KR20160055467A - Liquid cooling type illumination lamp - Google Patents

Abstract

The present invention relates to a liquid cooling type illumination lamp. The liquid cooling type illumination lamp includes a housing which accommodates a transparent insulation heat radiation solution and has an opening part on one side thereof; a light emitting diode module which is installed in the housing and is dipped in the transparent insulation heat radiation solution; a power supply module which supplies power to the light emitting diode module; an expansion-reduction-type sealing part which seals the opening part, and compensates thermal expansion and thermal contraction, by changing a shape thereof due to the thermal expansion and thermal contraction of the transparent insulation heat radiation solution; and a power socket installed in the outside of the opening part. So, manufacturing costs can be greatly reduced.

Description

[0001] LIQUID COOLING TYPE ILLUMINATION LAMP [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid-cooled lighting lamp having excellent heat dissipation and economical efficiency.

The incandescent lamp is not helping the human being anymore because the power consumption is increasing remarkably. A light-emitting diode (LED) lighting device capable of emitting a luminous intensity superior to that of an incandescent lamp with less electric power than that of an incandescent lamp is attracting attention. In particular, it is a fact that the power consumption is not only efficient but also the environmental destruction material used in the manufacture of incandescent lamps is not required to be used in the manufacture of LED lighting.

However, there is still a problem in the LED lighting apparatus. Although power efficiency and light efficiency are superior to incandescent lamps, the heat dissipation problem still remains as a problem to be solved. The problem of heat dissipation in the LED lighting apparatus shortens the service life of the LED package itself, shortens the life of the power supply module supplying power to the LEDs, and shortens the life of the LED lighting apparatus. Efforts continued.

In order to solve the heat dissipation problem of the LED, a water-cooled heat dissipation structure has been proposed. However, in this case, the insulating solution chemically reacts with the substrate or the LED to shorten the lifetime of the LED. Finally, the heat generated by the LEDs and the power supply module must be released to the outside world. When the insulating liquid is filled in the low-thermal-conductivity housing, the thermal conductivity of the housing is low, There arises a problem that it is operated in an atmosphere of high temperature.

Recently, LED lighting has been used in various applications in various fields such as home lighting, office lighting, factory lighting, street light, headlight, landscape lighting, leisure lighting, house lighting, fishery lighting and marine exploration lighting.

However, due to the metal heat radiating fins for heat dissipation, the shape thereof is limited, and the led lamp has a heavy weight and can not be attached to the conventional luminaire.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a liquid-cooled lighting lamp which is economical not only in weight reduction but also in manufacturing cost greatly reduced.

In order to solve the above-described problems, a liquid cooling type illumination lamp according to an embodiment of the present invention, which is devised to solve the problems described above, includes: a housing accommodating a transparent insulation liquid; A light emitting diode module installed in the housing and immersed in the transparent insulating liquid; A power supply module for supplying power to the light emitting diode module; An expansion relief type sealing portion for sealing the opening portion and compensating for the thermal expansion and the heat shrinkage by changing the shape of thermal expansion and contraction of the transparent insulation thermal insulation liquid; And a power socket installed outside the opening portion.

Here, the transparent insulation liquid is silicone oil, and the expansion relief type sealing part may be made of silicon.

Here, the housing may include: a cylinder portion made of an opaque material; And a lens-type transparent lid that is coupled to the opening of the cylinder and transmits light emitted from the light emitting diode module to the outside.

Here, the cylinder portion and the lens-type transparent lid may be formed of polycarbonate.

Here, the cylinder portion and the lens-type transparent lid may be fused by ultrasonic welding or high frequency welding.

The liquid cooling lighting lamp may further include a wire electrically connecting the power socket and the power supply module.

The liquid-cooled lighting lamp may further include a thermally conductive heat pipe closely attached to an inner surface of the housing to conduct heat generated from the light emitting diode module and the power supply module to the housing.

Here, the thermally conductive heat pipe may be made of aluminum or copper.

The liquid cooling lighting lamp may further include a wire for electrically connecting the power socket and the power supply module, and the thermally conductive heat pipe may include a hollow accommodation hole part; A groove formed on one side surface for guiding the wire; And a heat dissipating liquid channel formed on the other side for smooth convection of the transparent insulated heat dissipating liquid.

Here, the light emitting diode module and the power supply module may be stacked, and the thermally conductive heat pipe may further include a seating portion formed on the bottom surface thereof to seat the power supply module.

Here, the expansion relief type sealing portion may include: a sealing base portion having a shape corresponding to the opening portion; And a hollow protruding portion protruding from the center of the sealing base portion, the shape of which is expanded and contracted according to thermal expansion and heat shrinkage of the transparent insulation liquid.

Here, the sealing base may include a central hole communicating with the hollow protrusion.

The sealing base portion may further include a skirt portion formed at an upper end thereof for facilitating fitting into the opening portion.

Here, the volume of the inner space of the hollow projecting portion may be 2 to 10% of the volume of the transparent heat dissipating liquid.

Here, the power socket may include an air through hole.

According to an embodiment of the present invention having the above-described structure, even if the transparent insulated radiating liquid filled in the inside due to the outside air temperature and the heat generated during operation inflates and shrinks, it is compensated through the inflation- The problem can be prevented.

According to an embodiment of the present invention, the heat generated in the light emitting diode is primarily removed by the thermal flow of the light-transmitting insulating liquid, and secondarily, the heat is removed by the heat conduction heat radiation tube, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall perspective view of a liquid-cooled lighting lamp according to an embodiment of the present invention. FIG.
2 is an exploded perspective view of a liquid-cooled lighting lamp according to an embodiment of the present invention.
3 is a cross-sectional view of a liquid-cooled lighting lamp according to an embodiment of the present invention.
4 is a perspective view of a thermally conductive heat pipe used in a liquid cooling type illumination lamp according to an embodiment of the present invention.
5 is a cross-sectional view of a thermally conductive heat pipe used in a liquid-cooled lighting lamp according to an embodiment of the present invention.
6 is a perspective view of an expansion relief type sealing portion used in a liquid cooling type illumination lamp according to an embodiment of the present invention.
7 is a cross-sectional view of an expansion relief type sealing portion used in a liquid cooling type illumination lamp according to an embodiment of the present invention.

Hereinafter, a liquid cooling lighting lamp 100 according to the present invention will be described in detail with reference to the drawings.

Hereinafter, the cylindrical lamp has been described in order to simplify the description of the invention, but it should be understood that the present invention is not limited thereto, but may also be used in various types of lamps such as bulb-type lamps,

2 is an exploded perspective view of a liquid-cooled lighting lamp according to an embodiment of the present invention, and Fig. 3 is an exploded perspective view of a liquid-cooled lighting lamp according to an embodiment of the present invention Sectional view of a liquid cooled lighting lamp.

1, a liquid cooling lighting lamp 100 according to an embodiment of the present invention has a cylindrical shape as a whole, a power socket 60 connected to an external power source at one side, and a power socket 60 connected to an external power source, Shaped transparent lid 14 constituting a light irradiating portion irradiated with the light of the light source 20 is formed. 1 to 3, a liquid cooling lighting lamp 100 according to an embodiment of the present invention includes a housing 10, a light emitting diode module 20, a power supply module 30, A thermally conductive heat pipe 40, an expansion relief type sealing portion 50, a power socket 60, and a wire 70.

The housing 10 has a cylindrical shape as a whole and has one open side, and may be constituted by a cylinder portion 12 and a lens-type transparent lid 14. One side of the cylinder portion 12 is sealed with a lens-type transparent lid 14, and the other side is sealed with the expansion relief type sealing portion 50. The watertight space thus created is filled with the transparent insulated heat dissipating liquid A.

The transparent insulating liquid A filled in the housing 10 immerses the light emitting diode module 20 serving as a heat source and the power supply module 30 so that the light emitting diode module 20 And the power supply module 30, as shown in FIG. The transparent heat-dissipating liquid (A) should have a heat-releasing property, a light-transmitting property and an electrical insulating property, and silicone oil is used in the present invention. Particularly, since the silicone oil has the same components as the substrate of the light emitting diode module 20 and the substrate of the power supply module 30, and the expansion relaxation type sealing portion 50, the silicone oil has no reactivity, So that an optimum performance is exhibited.

Meanwhile, the housing 10 is made of a polycarbonate material which is resistant to impact and has a high thermal conductivity, and the cylinder portion 12 may be made of an opaque material. Since the cylindrical portion 12 and the lens-type transparent lid 14 are fusion-bonded by ultrasonic welding or high-frequency welding, and the components of the cylinder portion 12 and the lens-type transparent lid 14 are the same, the illumination lamp 100 according to the present invention, Or fusion can be stably maintained even when the temperature changes according to the ambient temperature.

The power supply module 30 changes the external power transmitted through the wire 70 electrically connected to the power socket 60 to a stable DC power (or AC power) for the LED module 20 . 2, the power supply module 30 is attached to the seating portion 41 of the thermally conductive heat dissipating tube 40 and is heat-dissipated through heat conduction by the thermally conductive heat dissipating tube 40, The heat is dissipated through the insulated heat dissipation liquid (A). Also, the power supply module 30 may be stacked with the light emitting diode module 20.

The heat conduction heat pipe 40 is in close contact with the inner surface of the housing 10 to conduct heat generated from the light emitting diode module 20 and the power supply module 30 to the housing 10, The heat from the heat dissipation liquid A also functions to be conducted to the housing 10 more quickly.

The heat conduction heat pipe 40 may be made of aluminum or aluminum alloy which is lightweight and has excellent thermal conductivity. If you focus on thermal conductivity, it can consist of copper or copper alloys with very good thermal conductivity. The thermally conductive heat pipe 40 will be described in more detail with reference to FIGS. 4 and 5. FIG.

The expansion-relieving-type sealing portion 50 functions to relieve thermal shrinkage or thermal expansion of the transparent insulating liquid Liquid A while sealing the other side of the cylinder portion 12. That is, while the opening of the cylinder portion 12 is sealed, its own shape is deformed by heat shrinkage or thermal expansion of the transparent insulating liquid A, thereby compensating for the thermal expansion and the heat shrinkage. The expansion-relief type sealing portion 50 will be described in more detail with reference to FIGS. 6 and 7. FIG.

The power socket 60 is a component for contacting the external commercial power source and has a structure that is electrically connected to the wire 70 and is fastened to a spiral portion formed at the other end of the housing 10. Particularly, in the power socket 60 according to the present invention, air holes (not shown) are formed to supply air to the internal space 54-1 of the expansion-relaxation-type sealing portion 50, Air can be let out.

Hereinafter, the thermally conductive heat pipe 40 used in the liquid cooling type illumination lamp 100 having the above-described configuration will be described in detail with reference to FIGS. 4 and 5. FIG.

Fig. 4 is a perspective view of a thermally conductive heat pipe 40 used in a liquid cooling lighting lamp 100 according to an embodiment of the present invention. Fig. 5 is a perspective view of a liquid cooling lighting lamp 100 according to an embodiment of the present invention. Sectional view of the thermally conductive heat dissipation tube 40 used. As shown in FIGS. 4 and 5, the thermally conductive heat pipe 40, which is an embodiment of the present invention, has a cylindrical shape as a whole and is formed in the same size as the internal space of the cylinder portion 12, The outer surface of the cylinder portion 40 is brought into close contact with the inner surface of the cylinder portion 12.

The heat conduction heat pipe 40 having such a shape is provided with a seating part 41 formed on one surface so that the power supply module 30 can be seated thereon, a groove formed on the side surface for guiding the wire 70 43 and a heat dissipating liquid channel 45 formed in another portion of the side surface for facilitating the convection of the transparent insulated heat dissipating liquid A and a hollow accommodating portion 45 for accommodating more heat dissipating liquid A 47).

The groove 43 is a component for guiding the wire 70 connected to the power supply module 30 and the power socket 60. The groove 43 may be formed as a pair as shown in FIG. The groove 43 has a groove shape having a linear shape from one end to the other end of the heat radiation pipe 40.

The heat dissipating liquid channel 45 is formed in the direction of 90 degrees with the groove 43, and a part of the heat dissipating channel 45 may be in the form of a groove and the other part may be in the form of a cutout. As described above, the heat dissipating liquid channel 45 is configured to smooth the convection of the heat dissipating liquid A in the hollow accommodating portion 47, and to increase the amount of the heat dissipating liquid.

Hereinafter, the expansion relief type sealing portion 50 used in the liquid cooling type illumination lamp 100 having the above-described constitution of the present invention will be described in more detail with reference to FIG. 6 and FIG.

FIG. 6 is a perspective view of an expansion relief type sealing part 50 used in a liquid cooling type illumination lamp 100 according to an embodiment of the present invention. FIG. 7 is a perspective view of a liquid cooling type illumination lamp 100 Sectional view of the expansion relief type sealing portion 50 used in the first embodiment. 6 and 7, the expansion relief type sealing portion 50 may be configured to include a sealing base portion 52, and a hollow protrusion portion 54. As shown in Fig.

The sealing base portion 52 is formed in an inner side of the opening of the cylinder of the housing 10 and is formed with a skirt portion 53 at the upper end thereof so that the expansion- And can be formed into a zip-lock structure. A center hole 52-1 communicating with the hollow projection 54 is formed at the center of the sealing base portion 52. [ Accordingly, the central hole 52-1 is deformed when the sealing base portion 52 is fitted in the opening portion, thereby facilitating the engagement of the opening portion of the sealing base portion 52, Hole communicates with the air-permeable hole of the hollow projecting portion (60), thereby facilitating the inflow and outflow of air into the hollow projecting portion (54).

The hollow projecting portion 54 is a portion where the shape of the transparent insulation liquid A is changed in thermal expansion and contraction, and an internal space 54-1 is formed therein. The hollow space 54-1 is filled with air, and accordingly, the hollow projection 54 becomes larger or smaller as the thermal expansion and the heat shrinkage of the transparent insulation liquid A are increased. That is, the expansion relief type sealing part 50 according to the present invention is made of a material having elasticity and a material having non-reactivity with silicone oil as a heat dissipating liquid. Preferably, the expansion relief type sealing portion 50 may be made of silicon.

On the other hand, in the sealing base portion 52, a wire hole 51 for the wire 70 is formed. The wire hole 51 is not formed but the wire hole 51 is formed and then the wire 70 is forcedly fitted so that the wire hole 51 is formed, .

According to an embodiment of the present invention having the above-described structure, even if the transparent insulated radiating liquid filled in the inside due to the outside air temperature and the heat generated during operation inflates and shrinks, it is compensated through the inflation- The problem can be prevented.

According to an embodiment of the present invention, the heat generated in the light emitting diode is primarily removed by the thermal flow of the light-transmitting insulating liquid, and secondarily, the heat is removed by the heat conduction heat radiation tube, .

The liquid-cooled lighting lamp described above is not limited in the configuration and method of the embodiments described above, but the embodiments may be modified such that all or some of the embodiments are selectively combined .

A: Transparent insulation liquid
10: Housing
12:
14: Lens type transparent cover
20: Light emitting diode module
30: Power supply module
40: Thermally conductive heat pipe
41:
43: Groove
45: heat sink channel
47:
50: expansion relaxation type sealing part
51: wire hole
52: sealing base portion
53: Skirt portion
52-1: center hole
54: central protrusion
54-1: interior space
60: Power socket
70: wire
100: liquid-cooled lighting lamp

Claims (15)

A housing accommodating the transparent insulated heat dissipating liquid and having an opening on one side;
A light emitting diode module installed in the housing and immersed in the transparent insulating liquid;
A power supply module for supplying power to the light emitting diode module;
An expansion relief type sealing portion for sealing the opening portion and compensating for the thermal expansion and the heat shrinkage by changing the shape of thermal expansion and contraction of the transparent insulation thermal insulation liquid; And
And a power socket installed outside the opening.
The method according to claim 1,
Wherein the transparent insulation liquid is a silicone oil, and the expansion relief type seal is made of silicone.
The method according to claim 1,
The housing includes:
A cylinder part made of an opaque material; And
And a lens-type transparent cover which is fastened at the opening of the cylinder and transmits light emitted from the light-emitting diode module to the outside.
The method of claim 3,
Wherein the cylinder portion and the lens-type transparent lid are formed of polycarbonate.
The method of claim 3,
Wherein the cylinder portion and the lens-type transparent lid are fused together by ultrasonic welding or high frequency welding.
The method according to claim 1,
Further comprising a wire electrically connecting the power socket to the power supply module.
The method according to claim 1,
And a thermally conductive heat pipe closely attached to an inner surface of the housing to conduct heat generated from the light emitting diode module and the power supply module to the housing.
8. The method of claim 7,
Wherein the thermally conductive heat radiating tube is made of aluminum or copper.
8. The method of claim 7,
Further comprising a wire electrically connecting the power socket and the power supply module,
The thermally conductive heat dissipating tube may include:
A hollow receiving portion formed at the center to receive the transparent insulated heat dissipating liquid;
A groove formed on one side surface for guiding the wire; And
And a heat dissipating liquid channel formed on the other side for smooth convection of the transparent insulated heat dissipating liquid.
8. The method of claim 7,
Wherein the light emitting diode module and the power supply module are stacked,
The thermally conductive heat dissipating tube may include:
And a seating portion formed on the bottom surface for seating the power supply module.
The method according to claim 1,
Wherein the expansion relief type sealing portion comprises:
A sealing base portion having a shape corresponding to the opening portion; And
And a hollow protruding portion protruding from a center of the sealing base portion and contracting and expanding in accordance with thermal expansion and heat shrinkage of the transparent insulation liquid.
12. The method of claim 11,
Wherein the sealing base portion includes a central hole communicating with the hollow projection.
13. The method of claim 12,
The sealing base portion
And a skirt portion formed at the upper end thereof for facilitating fitting into the opening portion.
12. The method of claim 11,
Wherein the volume of the inner space of the hollow protrusion has a volume of 2 to 10% of the transparent heat dissipating liquid.
12. The method of claim 11,
Wherein the power socket comprises an air through hole.

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