CN201508844U - Glass curtain wall type solar battery assembly - Google Patents

Abstract

The utility model relates to a battery assembly, in particular to a glass curtain wall type solar battery assembly which is formed by heating, laminating and encapsulating a surface layer, a polyvinyl butyral layer, a solar battery layer, a polyvinyl butyral layer and a substrate layer, wherein the surface layer and the substrate layer are both made of glass and are staggered from left to right to be set in an extended manner, the inner sides of the extended edges of the surface layer and the substrate layer are pasted with low-iron tampered glass strips, thereby forming concave-convex snap-in structures enabling a plurality of assemblies to be matched on the extended edges of the surface layer and the substrate layer. The glass curtain wall type solar battery assembly overcomes the weaknesses in the prior art, and can produce a solar photovoltaic glass curtain wall which is easier to be combined with a building.

Description

A kind of glass curtain wall formula solar module

Technical field

The utility model relates to a kind of battery component, relates in particular to a kind of solar module of glass curtain wall formula.

Background technology

Because the encapsulating structure of knowing altogether at present that solar module adopted has two kinds: epoxy encapsulation and watch crystal encapsulation.The solar cell of epoxy encapsulation generally is that bottom is the substrate of insulation, and a middle layer solar cell is the epoxy resin that one deck solidifies above, and the advantage of this class component is that weight is clear, and cost is low.Shortcoming is to use the life-span weak point, can only uses in low power product.The assembly of watch crystal encapsulation is normally: low iron toughened glass, and------solar cell---EVA---TPT film (the compound fluoroplastics film of the weatherability) laminate packaging that connects of connection in series-parallel forms EVA (ethylene-vinyl acetate copolymer) mutually.Above-mentioned solar components has long service life, is fit to advantages such as high-power encapsulation.Because solar battery technology combines with building materials are integrated more and more at present, such material promptly can be regarded construction material, the purposes that has photovoltaic generation again, can remove the double-deck production cost of the two, reduce product resulting cost cost greatly, for the application of solar-photovoltaic technology provides a new approach.And two kinds of above-mentioned method for packing are unfavorable for installing and fixing of assembly, the daylighting of building itself and whole coordination aesthetic property.How to produce a kind of building material that integrates generating, sound insulation, heat insulation, safety, decoration functions, demonstrate fully the intellectuality and the hommization of building, just inventor's problem that will solve.

Summary of the invention

The utility model the utility model has been broken existing solar components packaged type, has produced and the easier solar energy photovoltaic glass curtain wall that combines of building.Its concrete technical scheme is: a kind of glass curtain wall formula solar module, form by the heat lamination encapsulation of top layer, polyvinyl butyral resin layer, solar cell layer, polyvinyl butyral resin layer, basic unit, described top layer and basic unit are glass, stagger about described top layer and basic unit and exceed setting, form the concave-convex clutch structure that can a plurality of assemblies cooperates at the excess edge of described top layer and basic unit thereby the excess edge inboard of described top layer and basic unit all is pasted with low iron toughened glass bar.

As preferably, described top layer is low iron toughened glass, and described basic unit is the LOW-E double glazing.

As preferably, described solar cell layer is in series by the solar cell silicon wafer.

Described top layer and basic unit all are special safety glass, this programme glass curtain wall is except that this major function of generating, also have functions such as tangible heat-insulating and energy-saving, sound insulation, safety, decoration, particularly solar cell power generation can not discharge carbon dioxide or produce the gas harmful to greenhouse effect, also noiselessness, be a kind of net energy source, good compatibility arranged with environment.Simultaneously because solar cell is divided into monocrystalline silicon battery, polycrystal silicon cell, amorphous silicon battery according to its characteristic, its physical property difference, appearance, color etc. all have very big-difference, the color that the designer likes can also be set off in its photoelectric template back side, adapting to different architectural styles, thereby provide a kind of new aesthstic decorative effect for modern architecture.

The utility model the utility model has solved the deficiency of existing product, has produced and the easier glass curtain wall formula solar module that combines of building.

Description of drawings

Fig. 1 is the utility model structural representation (analysing and observe);

Fig. 2 is the utility model structural representation (overlooking);

Fig. 3 is two assembly fit structure schematic diagrames;

Fig. 4 is the A place partial enlarged drawing of Fig. 3.

Embodiment

Embodiment 1

Below in conjunction with accompanying drawing the utility model embodiment 1 is described in further detail:

As Fig. 1, a kind of glass curtain wall formula solar module shown in Figure 2, by hanging down the top layer 1 that iron toughened glass constitutes, play the polyvinyl butyral resin layer of cushioning effect, by the solar cell silicon wafer solar cell layer 2 that is in series, the same polyvinyl butyral resin layer that plays cushioning effect, the LOW-E double glazing constitutes basic unit 3, arrange in order from top to bottom for 5 layers altogether, the lamination of heating encapsulation forms, staggering with basic unit about 3 and exceed setting in described top layer 1, forms the concave-convex clutch structure that can a plurality of assemblies cooperates thereby the excess edge inboard of described top layer 1 and basic unit 3 all is pasted with low iron toughened glass bar 4 excess edges in described top layer and basic unit.

Concrete production stage is: the solar cell silicon wafer that will encapsulate is connected in series in a row, and is folded mutually according to following order from top to bottom: top layer 1 (low iron toughened glass), PVB layer (polyvinyl butyral resin), solar cell layer 2, PVB layer (polyvinyl butyral resin), basic unit 3 (LOW-E double glazing); The glass putting position of top layer and basic unit staggers 30 centimetres mutually.Lamination 15 minutes, laminating temperature are 140 ℃.Is 15 centimetres low iron toughened glass in the glass edge of top layer and basic unit along pasting with width length, so just forms a groove, is convenient to fixing between two cell panels.As shown in Figure 3, Figure 4, two assembly concave-convex clutch structures have been provided.

Claims (3)

1. glass curtain wall formula solar module, it is characterized in that, form by the heat lamination encapsulation of top layer (1), polyvinyl butyral resin layer, solar cell layer (2), polyvinyl butyral resin layer, basic unit (3), described top layer (1) and basic unit (3) are glass, stagger about described top layer (1) and basic unit (3) and exceed setting, the excess edge inboard of described top layer (1) and basic unit (3) all be pasted with low iron toughened glass bar (4) thus the excess edge of described top layer (1) and basic unit (3) form can a plurality of assemblies cooperations the concave-convex clutch structure.

2. a kind of glass curtain wall formula solar module according to claim 1 is characterized in that, described top layer (1) is low iron toughened glass, and described basic unit (3) is the LOW-E double glazing.

3. a kind of glass curtain wall formula solar module according to claim 1 is characterized in that described solar cell layer (2) is in series by the solar cell silicon wafer.

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