CN202658815U - Vacuum and hollow glass building-integrated photovoltaic component module - Google Patents

Abstract

The utility model discloses a vacuum and hollow glass building-integrated photovoltaic component module. The vacuum and hollow glass building-integrated photovoltaic component module comprises vacuum glass, hollow glass and a photovoltaic cell array, wherein the photovoltaic cell array is positioned in the hollow glass; the vacuum glass and the hollow glass are arranged along a normal direction; air holes are formed on one side, departing from the vacuum glass, of the hollow vacuum; and a glue interlayer is arranged between the vacuum glass and the hollow glass. Because the photovoltaic cell array is positioned in the hollow glass, the burst of photovoltaic cells and the crack of the glass caused by the reason that heat cannot radiate are avoided; because the hollow glass is combined with the vacuum glass through the glue interlayer, the heat preservation and sound insulation effects are good; and moreover, the transparency is not influenced. Because the glue interlayer is arranged between the vacuum glass and the hollow glass to form glue interlayer glass, the strength is high, and the requirements of high-rise buildings can be met. Because the air holes are formed, expanded air is exhausted from the air holes, and the sealing of the hollow glass cannot be influenced.

Description

Vacuum, hollow glass building integrated photovoltaic component module

Technical field

The utility model relates to a kind of vacuum, hollow glass building integrated photovoltaic component module.

Background technology

Vacuum, hollow glass are the constructional materialss of two kinds of structural similarities.Wherein, vacuum glass is by with sealing around two sheet glass, its gap is evacuated makes again; Hollow glass is that two to three sheet glass are formed by aluminum alloy frame sealing, the isolation that includes desiccant.Above-mentioned two kinds of constructional materialss all can play the function of thermal insulation, isolated noise, and the function of heat insulation, the isolated noise of vacuum glass heat-insulating will be better than the function of hollow glass far away.

BIPV (Building Integrated PV) is that photovoltaic cell is combined a kind of technology that forms assembly module with constructional materials.At present, vacuum, hollow glass are combined with photovoltaic cell and are all had problems: if photovoltaic cell is combined with vacuum glass, because the vacuum cavity of vacuum glass has very strong thermal insulation, and glass also is the non-conductor of heat, and when photovoltaic cell shines when generating for a long time at sunshine, the heat energy that accumulates in battery surface can not effectively discharge, make glass local heating too high, finally cause the glass explosion, not only be difficult to bring into play the function of photovoltaic cell capable of generating power, but also can bring potential safety hazard; If photovoltaic cell is combined with hollow glass, when gases are heated, they expand in the hollow glass, can affect the sealing of hollow glass, and the insulation of hollow glass, soundproof effect are poor, are difficult to satisfy resident family's demand; In addition, the intensity of vacuum glass, hollow glass is low, is difficult to satisfy the requirement of highrise building.

Summary of the invention

The technical problems to be solved in the utility model provides and a kind ofly can take full advantage of solar electrical energy generation, can avoid causing because photovoltaic cell is overheated the glass explosion, can guarantee sealing, insulation, soundproof effect again, and high vacuum, the hollow glass building integrated photovoltaic component module of intensity.

The utility model is achieved in that

A kind of vacuum, hollow glass building integrated photovoltaic component module, comprise vacuum glass, hollow glass, photovoltaic battery array, its special character is: described photovoltaic battery array is positioned at hollow glass, described vacuum glass, hollow glass are arranged along normal direction, a side that deviates from vacuum glass at hollow glass is provided with pore, is provided with the doubling layer between vacuum glass, hollow glass.

Described hollow glass is tempered glass near a side of doubling layer, to improve the intensity of vacuum, hollow glass building integrated photovoltaic component module.

The beneficial effects of the utility model are:

1, because photovoltaic battery array is positioned at hollow glass, avoided causing photovoltaic cell to burst and the glass explosion because dispelling the heat.

2, because hollow glass is combined by the doubling layer with vacuum glass, is incubated, soundproof effect is good, and does not affect transparency.

3, because the doubling layer is set, form doubling glass between vacuum glass, hollow glass, intensity is high, can satisfy the requirement of highrise building.

4, owing to be provided with pore, the air after the expansion is discharged by pore, can not affect the sealing of hollow glass.

Description of drawings

Fig. 1 is structural representation of the present utility model (corresponding embodiment 1);

Fig. 2 is structural representation of the present utility model (corresponding embodiment 2);

Fig. 3 is the structural representation of photovoltaic battery array.

Among the figure: vacuum glass 1, doubling layer 2, hollow glass 3, pore 301, photovoltaic battery array 4.

The specific embodiment

Embodiment 1

Such as Fig. 1, shown in Figure 3, this vacuum, hollow glass building integrated photovoltaic component module comprise vacuum glass 1, hollow glass 3, photovoltaic battery array 4.Described photovoltaic battery array 4 is fixed in the hollow glass 3 by welding and resin, described vacuum glass 1, hollow glass 3 are arranged along normal direction successively, the lighting surface of described photovoltaic cell unit is towards vacuum glass 1, be provided with doubling layer 2 between vacuum glass 1, the hollow glass 3, in the present embodiment, the material of described doubling layer 2 is PVB, to guarantee transparency.Described hollow glass 3 is tempered glass near a side of doubling layer 2, and a side that deviates from vacuum glass 1 at hollow glass 3 is provided with pore 301.

During installation, a side at vacuum glass 1 place is installed outwardly, and photovoltaic battery array 4 is connected with the electric power storage electric supply installation.

Embodiment 2

As shown in Figure 2, described hollow glass 3, vacuum glass 1 are arranged along normal direction successively, and the lighting surface of photovoltaic cell unit deviates from vacuum glass 1, the other the same as in Example 1 in the described photovoltaic battery array.

During installation, a side at hollow glass 3 places is installed outwardly.

Claims (2)

1. a vacuum, hollow glass building integrated photovoltaic component module, comprise vacuum glass, hollow glass, photovoltaic battery array, it is characterized in that: described photovoltaic battery array is positioned at hollow glass, described vacuum glass, hollow glass are arranged along normal direction, a side that deviates from vacuum glass at hollow glass is provided with pore, is provided with the doubling layer between vacuum glass, hollow glass.

2. vacuum according to claim 1, hollow glass building integrated photovoltaic component module is characterized in that: described hollow glass is tempered glass near a side of doubling layer.

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