in that the tubular shape having a plurality of cooling fins on the outer diameter surface.

In addition, the LED is characterized in that it further comprises a diffusion plate for diffusing light emitted from the LED of the metal PCB mounted.

The present invention is easy to install and can be replaced 1: 1 with the general incandescent bulb through the above-described problem solving means, there is an effect that does not require any additional means for the installation of the LED light emitting device,

It can be implemented at low cost and small size compared to the heat dissipation area, which has the effect of lowering the manufacturing cost and securing the merchandise.

In addition, by effectively discharging the heat generated from the LED to maintain the internal junction temperature of the LED low, there is an effect that can maintain a high light efficiency, thereby extending the life of the LED.

In addition, it is possible to replace the constant-voltage supply means only by replacing the socket-type connector has an effect that is easy to repair, and this has the effect that the expensive LED lighting device can be used as long as the life of the LED.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be interpreted.
1 is a view for explaining the general structure of a conventional socket-type LED lighting fixture,
2 is an exploded view of a device according to an embodiment of a socket type LED light emitting device having a dual cooling fin structure;
3 is a coupling diagram of a device according to an embodiment of a socket type LED light emitting device having a dual cooling fin structure;
4 is a view for explaining a first embodiment of the heat dissipation unit of the socket type LED light emitting device having a double cooling fin structure;
FIG. 5 is a view for explaining a second embodiment of a heat dissipation unit of a socket type LED light emitting device having a double cooling fin structure; FIG.
6 is a view for explaining a third embodiment of the heat dissipation unit of the socket type LED light emitting device having a double cooling fin structure.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced.

These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention.

It is to be understood that the various embodiments of the invention are different, but need not be mutually exclusive.

For example, specific shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the invention with respect to one embodiment.

In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention.

The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled.

Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

2 is an exploded view of a device according to an embodiment of a socket type LED light emitting device having a double cooling fin structure, Figure 3 is a coupling view of the device according to an embodiment of a socket type LED light emitting device having a double cooling fin structure, Figure 4 A diagram for describing a first embodiment of a heat dissipation unit of a socket type LED light emitting device having a double cooling fin structure, and FIG. 5 is a view for explaining a second embodiment of a heat dissipation unit of a socket type LED light emitting device having a double cooling fin structure. 6 is a view for explaining a third embodiment of the heat dissipation unit of the socket type LED light emitting device having a double cooling fin structure.

As shown in FIG. 2, the present invention provides a light bulb connecting portion 200, a socket cover 300, a heat dissipation portion 400, an LED 520 mounted with a metal PCB 500, a constant voltage supply means 600, and It is characterized by having a configuration including a connection jack 700.

The bulb connection part 200 has a socket shape fastened to an external AC power source (110V or 220V) socket, it characterized in that it comprises the constant voltage supply means 600 therein.

The bulb connection part 200 is coupled to the socket cover 300.

At this time, the coupling form of the bulb connecting portion 200 and the socket cover 300 may take a coupling form of a variety of methods such as screw coupling, it is not limited to any particular coupling form.

The socket cover 300 is characterized in that the central through hole 310 and the peripheral discharge hole 320 is formed. The central through hole 310 is for wiring, and the peripheral discharge hole 320 is for discharging the heated air heat-exchanged in the heat dissipation unit 400.

The heat dissipation unit 400 is coupled to one side of the socket cover 300, the plurality of heat dissipation fins 410 formed on the outer diameter surface and the heat dissipation auxiliary means 420 formed in the inlet hole 430 formed on the side ), And the other side, the coupling surface 440 and the wiring hole 450 is formed.

Therefore, the heat dissipation unit 400 is heat-exchanged by the heat dissipation fin 410 from the outside, and the heat is exchanged while the air introduced through the inflow hole 430 passes through the heat dissipation auxiliary means 420. After the discharge is made to the discharge hole 320 of the socket cover 300 is made of additional heat dissipation.

As described above, the auxiliary heat dissipation means 420 is formed on the outer diameter surface of the second heat dissipation unit 410 of the socket type LED light emitting device having the dual cooling fin structure. Like the cooling fins 410 may be a form of forming a plurality of cooling fins (420-1) on the inner diameter surface.

Therefore, the plurality of cooling fins 420-1 formed on the inner diameter surface radiate heat by exchanging heat with relatively low temperature air introduced through the inlet hole 430. That is, the heat radiation area of the heat radiation portion 400 is increased.

Another embodiment of such an auxiliary heat dissipation means 420 as shown in the figure for explaining a second embodiment (420-2) of the heat dissipation portion of the socket-type LED light emitting device having a double cooling fin structure of FIG. The tubular shape may have a shape 420-2 having a plurality of cooling fins on its outer diameter surface.

This, too, heat exchanges with the relatively low temperature air introduced through the inlet hole 430 to radiate heat. That is, the heat radiation area of the heat radiation portion 400 is increased.

In this case, the auxiliary heat dissipation means having a plurality of cooling fins on the outer diameter surface of the tubular shape (420-2) is a third embodiment of the heat dissipation portion of the socket type LED light emitting device having the dual cooling fin structure of FIG. As shown in the drawings for describing), having a plurality of distribution holes 421 for the flow of air, the cooling fin may be a form (420-3) having a cooling groove 422 formed inward. have.

Such a structure heats and exchanges heat with the relatively low temperature air introduced through the inlet hole 430, and at the same time, the relatively low temperature air introduced through the distribution hole 421 cools the inside of the cooling fin 422. Heat transfer is performed by moving along the heat sink. That is, the heat radiation area of the heat radiation portion 400 is increased.

As described above, the heat dissipation assistance means 420 according to the first to third embodiments may be located inside the heat dissipation unit 400 to increase the heat dissipation area without increasing the external volume.

In addition, the heat dissipation unit 400 may be implemented with various metal materials having high thermal conductivity, and are not limited to any specific material.

The metal PCB 500 in which the LED 520 is mounted is a metal PCB made of a metal material to transfer heat generated from the LED 520 to the heat dissipation unit 400, and at least one LED 520 is formed on the front surface of the metal PCB 500. Arranged and mounted in an electrical circuit, the rear surface is coupled to contact with the coupling surface 440 of the heat dissipation unit 400, the DC power input terminal is electrically connected to the output terminal of the constant voltage supply means 600 ( 510).

The constant voltage supply means 600 is a means for converting AC power (110V or 220V) input from the outside into a predetermined DC power. Usually referred to as an inverter, a DC power supply for driving the LED 520 is supplied.

The constant voltage supply means 600 is the socket-type bulb connecting portion 200 is installed inside, the input terminal of the constant voltage supply means 600 is electrically connected in the bulb connecting portion 200, the output terminal is an electric wire It is coupled with the connection jack 700 through.

Therefore, the bulb connecting portion 200 can be separated by the separation of the connection jack 700, it is possible to combine the new bulb connecting portion can replace the constant voltage supply means 600.

The connection jack 700 is an output terminal of the constant voltage supply means 600 and the DC power input terminal of the metal PCB 500 in which the LED 520 is mounted for the purpose of replacing the abnormality in the constant voltage supply means 600, 510 is positioned in an electrical circuit connected by a wire.

Therefore, after disconnecting the bulb connection part 200 in which the constant voltage supply means 600 in which the abnormality has occurred is connected to the metal PCB 500 in which the constant voltage supply means 600 and the LED 520 are mounted. After disconnecting the connecting jack 700, the new light bulb connecting portion 200 is coupled to the connecting jack 700, by coupling to the socket cover 300 can simply replace the constant voltage supply means 600.

The socket type LED light emitting device having a double cooling fin structure as described above further includes a diffusion plate 800 for diffusing light emitted from the LED 520 of the metal PCB 500 in which the LED is mounted.

The diffusion plate 800 illustrated in FIG. 2 is illustrated as an example, and is not limited thereto, and may be implemented in various forms and materials.

As described above, the configuration according to the present invention is combined with each other to form an appearance as shown in FIG.

In the above, the present invention has been described based on the preferred embodiments, but the technical idea of the present invention is not limited thereto, and modifications or changes can be made within the scope of the claims. It will be apparent to those skilled in the art, and such modifications and variations will belong to the appended claims.

101, 102: bulb socket 103: socket cover
104: heat dissipation unit 105: metal PCB
106: LED 107: diffuser plate
108, 109: power supply line 110: constant voltage supply means
200: bulb connection 300: socket cover
310: center through hole 320: surrounding exhaust hole
400: heat dissipation unit 410: cooling fin
420: heat dissipation aid 430: inlet hole
440: mating surface 450: wiring
500: LED mounted metal PCB 510: DC power input terminal
600: constant voltage supply means 700: connection jack
800: diffuser plate

Claims (4)

In the socket-type LED lighting device using the LED as a light emitting element, and fastened to an external AC power (110V or 220V) socket,
A bulb connection part 200 having a socket-type structure fastened to the external AC power socket;
A socket cover 300 having a fastening structure capable of being coupled to and separated from the bulb connection part and having a central through hole 310 and a peripheral discharge hole 320 formed therein;
One side of the socket cover is coupled to each other, and has a plurality of heat dissipation fins 410 formed on an outer diameter surface, heat dissipation auxiliary means 420 formed therein, and an inlet hole 430 formed on a side thereof, and the other side of the coupling surface 440. And a heat dissipation unit 400 in which a wiring hole 450 is formed;
A metal PCB 500 in contact with a coupling surface of the heat dissipation unit and mounted with an LED 520 having a DC power input terminal 510;
A constant voltage supply means (600) installed in the bulb connection portion and having an input terminal connected to an electric circuit and outputting a DC power source; And
And a connecting jack (700) electrically connecting an input terminal of the metal PCB mounted with the LED and an output terminal of the constant voltage supply means installed in the bulb connection part. The method of claim 1,
The heat dissipation auxiliary means of the heat dissipation unit is a socket type LED light emitting device having a double cooling fin structure, characterized in that the plurality of cooling fins formed on the inner diameter surface of the heat dissipation unit. The method of claim 1,
The heat dissipation auxiliary means of the heat dissipation unit is a socket-shaped LED light emitting device having a double cooling fin structure, characterized in that the tubular shape having a plurality of cooling fins on the outer diameter surface. The method of claim 1,
And a diffusion plate for diffusing light emitted from the LED of the metal PCB having the LED mounted thereon.

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