WO2013154245A1 - Heat-dissipating device using heat pipe for lighting apparatus - Google Patents

Abstract

The present invention relates to a heat-dissipating device for a lighting apparatus and, more particularly, to a heat-dissipating device for a lighting apparatus wherein, in order to reduce energy consumption and maximize the heat dissipation of an LED light fixture, a heat-dissipating plate for an LED light fixture used in the home or office uses a heat-dissipating cap and a heat pipe filled with a nanomaterial and is installed on the water supply and drainage pipe provided between the floors of a building and the boiler water inlet. The present invention comprises: a heat-dissipating unit (100) having a plurality of first heat-dissipating plates (210) provided above a fixed plate (120), for dissipating heat from a lighting apparatus (10) to the outside; a first heat-transfer unit (200), having a first heat-dissipating pipe (220) coupled to a water supply and drainage pipe (20), for transferring cold to the lighting apparatus (10); a second heat-transfer unit (300), provided below the first heat transfer unit (200), for transferring cold from the first heat-transfer unit (200) or heat generated by the heat-dissipating unit (100); and a connecting member (400) for connecting the first heat-dissipating pipe (220) to the water supply and drainage pipe (20). According to the present invention as described above, the present invention provides the effects of: lowering the amount of heat generated by a lighting apparatus through the connection of the heat-dissipating plate of the lighting apparatus to a heat-transfer member connected to and cutting off the water supply and drainage pipe between the floors of a building; preventing the freezing of water supply and drainage pipes during the winter and enabling quick heat dissipation for a lighting apparatus by bringing the heat generated by the lighting apparatus in contact with the cold of the water supply and drainage pipes via a heat pipe; and reducing maintenance costs by extending the lifespan of the lighting apparatus due to providing both a heat pipe and a heat-dissipating cap. [Representative Drawing] FIG. 1.

Description

Lighting fixture heat dissipation device using heat pipe

The present invention relates to a lighting fixture heat dissipation device, and more specifically, water and sewage pipe and boiler water provided between the floors of the building using a heat pipe and a heat dissipation cap filled with nanomaterials in the LED lighting heat sink used in the home or office. The present invention relates to a lighting fixture heat dissipation device for maximizing the heat dissipation effect of an LED light fixture by reducing energy consumption by installing in an inlet pipe.

Currently, LED lighting is widely used in indoor, outdoor or office supplies, automobiles.

In general, a plurality of heat sinks are formed around the bulb to emit heat generated by the LED lights in a natural circulation.

However, most LED lighting shows a limit to lowering the heat generated by only a plurality of heat sinks.

In order to solve the above problems, VL Systems Co., Ltd. has proposed a heat dissipation structure of an LED lighting device using a heat pipe, and the above technology is that heat generated from an LED light source module is directly radiated through a heat pipe. We proposed a technology that improves energy efficiency and extends life by quickly dissipating heat by transferring energy into the air.

However, the above technology not only transfers heat of the LED light source module to the heat sink quickly through the heat pipe, but also does not produce a great effect only in a natural manner to release to the outside.

Therefore, the present invention to solve the above problems is to maximize the heat dissipation by connecting the heat pipe with the outer tube.

In order to solve the above problems, the present invention is to cut the water and sewage pipes provided between the floor and the floor of the building to connect the heat transfer member, and to lower the heat generated in the light fixture by connecting the heat transfer member with the heat sink of the light fixture The purpose.

In addition, an object of the present invention is to prevent the freezing accident in winter because the heat generated from the lighting fixture and the cold air of the water and sewage pipe is circulated with each other.

In addition, it is an object to be able to connect in any pipe, such as PVC, PE pipe, not steel pipe.

In addition, the heat pipe is composed of a double pipe to the cold air inside the heat pipe to prevent the escape to the outside by the purpose of maximizing the heat dissipation effect.

In addition, an object of the present invention is to increase the heat transfer efficiency by filling the heat pipe and the heat transfer cap nanomaterial with a high heat transfer rate.

Furthermore, an object of the present invention is to reduce maintenance costs by extending the life of lighting fixtures by using them in existing lighting fixtures and LED lighting fixtures.

In order to solve the above problems, the present invention is a plurality of first heat dissipation plate 210 and the heat dissipation unit 100 is provided above the stationary plate 120 to release the heat of the lighting fixture 10 to the outside; A first heat transfer part 200 to which the first heat dissipation pipe 220 is coupled to the water and sewage pipe 20 to move the cold air to the lighting fixture 10; And a second heat transfer part 300 provided below the first heat transfer part 200 to transfer cold air transferred from the first heat transfer part 200 or heat generated from the heat dissipation part 100. A connection member 400 provided to connect the first heat dissipation pipe 220 to the water and sewage pipe 20; Characterized in that configured to include.

In addition, the heat dissipation unit 100 is provided with a circular fixing plate 120, a reflection plate 110 is provided in the center of the fixing plate 120, the lighting fixture 10 on the fixing plate 120, the wall surface Alternatively, a plurality of fixing grooves 121 may be provided to be fixed to any one of the ceilings.

In addition, in the present invention, the first heat transfer part 200 is coupled to the first heat dissipation pipe 220 through the connection member 400 to the water and sewage pipe 20, and a plurality of first inside the first heat dissipation pipe 220. The second heat dissipation plate 211 is provided, and the second heat dissipation tube 221 is provided in the center of the first heat dissipation tube 220.

In addition, the present invention, the groove is formed so that the heat pipe 320 is inserted into one side of the first heat dissipation tube 220 and the second heat dissipation tube 221, the heat pipe 320 into the second heat dissipation tube 221. ) Is characterized in that some outflow.

In addition, in the present invention, the second heat transfer part 300 is provided with a heat pipe 320 to move any one of heat or cold air to the lower side of the first heat dissipation pipe 220, and heat transfer inside the heat pipe 320. The material 323 is provided, and the cold pipe 321 is provided outside the heat pipe 320.

In addition, the present invention, the cold pipe 321 is provided on the outer periphery of the heat pipe 320, so that any one of the heat or cold air of the heat pipe 320 does not flow out to the outside. A coolant 322 is provided between the pipes 321.

In addition, the present invention heat dissipation filled with the heat transfer material 323 on the upper side of the first heat sink 210 to lower the heat of the first heat sink 210 through the heat transfer material 323 on the lower side of the heat pipe (320). Cap 310 is characterized in that it is provided.

1 is a perspective view of a lighting device heat dissipation device using the heat pipe of the present invention.

Figure 2 is a partially enlarged view of the luminaire heat dissipation device using the heat pipe of the present invention.

3 is a cross-sectional view of a heat pipe of the luminaire heat dissipation device using the heat pipe of the present invention.

Figure 4 is an installation of the lighting fixture heat dissipation device using the heat pipe of the present invention.

Figure 5 is an installation exploded view of the lighting fixture heat dissipation device using the heat pipe of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

Figure 1 is a perspective view of the lighting device of the present invention, Figure 2 is a partial cross-sectional view of the present invention, Figure 3 is a cross-sectional view of the heat pipe of the present invention, Figure 4 is a water and sewage pipe and boiler water inlet pipe It is an installation diagram to install, and FIG. 5 has shown the installation exploded view with respect to the installation diagram.

The lighting fixture 10 of the present invention is a heat dissipation unit 100 for large heat dissipation and the first heat transfer unit 200 for transmitting the cold air of the water and sewage pipe 20 and the cold air or heat dissipation unit of the water supply and sewage pipe 20 ( The second heat transfer part 300 for moving the heat of the 100 and the connection member 400 for coupling the first heat transfer part 200 to the water and sewage pipe 20 is provided.

1 to 5, the heat dissipation unit 100, the plurality of first heat dissipation plate 210 is provided above the fixing plate 120 in order to discharge the heat of the lighting fixture 10 to the outside; A first heat transfer part 200 to which the first heat dissipation pipe 220 is coupled to the water and sewage pipe 20 to move the cold air to the lighting fixture 10; And a second heat transfer part 300 provided below the first heat transfer part 200 to transfer cold air transferred from the first heat transfer part 200 or heat generated from the heat dissipation part 100. A connection member 400 provided to connect the first heat dissipation pipe 220 to the water and sewage pipe 20; Characterized in that configured to include.

The heat dissipation part 100 and the first heat transfer part 200 of the present invention are made of an aluminum material having high thermal conductivity, and the like, and the first heat transfer part 200 may be formed of a copper pipe or a copper pipe, depending on the operation.

In addition, the second heat transfer part 300 is a double pipe is formed of the heat pipe 320 and the cold pipe 321, the heat pipe 320 is made of a copper pipe or copper tube of high heat transfer material, The cold pipe 321 is made of a low heat transfer PE pipe or PVC pipe or the like so that heat or cold air does not leak to the outside.

The present invention will be described in detail with reference to the drawings the structural features and coupling relationship of the present invention.

In the lighting fixture 10 of the present invention, a plurality of first heat dissipation plates 210 are provided at a predetermined interval on the fixing plate 120 to emit heat to the outside to form a heat dissipation unit 100.

The heat dissipation part 100 includes a reflection plate 110, a fixing plate 120, and a fixing groove 121.

The heat dissipation unit 100 is provided with a circular fixing plate 120, the fixing plate 120 is attached to the wall or ceiling, the center of the fixing plate 120 is provided with a reflecting plate 110 incorporating the LED bulb do.

A plurality of fixing grooves 121 are formed on an upper surface of the fixing plate 120 so as to be able to fix the lighting fixture 10 to a wall or a ceiling by a binding body such as a bolt.

Therefore, when fixing the wall or ceiling of the lighting fixture 10, it is fixed by the fixing groove 121 and the binding body.

The first heat transfer part 200 includes a first heat dissipation plate 210, a second heat dissipation plate 211, a first heat dissipation tube 220, and a second heat dissipation tube 221.

The first heat transfer unit 200 is coupled to the water and sewage pipe 20 to move the cold air to the lighting fixture 10, the first heat dissipation that is the configuration of the first heat transfer unit 200 to the water and sewage pipe 20 Tube 210 is coupled.

The first heat dissipation pipe 210 of the first heat transfer part 200 is coupled to the water and sewage pipe 20 through the connection member 400.

A plurality of second heat dissipation plates 211 are provided in the first heat dissipation tube 210, and a second heat dissipation tube 221 is provided at the center of the first heat dissipation tube 220.

Threads are formed on both sides of the second heat dissipation tube 221, and screw threads are formed on both sides of the connection member 400 to couple the second heat dissipation tube 221 and the connection member 400.

In addition, by forming a screw thread inside the cut portion of the water and sewage pipe 20 is made that the connection member 400 coupled to the first heat transfer portion 200 is coupled.

In addition, a groove is formed in one side of the first heat dissipation tube 220 and the second heat dissipation tube 221 to allow the heat pipe 320 to be inserted therein.

Part of the heat pipe 320 flows out into the groove so that cold water of water and sewage flowing inside the second heat dissipation tube 221 directly affects the heat pipe 320.

The second heat transfer part 300 of the present invention includes a heat dissipation cap 310, a heat pipe 320, a cold pipe 321, a coolant 322, and a heat transfer material 323.

The second heat transfer part 300 is provided with a heat pipe 320 under the first heat dissipation tube 220, the heat pipe 320 is provided to move any one of heat or cold air.

The heat transfer material 323 is filled in the heat pipe 320, so that the temperature of one side is quickly moved to the other side.

The cooling pipe 321 is provided outside the heat pipe 320, and is provided to prevent heat or cold of the heat pipe 320 from flowing out.

The cold pipe 321 surrounds the outer circumference of the heat pipe 320, and a coolant 322 is provided between the heat pipe 320 and the cold pipe 321.

The coolant 322 is provided to prevent the heat or cold of the heat pipe 320 from leaking to the outside, and the coolant tube 321 surrounds the remaining portions except for the two sides of which the heat or cold directly affects.

In addition, a heat dissipation cap 310 filled with a heat transfer material 323 is provided at one side of the heat pipe 320, and the heat dissipation cap 310 is provided on the first heat dissipation plate 210.

Therefore, the heat generated from the first heat dissipation plate 210 is lost in the heat dissipation cap 310 to maximize the heat dissipation effect.

In addition, when heat reaches the water and sewage pipe 20 as the heat continues in the first heat dissipation plate 210, the heat is released by the second heat dissipation plate 211 located inside the first heat dissipation pipe 220. It is made to prevent the freezing of the water and sewage pipe 20 exposed to the outside.

As described above, the feature and the coupling relationship have been described with reference to the drawings, and the flow of heat transfer will be described as follows with reference to FIGS. 1 and 2.

The luminaire 10 of the present invention cuts a part of the water and sewage pipe 20 to couple the first heat dissipation tube 220 through the connection member 400, and heat pipes to one side of the outer circumferential surface of the first heat dissipation tube 220. A portion of the heat pipe 320 is exposed to the inside of the second heat dissipation tube 221 by inserting the 320 to pass through the second heat dissipation tube 221 provided in the first heat dissipation tube 220.

The exposed heat pipe 320 is affected by cold air from the water and the sewage, and is connected to the heat dissipation cap 310 filled with a heat transfer material 323 on the other side of the heat pipe 320.

The heat dissipation cap 310 is coupled to the first heat dissipation plate 210 of the luminaire 10, and the heat and sewage pipe 20 is moved as the heat generated from the luminaire 10 is moved to the first heat dissipation plate 210. It is transmitted to the cold and the heat dissipation cap 310 is transmitted through the lower the temperature of the heat of the first heat sink (210).

At this time, the cold pipe 321 including the coolant 322 is provided on the outer circumference of the heat pipe 320 to prevent cold air from flowing out.

While the invention has been described in connection with the preferred embodiment as mentioned above, various modifications and variations are possible without departing from the spirit of the invention. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

[Description of the code]

10: lighting device 20: water and sewage pipe

100: heat radiating unit 110: reflecting plate

120: fixing plate 121: fixing groove

200: first heat transfer unit 210: first heat sink

211: second heat sink 220: first heat pipe

221: second heat radiation tube

300: second heat transfer unit 310: heat dissipation cap

320: heat pipe 321: cold pipe

322: coolant 323: heat transfer material

400: connecting member

According to the present invention as described above provides a heat transfer member is connected to the heat sink of the lighting fixture by cutting the water pipes and the water pipe provided between the floor and the floor of the building provides an effect of lowering the heat generated in the lighting fixture.

In addition, as heat generated from the lighting fixtures is opposed to the cold water of the sewer pipe along the heat pipe, the lighting fixtures are rapidly dissipated, and the water and sewer pipes provide the effect of preventing freezing accidents in winter.

In addition, while enclosing the heat pipe with a coolant filled with a coolant outside, the double pipe provides an effect of maximizing the heat dissipation effect.

In addition, the present invention provides an effect of reducing the maintenance cost by extending the life of the luminaire with a double heat pipe and a heat dissipation cap.

Claims (7)

1. A heat dissipation part 100 provided to the top of the plurality of first heat dissipation plates 210 and the fixing plate 120 to discharge heat of the lighting fixture 10 to the outside;

   A first heat transfer part 200 to which the first heat dissipation pipe 220 is coupled to the water and sewage pipe 20 to move the cold air to the lighting fixture 10; And

   A second heat transfer part 300 provided below the first heat transfer part 200 to transfer cold air transferred from the first heat transfer part 200 or heat generated from the heat dissipation part 100;

   A connection member 400 provided to connect the first heat dissipation pipe 220 to the water and sewage pipe 20;

   Lighting fixture heat dissipation device using a heat pipe, characterized in that configured to include.
2. The method of claim 1,

   The heat dissipation unit 100 is provided with a circular fixing plate 120, a reflecting plate 110 is provided in the center of the fixing plate 120, the lighting fixture 10 on the upper surface of the fixing plate 120 of any wall or ceiling Light fixture heat dissipation device using a heat pipe, characterized in that a plurality of fixing grooves 121 are provided to be fixed in one place.
3. The method of claim 1,

   The first heat transfer part 200 is coupled to the first heat dissipation pipe 220 through the connection member 400 to the water and sewage pipe 20, and a plurality of second heat dissipation plates 211 inside the first heat dissipation pipe 220. ) And a second heat dissipation tube 221 is provided in the center of the first heat dissipation tube 220.
4. The method of claim 3,

   A groove is formed in one side of the first heat dissipation tube 220 and the second heat dissipation tube 221 so that the heat pipe 320 can be inserted therein, and the heat pipe 320 partially flows into the second heat dissipation tube 221. Lighting fixture heat dissipation device using a heat pipe.
5. The method of claim 1,

   The second heat transfer part 300 is provided with a heat pipe 320 to move any one of heat or cold air to the lower side of the first heat dissipation tube 220, the heat transfer material 323 in the heat pipe 320 Is provided, the heat radiating device using a heat pipe, characterized in that the heat pipe 320 is provided with a cold pipe 321 outside.
6. The method of claim 5,

   The cold pipe 321 is provided on the outer circumference of the heat pipe 320 and the heat pipe 320 and the cold pipe 321 so that any one of heat or cold air of the heat pipe 320 does not flow out. Light fixture heat dissipation device using a heat pipe, characterized in that the coolant 322 is provided between.
7. The method of claim 5,

   The heat dissipation cap 310 filled with the heat transfer material 323 on the upper side of the first heat dissipation plate 210 to lower the heat of the first heat dissipation plate 210 through the heat transfer material 323 under the heat pipe 320. Lighting fixture heat dissipation device using a heat pipe, characterized in that provided.

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