CN207320131U - Lamination solar cell module - Google Patents

Abstract

The utility model discloses a kind of lamination solar cell module, include multi-disc cell piece, every cell piece is stacked by multi-disc section cell piece is composed in series respectively, in multi-disc cell piece, if dry plate cell piece is stacked several battery strings for being composed in series simultaneously column distribution, the positive and negative anodes of several battery strings are fixedly welded with welding respectively, interior reflective membrane is respectively arranged between adjacent two battery strings, outer reflective membrane is respectively arranged with the outside of two battery strings on the outermost side, the surrounding for the rectangular area that welding and outer reflective membrane surround is fixed with outer rim.The utility model it is rational in infrastructure, add reflective form membrane for stacked wafer moudle, the overall output power of solar cell module effectively improved, so as to improve the overall transformation efficiency of solar cell module.

Description

Lamination solar cell module

Technical field

Area of solar cell is the utility model is related to, is specifically a kind of lamination solar cell module.

Background technology

At present, photovoltaic module carries out welding series connection using welding, and the assembly surface which is connected into is due to battery main grid And battery spacing can cause non-effective power generation space, the power of Equivalent components area is relatively low, and generating efficiency also can be significantly therewith Reduce.

Utility model content

The purpose of this utility model is to provide a kind of lamination solar cell module, its primary structure adds instead for stacked wafer moudle Light form membrane, to lift the overall output power of solar cell module, so as to turn to improve the entirety of solar cell module Change efficiency.

The technical solution of the utility model is as follows：

A kind of lamination solar cell module, it is characterised in that：Include multi-disc cell piece, every cell piece is respectively by more Piece section cell piece, which is stacked, to be composed in series, in the multi-disc cell piece, if dry plate cell piece, which is stacked, is composed in series simultaneously column distribution Several battery strings, the positive and negative anodes of several battery strings are fixedly welded with welding respectively, between adjacent two battery strings Be respectively arranged with interior reflective membrane, be respectively arranged with outer reflective membrane on the outside of two battery strings on the outermost side, the welding and The surrounding for the rectangular area that outer reflective membrane surrounds is fixed with outer rim.

The lamination solar cell module, it is characterised in that：The length of multi-disc section cell piece is respectively 156.75mm width is respectively 31.35mm.

The lamination solar cell module, it is characterised in that：The width of the interior reflective membrane is respectively 4mm.

The lamination solar cell module, it is characterised in that：The width of the outer reflective membrane is respectively 9.5mm.

The lamination solar cell module, it is characterised in that：The outer rim uses aluminum alloy frame.

The beneficial effects of the utility model：

The utility model it is rational in infrastructure, add reflective form membrane for stacked wafer moudle, effectively improve solar cell module Overall output power, so as to improve the overall transformation efficiency of solar cell module.

Brief description of the drawings

Fig. 1 is the utility model structure diagram.

Embodiment

Referring to Fig. 1, a kind of lamination solar cell module, includes multi-disc cell piece 1, every cell piece is respectively by multi-disc Section cell piece is stacked and is composed in series, in multi-disc cell piece 1, if dry plate cell piece be stacked be composed in series and column distribution several Battery strings 2, the positive and negative anodes of several battery strings 2 are fixedly welded with welding 3, are respectively arranged between adjacent two battery strings respectively Interior reflective membrane 5, is respectively arranged with outer reflective membrane 4 on the outside of two battery strings on the outermost side, welding 3 and outer reflective membrane 4 enclose Into the surrounding of rectangular area be fixed with outer rim 6.

In the utility model, the length of multi-disc section cell piece is respectively 156.75mm, and width is respectively 31.35mm.

The width of interior reflective membrane 5 is respectively 4mm.

The width of outer reflective membrane 4 is respectively 9.5mm.

Outer rim 6 uses aluminum alloy frame.

Claims (5)

1. A kind of 1. lamination solar cell module, it is characterised in that：Include multi-disc cell piece, every cell piece is respectively by multi-disc Section cell piece is stacked and is composed in series, in the multi-disc cell piece, if dry plate cell piece is stacked and is composed in series and column distribution Several battery strings, the positive and negative anodes of several battery strings are fixedly welded with welding, divide between adjacent two battery strings respectively Interior reflective membrane is not provided with, is respectively arranged with outer reflective membrane on the outside of two battery strings on the outermost side, the welding and outer The surrounding for the rectangular area that reflective membrane surrounds is fixed with outer rim.
2. 2. lamination solar cell module according to claim 1, it is characterised in that：The length of the multi-disc section cell piece Degree is respectively 156.75mm, and width is respectively 31.35mm.
3. 3. lamination solar cell module according to claim 1, it is characterised in that：The width difference of the interior reflective membrane For 4mm.
4. 4. lamination solar cell module according to claim 1, it is characterised in that：The width difference of the outer reflective membrane For 9.5mm.
5. 5. lamination solar cell module according to claim 1, it is characterised in that：The outer rim uses aluminium alloy Frame.