CN214410745U - U type glass photovoltaic photoelectric display subassembly, assembly and decoration outer wall - Google Patents

Abstract

The utility model relates to a U type glass photovoltaic photoelectric display subassembly, assembly and decoration outer wall, this U type glass photovoltaic photoelectric display subassembly, including U type glass, LED display device and solar cell, U type glass includes U type glass internal planes and the U type glass flank that is located U type glass internal planes both sides, and LED display device and solar cell pass through the bond line bonding and set up on U type glass internal planes. The U-shaped glass photovoltaic photoelectric display assembly is fixedly assembled into a combined body through glass cement bonding, and the combined body is used as a building maintenance and decoration outer wall to realize dual functions of solar photovoltaic power generation and LED photoelectric display. The utility model discloses a simple structure, intensity are high, safe and reliable, production simple to operate, change the maintenance convenient, but wide application in aspects such as building are built, the outer wall is decorated, the city beautifies, photoelectricity show, advertising.

Description

U type glass photovoltaic photoelectric display subassembly, assembly and decoration outer wall

Technical Field

The utility model relates to a U type glass photovoltaic photoelectric display subassembly and decoration outer wall belongs to special glass production technical field.

Background

The city brightening engineering develops from the pure pursuit of brightness to the pursuit of brightening artistic and bright science, and gradually realizes the transition from illumination to the artistic direction of shaping night images and illumination, so that not only the city is brightened, but also the city is beautiful. However, a large amount of energy needs to be consumed in the brightening process, China is a country with energy shortage, and if clean energy is adopted in the brightening of the buildings, the energy consumption and the carbon emission can be greatly reduced. Solar power generation is a renewable energy technology, and mainly solar photovoltaic power generation is realized for industrial application. The solar photovoltaic power generation has the characteristics of modularization of a battery assembly, convenience in installation and maintenance, flexible use mode and the like, and is the technology with the most application of solar power generation. The traditional photovoltaic power generation panel can use a large number of aluminum frames as support construction, so that resource waste is caused; the periphery of the photovoltaic panel is sealed by using a sealant, and the aging of the sealing materials can cause that the later-period power generation efficiency of the traditional photovoltaic panel is lower.

In addition, CN212517220U discloses a photovoltaic and LED light-emitting assembly, which comprises an exposed glass, an upper laminating adhesive, a photovoltaic series welding assembly, a conductive film circuit glass, a plurality of LEDs arranged in a matrix, a lower laminating adhesive, a filler strip glass, a filler strip and a back glass, which are sequentially connected from top to bottom. However, the photovoltaic and LED light-emitting component is complex in structure, not beneficial to disassembly, assembly and maintenance and not beneficial to overall assembly.

The U-shaped glass has the characteristics of high strength, safety, reliability, convenience in installation and the like, and can be assembled in a large area without limitation without the support of a metal frame. The traditional U-shaped glass as a building decoration material has good light transmission and heat insulation performance, and plays roles of no structural support, decoration, lighting, sound insulation, heat insulation and the like in a building. Along with the social development, people put forward higher requirements on the structure and the appearance of a building, the outer wall of the building develops towards functionalization, beautification and energy conservation, the outer wall of the building is functionalized on the basis of taking U-shaped glass as a structural material, so that the outer wall has double functions of solar photovoltaic power generation and photoelectric display, and can be widely applied to the fields of building decoration, city beautification, solar energy utilization, photoelectric display, advertising and the like.

Disclosure of Invention

Not enough to prior art, the utility model provides a U type glass photovoltaic photoelectric display subassembly, assembly and decoration outer wall. The utility model discloses use U type glass as the mother board, at functional unit such as its inside equipment LED display device, solar energy power generation device and constitute U type glass photovoltaic photoelectric display module.

The technical scheme of the utility model as follows:

the utility model provides a U type glass photovoltaic photoelectric display subassembly, includes first U type glass, LED display device and solar cell, U type glass include U type glass inner plane and the U type glass flank that is located U type glass inner plane both sides, LED display device and solar cell pass through the bond line bonding and set up on U type glass inner plane, solar cell passes through the circuit and is connected with LED display device.

According to the utility model, preferably, the LED display device and the solar cell are stacked and adhered on the inner plane of the U-shaped glass through the adhesive layer, the LED display device is adhered on the inner plane of the U-shaped glass through the adhesive layer, and the solar cell is adhered on the LED display device through the adhesive layer;

further preferably, the solar cell is a polycrystalline silicon solar cell or a monocrystalline silicon solar cell;

further preferably, a protective back sheet is adhered to the solar cell through an adhesive layer.

According to the utility model, preferably, the LED display device and the solar cell are stacked and adhered on the inner plane of the U-shaped glass through the adhesive layer, the solar cell is adhered on the inner plane of the U-shaped glass through the adhesive layer, and the LED display device is adhered on the solar cell through the adhesive layer;

further preferably, the solar cell is a cadmium telluride thin film solar cell;

further preferably, a protective back plate is arranged on the LED display device through an adhesive layer in an adhesive mode.

According to the utility model discloses, preferably, U type glass photovoltaic photoelectric display subassembly still include second U type glass, two U type glass flanks of second U type glass set up at two U type glass flanks of first U type glass inboard relatively. The distance between the two U-shaped glass side wings of the second U-shaped glass is smaller than that between the two U-shaped glass side wings of the first U-shaped glass.

According to the utility model discloses, preferably, U type glass photovoltaic photoelectric display subassembly still include second U type glass, two U type glass flanks of second U type glass set up with two U type glass flanks coincidence of first U type glass relatively. The distance between two U-shaped glass side wings of the second U-shaped glass is equal to the distance between two U-shaped glass side wings of the first U-shaped glass.

According to the utility model discloses, preferably, U type glass photovoltaic photoelectric display subassembly still include second U type glass, two U type glass flanks of second U type glass and two U type glass flanks of first U type glass dislocation set relatively. Namely: one U-shaped glass side wing of the second U-shaped glass is positioned in the U-shaped glass inner plane of the first U-shaped glass, and the other U-shaped glass side wing of the second U-shaped glass is positioned outside the U-shaped glass inner plane of the first U-shaped glass. This arrangement is referred to as a nested arrangement.

According to the utility model discloses, still provide a U type glass photovoltaic photoelectric display subassembly assembly, including two above-mentioned U type glass photovoltaic photoelectric display subassemblies, arrange the setting in proper order along U type glass internal planes place plane.

According to the utility model, when the U-shaped glass photovoltaic photoelectric display assembly arranged in a nested manner is assembled into an assembly, two U-shaped glass side wings of the second U-shaped glass and two U-shaped glass side wings of the first U-shaped glass are arranged in a relative dislocation manner; therefore, one U-shaped glass side wing of the second U-shaped glass is positioned in the U-shaped glass inner plane of the first U-shaped glass; the other U-shaped glass side wing of the second U-shaped glass is positioned outside the U-shaped glass inner plane of the first U-shaped glass, namely positioned in the U-shaped glass inner plane of the other first U-shaped glass.

According to the utility model discloses, the adhesive material that the bond line adopted can be EVA or other adhesive material, the used material of protection backplate can be TPT/PET or other materials. The adhesive layer and the protective back plate are transparent.

According to the utility model discloses, still provide and decorate the outer wall including above-mentioned U type glass photovoltaic photoelectric display subassembly. The utility model discloses a U type glass photovoltaic photoelectric display subassembly can regard as the outer wall of building, decorate, has multiple functional effects such as solar photovoltaic electricity generation, photoelectric display.

According to the utility model discloses, can control U type glass photovoltaic photoelectric display subassembly through corresponding control system, adjustment display pattern or dynamic video image. The U-shaped glass photovoltaic photoelectric display assembly can be maintained and replaced at any time according to needs, and is convenient and flexible.

According to the utility model discloses, U type glass photovoltaic photoelectric display module's application step as follows:

(1) taking U-shaped glass as a mother board, firstly adopting EVA (ethylene vinyl acetate) or other bonding materials to paste an LED display device in the plane of the U-shaped glass, then pasting a layer of polycrystalline silicon solar cells or monocrystalline silicon solar cells or other solar cells, and finally pasting a TPT (thermoplastic vulcanizate)/PET (polyethylene terephthalate) or other material protection back board; or a layer of cadmium telluride thin-film solar cell is plated in the plane in the U-shaped glass, and then a layer of LED display device is bonded through EVA or other bonding materials. The U-shaped glass photovoltaic photoelectric display assembly is formed by adopting the method.

(2) The U-shaped glass photovoltaic photoelectric display assembly is bonded and fixed by glass cement to form a combination body which is used as an enclosure and decoration material of a side wall, a roof and the like of a building, and the single assemblies are not fixed by a metal frame.

(3) The solar cell is utilized to realize photovoltaic power generation in daytime, electric energy is provided for a power grid or a user, and the module is enabled to display patterns or dynamic video images through the power supply display control system. At night, the components can be made to display patterns or dynamic video images through the corresponding control system.

(4) And (4) dismantling the edge covering structure as required, and dismantling the individual assembly for maintenance and replacement.

The present invention has not been described in detail, all in accordance with the prior art in this field.

The technical difficulty of the utility model lies in:

(1) and assembling the U-shaped glass with an LED display device and a solar cell.

(2) The U-shaped glass photovoltaic photoelectric display assembly can realize solar photovoltaic power generation and can also carry out LED photoelectric display.

(3) And bonding the U-shaped glass, the LED display device, the solar cell, the protective back plate and the like to form the safety glass assembly.

Compared with the prior art, the utility model has the following advantage:

1. the utility model discloses give solar energy power generation, photoelectric display function with traditional U type glass building material, make U type glass photoelectric display subassembly have building material, solar energy power generation and photoelectric display triple functions.

2. The U-shaped glass photovoltaic photoelectric display module can realize solar photovoltaic power generation in daytime and provide electric energy for users; and at night, the LED is used for realizing photoelectric display, brightening and beautifying the environment.

3. The utility model discloses because the adhesive action of binder makes U type glass photovoltaic photoelectric display subassembly become safety glass, even glass takes place the breakage because of exogenic action and can not drop glass pieces yet, still can keep in the frame completely, greatly reduced glass pieces to the injury of people.

4. The utility model discloses a U type glass photovoltaic photoelectric display subassembly carries out double wing to wing installation, inner cladding formula installation and cover embedding formula installation with the former piece of U type glass, with photovoltaic photoelectric display device and surrounding environment separation, can pollution such as separation steam, dust, realizes characteristics such as all-weather resistant, improves U type glass photovoltaic photoelectric display subassembly's life. Meanwhile, the multifunctional wall can be mounted in a single layer or any combination mode, and has multiple functions of outer wall decoration, power generation, display and brightening.

5. The utility model discloses U type glass photovoltaic photoelectric display subassembly is controlled to the corresponding control system of accessible, can adjust the display pattern wantonly. The utility model discloses simple structure, intensity height, safe and reliable, production simple to operate, change the maintenance convenient, do not limit the area, need not the frame support, but aspects such as wide application in building are builded, the outer wall is decorated, the city beautifies, photoelectricity show, advertising.

Drawings

Fig. 1 is a schematic diagram of the cross-sectional structure of the U-shaped glass mother plate of the present invention.

Fig. 2 is the cross section structure schematic diagram of the U-shaped glass photovoltaic display module of the monocrystalline or polycrystalline silicon solar cell of the present invention.

FIG. 3 is a schematic diagram of the cross-sectional structure of a cadmium telluride thin film solar cell U-shaped glass photovoltaic display module according to the present invention.

Fig. 4 is the utility model discloses U type glass photovoltaic photoelectric display subassembly individual layer package assembly schematic diagram.

Fig. 5 is the cross-sectional structure diagram of the double-U-shaped glass inner package assembly formed by the U-shaped glass photovoltaic photoelectric display assembly and the original U-shaped glass sheet.

Fig. 6 is a schematic view of the cross section structure of the double U-shaped glass inner cladding assembly.

Fig. 7 is a schematic view of the cross-sectional structure of the double U-shaped glass assembly formed by assembling the U-shaped glass photovoltaic display assembly and the U-shaped glass raw sheet wing to wing.

Fig. 8 is a schematic view of the cross-sectional structure of the double U-shaped glass assembly formed by the wing-to-wing assembly of the present invention.

Fig. 9 is the schematic cross-sectional structure diagram of the double-U-shaped glass assembly formed by the U-shaped glass photovoltaic display assembly and the U-shaped glass sheet embedded assembly.

Fig. 10 is a schematic view of the vertical surface structure of the U-shaped glass photovoltaic display module assembly of the present invention.

Wherein: 1-a U-shaped glass inner plane; 2-U-shaped glass side wing; 3-an adhesive layer; 4-LED display devices; 5-a solar cell; 6-protective back plate; and 7, cadmium telluride thin film solar cell.

Detailed Description

The present invention will be further described with reference to the following detailed description of illustrative embodiments, but is not limited thereto.

In the embodiment, the adhesive material used for the adhesive layer 3 may be EVA or other adhesive materials, and the material used for the protective backing 6 may be TPT/PET or other materials. The adhesive layer 3 and the protective back plate 6 are transparent.

Example 1

As shown in fig. 1 and 2, a U-shaped glass photovoltaic photoelectric display assembly includes a first U-shaped glass, an LED display device 4 and a solar cell 5, where the U-shaped glass includes a U-shaped glass inner plane 1 and U-shaped glass side wings 2 located at two sides of the U-shaped glass inner plane 1, the LED display device 4 and the solar cell 5 are adhered to the U-shaped glass inner plane 1 through an adhesive layer 3, and the solar cell is connected to the LED display device through a circuit;

the LED display device 4 and the solar cell 5 are overlapped, adhered and arranged on the U-shaped glass inner plane 1 through the adhesive layer 3, the LED display device 4 is adhered and arranged on the U-shaped glass inner plane 1 through the adhesive layer 3, and the solar cell 5 is adhered and arranged on the LED display device 4 through the adhesive layer 3;

the solar cell 5 is a polycrystalline silicon solar cell or a monocrystalline silicon solar cell.

Example 2

The U-shaped glass photovoltaic display module of example 1, except that:

the solar cell 5 is also provided with a protective back plate 6 through the bonding layer 3.

Firstly, a layer of LED display device 4 is pasted in a U-shaped glass inner plane 1 through an EVA bonding material, then a layer of polycrystalline silicon solar cell or monocrystalline silicon solar cell is pasted on the LED display device, and finally a protective back plate 6 is pasted, so that double functions of solar photovoltaic power generation and photoelectric display are realized, as shown in figure 2.

Example 3

As shown in fig. 3, a U-shaped glass photovoltaic photoelectric display module includes a first U-shaped glass, an LED display device 4 and a solar cell 5, where the U-shaped glass includes a U-shaped glass inner plane 1 and U-shaped glass side wings 2 located at two sides of the U-shaped glass inner plane 1, the LED display device 4 and the solar cell 5 are adhered to the U-shaped glass inner plane 1 through an adhesive layer 3, and the solar cell is connected to the LED display device through a circuit;

the LED display device 4 and the solar cell 5 are overlapped and adhered on the U-shaped glass inner plane 1 through the adhesive layer 3, the solar cell 5 is adhered on the U-shaped glass inner plane 1 through the adhesive layer 3, and the LED display device 4 is adhered on the solar cell 5 through the adhesive layer 3;

the solar cell 5 is a cadmium telluride thin film solar cell 7.

Firstly, a layer of cadmium telluride thin-film solar cell 7 is plated in a U-shaped glass inner plane 1, and then a layer of LED display device 4 is pasted through EVA to form a U-shaped glass photovoltaic photoelectric display assembly, so that double functions of solar photovoltaic power generation and photoelectric display are realized, as shown in figure 3.

Example 4

The U-shaped glass photovoltaic display module of example 2, except that:

the LED display device 4 is also provided with a protective back plate 6 adhered thereto by an adhesive layer 3.

Example 5

As shown in fig. 5, a U-shaped glass photovoltaic photoelectric display module has the same structure as that of embodiment 3, except that:

the U-shaped glass photovoltaic photoelectric display assembly further comprises second U-shaped glass, and the two U-shaped glass side wings 2 of the second U-shaped glass are oppositely arranged on the inner sides of the two U-shaped glass side wings 2 of the first U-shaped glass. This arrangement is called an inner cladding arrangement, and the distance between the two U-shaped glass side wings 2 of the second U-shaped glass is smaller than the distance between the two U-shaped glass side wings 2 of the first U-shaped glass.

Another U-shaped glass and the U-shaped glass photovoltaic photoelectric display assembly are selected for inner package assembly to form the inner package U-shaped glass photovoltaic photoelectric display assembly, as shown in fig. 5.

Example 6

As shown in fig. 7, a U-shaped glass photovoltaic photoelectric display module has the same structure as that of embodiment 1, except that:

the U-shaped glass photovoltaic photoelectric display assembly further comprises second U-shaped glass, and the two U-shaped glass side wings 2 of the second U-shaped glass and the two U-shaped glass side wings 2 of the first U-shaped glass are overlapped and oppositely arranged. This arrangement is called a wing-to-wing arrangement, and the distance between the two U-shaped glass side wings 2 of the second U-shaped glass is equal to the distance between the two U-shaped glass side wings 2 of the first U-shaped glass.

The U-shaped glass photovoltaic photoelectric display module is assembled with another U-shaped glass raw sheet wing to form a U-shaped glass photovoltaic photoelectric display module, as shown in fig. 7.

Example 7

The utility model provides a U type glass photovoltaic photoelectric display subassembly, the structure is the same as embodiment 1, the difference is:

the U-shaped glass photovoltaic photoelectric display assembly further comprises second U-shaped glass, and the two U-shaped glass side wings 2 of the second U-shaped glass and the two U-shaped glass side wings 2 of the first U-shaped glass are arranged in a staggered mode relatively. Namely: one U-shaped glass side wing 2 of the second U-shaped glass is positioned in the U-shaped glass inner plane 1 of the first U-shaped glass, and the other U-shaped glass side wing 2 of the second U-shaped glass is positioned outside the U-shaped glass inner plane 1 of the first U-shaped glass. This arrangement is referred to as a nested arrangement.

Example 8

As shown in fig. 4, a U-shaped glass photovoltaic photoelectric display module assembly includes three U-shaped glass photovoltaic photoelectric display modules described in embodiment 1, which are sequentially arranged along a plane of a plane 1 in the U-shaped glass.

The U-shaped glass photovoltaic photoelectric display component is bonded and fixed by the U-shaped glass side wings 2 through glass cement to form a single-layer assembly, as shown in fig. 4.

Example 9

As shown in fig. 6, a U-shaped glass photovoltaic photoelectric display module assembly includes three U-shaped glass photovoltaic photoelectric display modules according to embodiment 5, which are sequentially arranged along a plane of a U-shaped glass inner plane 1.

The U-shaped glass side wings 2 are attached, bonded and fixed to form a combined body through glass cement by the internally-wrapped U-shaped glass photovoltaic photoelectric display assembly, as shown in fig. 6.

Example 10

As shown in fig. 8, a U-shaped glass photovoltaic photoelectric display module assembly includes three U-shaped glass photovoltaic photoelectric display modules according to embodiment 6, which are sequentially arranged along a plane of a U-shaped glass inner plane 1.

The U-shaped glass photovoltaic display module assembled wing to wing in example 6 is bonded and fixed to the U-shaped glass side panel 2 by glass cement to form an assembly, as shown in fig. 8.

Example 11

As shown in fig. 9, a U-shaped glass photovoltaic photoelectric display module assembly includes three U-shaped glass photovoltaic photoelectric display modules according to embodiment 7, which are sequentially arranged along a plane of a U-shaped glass inner plane 1.

In the embodiment, the U-shaped glass photovoltaic photoelectric display assembly arranged in a sleeving and embedding manner is assembled into the assembly, and the two U-shaped glass side wings 2 of the second U-shaped glass and the two U-shaped glass side wings 2 of the first U-shaped glass are arranged in a relative dislocation manner; therefore, one U-shaped glass side wing 2 of the second U-shaped glass is positioned in the U-shaped glass inner plane 1 of the first U-shaped glass; the other U-glass side wing 2 of the second U-glass is located outside the U-glass inner plane 1 of the first U-glass, i.e. inside the U-glass inner plane 1 of the other first U-glass.

The U-shaped glass photovoltaic photoelectric display module and the U-shaped glass original sheet are assembled in a nested manner to form a U-shaped glass photovoltaic photoelectric display module assembly, as shown in fig. 9.

Example 12

As shown in fig. 10, a U-shaped glass photovoltaic display module decorative exterior wall includes a U-shaped glass photovoltaic display module according to any one of embodiments 1 to 7.

The U-shaped glass photovoltaic photoelectric display assembly can be used as an outer wall of a building, a decorative outer wall or independently installed to realize solar photovoltaic power generation and photoelectric display, as shown in fig. 10.

The utility model discloses can control U type glass photovoltaic photoelectric display subassembly through corresponding control system, adjustment display pattern or dynamic video image.

Claims (11)

1. The utility model provides a U type glass photovoltaic photoelectric display subassembly, its characterized in that, this U type glass photovoltaic photoelectric display subassembly include first U type glass, LED display device and solar cell, U type glass include U type glass internal planes and the U type glass flank that is located U type glass internal planes both sides, LED display device and solar cell pass through the bond line bonding and set up on U type glass internal planes, solar cell passes through the circuit and is connected with LED display device.

2. A U-glass photovoltaic display module as claimed in claim 1 wherein the LED display device and the solar cell are adhesively mounted in the U-glass on the flat surface by an adhesive layer, the LED display device is adhesively mounted in the U-glass on the flat surface by an adhesive layer, and the solar cell is adhesively mounted in the LED display device by an adhesive layer.

3. A U-glass photovoltaic photoelectric display module according to claim 2, wherein the solar cell is a polycrystalline silicon solar cell or a single crystal silicon solar cell.

4. A U-glass photovoltaic solar display module according to claim 3 wherein said solar cell is further provided with a protective backsheet adhered by an adhesive layer.

5. A U-glass photovoltaic display module according to claim 1, wherein said LED display device and said solar cell are laminated and bonded by an adhesive layer on the inner surface of the U-glass, the solar cell is bonded and bonded by an adhesive layer on the inner surface of the U-glass, and the LED display device is bonded and bonded by an adhesive layer on the solar cell.

6. The U-shaped glass photovoltaic solar display module according to claim 5, wherein said solar cell is a cadmium telluride thin film solar cell.

7. A U-shaped glass photovoltaic photoelectric display assembly according to claim 6, wherein a protective back sheet is further arranged on the LED display device through an adhesive layer in an adhesion mode.

8. A U-glass photovoltaic display module according to any of claims 1 to 7, further comprising a second U-glass, wherein the two U-glass side wings of the second U-glass are oppositely disposed inside the two U-glass side wings of the first U-glass;

or the two U-shaped glass side wings of the second U-shaped glass and the two U-shaped glass side wings of the first U-shaped glass are overlapped and oppositely arranged;

or the two U-shaped glass side wings of the second U-shaped glass and the two U-shaped glass side wings of the first U-shaped glass are arranged in a relative staggered mode.

9. A U-glass photovoltaic display module assembly comprising two or more U-glass photovoltaic display modules according to any one of claims 1 to 7 arranged in sequence along a plane in which a plane in the U-glass lies.

10. A U-shaped glass photovoltaic photoelectric display assembly, which is characterized by comprising more than two U-shaped glass photovoltaic photoelectric display assemblies according to claim 8, wherein the U-shaped glass photovoltaic photoelectric display assemblies are sequentially arranged along the plane of the plane in the U-shaped glass.

11. A decorative exterior wall, characterized in that it comprises a U-shaped glass photovoltaic display module according to any one of claims 1 to 7.

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