CN202120954U

CN202120954U - Crystalline silica solar cell module

Info

Publication number: CN202120954U
Application number: CN2011202260698U
Authority: CN
Inventors: 侍明
Original assignee: Changzhou Trina Solar Energy Co Ltd
Current assignee: Yancheng Trina Solar Technology Co., Ltd.
Priority date: 2011-06-30
Filing date: 2011-06-30
Publication date: 2012-01-18
Anticipated expiration: 2021-06-30

Abstract

Disclosed is a crystalline silica solar cell module, comprising an upper glass and a backboard, with spaced photovoltaic cell sheets arranged between the upper glass and the backboard, wherein the periphery of the photovoltaic cell sheets are coated by a packaging membrane; and one or two isolation pads are arranged between two adjacent photovoltaic cell sheets. By arranging isolation pads between the photovoltaic cell sheets inside the module, the positioning of the cell sheets can be ensured. The cell sheet displacement caused by thermal contraction of the packaging material or external pressure on the module can be avoided. Moreover, no segment pressurization is required in module lamination when the isolation pad is adopted, thereby shortening the lamination processing time and being helpful in improving the quality of the whole module.

Description

Crystalline silicon solar cell modules

Technical field

The utility model relates to technical field of solar batteries, especially a kind of crystalline silicon solar cell modules.

Background technology

In the crystalline silicon solar cell modules production process, owing to be heated after-contraction or outside pressure to assembly of encapsulating material causes that the situation of battery sheet displacement is of common occurrence, existing technology is to adopt adhesive tape that the battery sheet is pasted; To prevent that the battery sheet is subjected to displacement in lamination process; But adhesive tape self contains the binding agent composition, when pasting, has air and is not easy to discharge, and the position of Continuous pressing device for stereo-pattern is easy to generate bad phenomenon such as bulge and bubble behind long-term aging test; Be subjected to displacement for fear of the battery sheet in the existing laminating technology simultaneously; Usually need the adjusting process parameter, adopt segmentation pressing mode gradually, prolonged the lamination operating time; Be unfavorable for increasing work efficiency, moreover still be difficult to avoid fully the generation of battery sheet displacement.

The utility model content

The technical problem that the utility model will solve is: overcome the deficiency in the prior art, provide a kind of battery sheet that can effectively prevent when the encapsulation lamination, to produce the crystalline silicon solar cell modules of displacement.

The utility model solves the technical scheme that its technical problem adopted: a kind of crystalline silicon solar cell modules; Comprise upper strata glass and backboard; Be provided with spaced photovoltaic cell sheet between upper strata glass and the backboard; Photovoltaic cell sheet periphery is coated with encapsulating film, is provided with one or two isolation pad between adjacent two photovoltaic cell sheets.

Different for adapting to encapsulating material thickness, the height of described isolation pad is 1～3cm.

The beneficial effect of the utility model is: the utility model is through being provided with isolation pad between the photovoltaic cell sheet of component internal; Thereby the battery sheet is carried out good location; Prevented to receive the bad phenomenon of thermal contraction or the outside battery sheet displacement that the pressure of assembly is caused because of encapsulating material; Need not the segmentation pressurization when adopting behind the isolation pad component lamination simultaneously, shortened the laminating technology time, help improving the assembly total quality.

Description of drawings

Below in conjunction with accompanying drawing and execution mode the utility model is further specified.

Fig. 1 is the cross section structure sketch map of the utility model.

1. upper strata glass, 2. backboards, 3. photovoltaic cell sheets, 4. encapsulating films, 5. isolation pads among the figure

Embodiment

Combine accompanying drawing that the utility model is further described now.The sketch map that these accompanying drawings are simplification is only explained the basic structure of the utility model in a schematic way, so it only shows the formation relevant with the utility model.

A kind of crystalline silicon solar cell modules as shown in Figure 1; Comprise upper strata glass 1 and backboard 2; Be provided with spaced photovoltaic cell sheet 3 between upper strata glass 1 and the backboard 2; Photovoltaic cell sheet 3 peripheries are coated with encapsulating film 4, are provided with one or two isolation pad 5 between adjacent two photovoltaic cell sheets 3, and this isolation pad 5 can play good positioning action to photovoltaic cell sheet 3; Prevent to shrink or the outside photovoltaic cell sheet 3 that the pressure of assembly is caused produces the bad phenomenon of displacements, improve the dependability and the rate of finished products of assembly owing to encapsulating film 4.

Different for adapting to encapsulating film 4 thickness, the height of described isolation pad 5 can suitably be adjusted according to the thickness of encapsulating film 4, and the height of general used isolation pad 5 is between 1～3cm, and width then can be adjusted by the spacing between the photovoltaic cell sheet 3.

Isolation pad 5 can be selected the water white transparency or the colored material that can be applied in the assembly and possess good weatherability properties, ultraviolet aging resistance performance for use by actual conditions.

The brief introduction of assembly lamination process is following: glass 1 is laid one deck encapsulating film 4 on the upper strata; Be placed in the photovoltaic cell sheet 3 that connects on request on the encapsulating film 4; Place isolation pad 5 between the photovoltaic cell sheet 3, placement location can suitably be adjusted by size of components, and other one deck of encapsulating film 4 is placed on the photovoltaic cell sheet 3; Cover backboard 2 at last, accomplish lamination process.Owing between photovoltaic cell sheet 3, be provided with isolation pad 5; Can effectively prevent to receive the bad phenomenon of thermal contraction or the outside battery sheet displacement that the pressure of assembly is caused because of encapsulating material; When the good assembly of lamination is carried out lamination; Need not segmentation pressurization, can shorten laminating technology process time, improve rate of finished products.

Above-mentioned execution mode is only for explaining the technical conceive and the characteristics of the utility model; Its purpose is to let the personage that is familiar with this technology can understand the content of the utility model and implements; Can not limit the protection range of the utility model with this; All equivalences of being done according to the utility model spirit change or modify, and all should be encompassed in the protection range of the utility model.

Claims

1. crystalline silicon solar cell modules; Comprise upper strata glass (1) and backboard (2); It is characterized in that: be provided with spaced photovoltaic cell sheet (3) between upper strata glass (1) and the backboard (2); Photovoltaic cell sheet (3) periphery is coated with encapsulating film (4), is provided with one or two isolation pad (5) between adjacent two photovoltaic cell sheets (3).

2. crystalline silicon solar cell modules according to claim 1 is characterized in that: the height of described isolation pad (5) is 1～3cm.