CN202450709U - Transparent flexible solar power generation skylight - Google Patents

Abstract

The utility model relates to a transparent flexible solar power generation skylight which comprises upper layer glass, a flexible cell chip and lower layer glass, wherein the upper layer glass, the flexible cell chip and the lower layer glass are sequentially bonded. A transparent conductive coating film layer is plated on the lower surface of the flexible cell chip and made of any one of an aluminum zinc oxide (AZO) target, a gallium-doped zinc oxide (GZO) target, an indium tin oxide (ITO) target and a fluorine-doped tin oxide (FTO) target. A transparent conductive coating film is sputtered on a flexible cell, and the sputtered transparent conductive coating film is used as the flexible cell so that the flexible solar panel is transparent and light-transmitting, light transmittance can reach about 45% when the cell panel is 850 nm, and the flexible solar cell panel can have a power generation function even in weak light environment. The transparent flexible solar power generation skylight can utilize sunlight to generate power, power generation efficiency is above 5%, can supplement electrical power to an automobile storage battery and supply power to a required power supply, simultaneously supplies power to devices for purifying air and cooling inside an automobile.

Description

Transparent flexible solar electrical energy generation skylight

Technical field

The utility model belongs to the material applied technical field of solar panel, and what be specifically related to is a kind of transparent flexible solar electrical energy generation skylight.

Background technology

Although non-crystalline silicon is a kind of good battery material as solar energy materials,, make material itself insensitive to the Long wavelength region of solar radiation spectrum because its optical band gap is 1.7eV; So just limited the conversion efficiency of non-crystal silicon solar cell, in addition, its photoelectric efficiency can decay along with the continuity of light application time; It is so-called photic decline S-W effect; Make battery performance unstable, and its back electrode does not have the printing opacity function fully owing to adopt aluminium film.

Summary of the invention

The purpose of the utility model is to overcome the deficiency that prior art exists, and a kind of transparent flexible solar electrical energy generation skylight is provided.

For realizing above-mentioned purpose; The technical solution of the utility model is: a kind of transparent flexible solar electrical energy generation skylight; Comprise bonding successively upper strata glass, flexible battery chip and lower floor's glass, the soffit of said flexible battery chip is coated with a transparent conductive coatings layer.

Further, said transparent conductive coatings layer adopts any in AZO target, GZO target, ITO target, the FTO target.

Further, said upper strata glass employing half tempered or tempering curved surface or straight glass.

Further, said lower floor's glass employing half tempered or tempering curved surface or straight glass.

Further, adopt any bonding in EVA, PVB, the sarin glue between said upper strata glass, flexible battery chip and the lower floor's glass.

Further, the thickness of said flexible battery chip is 0.1-1.0mm.

Further, the thickness of said upper strata glass and lower floor's glass is 1.6-3.2mm.

Through adopting above-mentioned technical scheme; The beneficial effect of the utility model is: the utility model is the sputter transparent conductive coatings on the flexible battery sheet; Thereby reach flexible solar panel is transparent, and cell panel can printing opacity, and light transmittance can reach about 45% when 850nm; Low light environment also can maintain electricity generate function; This utility model can utilize sunshine to generate electricity, and generating efficiency can be carried out the supply that replenishes and need power supply of electric energy to automobile storage battery up to more than 5%, simultaneously to car inner air-cleaning, cooling system power supply.

Description of drawings

Below in conjunction with accompanying drawing the utility model technical scheme is described further:

Figure l is the structural representation of the utility model.

The specific embodiment

As shown in Figure 1; The transparent flexible solar electrical energy generation skylight of the utility model; Comprise bonding successively upper strata glass 1, flexible battery chip 2 and lower floor's glass 3, adopt any bonding in EVA, PVB, the sarin glue between said upper strata glass 1, flexible battery chip 2 and the lower floor's glass 3, the soffit of said flexible battery chip 2 is coated with a transparent conductive coatings layer 21; This transparent conductive coatings layer 21 adopts any in AZO targets, GZO target, ITO target, the FTO target; This plated film target is plated to the surface of flexible battery chip 2 with the mode of magnetron sputtering, and thickness reaches the 3000-8000 dust, has conductive effect; The AZO target uses the proportioning of optimum alumina; To increase the transmitance of light; Use conductive metal band to conflux on the surface of transparent conductive coatings layer 21 and as lead-out wire, external junction box, the thickness of said flexible battery chip 2 is 0.1-1.0mm; It is half tempered or tempering curved surface or the straight glass of 1.6-3.2mm that said upper strata glass 1 adopts thickness, and it is that half tempered or tempering curved surface or the straight glass of 1.6-3.2mm encapsulates that lower floor's glass 3 adopts thickness.

Above-described, be merely a kind of preferred embodiment of the utility model, can not limit the scope that the utility model is implemented, every equalization of being done according to the utility model claim changes and decorates, and all should still belong in the scope that the utility model contains.

Claims (7)

1. transparent flexible solar electrical energy generation skylight, it is characterized in that: comprise bonding successively upper strata glass (1), flexible battery chip (2) and lower floor's glass (3), the soffit of said flexible battery chip (2) is coated with a transparent conductive coatings layer (21).

2. transparent flexible solar electrical energy generation according to claim 1 skylight is characterized in that: said transparent conductive coatings layer (21) adopts any in AZO target, GZO target, ITO target, the FTO target.

3. transparent flexible solar electrical energy generation according to claim 1 skylight is characterized in that: said upper strata glass (1) adopts half tempered or tempering curved surface or straight glass.

4. transparent flexible solar electrical energy generation according to claim 1 skylight is characterized in that: said lower floor glass (3) adopts half tempered or tempering curved surface or straight glass.

5. according to each described transparent flexible solar electrical energy generation skylight among the claim 1-4, it is characterized in that: adopt any bonding in EVA, PVB, the sarin glue between said upper strata glass (1), flexible battery chip (2) and the lower floor's glass (3).

6. according to each described transparent flexible solar electrical energy generation skylight among the claim 1-4, it is characterized in that: the thickness of said flexible battery chip (2) is 0.1-1.0mm.

7. according to each described transparent flexible solar electrical energy generation skylight among the claim 1-4, it is characterized in that: said upper strata glass (1) is 1.6-3.2mm with the thickness of lower floor's glass (3).

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