KR101026743B1 - Housing for photovoltic generating module - Google Patents

Abstract

An integrated Fresnel lens is installed on the upper part, and a plurality of heat sink supports for supporting a heat sink are disposed at the bottom, and the heat sink support member has a through hole for exposing a part of the heat sink to the outside, and the Fresnel lens Disclosed is a housing of a light converging photovoltaic device, in which a plurality of lens supports for fixing a plurality of lens supports are fixed to the floor.

Solar cell, solar cell, heat dissipation, efficiency, framing lens, heat sink, casing

Description

Housing for photovoltaic photovoltaic device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a housing for a light converging solar device, and more particularly, to a housing having a high heat dissipation ability while reducing manufacturing cost while increasing mechanical strength.

Recently, due to the serious energy problem at home and abroad, solar cells are in the spotlight, and development is being actively conducted. Solar cells are directly incident on multiple cells without reflection or refraction, and reflectors are installed in front of the solar cells. There is a condensing solar cell that condenses light.

However, the concentrating solar cell is not substantially higher than the power generation efficiency of the solar cell that directly enters the sunlight, because in the case of the concentrating solar cell, the power generation output efficiency of the cell is multiplied by the transmittance or reflectance. . That is, in the case of the cell, when the power conversion efficiency level, which is the ratio of the power generation output to the incident solar power output, is about 15%, the power generation efficiency of the concentrating solar cell is 15% × 90% when the transmittance or reflectance is 90%. It becomes 13.5%, and practically, power generation efficiency is not high.

Therefore, in order to obtain high power conversion efficiency, one of them includes a Fresnel lens on the top of the cell to concentrate incident solar light in the cell 500 times or more, thereby increasing the power conversion efficiency.

However, since the solar light is concentrated in one cell by 500 times or more, the temperature of the cell is rapidly increased, and rather, the solar cell has a problem of acting as a factor of lowering the power conversion efficiency.

Therefore, in order to lower the temperature of the rapidly rising cell, there is a heat sink having a plurality of fins attached to the case to protect the cell with an external force, but this is to dissipate the heat of the entire solar cell, there was not enough to lower the temperature of the cell .

Accordingly, it is an object of the present invention to provide a housing for a light converging solar device having excellent heat dissipation capability.

Another object of the present invention is to provide a housing of a light converging photovoltaic device which is excellent in heat dissipation ability and can reduce manufacturing cost while increasing mechanical strength.

The above object is, the integral Fresnel lens is installed on the top, a plurality of heat sink support for arranging the heat sink is disposed on the bottom, the heat sink support has a through hole for exposing a portion of the heat sink to the outside; A plurality of lens supports for supporting the Fresnel lens are achieved by a housing of a light converging solar device fixed to the floor.

Here, the housing may be made of engineering plastic or aluminum.

Preferably, the heat dissipation plate is formed integrally with the main body and the rear surface of the heat dissipation fins are exposed to the outside through the through hole, the heat dissipation plate support, the rectangular ring protruding from the bottom surface of the housing to accommodate the main body And a support ring having a shape and a protection ring having a rectangular ring shape protruding from a bottom surface of the housing, and a jaw is formed at a boundary between the support protrusion and the protection protrusion inside the support protrusion.

Preferably, the height of the support protrusion is formed higher than the main body, the height of the protective protrusion is at least equal to the height of the heat radiation fins.

In addition, before the main body is accommodated in the support protrusion, silicone may be applied to the jaw, and then the main body may be fixed to the jaw with a screw.

Preferably, the heat dissipation plate is formed integrally with the main body and the back surface of the heat dissipation fins are exposed to the outside through the through hole, the heat dissipation plate support is a rectangular ring-shaped insulating waterproof packing along the edge of the through hole surface and the back surface Is installed, the heat sink is placed on the waterproof packing installed on the surface, and the insulating bushing is inserted into the screw hole formed at the four corners of the main body, and the bolt is inserted into the insulating bushing so that the bolt is fixed with a nut at the back of the waterproof packing installed on the rear surface. Can be.

According to the present invention, the Fresnel lens may be formed as a single piece by bonding a plurality of separate Fresnel lenses, and the frame may be applied to the edge of the Fresnel lens.

In addition, the integrated Fresnel lens may be made by bonding each Fresnel lens on a PMMA sheet, or by chemical welding of each Fresnel lens.

According to the above structure, the heat dissipation ability is excellent, and with this, there is an advantage that the manufacturing cost can be reduced while increasing the mechanical strength.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

1 is a partially exploded perspective view showing a housing according to an embodiment of the present invention.

Referring to FIG. 1, the housing 100 has an opening at its top and consists of four sides 102 and a bottom 104, and a heat sink support 110 for installing a heat sink 150 is provided at the bottom 104. Is formed.

In addition, by inclining the side surface 102 such that the area becomes smaller toward the lower side with respect to the upper opening, less resistance to external wind pressure, and the cost can be reduced by reducing the amount of raw materials consumed.

The housing 100 is made of engineering plastics to compensate for the shortcomings of general-purpose plastics in strength and thermal properties, and is lighter than metal and has cost-effectiveness.

The plastic used here is a material such as PC, ABS, polyamide or low specific gravity GMT. The plastic can be added to increase physical properties, and compounded with metal powder to improve thermal conductivity. Can be made from materials.

Preferably, in order to further increase the mechanical strength of the plastic, by inserting the frame made of a metal frame and insert injection, it is possible to improve workability and workability.

An air filter 120 is installed on the opposite side of the housing 100. The air filter 120 is made of a material that passes air but does not pass moisture as a filter that circulates air inside and outside the housing 100. According to this structure, it serves to lower the internal temperature of the housing 100 due to air circulation to maximize the efficiency of the solar cell and to extend the life of the battery. It also prevents corrosion by circulating only air and preventing the ingress of moisture.

2 is a cross-sectional view showing a heat sink support 110 according to an embodiment of the present invention.

Referring to FIG. 2, the heat sink 150 includes, for example, a hopper-shaped reflector 158 installed on a surface of a rectangular parallelepiped main body 151 and a threaded hole 154 is formed at four corners thereof. The heat radiation fins 156 are integrally formed. Here, the heat dissipation fin 156 has the effect of widening the contact area with air and maximizing the heat dissipation effect to reduce the load of the solar cell due to condensing and collecting, increase battery efficiency, and extend the lifespan.

The heat sink support member 110 is exposed to the back of the bottom 104 of the rectangular ring shaped support protrusion 112 protruding from the bottom 104 of the housing 100 and the bottom of the housing 100 so that the body 151 of the heat sink is accommodated. In order to protect the heat radiation fins 156 from external impacts, a protection ring 114 having a rectangular ring shape protruding from the bottom surface is included. Therefore, a through hole is formed between the support protrusion 112 and the protective protrusion 114 to expose the heat dissipation fin 156, and the jaw 113 is formed at the boundary thereof.

The support protrusion 112 and the protective protrusion 114 are integrally injected together with the housing 100, and the support protrusion 112 is formed when the water is introduced from the outside by forming the height of the support protrusion 112 higher than the heat sink 150. It is desirable to be caught by) so that the solar cell can flow without touching it.

Before storing the main body 151 of the heat sink 150 in the support protrusion 112, the silicon is applied to the jaw 113, and then the heat sink 151 is inserted to fix the heat sink 150 with the screws 152. do.

In addition, the protection protrusion 114 is formed at least the same height as the heat radiation fins 156 to protect the heat radiation fins 156 from external physical impact.

Meanwhile, the lens support 130 is installed at an appropriate position on the bottom 104 of the housing 100. For example, the lens support 130 may be fixed to the bottom of the housing 100 by using a screw or the like.

Preferably, the upper end of the lens support 130 is curved with a constant curvature to accommodate the curvature of the Fresnel lens 200.

The lens support 130 serves to maximize the efficiency of the solar cell by condensing accurately by supporting the Fresnel lens 200 to prevent the Fresnel lens 200 from sagging or falling off.

Referring to FIG. 1, the Fresnel lens 200 may be formed by bonding a plurality of separate Fresnel lenses to each other, thereby increasing the efficiency and simplifying the work. For example, each Fresnel lens may be bonded to one another on a PMMA sheet, or each Fresnel lens may be integrally formed by chemical welding.

According to such a structure, the lens fixing frame does not need to be used, resulting in cost reduction, and since it is integrated, there is an advantage that the waterproof problem is solved.

In addition, by applying the frame 210 to the edge of the Fresnel lens 200 manufactured in one piece, it is possible to increase the efficiency of the work. The frame 210 may be made integral with the lens in the process of molding the lens.

3 is a cross-sectional view showing a heat sink supporter according to another embodiment of the present invention.

Referring to FIG. 3, the housing 100 is made of aluminum, and a rectangular ring-shaped insulating waterproof packing 170 and 172 is installed along the surface of the through hole of the heat sink support 110 ′ and the rear surface of the heat sink. The heat sink 150 is placed on the waterproof packing 170 installed.

At this time, the insulating bushing 166 is inserted into the screw hole 164 formed at the four corners of the main body 151 of the heat sink 150 to insulate the heat sink 150 and the housing 100, and bolts to the insulating bushing 166. 162 is fitted and secured with a nut on the backside of the waterproof packing 172 installed on the backside.

1 is a partially exploded perspective view showing a housing according to an embodiment of the present invention.

2 is a cross-sectional view showing a heat sink support 110 according to an embodiment of the present invention.

3 is a cross-sectional view showing a heat sink supporter according to another embodiment of the present invention.

Claims (8)

In the housing of the focusing solar device, An integrated Fresnel lens is installed on the top, and a plurality of heat sink supporters for supporting the heat sink are disposed on the bottom, and the heat sink support member has a through hole for exposing a part of the heat sink to the outside. The heat dissipation plate is formed integrally with the main body and the back of the main body is made of a heat dissipation fin exposed to the outside through the through hole, The heat dissipation plate support includes a support ring having a rectangular ring shape protruding from the surface of the bottom so that the main body is accommodated, and a protection ring having a rectangular ring shape protruding from the rear surface of the bottom, The housing of the light converging photovoltaic device, characterized in that the jaw is formed at the boundary between the support protrusion and the protective protrusion inside the support protrusion. An integrated Fresnel lens is installed on the top, and a plurality of heat sink supporters for supporting the heat sink are disposed on the bottom, and the heat sink support member has a through hole for exposing a part of the heat sink to the outside. The heat dissipation plate is formed integrally with the main body and the back of the main body is made of a heat dissipation fin exposed to the outside through the through hole, The heat sink support is provided with an insulated waterproof packing having a rectangular ring shape along the front and rear edges of the through hole, The heat sink is placed on the waterproof packing installed on the surface, and the insulating bushing is inserted into the screw hole formed at the four corners of the main body, and the bolt is inserted into the insulating bushing, so that the bolt is fixed with a nut at the back of the waterproof packing installed on the rear surface. Housing of the concentrating solar device. The method according to claim 1 or 2, The housing of the light collecting solar device, characterized in that the housing is made of engineering plastic or aluminum. The method according to claim 1 or 2, The housing of the light concentrating solar device, characterized in that a plurality of lens support for fixing the Fresnel lens is fixed to the bottom. The method according to claim 1, The height of the support protrusion is formed higher than the main body, the height of the protective protrusion is at least the height of the heat radiation fin housing of the light collecting solar device, characterized in that. The method according to claim 1, The housing of the light converging photovoltaic device, wherein after applying the silicon to the jaw before storing the main body in the support projection, the main body is fixed to the jaw with a screw. The method according to claim 1 or 2, The Fresnel lens is made of a single body by joining a plurality of separate lenses, respectively, Housing of the light-collecting photovoltaic device, characterized in that the frame is applied to the edge of the Fresnel lens manufactured integrally. The method of claim 7, The unitary Fresnel lens is made by bonding each Fresnel lens on a PMMA sheet or by chemical welding each Fresnel lens housing.

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