KR100979819B1 - corporate body of fresnel and photovoltic generating module therewith - Google Patents

Abstract

The present invention relates to a combination of a unit Fresnel lens without a transparent plate and a lattice plate is directly integrated into one body, and a high-concentration photovoltaic module having high power generation efficiency while using the same.

A specific feature of the present invention is a unitary Fresnel lens assembly in which a plurality of unit Fresnel lenses are combined, the unit Fresnel lens comprising: a lens surface for focusing light; It includes a side wall protruding perpendicular to the lens surface on the outer periphery of the lens surface, the side walls of the unit Fresnel lens which is in contact with each other when the plurality of unit Fresnel lenses are collectively arranged on a plane is coupled .

Fresnel lens, solar, power module, focus, conversion efficiency, impact

Description

Combination of integral Fresnel lens and photovoltaic module using the same {corporate body of fresnel and photovoltic generating module therewith}

The present invention relates to an integrated Fresnel lens assembly formed by combining a plurality of unit Fresnel lenses and a high-concentration solar power generation module using the same.

The conventional structure of the highly-concentrated photovoltaic module uses a plurality of Fresnel lenses to install a plurality of photoelectric conversion elements inside the housing of the power generation module and to focus sunlight on each photoelectric conversion element.

1 is an exploded perspective view illustrating the structure of a conventional high-concentration photovoltaic module.

The power generation module has a hexagonal shape housing 1 having an upper surface open and a receiving space therein, a flow port 7 for flowing the housing 1 toward the sun, and a bottom surface of the housing 1. It is provided in the upper surface and the photoelectric conversion element 21 is installed, the photoelectric conversion element 21 has a lattice shape formed to cross the sidewalls and the substrate 2, the light collecting holes 23 are installed so that the solar light is focused A plurality of fresnels, each of which is installed on the grating plate 3 and the grating plate 3 inside the grating plate 3, and focuses the incident sunlight on the light collecting hole 23. The transparent plate 5 and the transparent plate 5 installed on the lens 4 and the upper surfaces of the plurality of Fresnel lenses 4 to prevent rainwater or foreign matter from penetrating the seams of the Fresnel lenses 4. It consists of a coupling 6 which engages in the housing.

The transparent plate 5 prevents rainwater and foreign matter from penetrating into the housing and protects the Fresnel lens 4 lens. Low iron tempered glass is generally used. In addition, in order to support the Fresnel lens 4 by the grating 3, the outer periphery of the Fresnel lens 4 is installed on the side wall of the grating 3, the Fresnel lens 4 is fixed to the housing Be sure to

The plurality of Fresnel lenses 4 separated from the conventional photovoltaic module having such a configuration may be flown during construction of the photovoltaic module in a press-fitted structure between the transparent plate 5 and the grating plate 3. And may cause problems with accurate focus formation.

In addition, since the grid 3 is essentially used to stably support the Fresnel lens 4, the structure is not only complicated, but also because the grid 3 cannot be utilized as power generation in the same sunlight incident area. Conversion efficiency is reduced.

In addition, since the transparent plate 5 is made of tempered glass, the photovoltaic module is heavier than the case of the transparent plate 5 and is greatly affected by the wind, and the manufacturing cost is increased.

In addition, the Fresnel lens 4 is made of a flat structure is weak structurally damaged by external impact.

The present invention has been made to solve this problem, and an object of the present invention is to combine a unit Fresnel lens without a transparent plate and a lattice plate directly in the power generation module to form an integrated combination of low cost and high power generation efficiency To provide a power generation module.

Another object of the present invention is to provide a Fresnel lens that can withstand an external shock by manufacturing a structurally stable Fresnel lens.

In accordance with an aspect of the present invention, there is provided an integrated Fresnel lens assembly in which a plurality of unit Fresnel lenses are combined, the unit Fresnel lens comprising: a lens surface for focusing light; It includes a side wall protruding perpendicular to the lens surface on the outer periphery of the lens surface, the side walls of the unit Fresnel lens which is in contact with each other when the plurality of unit Fresnel lenses are collectively arranged on a plane is coupled .

In the present invention, at least one through hole is formed in the side wall, and a coupling member is installed and coupled to the through holes formed in the sidewalls of the unit Fresnel lens.

In addition, in the present invention, the sidewalls of the mutually contacting unit Fresnel lens is preferably joined by laser welding.

In the present invention, it is preferable that one PMMA sheet (Poly Methyl Meta Acrylate sheet) is laminated on the upper surface of the integrated Fresnel lens assembly by a bonding material.

In addition, the upper surface of the unit Fresnel lens in the present invention is preferably coated with a coating material.

In addition, the upper surface of the unit Fresnel lenses in the present invention is preferably coated by a coating film.

In addition, another feature of the present invention is a unitary Fresnel lens consisting of a lens surface for condensing light and sidewalls protruding perpendicular to the outer periphery of the lens surface are disposed on a plane, the adjacent sidewalls are formed by combining with each other Fresnel lens assembly; The integrated Fresnel lens assembly is installed in the opening, and a photovoltaic module including a housing therein is installed a photoelectric conversion element for generating electricity by the light focused by the unit Fresnel lens.

In the present invention, it is preferable that a rod-shaped support member protruding from the bottom surface of the housing to support the bottom surface of the integrated Fresnel lens assembly.

In addition, in the present invention, it is preferable that the area of the opening is larger than the area of the bottom surface of the housing.

According to the present invention having the above object and configuration, the unit Fresnel lenses form sidewalls protruding along the outer periphery of the quadrangular lens surface 13 on which the lenses are formed, and are combined with the sidewalls of adjacent Fresnel lenses By doing so, there is no need to use a separate transparent plate or a lattice board, thereby reducing the cost and increasing photoelectric conversion efficiency compared to incident light.

Hereinafter, an embodiment of the present invention according to the accompanying drawings will be described in detail.

Figure 2 is an exploded perspective view illustrating an embodiment of the present invention, Figure 3 is a rear perspective view of the Fresnel lens assembly of the present invention, Figure 4 is a cross-sectional view taken along the line AA 'of FIG.

Each unit Fresnel lens 11 is coupled to each other to form an integral Fresnel lens assembly 10.

Each unit Fresnel lens 11 is formed in a planar quadrangular lens surface 13 and sidewalls 15 formed downward from one side of the outer periphery of the lens surface 13, that is, in the direction shown in FIG. 2. Is made of. At this time, the side wall 15 is formed with a plurality of through-holes 19 into which the rivets 17 made of synthetic resin or metal can be inserted. The unit Fresnel lens 11 is disposed such that sidewalls of neighboring unit Fresnel lenses are in contact with each other in plan view, and through-holes between adjacent sidewalls except for sidewalls forming an outer wall surface of the integrated Fresnel lens assembly 10. Rivets 17 are fastened to the 19.

In addition, after the two adjacent sidewalls 15 are fastened by the rivets 17, the adjacent two sidewalls 15 are welded by laser welding, where water penetrates into the gap between the two sidewalls 15. To prevent them.

In addition, two adjacent sidewalls 15 may be bonded by mutually transparent adhesive materials, and various joining methods may be taken.

In addition, it is preferable that the upper surface of each unit Fresnel lens is coated to prevent scratches on the lenses, to reduce reflectance when the light is incident, to increase transmittance, and to prevent fog. The coating material is not particularly limited, but a super water-repellent coating applied to the glasses is preferred.

In addition, one PMMA sheet (Poly Methyl Meta Acrylate sheet) is bonded to the upper surface of the integrated Fresnel lens assembly 10 with an adhesive to stabilize the overall structure. At this time, since the upper surface of each unit Fresnel lenses are bonded to one PMMA sheet, the sidewalls are certainly waterproof and the structure of the integrated Fresnel lens assembly 10 is stabilized as a whole.

The integral Fresnel lens assembly 10 is inserted into an opening formed in the upper portion of the housing 20. The housing 20 is formed in a box shape of a substantially hexahedron having an open upper surface, and has a protruding jaw 27 protruding inwardly at a predetermined depth from an upper portion of the side wall, and the protruding jaw 27 has an integral Fresnel lens. The lower surface of the outermost sidewalls of the assembly 10 spans.

In addition, a filling binder for filling the gap formed between the outermost sidewalls of the integrated Fresnel lens assembly 10 and the upper portion of the sidewall of the housing 20 is filled.

In addition, the bottom surface 29 of the housing 20 is provided with a light collecting port 21 in which a focal point of each Fresnel lens is formed therein and a photoelectric conversion element is installed at a lower portion thereof, and on the bottom surface 29. Support rods 23 and 25 are formed vertically. The upper ends of the supporting rods 23 and 25 support the lower surface of the junction where the sidewalls of the four Fresnel lenses come into contact with each other from below to prevent the integrated Fresnel lens assembly 10 from sagging downward. .

In addition, the through-hole is formed to match the through-holes of the outer unit Fresnel lenses forming the integral Fresnel lens assembly 10 on the housing 20, the housing and the outer unit Fresnel lenses can be combined by rivets. have.

In addition, the outer shape of the housing 20 is formed such that the side wall is inclined so that the bottom surface is smaller than the upper opening to minimize the influence of the wind.

1 is an exploded perspective view illustrating the structure of a conventional high-concentration photovoltaic module.

2 is an exploded perspective view illustrating an embodiment of the present invention.

3 is a rear perspective view of the Fresnel lens assembly of the present invention.

4 is a cross-sectional view taken along the line AA ′ of FIG. 2.

Claims (11)

In the unitary Fresnel lens assembly consisting of a plurality of unit Fresnel lenses are combined, The unit Fresnel lens includes a lens surface for focusing light and a side wall protruding perpendicular to the outer periphery of the lens surface, The unitary Fresnel lens assembly characterized in that the sidewalls of the unit Fresnel lenses that are in contact with each other when the plurality of unit Fresnel lenses are assembled and disposed on a plane. The method according to claim 1, At least one through hole is formed in the side walls, and a coupling member is installed and coupled to the through holes formed in the side walls of the unit Fresnel lens to be in contact with each other. The method according to claim 1 or 2, Integral Fresnel lens assembly characterized in that the sidewalls of the unit Fresnel lens in contact with each other are joined by laser welding. The method according to claim 1 or 2, An integral Fresnel lens assembly, wherein one PMMA sheet (Poly Methyl Meta Acrylate sheet) is laminated on the upper surface of the integral Fresnel lens assembly by a bonding material. The method according to claim 1 or 2, The upper surface of the unit Fresnel lens is integral coating Fresnel lens combination, characterized in that the coating material. A unitary Fresnel lens assembly comprising unit Fresnel lenses comprising a lens surface for condensing light and sidewalls protruding perpendicularly to an outer circumference of the lens surface, the unit Fresnel lenses being formed on a plane, and adjacent sidewalls being mutually coupled; And a housing in which the integrated Fresnel lens assembly is installed in the opening, and a photoelectric conversion element for generating electricity by light focused by the unit Fresnel lens is installed therein. The method according to claim 6, The bottom surface of the housing photovoltaic module, characterized in that the protruding bar-shaped support member for supporting the bottom surface of the integrated Fresnel lens assembly. The method according to claim 6, At least one through hole is formed in the side wall, and a coupling member is installed and coupled to the through hole formed in the adjacent side walls. The method according to any one of claims 6 to 8, The adjacent side wall is a solar power module, characterized in that coupled by laser welding. The method according to claim 6, The solar cell module, characterized in that the area of the opening is larger than the area of the bottom surface of the housing. The method according to claim 6, The upper surface of the unit Fresnel lens is a solar cell module, characterized in that one PMMA sheet (Poly Methyl Meta Acrylate sheet) is laminated by a bonding material.

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