CN101510567B - Solar film battery assembly for architecture - Google Patents

Abstract

The invention relates to a solar energy thin-film battery component applied to architecture; the solar energy thin-film battery component consists of a conducting-film glass layer, a thin-film battery layer, an aluminum-film layer, an EVA layer, a float glass layer and a hollow glass layer in sequence from top to bottom; spacing bars are arranged at two ends between the float glass layer and the hollow glass layer and separate the float glass layer from the hollow glass layer to form a hollow cavity; a LOW-E film layer is arranged at either of the upper side and the lower side of the hollow cavity; from the external side of one spacing bar to the lateral side of the float glass layer, a junction box with diodes is arranged; and an electrode is led out respectively from the conducting-film glass layer and the aluminum-film layer, then the two electrodes are connected with the circuit inside the junction box. Compared with the prior art, the solar energy thin-film battery component is combined with the architecture and provided with an energy-saving coated film, a hollow structure and the junction box convenient for building installation, and has the advantages of environmentally-friendly power generation with solar energy, energy conservation and heat insulation of buildings, thermal insulation, sound insulation and no deposition of dew and frost.

Description

Be applied in architectural solar film battery assembly

Technical field

The present invention relates to a kind of solar module, especially a kind ofly be applied in architectural solar film battery assembly.

Background technology

Present known earth fossil energy faces exhausted danger along with rapid development of social economy, and the pollution that the fossil energy of burning is simultaneously brought is also threatening human existence day by day.Along with development of science and technology, solar film battery becomes the green non-pollution resource of alternative fossil energy gradually.Chinese patent 20062017685.5 discloses a kind of nano-silicon solar film battery patent, it is made up of glass, conducting film, monocrystalline silicon bottom, amorphous silicon membrane, N type Nano thin film, transparent metal electrode and comb electrode, advantage is a solar power generation, pollution-free, also can generate electricity under the low light level.Shortcoming is the technology more complicated, and relative monocrystalline silicon of silicon materials and polysilicon cost reduce limited, and cost is still very high, will take factors such as a large amount of soils because large-sized solar hull cell power plant is installed in addition, and it is bigger that large tracts of land is promoted the market difficulty.Be directly installed on architecturally, shortcoming is when summer, solar irradiation was strong, causes that heat rolls up in the building, and energy consumption is too high, and the terminal box of its configuration etc. also is not suitable for the construction and installation needs.If can solve battery component and building in conjunction with problem, not extra land occupation, solar film battery will welcome a develop rapidly stage.But, also do not find the product of film battery assembly at present in architectural application.

Summary of the invention

The objective of the invention is provides a kind of energy-conservation for overcoming above-mentioned the deficiencies in the prior art, can and building is perfect merges, extra land occupation is not applied in architectural solar film battery assembly.

For achieving the above object, the present invention adopts following technical proposals:

A kind ofly be applied in architectural solar film battery assembly, it is made up of electropane layer, hull cell layer, aluminum membranous layer, EVA layer, float glass layer and double glazing layer from top to bottom successively, two ends between float glass layer and double glazing layer are respectively equipped with spacer bar, spacer bar separates cavity of formation with float glass layer and double glazing layer, and the side in the upper and lower sides of cavity is provided with the LOW-E rete; The terminal box of being with diode is equipped with in a spacer bar outside to corresponding float glass layer side therein; Draw an electrode on electropane layer and the aluminum membranous layer respectively, two extraction electrodes are connected with circuit in the terminal box.

Plating indium oxide layer tin rete on the downside of described electropane layer, the tin indium oxide rete is an extraction electrode.

Be provided with drier in the described spacer bar, be provided with the first road fluid sealant between spacer bar and float glass layer and the double glazing layer, be provided with the second road fluid sealant between spacer bar outside float glass layer and the double glazing layer.

In the described cavity for vacuum or be filled with inert gas.

Described LOW-E rete is plated in the downside of float glass layer or is plated in the upside of double glazing layer or LOW-E rete and double glazing layer fuse into one.

Described terminal box is sealed in the second road fluid sealant, has only positive and negative pigtail splice to be drawn out to outside the second road fluid sealant.

Described diode is a Schottky diode.

The present invention has following characteristics:

1, be that hull cell is made a stable operational environment with two suggested glass layer structure.

2, make the LOW-E film, coatings has the high characteristic that reaches the high reflection of centering far infrared that sees through of visible light, is reached for heat-insulating, heat insulation effect.

3, make hollow layer, thereby the realization inner glass there are not frost and dew and soundproof effect.

4, at spacer bar to a side of glass edge, terminal box is installed, the diode that prevents in grid-connected system the assembly reverse charge is housed again in the terminal box; Whole terminal box is sealed in the second road fluid sealant, has only positive and negative pigtail splice to be drawn out to outside the second road fluid sealant, and purpose is to realize the succinct and modularization of construction and installation.

Wherein, EVA refers to ethylene-vinyl acetate copolymer resin (English name Ethylene vinyl acetate copolymer); Low-E glass claims low emissivity glass again, is that to plate the film that multiple layer metal or other compounds form at glass surface be product.Its coatings has the high characteristic that reaches the high reflection of centering far infrared that sees through of visible light.

Compared with prior art, the present invention focuses on building and combines the terminal box that the aspect is provided with energy-conservation plated film and hollow structure and makes things convenient for construction and installation, and outstanding feature is that the green generating of solar energy, building energy conservation are heat insulation, insulation, sound insulation, no frost and dew.The present invention has energy-conservation, can and building is perfect merges, not advantage such as extra land occupation, and the generating of this solar film battery assembly also can be sent into electrical network except that being used for architecture-self consumption, supply with other clients.

Description of drawings

Fig. 1 is the side structure schematic diagram of embodiments of the invention 1;

Fig. 2 is the side structure schematic diagram of the embodiment of the invention 2;

Fig. 3 structural representation of facing of the present invention;

Among the figure: 1. double glazing layer, 2. first road fluid sealant, the 3. drier, 4. spacer bar, the 5. second road fluid sealant, 6. float glass layer, 7.EVA layer, 8. aluminum membranous layer, 9. hull cell layer, 10. electropane layer, 11. tin indium oxide retes, 12. extraction electrodes, 13. Schottky diode, 14. terminal box, 15.LOW-E rete, 16. cavities.

Embodiment

The present invention is further described below in conjunction with drawings and Examples.

Embodiment 1: among Fig. 1, Fig. 3, solar film battery assembly is made up of electropane layer 10, hull cell layer 9, aluminum membranous layer 8, EVA layer 7, float glass layer 6 and double glazing layer 1 from top to bottom successively, two ends between float glass layer 6 and double glazing layer 1 are respectively equipped with spacer bar 4, and spacer bar 4 separates cavity 16 of formation with float glass layer 6 and double glazing layer 1.The terminal box 14 of being with Schottky diode 13 is equipped with in spacer bar 4 outsides to corresponding float glass layer 6 side therein; Draw an electrode on electropane layer 10 and the aluminum membranous layer 8 respectively, two extraction electrodes 12 are connected with circuit in the terminal box 14.

With vapour deposition process plating indium oxide layer tin rete 11, tin indium oxide rete 11 is an extraction electrode 12 on the downside of electropane layer 10.

Be provided with drier 3 in the spacer bar 4, be provided with the first road fluid sealant 2 between spacer bar 4 and float glass layer 6 and the double glazing layer 1, be provided with the second road fluid sealant 5 between spacer bar 4 outside float glass layers 6 and the double glazing layer 6.

In the cavity 16 is vacuum.

LOW-E rete 15 is plated in the downside of float glass layer 6.

Terminal box 14 is sealed in the second road fluid sealant 5, has only positive and negative pigtail splice to be drawn out to outside the second road fluid sealant 5.

During making, plate indium oxide layer tin rete 11 with vapour deposition process on the electropane layer 10, use plasma reaction deposit film battery layers 9 then, with vapour deposition method plating layer of aluminum rete 8, wherein tin indium oxide rete 11 and aluminum membranous layer 8 are as two extraction electrodes 12 again; Force together with EVA layer 7,6 encapsulation of float glass layer again.Between float glass layer 6 and double glazing layer 1, separate a cavity 16 with spacer bar 4, LOW-E rete 15 is plated in the downside of float glass layer 6 with vapour deposition process, cavity 16 inside are evacuated, charge into drier 3 in the spacer bar 4, in the second road fluid sealant 5 of spacer bar 4 to the side at float glass layer 6 edge, terminal box 14 is housed, Schottky diode 13 is housed in the terminal box 14, whole terminal box 14 is sealed in the second road fluid sealant 5, have only positive and negative pigtail splice to be drawn out to outside the second road fluid sealant, butt joint is installed with lead-out wire, realizes electricity generate function.

Embodiment 2: as Fig. 2, shown in Figure 3, be filled with inert gas in the cavity 16 as different from Example 1; LOW-E rete 16 is plated in the upside of double glazing layer 1, and all the other are identical, repeats no more.

Embodiment 3: LOW-E rete 15 is by vapour deposition process plated film before double glazing layer 1 tempering as different from Example 1, and making LOW-E rete 15 and double glazing layer 1 hot melt is one.All the other are identical, repeat no more.

Above-described embodiment, the present invention's three kinds of embodiment more preferably just, the common variation that those skilled in the art carries out in the technical solution of the present invention scope and replacing all should be included in protection scope of the present invention.

Claims (6)

1. one kind is applied in architectural solar film battery assembly, it is characterized in that: it is from top to bottom successively by the electropane layer, the hull cell layer, aluminum membranous layer, the EVA layer, float glass layer and double glazing layer are formed, two ends between float glass layer and double glazing layer are respectively equipped with spacer bar, spacer bar separates cavity of formation with float glass layer and double glazing layer, side in the upper and lower sides of cavity is provided with the LOW-E rete and forms Low-E glass, Low-E glass claims low emissivity glass again, is that to plate the film that multiple layer metal or other compounds form at glass surface be product; The terminal box of being with diode is equipped with in a spacer bar outside to corresponding float glass layer side therein; Plating indium oxide layer tin rete on the downside of described electropane layer, the tin indium oxide rete is an extraction electrode, draws an electrode on the aluminum membranous layer, two extraction electrodes are connected with circuit in the terminal box; Described EVA refers to ethylene-vinyl acetate copolymer resin.

2. according to claim 1ly be applied in architectural solar film battery assembly, it is characterized in that: be provided with drier in the described spacer bar, be provided with the first road fluid sealant between spacer bar and float glass layer and the double glazing layer, be provided with the second road fluid sealant between spacer bar outside float glass layer and the double glazing layer.

3. according to claim 1ly be applied in architectural solar film battery assembly, it is characterized in that: in the described cavity for vacuum or be filled with inert gas.

4. according to claim 1ly be applied in architectural solar film battery assembly, it is characterized in that: described LOW-E rete is plated in the downside of float glass layer or is plated in the upside of double glazing layer or LOW-E rete and double glazing layer fuse into one.

5. according to claim 1ly be applied in architectural solar film battery assembly, it is characterized in that: described terminal box is sealed in the second road fluid sealant, has only positive and negative pigtail splice to be drawn out to outside the second road fluid sealant.

6. according to claim 1ly be applied in architectural solar film battery assembly, it is characterized in that: described diode is a Schottky diode.

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