CN202332893U - Thin film BIPV (Building Integrated Photovoltaic) assembly - Google Patents

Abstract

The utility model belongs to the field of solar photovoltaic technology, and discloses a thin film BIPV (Building Integrated Photovoltaic) assembly, which comprises an antireflection super white tempered glass layer and a tempered glass layer, wherein two layers of sealing adhesive films are arranged between the antireflection super white tempered glass layer and the tempered glass layer, and a thin film solar cell is sandwiched between the two layers of sealing adhesive films. Compared with the traditional thin film BIPV assembly, similar to dry laminated glass, the thin film BIPV assembly has higher strength, and can meet the requirements of a building glass curtain wall. In addition, the surface of the assembly has antireflection and self-cleaning effects, and the maintenance and the cleaning of the assembly can be reduced.

Description

A kind of film photovoltaic architecture-integral assembly

Technical field

The utility model belongs to the solar-photovoltaic technology field, relates to a kind of film photovoltaic architecture-integral assembly.

Background technology

In numerous energy, solar energy power generating is tool technology content and the mode of development prospect in the new and renewable sources of energy.And the device that under solar light irradiation, luminous energy is converted into electric energy that common solar module is made up of photovoltaic glass, crystal silicon cell chip arrays, glued membrane, backboard, aluminium frame, terminal box etc.Begin BIPV (BIPV) technology that photovoltaic generating system and building organically blend to one to be applied recent years; Compare with traditional solar components occupation mode; BIPV has numerous advantages: for example BIPV makes the part of building materials become the part of wanting appearance ability assembly, has saved the cost of solar components; Can also effectively utilize sunlit space, save land resource; Institute's electricity at first uses for this building, can use in generating original place, original place, can save the investment of power station pushing electric network and reduce transmission losses.But the performance to solar components in BIPV has higher requirement, and especially impact strength will reach the requirement of glass curtain wall.The BIPV assembly is divided into two types of crystal silicon assembly and film assemblies.

The overall structure of at present traditional film photovoltaic architecture-integral assembly is following: topmost one deck is the ultra-white photovoltaic glass of printing opacity, and the centre is a thin-film solar cells, and the bottom is a toughened glass, with the EVA bonding, is laminated into an integral body between each layer.The film photovoltaic architecture-integral assembly of this structure is comparatively thin; Though can be through the detection of IEC61215; But be difficult to reach the requirement of building glass curtain wall, and the EVA ageing resistace is relatively poor, assembly surface needs often to clean to guarantee light transmittance and generated output in addition.

The utility model content

The purpose of the utility model is to provide a kind of high-intensity film photovoltaic architecture-integral assembly, and this assembly surface has antireflective and self-cleaning effect, can reduce the clean and maintenance to assembly.

The utility model is to realize like this; A kind of film photovoltaic architecture-integral assembly; Comprise antireflective ultrawhite toughened glass layer and toughened glass layer; Between said antireflective ultrawhite toughened glass layer and toughened glass layer is two-layer sealed Cellophane, between said two-layer sealed Cellophane, accompanies thin-film solar cells.

Said antireflective ultrawhite toughened glass layer is that thickness is ultrawhite float glass process toughened glass or the ultrawhite calendering toughened glass that 4-8mm, surface are coated with antireflective coating.

The thickness of said toughened glass layer is 4-8mm.

Said sealed Cellophane is PVB.

Said thin-film solar cells is an end liner with 3.2mmTCO glass.

The utility model is compared with existing film photovoltaic architecture-integral assembly, is similar to the dry method doubling glass, has higher intensity, can satisfy the requirement of building glass curtain wall; In addition, assembly surface has antireflective and self-cleaning effect, can reduce the clean and maintenance to assembly.

Description of drawings

Fig. 1 is the structural representation of the film photovoltaic architecture-integral assembly that provides of the utility model embodiment.

Embodiment

For the purpose, technical scheme and the advantage that make the utility model is clearer,, the utility model is further elaborated below in conjunction with accompanying drawing.

Referring to Fig. 1; A kind of film photovoltaic architecture-integral assembly; Comprise the antireflective ultrawhite float glass process toughened glass layer 1 that is positioned at top layer, the toughened glass layer 4 that is positioned at bottom; The intermediate layer is two-layer sealed Cellophane 2 between said antireflective ultrawhite toughened glass layer 1 and toughened glass layer 4, accompanies thin-film solar cells 3 between the two-layer sealed Cellophane 2; Become as a whole behind the aforementioned each several part lamination.

Wherein, said antireflective ultrawhite toughened glass layer 1 is that thickness is ultrawhite float glass process toughened glass or the ultrawhite calendering toughened glass that 4-8mm, surface are coated with antireflective coating.

The thickness of said toughened glass layer 4 is 4-8mm.

Said sealed Cellophane 2 is PVB.

Said thin-film solar cells 3 is an end liner with 3.2mmTCO glass.

The utility model is compared with existing film photovoltaic architecture-integral assembly, is similar to the dry method doubling glass, has higher intensity, can satisfy the requirement of building glass curtain wall; In addition, assembly surface has antireflective and self-cleaning effect, can reduce the clean and maintenance to assembly.

The above only is the preferred implementation of the utility model; Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; Can also make some improvement and retouching, these improvement and retouching also should be regarded as the protection range of the utility model. ?

Claims (5)

1. film photovoltaic architecture-integral assembly; It is characterized in that; Comprising antireflective ultrawhite toughened glass layer and toughened glass layer, is two-layer sealed Cellophane between said antireflective ultrawhite toughened glass layer and toughened glass layer, between said two-layer sealed Cellophane, accompanies thin-film solar cells.

2. film photovoltaic architecture-integral assembly according to claim 1 is characterized in that, said antireflective ultrawhite toughened glass layer is that thickness is ultrawhite float glass process toughened glass or the ultrawhite calendering toughened glass that 4-8mm, surface are coated with antireflective coating.

3. film photovoltaic architecture-integral assembly according to claim 1 and 2 is characterized in that the thickness of said toughened glass layer is 4-8mm.

4. film photovoltaic architecture-integral assembly according to claim 1 is characterized in that said sealed Cellophane is PVB.

5. film photovoltaic architecture-integral assembly according to claim 1 and 2 is characterized in that said thin-film solar cells is an end liner with 3.2mmTCO glass.