CN208706666U - The structure of BIPV component - Google Patents

Abstract

The utility model relates to a kind of structures of BIPV component, solar cell module including silicon wafer substrate, back-panel glass and glass curtain wall substrate, the solar cell module of the silicon wafer substrate includes the solar subcells of multiple silicon wafer substrates, the solar cell module of the silicon wafer substrate is packaged glue and is encapsulated between back-panel glass and glass curtain wall substrate, the one side of glass curtain wall substrate is leaned on to be provided with the film of patterned pattern in the solar cell module of the silicon wafer substrate, the film is also encapsulated in packaging plastic, the film is made of opaque material, hollow out pattern is provided on the film, projected area of the hollow out pattern in the solar subcells of each silicon wafer substrate is identical.The utility model design is more flexible, and appearance has more aesthetic feeling.

Description

The structure of BIPV component

Technical field

The utility model belongs to solar battery technology application field, in particular to a kind of structure of BIPV component.

Background technique

Building integrated photovoltaic (BIPV) technology is used widely in the recent period.In existing building integrated photovoltaic (BIPV) In application technology, hull cell is made into translucent component by some, and is encapsulated among glass curtain wall, both can satisfy room in this way The demand of interior daylighting also provides electric power simultaneously for building.Also opaque solar battery sheet is packaged into component, apply In the alien invasion of building.Although this way compares translucent component, photoelectric conversion efficiency is higher, has very from aesthetical point Big limitation.If in order to increase light transmittance, it is necessary to increase the hole between battery, the efficiency of battery component can be reduced again in this way.

Utility model content

Technical problem to be solved by the utility model is to provide a kind of structures of BIPV component, and design is more flexible, outside It sees and has more aesthetic feeling.

The utility model is realized in this way providing a kind of structure of BIPV component, the solar-electricity including silicon wafer substrate Pond component, back-panel glass and glass curtain wall substrate, the solar cell module of the silicon wafer substrate include multiple silicon wafer substrates Solar subcells, the solar cell module of the silicon wafer substrate are packaged glue and are encapsulated in back-panel glass and glass curtain wall substrate Between, lean on the one side of glass curtain wall substrate to be provided with the glue of patterned pattern in the solar cell module of the silicon wafer substrate Piece, the film are also encapsulated in packaging plastic, and the film is made of opaque material, are provided with and are engraved on the film Empty graph sample, projected area of the hollow out pattern in the solar subcells of each silicon wafer substrate are identical.

Further, the solar cell module of the silicon wafer substrate be monocrystaline silicon solar cell component or polysilicon too Positive energy battery component.

The utility model is realized in this way a kind of structure of BIPV component is provided, including Thinfilm solar cell assembly, Glass or flexible substrates, back-panel glass and glass curtain wall substrate, the Thinfilm solar cell assembly include multiple film sun Energon battery, the Thinfilm solar cell assembly are mounted on the surface of glass or flexible substrates, and the film after attachment is too Positive energy battery component and glass or flexible substrates are packaged glue and are encapsulated between back-panel glass and glass curtain wall substrate, the glass Or flexible substrates are located at close to glass curtain wall substrate-side, set in the glass or flexible substrates by the one side of glass curtain wall substrate It is equipped with the film of patterned pattern, the film is also encapsulated in packaging plastic, and the film is made of opaque material, Hollow out pattern is provided on the film, projected area of the hollow out pattern on the sub- battery of each thin film solar is identical.

Further, the Thinfilm solar cell assembly is thin film silicon solar cell component, copper indium gallium selenium solar Battery component, cadmium telluride solar cell module, perovskite solar cell module, organic solar batteries component, dyestuff are quick Change any one in solar cell module and quantum dot solar cell component.

Further, the film is polyethylene, polypropylene, polyvinyl chloride, phenylethylene resin series, phenolic resin, amino Resin, epoxy resin, any one material in polyurethane are made.

Compared with prior art, the structure of the BIPV component of the utility model, can be whole by various types of photovoltaic modulies Conjunction is applied on BIPV product, and design is more flexible, and appearance has more aesthetic feeling.

Detailed description of the invention

Fig. 1 is the preferred embodiment of the BIPV component of the solar cell module containing silicon wafer substrate of the utility model Cross section structure schematic diagram；

Fig. 2 is the section knot of the preferred embodiment of the BIPV component containing Thinfilm solar cell assembly of the utility model Structure schematic diagram.

Specific embodiment

In order to which technical problem to be solved in the utility model, technical solution and beneficial effect is more clearly understood, with Lower combination accompanying drawings and embodiments, the present invention will be further described in detail.It should be appreciated that specific reality described herein It applies example to be only used to explain the utility model, is not used to limit the utility model.

Embodiment 1

It please refers to shown in Fig. 1, the first embodiment of the structure of the utility model BIPV component, too including silicon wafer substrate Positive energy battery component 1, back-panel glass 2 and glass curtain wall substrate 3.

The solar cell module 1 of the silicon wafer substrate includes the solar subcells of multiple silicon wafer substrates.The silicon wafer The solar cell module 1 of substrate is packaged glue 5 and is encapsulated between back-panel glass 2 and glass curtain wall substrate 3.In the silicon wafer base The solar cell module 1 at bottom is provided with the film 4 of patterned pattern by the one side of glass curtain wall substrate 3.The film 4 It is encapsulated in packaging plastic 5.The film 4 is made of opaque material.Hollow out pattern is provided on the film 4.Institute It is identical to state projected area of the hollow out pattern in the solar subcells of each silicon wafer substrate.

The solar cell module 1 of the silicon wafer substrate is monocrystaline silicon solar cell component or polysilicon solar cell Component.

The film 4 is polyethylene, polypropylene, polyvinyl chloride, phenylethylene resin series, phenolic resin, amino resins, epoxy Any one material in resin, polyurethane is made.

Embodiment 2

Shown in referring to figure 2., second of embodiment of the structure of the utility model BIPV component, including thin film solar electricity Pond component 1', glass or flexible substrates 2', back-panel glass 3' and glass curtain wall substrate 4'.The Thinfilm solar cell assembly 1' Including the sub- battery of multiple thin film solars.The Thinfilm solar cell assembly 1' is mounted on the table of glass or flexible substrates 2' Face, the Thinfilm solar cell assembly 1' and glass or flexible substrates 2' after attachment are packaged glue 6' and are encapsulated in back-panel glass Between 3' and glass curtain wall substrate 4'.The glass or flexible substrates 2' are located at close to the side glass curtain wall substrate 4'.In the glass Glass or flexible substrates 2' are provided with the film 5' of patterned pattern by the one side of glass curtain wall substrate 4'.The film 5' also by It is encapsulated in packaging plastic 6'.The film 5' is made of opaque material.Hollow out pattern is provided on the film 5'.Institute It is identical to state projected area of the hollow out pattern on the sub- battery of each thin film solar.

The Thinfilm solar cell assembly 1' is thin film silicon solar cell component, copper indium gallium selenium solar cell group Part, cadmium telluride solar cell module, perovskite solar cell module, organic solar batteries component, the dye sensitization sun It can any one in battery component and quantum dot solar cell component.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (4)

1. a kind of structure of BIPV component, solar cell module, back-panel glass and glass curtain wall substrate including silicon wafer substrate, The solar cell module of the silicon wafer substrate includes the solar subcells of multiple silicon wafer substrates, which is characterized in that the silicon The solar cell module of piece substrate is packaged glue and is encapsulated between back-panel glass and glass curtain wall substrate, in the silicon wafer substrate Solar cell module the one side of glass curtain wall substrate is provided with the film of patterned pattern, the film is also packaged In packaging plastic, the film is made of opaque material, and hollow out pattern, the hollow out pattern are provided on the film Projected area in the solar subcells of each silicon wafer substrate is identical.

2. the structure of BIPV component as described in claim 1, which is characterized in that the solar cell module of the silicon wafer substrate For monocrystaline silicon solar cell component or polycrystalline solar module.

3. a kind of structure of BIPV component, including Thinfilm solar cell assembly, glass or flexible substrates, back-panel glass and glass Curtain wall substrate, the Thinfilm solar cell assembly include the sub- battery of multiple thin film solars, which is characterized in that the film is too It is positive can battery component be mounted on the surfaces of glass or flexible substrates, the Thinfilm solar cell assembly and glass after attachment or Flexible substrates are packaged glue and are encapsulated between back-panel glass and glass curtain wall substrate, and the glass or flexible substrates are located at close to glass Glass curtain wall substrate-side is provided with the glue of patterned pattern in the glass or flexible substrates by the one side of glass curtain wall substrate Piece, the film are also encapsulated in packaging plastic, and the film is made of opaque material, are provided with and are engraved on the film Empty graph sample, projected area of the hollow out pattern on the sub- battery of each thin film solar are identical.

4. the structure of BIPV component as claimed in claim 3, which is characterized in that the Thinfilm solar cell assembly is film Silicon solar battery assembly, copper indium gallium selenium solar cell component, cadmium telluride solar cell module, perovskite solar battery Appointing in component, organic solar batteries component, dye-sensitized solar battery assembly and quantum dot solar cell component It anticipates one kind.