KR100989285B1 - Shaped solar battery module using color solar cells - Google Patents

Abstract

PURPOSE: A solar cell module using a color solar cell is provided to promote specific goods by using a pattern on the solar cell. CONSTITUTION: A silicon dioxide(5) is passivated on the front of a solar cell(1). A front electrode(7) is welded with an N-type semiconductor of a solar cell after passing through the silicon dioxide. A rear electrode(9) is boned with a P type semiconductor of the solar cell. The solar cell, the silicon dioxide, the front electrode and the rear electrode are surrounded with EVA(Ethylene Vinyl Acetate) or PVB(Poly Vinyl Butyral)(11a,11b). Tempered glass is mounted on the front of the EVA or PVB.

Description

Shaped solar module using color solar cells {Shaped solar battery module using color solar cells}

The present invention relates to a shaped solar cell module using a color solar cell, in which a certain pattern is displayed when each of the solar cells is combined with one color, and then the respective solar cells are combined into one. More specifically, Passivation of silicon dioxide, the color of which varies in thickness, on the front of the solar cell facing the sun, and then a colored solar cell in which mosaics of different colors of the solar cells are combined in a specific pattern. It relates to a shaped solar cell module used.

Recently, due to the problems of global environment, depletion of fossil energy, waste disposal of nuclear power generation, and location selection due to the construction of new power plants, interest in new and renewable energy is increasing. The research and development on the domestic and international are actively progressing.

At this time, the solar cell rotates the turbine using solar heat, and solar power generation that obtains electrical energy by the turbine that rotates as a result, and the solar cell converting photons into electrical energy using the properties of the semiconductor. As such, the solar cell generally refers to a solar cell.

The solar cell typically has a junction structure of a P-type semiconductor and an N-type semiconductor like a diode. When solar light is incident on the solar cell, current flows due to the interaction between the solar light and the solar cell.

On the other hand, a solar cell having the above structure is usually installed at a certain angle on the roof or roof of a building to receive sunlight vertically, in the case of high-rise buildings made of multi-generation buildings such as the roof or roof of a building There is a problem in that the space is limited and it is not enough to install the solar cell.

Therefore, in recent years, the solar cells may be installed on the outer wall of the building to generate electrical energy, but the aesthetics of the building may be dark due to the unique color of the solar cells.

In addition, when the solar cell is installed on the outer wall of the building, there is a problem in that there is a limit in attaching signs, banners, and other promotional materials to the outer wall of the building.

In order to solve the problems described above, the present invention allows a specific pattern to be displayed on the front of the solar cell facing the sun, thereby making the appearance of the solar cell beautiful and promoting a specific product using the pattern displayed on the solar cell. It is an object of the present invention to provide a shaped solar cell module using a color solar cell.

내지

으로 이루어짐이 바람직하다.
Shaped solar cell module using a color solar cell according to the present invention for achieving the above object is a silicon dioxide passivated on the front surface of the solar cell to generate photovoltaic power by sunlight And a front electrode which penetrates through the silicon dioxide and is bonded to an N-type semiconductor provided in the solar cell and connected to a load or another solar cell, and is bonded to a P-type semiconductor provided in the solar cell to load or another solar cell. Is connected to the back electrode, and the solar cell and silicon dioxide, the front electrode, and may be made of EVA (Ethylene Vinyl Acetate) or PVB (Poly Vinyl Butyral) surrounding the combination of the back electrode, the passivation ( The thickness of the passivated silicon dioxide

To

It is preferably made of.

The shaped solar cell module using the color solar cell according to the present invention having such a structure can form a specific pattern by combining each solar cell having a different color by silicon dioxide in various forms.

Therefore, the shaped solar cell module using the color solar cell according to the present invention can avoid the monotony of the existing solar cell module, and obtain a promotional effect by displaying a publicity on the surface of the solar cell module exposed to the outside. It may be.

1 is a cross-sectional view of the present invention,
Figures 2a and 2b is a table listing the color of the silicon dioxide according to the thickness of the silicon dioxide,
3 is a view in which the front tempered glass and the rear tempered glass is additionally installed in front and rear of the EVA or PVB,
4 is a view of installing a back sheet in place of the rear tempered glass,
5a to 5c are views for explaining a state in which a specific pattern is formed by combining the solar cells of the present invention for each color;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In addition, the terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator, and the definitions refer to the shaped solar cell module using the color solar cell according to the present invention. It should be made based on the contents throughout the specification to be described.

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

내지

으로 이루어짐이 바람직하다. Shaped solar cell module using a color solar cell according to the present invention is a silicon dioxide (5) (Silicon dioxide) passivated on the front of the solar cell (1) for generating photovoltaic power by sunlight, and A front electrode 7 which penetrates the silicon dioxide 5 and is then bonded to an N-type semiconductor provided in the solar cell 1 to which a load or another solar cell is connected, and a P-type semiconductor provided in the solar cell 1 A back electrode 9 bonded to and connected to a load or other solar cell, and an EVA surrounding the solar cell 1 and a combination of the silicon dioxide 5, the front electrode 7, and the back electrode 9. (Ethylene Vinyl Acetate) (11a, 11b) or polyvinyl butyral (PVB) (11a, 11b), the thickness of the silicon dioxide (5) passivated (Passivated) to the solar cell (1)

To

It is preferably made of.

Accordingly, the present invention may combine the solar cells 1 having different colors according to the thickness of the passivated silicon dioxide 5 to make the color appearing outside to achieve a specific shape.

The solar cell 1 generally has a structure in which an N-type semiconductor layer is mounted on a P-type semiconductor layer, as shown in FIG. 1, and a P-N junction is provided between the N-type semiconductor and the P-type semiconductor.

On the other hand, when sunlight having energy greater than the bandgap energy of the semiconductor is exposed to the solar cell 1 having the above structure, a pair of electrons and holes are generated in the solar cell 1, wherein Electrons and holes move to the N-type semiconductor layer by the electric field formed at the PN junction, while the holes are collected in the P-type semiconductor.

In this case, photovoltaic power is generated between the P-type semiconductor and the N-type semiconductor according to the movement of the electrons and holes, and when the load is connected to the front electrode 7 and the rear electrode 9, the front electrode 7 is formed. And current flows through the rear electrode 9.

In addition, the solar cells 1 may be connected in series or in parallel to form a solar cell module 3, or may be configured in the form of an array in accordance with the actual use load.

Meanwhile, as shown in FIG. 1, the silicon dioxide 5 may be formed on the entire surface of the solar cell 1 facing the sunlight, and the silicon dioxide 5 may be evaporated or sputtered. It can be passivated on the circumferential surface of the solar cell 1 in various ways besides a sputtering method, a print screen method, and a CVD method.

The silicon dioxide 5 may minimize the phenomenon that the sunlight transmitted toward the solar cell 1 is reflected from the solar cell 1.

In addition, as shown in FIGS. 2A and 2B, the silicon dioxide 5 may exhibit various colors according to the doping thickness.

Meanwhile, as shown in FIG. 1, the front electrode 7 and the back electrode 9 are respectively evaporated, sputtered, printed screen, CVD, etc. on the surfaces of the silicon dioxide 5 and the P-type semiconductor. The front electrode 7 and the rear electrode 9 may be attached in various ways, preferably made of gold, silver, aluminum, copper, platinum, or a metal or alloy of that kind.

In addition, the front electrode 7 must be heat treated to allow the conductive material contained in the front electrode 7 to penetrate the silicon dioxide 5 and then face the surface of the N-type semiconductor.

Meanwhile, as shown in FIG. 3, the front tempered glass 13 and the rear tempered glass 15 may be mounted at the front and the rear of the EVA 11a and 11b or the PVB 11a and 11b.

In this case, the front tempered glass 13 may not only increase the transmittance of solar light by minimizing iron content, but may also emboss one side of the front tempered glass 13 facing the solar cell 1 in some cases. have.

In addition, the front tempered glass 13 should be of sufficient strength to withstand the external impact so that the external shock transmitted through the front tempered glass 13 does not fall on the solar cell 1, and does not break into large pieces when broken. As safety glass, the number of broken debris per unit area must be at least a certain value.

In addition, the rear tempered glass 15 should also have a sufficient strength to withstand external impacts in the same way as the front tempered glass 13, and the number of broken fragments per unit area should be more than a predetermined value.

In addition, the back sheet of the EVA 11b or PVB 11b may be equipped with a back sheet 17 instead of the rear tempered glass 15, as shown in FIG. (17) is moisture-proof so that the solar cell 1 is not exposed to moisture, and is insulated so as not to cause electrical defects in contact with the front electrode 7, the rear electrode 9, or the electric wire provided in the solar cell 1. It is preferably made of a material equipped with.

Shaped solar cell module using a color solar cell according to the present invention having such a structure is shown in Figures 5a and 5c by combining the respective solar cells 1 having different colors according to the thickness of the silicon dioxide (5) As shown, specific patterns can be created.

Therefore, the shaped solar cell module using the color solar cell according to the present invention can avoid the monotony of the existing solar cell module 3, and display the promotional material on the surface of the solar cell module 3 exposed to the outside. By doing so, it is possible to obtain a publicity effect.

The present invention described above is not limited to the above-described embodiments and drawings because various substitutions, modifications, and changes can be made by those skilled in the art without departing from the technical spirit of the present invention.

1. solar cell 3. solar module
5. Silicon dioxide 7. Front electrode
9. Rear electrodes 11a-11b. EVA, PVB
13. Front tempered glass 15. Rear tempered glass
17. Back sheet

Claims (3)

delete delete Silicon dioxide 5 which is passivated on the front surface of the solar cell 1 which generates photovoltaic power by sunlight;
A front electrode 7 which penetrates the silicon dioxide 5 and is then bonded to an N-type semiconductor provided in the solar cell 1 to which a load or another solar cell 1 is connected;
A back electrode (9) bonded to the P-type semiconductor provided in the solar cell (1) to which a load or another solar cell (1) is connected;
It is made of EVA (Ethylene Vinyl Acetate) or PVB (Poly Vinyl Butyral) (11a, 11b) surrounding the combination of the solar cell (1) and silicon dioxide (5) front electrode (7) and rear electrode (9) ,
The thickness of the silicon dioxide 5 passivated to the solar cell 1 is

To

Consist of,
By combining the solar cells 1 having different colors according to the thickness of the passivated silicon dioxide (5), the color appearing to the outside to achieve a specific shape,
The front tempered glass 13 is mounted on the front surface of the EVA or PVB 11a,
The back sheet 17 (Back Sheet) is installed on the back of the EVA or PVB (11b),
Heat treatment is performed on the front electrode 7 so that the conductive material contained in the front electrode 7 penetrates the silicon dioxide 5 and then faces the surface of the N-type semiconductor.
The back sheet 17 is moisture-proof so that the solar cell 1 is not exposed to moisture, and the back sheet 17 is in contact with the front electrode 7, the rear electrode 9, or the electric wire provided in the solar cell 1 to generate electrical defects. Shaped solar cell module using a color solar cell, characterized in that made of a material with insulation so as not to.

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