CN202034391U - Large-scale amorphous silicon solar battery component - Google Patents

Abstract

The utility model provides a large-scale amorphous silicon solar battery component. An EVA (Ethylene Vinyl Acetate) adhesive film is attached on a piece of back plate glass, and more than two amorphous silicon thin-film cell core plates are attached to the EVA adhesive film; and the amorphous silicon thin-film cell core plates are mutually connected in series or in parallel and then connected with a power supply input end in a junction box. According to the utility model, when the solar battery component requires a lower working voltage and a higher working current, the amorphous silicon thin-film cell core plates are connected in parallel; when the solar battery component requires a higher working voltage and a lower working current, the amorphous silicon thin-film cell core plates are connected in series; and the working current and voltage of the solar battery component can be changed as required, so as to greatly expand the application range of the solar battery component.

Description

A kind of large-scale amorphous silicon solar cell module

Technical field

The utility model relates to a kind of solar cell, a kind of large-scale non-crystal silicon solar cell of saying so more specifically.

Background technology

The basic structure of existing non-crystal silicon solar cell is: be pasted with the EVA glued membrane on the back-panel glass, be pasted with an amorphous silicon membrane battery core board on the EVA glued membrane, the power input in an amorphous silicon membrane battery core board and the terminal box joins.Because existing this non-crystal silicon solar cell only has an amorphous silicon membrane battery core board, so its operating current and operating voltage are limited to.In the actual use of solar cell, often have two kinds of demands and occur, a kind of demand is: the operating voltage requirement is lower, operating current is had relatively high expectations; Another kind of demand is: operating voltage is had relatively high expectations, the operating current requirement is lower, and existing above-mentioned non-crystal silicon solar cell then can't satisfy the demands.

The utility model content

The utility model provides a kind of large-scale non-crystal silicon thin-film solar cell component, and this battery component operating voltage and operating current can obtain increasing as required.

For achieving the above object, the utility model adopts following scheme: a kind of large-scale amorphous silicon solar cell module, be pasted with the EVA glued membrane on the back-panel glass, be pasted with the amorphous silicon membrane battery core board on the EVA glued membrane, at the amorphous silicon membrane battery core board that is pasted with on the EVA glued membrane more than two, the power input in each an amorphous silicon membrane battery core board back in series or in parallel with each other and the terminal box joins.

By such scheme as seen, the operating voltage of the battery component that the utility model provides is lower, operating current is bigger, then with each amorphous silicon membrane battery core board parallel connection if require; Its operating voltage is higher, operating current is less if require, then with each amorphous silicon membrane battery core board series connection.

The utility model is rational in infrastructure, reliable, and its operating current and voltage can change according to the use needs, and then make its scope of application enlarge greatly.

Description of drawings

The structural representation of Fig. 1 the utility model embodiment one;

The structural representation of Fig. 2 the utility model embodiment two.

Embodiment

Further specify the utility model below in conjunction with embodiment and accompanying drawing.

Referring to Fig. 1

In the present embodiment, be pasted with EVA glued membrane 2 on the back-panel glass 4, be pasted with two amorphous silicon membrane battery core boards 1 on the EVA glued membrane 2, by being connected with negative pole with anodal, negative pole by the positive pole of aluminium nickel strap 5 with two amorphous silicon membrane battery core boards 1, make two amorphous silicon membrane battery core board 1 parallel connections, the power input in each amorphous silicon membrane battery core board 1 back parallel with one another and the terminal box 3 joins.

Referring to Fig. 2

In the present embodiment, be pasted with EVA glued membrane 2 on the back-panel glass 4, be pasted with two amorphous silicon membrane battery core boards 1 on the EVA glued membrane 2, by being connected with negative pole by the positive pole of aluminium nickel strap 6 with two amorphous silicon membrane battery core boards 1, make 1 series connection of two amorphous silicon membrane battery core boards, the power input in each amorphous silicon membrane battery core board 1 a mutual series connection back and the terminal box 3 joins.

In the foregoing description one, two, it is same as the prior art to attach the structure, the mode that attach the amorphous silicon membrane battery core board on EVA glued membrane, the EVA glued membrane on the back-panel glass.

Claims (3)

1. large-scale amorphous silicon solar cell module, be pasted with the EVA glued membrane on the back-panel glass, be pasted with the amorphous silicon membrane battery core board on the EVA glued membrane, it is characterized in that: at the amorphous silicon membrane battery core board that is pasted with on the EVA glued membrane more than two, the power input in each an amorphous silicon membrane battery core board back in series or in parallel with each other and the terminal box joins.

2. large-scale amorphous silicon solar cell module according to claim 1 is characterized in that: the power input in each an amorphous silicon membrane battery core board back parallel with one another and the terminal box joins.

3. large-scale amorphous silicon solar cell module according to claim 1 is characterized in that: each amorphous silicon membrane battery core board is connected afterwards mutually and the power input in the terminal box joins.

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