KR100835255B1 - A heat sink for high condensing lens solar battery - Google Patents

Abstract

The present invention provides a heat dissipation device that significantly increases the heat dissipation capacity of the solar cell module using the condensing lens. In the case of the high condensing solar cell module using the condensing lens, the cooling and radiating is performed smoothly, thereby producing electricity by solar power generation. The present invention relates to a heat dissipation device for a high-concentration solar cell that can be efficiently performed without a hitch.

The present invention for realizing this is a solar cell heat dissipation device installed in a solar cell module is connected to the solar cell in series or parallel, the heat sink is installed on the rear surface of the solar cell module, one side or both sides of the heat sink is connected to the heat sink And a heat dissipation fin block coupled to the plurality of heat pipes and coupled to the other side of the heat pipes, and having a plurality of heat dissipation fins arranged at a tight interval.

Description

Heat Dissipation Device for High Concentration Solar Cell {A HEAT SINK FOR HIGH CONDENSING LENS SOLAR BATTERY}

1 is an exploded perspective view showing the configuration of an embodiment according to the present invention

2 is a perspective view of the combination of FIG.

3A is an exploded perspective view of the mounting of FIG. 2

Figure 3b is a perspective view of the combination of Figure 3a

4 is a longitudinal cross-sectional view of FIG.

5 is a partial detailed cross-sectional view taken along the line A-A of FIG.

Figure 6 is a partial detailed cross-sectional view of the heat sink of one embodiment according to the present invention

7 is a block diagram of a prior art

* Explanation of symbols for the main parts of the drawings

1: heat dissipation device for high-concentration solar cell of the present invention

10, 10a: heat sink 11: recess 11a: blocking end

13: Lose Home 16: Top 17: Bottom

20: heat pipe 30: heat dissipation fin block 31: heat dissipation fin

50: bracket 2: solar cell module 2a: solar cell

2b: frame 3: condenser lens 4: prop

The present invention relates to a heat dissipation device of a solar cell, and in particular, a high-concentration solar cell module using a condensing lens by dramatically increasing the heat dissipation capacity of a heat dissipation device mounted on a solar cell module, thereby making it possible to perform cooling and radiation smoothly. The present invention relates to a heat dissipation device for a high-concentration solar cell that can efficiently perform electricity production by power generation without disruption.

Photovoltaic is an environmentally friendly energy resource to replace the depleted fossil energy.

In general, the light collecting unit of a solar power generation facility includes a condenser lens that condenses sunlight, a solar cell that absorbs condensed sunlight and converts it into electrical energy, a solar cell module in which solar cells are connected in series or parallel, and a condenser lens and a solar cell module. It consists of a heat dissipation means for cooling the solar cell module whose temperature is increased due to the frame and the concentrated solar light connected to the.

In addition, high-condensing lenses are used to improve the electricity production efficiency.

As the light condensation rate is increased by using the high condensing lens, the heating amount per unit area of the solar cell is increased. In other words, the area of the solar cell and the solar cell module is reduced compared to the unit heating amount by the high condensing lens. do.

The solar cell module solar cell power generation operation is performed only in a certain temperature range, the operation of the control circuit is stopped when overheated above a certain temperature, so that the heat dissipation means is installed to cool and heat the solar cell to maintain a constant temperature region do.

The heat dissipation means 100 according to the related art has a heat dissipation plate 110 mounted on the rear surface of the solar cell module 2, and a plurality of heat dissipation fins 131 are arranged on the heat dissipation plate 110. In other words, the heat radiation is limited to the solar cell module area.

However, as the heat dissipation means of the prior art, which is limited to the solar cell module mounting as the amount of heating per unit area due to the high light condensation as described above, there is a problem that the cooling capacity is insufficient and the operation stops during power generation.

The present invention has been made to solve the above problems.

It is an object of the present invention to significantly increase the heat dissipation capacity of the heat dissipation device mounted on the solar cell module, so that even in the case of a high-concentration solar cell module using a condensing lens, cooling and radiating are smoothly performed, thereby preventing electricity production by solar power generation. It is to provide a heat dissipation device for a high-concentration solar cell that can be efficiently performed.

The heat dissipation device for a high light concentrating solar cell according to the present invention for achieving the above object,

In the solar cell heat dissipation device is installed in a solar cell module connected in series or parallel,

A heat sink mounted to a rear surface of the solar cell module;

A plurality of heat pipes disposed on one side or both sides of the heat sink and one side connected to the heat sink; And

And a heat dissipation fin block coupled to the other side of the plurality of heat pipes and having a plurality of heat dissipation fins arranged at densely spaced intervals.

Hereinafter, with reference to the accompanying drawings, an embodiment of a heat dissipation device for a high-concentration solar cell of the present invention will be described in more detail.

1 is an exploded perspective view showing the configuration of an embodiment according to the present invention, Figure 2 is a perspective view of the combination of Figure 1, Figure 3a is a mounting exploded perspective view of Figure 2, Figure 3b is a perspective view of Figure 3a, Figure 4 5 is a partial cross-sectional view taken along line AA of FIG. 4.

1 to 5, the heat dissipation device 1 of the high-concentration solar cell according to the present invention, the solar cell heat dissipation is installed in the solar cell module 2, the solar cells 2a are connected in series or in parallel In the device, the heat sink 10 mounted on the rear surface of the solar cell module 2, a plurality of heat pipes 20 disposed on one side or both sides of the heat sink 10 and one side connected to the heat sink 10 and the The heat dissipation fin block 30 is coupled to the other side of the plurality of heat pipes 20 and the plurality of heat dissipation fins 31 are arranged at densely spaced intervals.

Here, the heat sink 10 is formed with a concave groove 11 for fixing the heat pipe 20 is inserted into the rear surface for fixing the heat pipe 20, the concave groove 10 is pressurized after inserting the heat pipe It is preferable that the clamping opening 11a having both sides protruded so as to deform at the time to bind the heat pipe is formed (see FIG. 5).

The heat dissipation groove 13 is formed in the heat sink to form the clamping opening 11a, and to reduce the material and expand the heat dissipation area.

The heat pipe 20 is provided on both sides of the heat sink 10 and the recess 11 is preferably formed with a blocking end 11b before reaching the center of the heat sink (see FIG. 3).

Each one of the heat radiation fins 31 is inserted through the insertion hole according to the arrangement of the plurality of heat pipes 20.

As shown in FIG. 6, the heat dissipation plate 10 is divided into an upper plate 16 and a lower plate 17 to be bonded to each other, and each of the heat pipes 20 is bonded to each bonding surface. Grooves 16a and 17a on which the outer circumferential surface is seated may be formed.

In one embodiment according to the present invention, the bracket 50 is fixed to the heat sink 10 and guides and supports the arrangement of the heat pipe 20 and serves as a support base of the solar cell module condensing lens 3. It may be provided.

The bracket 50 is extended to one side from the main body portion 51 fixed to the heat sink 10 and the frame 2b of the solar cell module by the fastening member 41 and the main body portion 10 and bent upwards. The heat pipe 20 extends forward and backward from the heat pipe support part 53 and the main body part 51 in which the concave grooves 53a corresponding to the outer diameter of the heat pipe are formed at the intervals between the heat pipes 20, and are supported for the condensing lens 3. It is preferable that the strut 4 is composed of a strut fixing 55 is connected. In FIG. 1, reference numerals '12' and '51a' are fastening holes, respectively.

It looks at the working state of the heat-radiating device 1 for a high-concentration solar cell according to the present invention having the above configuration.

The present invention arranges the heat pipe 20 as a bridge to the heat dissipation plate 10 to increase the heat dissipation efficiency in the high concentration solar cell module 2 in which high heat is accumulated in a small area, and the heat dissipation fin block 30 is coupled to the other side. This significantly expands the heat dissipation area.

The heat pipe 20 is manufactured by injecting a working fluid having a low boiling point and a large latent heat of evaporation into a metal tube in a vacuum state, so that the working fluid easily changes from liquid to steam under low pressure. It is a heat exchange means that efficiently transfers heat as latent heat during phase change by using features.

The heat dissipation fin block 30, which is an assembly in which the heat dissipation plate 10 and the plurality of heat dissipation fins 31, which are mounted on the solar cell module 20 to which the solar cells 2a are connected using the heat pipe 20, are arranged at a tight interval. By connecting the heat dissipation capacity is significantly increased, the heat dissipation is performed smoothly so that the solar cell module (2), which has a high condensation heating using a convex lens in a small area, does not overheat.

On the other hand, the bracket 50 is fixed to such a heat dissipation device to the solar cell module (2) and fixed, and effectively supports the condenser lens support (4). The fixing of the condenser lens strut 4 to the bracket 50 preferably uses a separate fastening member.

In the above, preferred embodiments of the present invention have been described with reference to the accompanying drawings. Here, the terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, but should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

As described in detail above, the heat dissipation device for a high-concentration solar cell according to the present invention has a heat dissipation capacity by disposing heat pipes as a bridge on a heat sink mounted on a solar cell module and combining heat dissipation fin blocks in which heat dissipation fins are densely arranged on the other side. In the case of a highly condensed solar cell module using a convex lens, the cooling and radiation are smoothly performed, and there is an excellent effect of efficiently performing electricity production by photovoltaic power without any disruption.

Claims (6)

delete delete A heat sink 10 mounted to the rear surface of the solar cell module 2 in which the solar cells 2a are connected in series or in parallel; A plurality of heat pipes 20 disposed on one side or both sides of the heat sink 10, and one side of which is connected to the heat sink 10; And And a heat dissipation fin block 30 coupled to the other side of the heat pipes 20 and having a plurality of heat dissipation fins 31 arranged at a tight interval. The heat sink 10 has a concave groove 11 for inserting and fixing the heat pipe 20 on the rear surface of the heat pipe 20 to fix the connection of the heat pipe 20, and the concave groove 10 is deformed when pressurized after inserting the heat pipe 20. In the solar cell heat dissipation device is formed with a clamping opening (11a) protruding both sides to bind the heat pipe, The heat pipe 10 is installed on both sides of the heat pipe (10) and the concave groove (11) is a heat dissipation device for a high concentration solar cell, characterized in that the blocking end (11b) is formed before reaching the center of the heat sink. The method of claim 3, wherein The heat dissipation plate 10 is divided into an upper plate 16 and a lower plate 17 and joined to each other, and grooves 16a and 17a are formed on each joining surface, in which half of the outer circumferential surface of the heat pipe 20 is seated. High concentration solar cell radiator. The method of claim 3, wherein Highly condensed solar cell, characterized in that the bracket 50 which is fixed to the heat sink 10 and guides and supports the arrangement of the heat pipe 20 and serves as a support base of the solar cell module upper condensing lens (3) Heat dissipation. The method of claim 5, The bracket 50 is extended to one side from the main body portion 51 fixed to the heat sink 10 and the frame 2b of the solar cell module by the fastening member 41 and the main body portion 10 and bent upwards. The heat pipe 20 extends forward and backward from the heat pipe support part 53 and the main body part 51 in which the concave grooves 53a corresponding to the outer diameter of the heat pipe are formed at the intervals between the heat pipes 20, and are supported for the condensing lens 3. High heat concentrating solar cell heat dissipation device, characterized in that consisting of the holding post fixing part 55 is connected to the support (4).

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