CN107437918A - A kind of Nonopaque type solar energy equipment and Nonopaque type building - Google Patents

Abstract

The invention relates to the technical field of light-transmitting photovoltaic buildings, in particular to a light-transmitting solar device and a light-transmitting building, including: a frame, a placement slot, glass, EVA film, a silicon wafer, a connecting frame, a protective plate, a wall, Square steel, H-shaped steel, reinforced column; the inside of the frame is provided with a placement groove; the placement groove is provided with glass, and one end of the glass is connected to the placement groove by embedding; the bottom side of the glass is provided with an EVA film , and the EVA film is connected to the glass by pressing; the bottom side of the EVA film is provided with a silicon wafer, and the silicon wafer is connected to the EVA film by pressing; the other end of the glass is provided with a connecting frame, and the glass It is connected with the inner side of the connecting frame by embedding; the invention has the advantages of simple installation, low cost and long service life through structural improvement, thereby effectively solving the problems and shortcomings in the existing devices.

Description

A light-transmitting solar device and a light-transmitting building

technical field

The invention relates to the technical field of light-transmitting photovoltaic buildings, in particular to a light-transmitting solar device and a light-transmitting building.

Background technique

With the development and progress of human civilization, the stock of traditional non-renewable energy is getting smaller and smaller, but the demand for energy is increasing. Human beings are beginning to look for new energy that can replace traditional energy. Solar energy is recognized as the cleanest and has the greatest potential. The largest energy source, and "inexhaustible, inexhaustible", solar photovoltaic power generation will be greatly developed in this context.

At present, photovoltaic solar power generation technology has been applied in various fields and occasions, but some buildings have not realized photovoltaic solar power generation technology, such as curtain walls, which are mostly double-glazed structures, which invisibly waste a part of resources.

As the problems raised above, this program provides a light-transmitting solar energy device and a light-transmitting building, and through the light-transmitting solar energy device and light-transmitting building to solve the problems and deficiencies in the above, so that it can be more have a practical purpose.

Contents of the invention

The object of the present invention is to provide a light-transmitting solar energy device and a light-transmitting building, so as to solve the problems and deficiencies of waste of resources, difficulty in popularization, and high cost raised in the above-mentioned background technology.

Purpose and effect of the present invention are achieved by the following specific technical solutions:

A light-transmitting solar device and a light-transmitting building, including: a frame, a placement groove, glass, EVA film, a silicon wafer, a connecting frame, a protective plate, a wall, square steel, H-shaped steel, and a reinforcing column; the inside of the frame A placement groove is provided; glass is arranged in the placement groove, and one end of the glass is connected to the placement groove by embedding; the bottom side of the glass is provided with an EVA film, and the EVA film is connected to the glass by pressing; The bottom side of the EVA film is provided with a silicon wafer, and the silicon wafer is connected with the EVA film by pressing; the other end of the glass is provided with a connecting frame, and the glass is connected with the inside of the connecting frame by an embedded method; the glass The top side of the joint is provided with a protective plate, and the protective plate is connected to the glass joint by bonding; the bottom side of the frame is provided with square steel, and the square steel is connected to the frame through bolts; the square One end of the section steel is provided with a body of wall, and one end of the square section steel is connected with the body of wall by a fixed method; the bottom side of the connecting frame is provided with H-shaped steel, and the H-shaped steel is connected with the connecting frame by bolts; A wall is provided at one end, and one end of the H-shaped steel is connected to the wall by a fixed method; a reinforcing column is arranged inside the H-shaped steel, and the reinforcing column is connected with the square steel by passing through the H-shaped steel.

As a further optimization of the technical solution, a light-transmitting solar device and a light-transmitting building of the present invention have two glass and EVA films, and silicon wafers are arrayed between the glass and the EVA film by pressing.

As a further optimization of the technical solution, the silicon wafer array in a light-transmitting solar device and a light-transmitting building of the present invention is arranged in three places between the glass and the EVA film.

As a further optimization of the technical solution, the connecting frame of the light-transmitting solar energy device and the light-transmitting building of the present invention is an I-shaped design.

As a further optimization of the technical solution, a light-transmitting solar device and a light-transmitting building of the present invention are provided with a sealant at the joints of the placing groove, the connecting frame and the glass.

As a further optimization of the technical solution, a light-transmitting solar device and a light-transmitting building of the present invention are provided with a sealant around the protection board.

As a further optimization of the technical solution, the distance between each silicon wafer in the light-transmitting solar device and the light-transmitting building of the present invention is 20 cm, and the area of the light-transmitting area is the same.

As a further optimization of the technical solution, a light-transmitting solar device and a light-transmitting building of the present invention, the reinforcing columns are arranged in multiple places in the H-shaped steel.

Due to the application of the above-mentioned technical solution, the present invention has the following advantages compared with the prior art:

1. A light-transmitting solar energy device and a light-transmitting building of the present invention are provided with a connecting frame, which is beneficial to the connection between glasses and is convenient for installation.

2. A light-transmitting solar device and a light-transmitting building of the present invention are beneficial to the light transmittance of the glass through the setting of each silicon wafer at an interval of 20 cm.

3. A light-transmitting solar device and a light-transmitting building of the present invention are provided with sealant around the protective plate, which is beneficial to the safety and service life of the device.

4. Through structural improvement, the present invention has the advantages of simple installation, low cost and long service life, thereby effectively solving the problems and deficiencies in existing devices.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Fig. 2 is a schematic diagram of the installation structure of the present invention;

Fig. 3 is the top view structure schematic diagram of the present invention;

Fig. 4 is a schematic diagram of the structure of the protruding bracket of the present invention.

In the figure: frame 1, placing groove 2, glass 3, EVA film 4, silicon wafer 5, connecting frame 6, protective plate 7, wall body 8, square steel 9, H-shaped steel 10, and reinforcing column 11.

detailed description

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Please refer to Fig. 1 to Fig. 3, the present invention provides a light-transmitting solar energy device and a light-transmitting building technical solution:

A light-transmitting solar device and a light-transmitting building, comprising: frame 1, placement slot 2, glass 3, EVA film 4, silicon wafer 5, connecting frame 6, protective plate 7, wall 8, square steel 9, H Shaped steel 10, reinforcing column 11; a placement groove 2 is arranged inside the frame 1; a glass 3 is arranged in the placement groove 2, and one end of the glass 3 is connected with the placement groove 2 by embedding; the bottom side of the glass 3 is provided with an EVA film 4 , and the EVA film 4 is connected with the glass 3 by pressing; the bottom side of the EVA film 4 is provided with a silicon wafer 5, and the silicon wafer 5 is connected with the EVA film 4 by pressing; the other end of the glass 3 is provided with a connecting frame 6, and the glass 6 is connected to the inner side of the connecting frame 6 by embedding; the top side of the joint between the glass 3 is provided with a protective plate 7, and the protective plate 7 is connected to the joint of the glass 3 by bonding; the frame 1 The bottom side is provided with a square steel 9, and the square steel 9 is connected with the frame 1 by bolts; one end of the square steel 9 is provided with a wall 8, and one end of the square steel 9 is connected with the wall 8 by a fixed method; the connecting frame 6 The bottom side of the H-shaped steel 10 is provided with H-shaped steel 10, and the H-shaped steel 10 is connected with the connecting frame 6 through bolts; one end of the H-shaped steel 10 is provided with a wall 8, and one end of the H-shaped steel 10 is connected with the wall 8 by a fixed method; H Reinforcing columns 11 are arranged inside the section steel 10 , and the reinforcement columns 11 are connected to the square section steel 9 by penetrating through the H section steel 10 .

Specifically, the glass 3 and the EVA film 4 are provided at two places, and the silicon wafer 5 is arrayed between the glass 3 and the EVA film 4 by pressing.

Specifically, the silicon wafer 5 array is arranged in three places between the glass 3 and the EVA film 4 .

Specifically, the connecting frame 6 is an I-shaped design, which is beneficial to the connection between the glasses 3 and is convenient for installation.

Specifically, a sealant is provided at the joints of the placement groove 2, the connecting frame 6 and the glass 3, which is beneficial to the fixing of the glass 3, the placing groove 2 and the connecting frame 6, and is waterproof and does not penetrate between the glass 3 and the silicon wafer 5.

Specifically, sealant is provided around the protective plate 7, which is beneficial to the safety and service life of the device.

Specifically, the distance between each silicon wafer 5 is 20 cm, and the area of the transparent area is the same.

Specifically, the reinforcing columns 11 are arranged in multiple places in the H-shaped steel 10, which is beneficial to the stability and firmness of the device.

Specific usage and function:

When using this device, the glass 3 is placed on a horizontal table top, the EVA film 4 is tiled on the top side of the glass 3, the assembled silicon wafer 5 is tiled on the EVA film 4 top side, and then the EVA film 4 is tiled on the top side of the EVA film. Lay on the top side of the silicon wafer 5, and finally place the glass 3 on the top side of the EVA film 4, then seal the surrounding area with sealant, fill the placement groove 2 in the frame 1 with sealant, and place the assembled device on the side Put it in the groove 2, put the other side in the connecting frame 6, then fill the interface with sealant, cover the top side of the interface of the two devices with the protective plate 7, and seal the surroundings with the sealant, pass through the silicon wafer 5 The distance between them is 20cm, which increases the light transmittance of the device, and the two groups of devices are connected through the connecting frame 6, which is conducive to the installation of the glass 3 and is easy to install.

To sum up: this kind of light-transmitting solar energy device and light-transmitting building, through the setting of the connecting frame, is conducive to the connection between the glasses, and is convenient for installation. Excellent light transmittance, through the setting of sealant around the protective plate, it is beneficial to the safety and service life of the device, and solves the problems of waste of resources, difficulty in popularization, and high cost.

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes, modifications and substitutions can be made to these embodiments without departing from the principle and spirit of the present invention. and modifications, the scope of the invention is defined by the appended claims and their equivalents.

Claims (8)

1. A light-transmitting solar device and a light-transmitting building, comprising: frame (1), placement slot (2), glass (3), EVA film (4), silicon wafer (5), connecting frame (6) , protective plate (7), body of wall (8), square steel (9), H-shaped steel (10), reinforcing column (11); It is characterized in that: the inner side of the frame (1) is provided with a placement groove (2); Glass (3) is arranged in the placement groove (2), and one end of the glass (3) is connected with the placement groove (2) by embedding; the bottom side of the glass (3) is provided with an EVA film (4) , and the EVA film (4) is connected with the glass (3) by pressing; the bottom side of the EVA film (4) is provided with a silicon wafer (5), and the silicon wafer (5) is connected with the EVA film ( 4) are connected; the other end of the glass (3) is provided with a connecting frame (6), and the glass (6) is connected to the inner side of the connecting frame (6) by embedding; the connection between the glasses (3) The top side of the frame (1) is provided with a protective plate (7), and the protective plate (7) is connected to the joint of the glass (3) by bonding; the bottom side of the frame (1) is provided with a square steel (9), and the square The shaped steel (9) is connected to the frame (1) through bolts; one end of the square shaped steel (9) is provided with a wall (8), and one end of the square shaped steel (9) is connected to the wall (8) by a fixed means The bottom side of the connecting frame (6) is provided with H-shaped steel (10), and the H-shaped steel (10) is connected with the connecting frame (6) by bolts; one end of the H-shaped steel (10) is provided with a body of wall ( 8), and one end of the H-shaped steel (10) is connected to the wall (8) through a fixed method; the H-shaped steel (10) is provided with a reinforcing column (11), and the reinforcing column (11) passes through the H-shaped steel (10) is connected with square steel (9). 2. A light-transmitting solar device and a light-transmitting building according to claim 1, characterized in that: the glass (3) and the EVA film (4) are provided in two places, and the silicon wafer (5) passes through The pressing method is arrayed between the glass (3) and the EVA film (4). 3. A light-transmitting solar device and a light-transmitting building according to claim 1, characterized in that: the silicon wafer (5) array is provided with three places between the glass (3) and the EVA film (4) . 4. A light-transmitting solar energy device and a light-transmitting building according to claim 1, characterized in that: the connecting frame (6) is an I-shaped design. 5. A light-transmitting solar device and a light-transmitting building according to claim 1, characterized in that: the joints of the placing groove (2), the connecting frame (6) and the glass (3) are provided with sealing glue. 6. A light-transmitting solar device and a light-transmitting building according to claim 1, characterized in that sealant is provided around the protective plate (7). 7. A light-transmitting solar device and a light-transmitting building according to claim 1, characterized in that: the distance between each of the silicon wafers (5) is 20 cm, and the light-transmitting areas have the same area. 8. A light-transmitting solar energy device and a light-transmitting building according to claim 1, characterized in that: the reinforcing columns (11) are arranged in multiple places within the H-shaped steel (10).