CN215162181U - Solar control film low-transmittance power generation glass suitable for roof structure - Google Patents

Abstract

The utility model provides a solar control membrane hangs down electricity generation glass that passes through suitable for roof structure, including the glass substrate that is used for absorbing sunshine, be connected with the glass substrate and convert the solar cell of absorbed sunshine into the electric energy and with the back of the body base plate that solar cell connects, the terminal surface of back of the body base plate is equipped with a location portion the both sides of location portion be equipped with the area that welds that solar cell electricity is connected, this application simple structure has included the design of three aspect, is glass substrate, solar cell and back of the body base plate respectively, fuses mutually and can realize that solar energy converts the function of electric energy into, should use widely in the building field, the rational utilization energy, pollution-free emission.

Description

Solar control film low-transmittance power generation glass suitable for roof structure

Technical Field

The utility model relates to a new forms of energy field especially relates to a sunlight control membrane hangs down electricity generation glass that passes through suitable for roof structure.

Background

Along with the rapid development of economy, the demand on energy is higher and higher, on one hand, the traditional disposable resources are deficient, and sustainable development energy needs to be searched; on the other hand, the environmental pollution caused by the combustion of disposable energy resources such as coal resources is a social problem, and as mentioned above, the development of new energy is imminent, and the development of solar products is required to meet the living needs of people, and at this time, the photovoltaic power generation glass comes to the surface, and as the social demand for wide-spread power generation glass is increased sharply, how to design a photovoltaic glass which is simple in structure, easy to produce and has high power generation power becomes a problem to be solved by the technicians in the field.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the technical scheme provides the solar control film low-transmittance power generation glass suitable for the roof structure, which has a simple structure, is beneficial to production and can achieve high production efficiency.

In order to achieve the purpose, the technical scheme is as follows:

the utility model provides a solar control membrane hangs down electricity generation glass that passes through suitable for roof structure, including the glass substrate that is used for absorbing sunshine, be connected with the glass substrate with the solar cell of absorbing sunshine conversion for the electric energy and with the back of the body base plate that solar cell connects, the terminal surface of back of the body base plate is equipped with a location portion the both sides of location portion be equipped with the welding area that solar cell electricity is connected.

In some embodiments, the glass substrate is provided with a plurality of power generation regions connected in series with each other, the power generation regions are electrically connected with the solar cells, and diodes are further arranged between adjacent power generation regions.

In some embodiments, the glass substrate is a frameless design.

In some embodiments, the solar cell is a CdTe solar cell.

In some embodiments, the glass substrate surface is coated with several absorbing layers.

In some embodiments, the solar cell is cut into several parts.

In some embodiments, a sealant is coated between the glass substrate and the back substrate.

In some embodiments, the positioning portion is hemispherical.

In some embodiments, a plurality of composite layer designs are sequentially and adjacently compounded on the glass substrate from inside to outside;

wherein the first film layer, i.e. the innermost film layer, is a SiNx layer, and the second film layer is TiO₂The third film layer is a Cr layer, and the fourth film layer is TiO₂And the fifth film layer is a SiNx layer.

The beneficial effect of this application does:

this application simple structure, the design that has included three aspect is glass substrate, solar cell and back of the body base plate respectively, fuses mutually and can realize that solar energy converts the function of electric energy into, should use widely in the building field, and the rational utilization energy, pollution-free emission is applicable to the curtain, replaces traditional glass curtain wall.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural view of a glass substrate according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a solar cell according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a glass film system according to an embodiment of the present invention.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to further explain the present invention in detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-3, a strong heat absorption three-silver Low-e power generation glass includes a glass substrate 1 for absorbing sunlight, a solar cell 2 connected to the glass substrate 1 for converting the absorbed sunlight into electric energy, and a back substrate 3 connected to the solar cell 2, wherein a positioning portion 4 is disposed on an end surface of the back substrate 3, solder strips 5 electrically connected to the solar cell 2 are disposed on two sides of the positioning portion 4, specifically, the glass substrate absorbs the sunlight, the solar cell receives the sunlight and converts the sunlight into electric energy to be transmitted through the solder strips, as shown in fig. 1, one side of the solder strips is a positive electrode, and the other side of the solder strips is a negative electrode, and when a lead is installed in the positioning portion, the lead is electrically connected to the solder strips of the positive and negative electrodes, so as to transmit the electric energy to a load.

In this embodiment, the glass substrate 1 is provided with three power generation regions 6 connected in series, the power generation regions 6 are electrically connected to the solar cell 2, and a diode 7 is further provided between adjacent power generation regions 6, as shown in fig. 2, when a local shading occurs, a loss of a single region is large, which seriously affects the power generation amount, and when a certain power generation region is damaged, the diode is turned on, and the power generation continues to operate without affecting the operation of another region.

In this embodiment, the glass substrate 1 is designed without a frame, and the surface is smooth, so that dust is not accumulated to affect the absorption of sunlight.

In the present embodiment, the solar cell 2 is a CdTe solar cell.

In this embodiment, the surface of the glass substrate 1 is coated with several absorption layers, preferably TiO₂The layer reduces the reflection of sunlight through this absorbed layer, absorbs more sunlight, improves the output of electric energy.

In this embodiment, the solar cell 2 is cut into several parts, 355 uv light is used to scribe the cell film, so that the continuous film is subdivided into individual sub-cells, a coater is used to coat a layer of photoresist on the surface of the chip, the photoresist is baked and then exposed to uv light, P3 wire grooves and film surface pinholes are filled, leakage current is reduced, parallel resistance is increased, and a series connection structure is established between the individual cells, so that the cells are connected in series to form optimal current and voltage, and the remaining sub-cells can work normally even if there is partial shielding.

In this embodiment, a sealant is coated between the glass substrate 1 and the back substrate 3 to perform a sealing function.

In this embodiment, the positioning portion 4 is a hemisphere, and can be effectively matched with a wire.

In this embodiment, because there is not the warning function among the prior art, whether the unable macroscopic observation electricity generation glass of people is working, also can't learn whether its during operation is normal, consequently this application is in electricity generation area 6 still electric connection has LED module 9, LED module 9 is located between glass substrate 1 and the back of the body base plate 3, and sets up the edge at the base plate, and when electricity generation area during operation, a part of electric current can flow to LED module department to here bright lamp can let people learn it and absorb during the sunshine electricity generation, if LED does not have bright lamp under the sunshine then the surface emergence is unusual, thereby can direct observation to electricity generation glass's state.

In the present embodiment, as shown in fig. 4, the first film layer C220, i.e., the innermost film layer, is a SiNx layer, and the second film layer C221 is TiO₂A third film layer C222 of Cr and a fourth film layer C223 of TiO₂The fifth film layer C224 is a SiNx layer and is suitable for the heat absorption solar control film power generation glass;

the SiNx layer is a silicon nitride film and can play a good role in antireflection.

TiO₂The layer, titanium dioxide, is intended to increase the light transmittance of the glass, to reduce the sheet resistance of the silver layer, and to have a very smooth surface.

Cr is a chromium film in order to make the glass able to withstand certain temperatures.

The above description is only for the purpose of illustrating the preferred embodiments of the present application and is not intended to limit the scope of the present application, which is within the scope of the present application, except that the same or similar principles and basic structures as the present application may be used.

Claims (8)

1. The solar control film low-transmittance power generation glass suitable for a roof structure is characterized by comprising a glass substrate (1) for absorbing sunlight, a solar cell (2) which is connected with the glass substrate (1) and converts the absorbed sunlight into electric energy, and a back substrate (3) which is connected with the solar cell (2), wherein the end surface of the back substrate (3) is provided with a positioning part (4), and welding strips (5) which are electrically connected with the solar cell (2) are arranged on two sides of the positioning part (4);

the glass substrate (1) is sequentially compounded with five film layers, wherein the first film layer C (220), namely the innermost film layer, is a SiNx layer, and the second film layer C (221) is TiO layer₂A third film layer C (222) of Cr and a fourth film layer C (223) of TiO₂The fifth film layer C (224) is a SiNx layer.

2. A solar control film low-transmission power generating glass suitable for use in a roof structure as claimed in claim 1, wherein: the solar cell is characterized in that the glass substrate (1) is provided with a plurality of power generation regions (6) which are connected in series, the power generation regions (6) are electrically connected with the solar cells (2), and diodes (7) are arranged between the adjacent power generation regions (6).

3. A solar control film low-transmission power generating glass suitable for use in a roof structure as claimed in claim 2, wherein: the glass substrate (1) adopts a frameless design.

4. A solar control film low-transmittance power generating glass suitable for roof structures according to claim 3, wherein: the solar cell (2) is a CdTe solar cell.

5. A solar control film low-transmission power generating glass suitable for use in a roof structure as claimed in claim 1, wherein: the surface of the glass substrate (1) is coated with a plurality of absorption layers.

6. A solar control film low-transmission power generating glass suitable for use in a roof structure as claimed in claim 1, wherein: the solar cell (2) is cut into several parts.

7. A solar control film low-transmission power generating glass suitable for use in a roof structure as claimed in claim 1, wherein: and a sealing glue is coated between the glass substrate (1) and the back substrate (3).

8. A solar control film low-transmission power generating glass suitable for use in a roof structure as claimed in claim 1, wherein: the positioning part (4) is hemispheroid.

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