WO2024207923A1 - Composite solar panel assembly mounted on street lamp pole - Google Patents

Abstract

Disclosed in the present utility model is a composite solar panel assembly mounted on a street lamp pole, comprising a solar panel and a bottom pad on the back of the solar panel. A solar panel surface is protected by a protective plate, and the solar panel and the protective plate are press-fitted by means of a thin film. An adhesive is injected between the protective plate and the solar panel and the bottom pad to fix the solar panel on the bottom pad. The solar panel surface is protected by the protective plate, so as to provide a good waterproof property, and the solar panel and the protective plate are press-fitted by means of a polymer material EVA film; the bottom pad and the solar panel are sealingly connected by means of the adhesive; and the bottom pad is of an open type mounting structure and is not limited by a mounting space; therefore, the present utility model achieves convenient and efficient mounting on construction sites, saves labor costs, is safe to transport, and is reliable and not liable to damage. Moreover, the shape and the size precision of the bottom pad are stable after formation.

Description

A composite solar panel assembly installed on a street light pole Technical Field

The utility model relates to the technical field of energy saving, in particular to a composite solar panel assembly installed on a street light pole.

Background Art

At present, the solar panel components on the market all adopt an assembled structure with a frame. The three pieces of glass plate, silicon wafer and lower protective plate are bonded together and placed in an outer frame. Most of the outer frames are made of L-angle plates, and then the edges of the solar panels placed in the frame are fixed in the outer frame with special glue (as shown in Figure 1); there are also cases where the outer frame is made into a U shape, and the bonded solar panels are inserted into the U-shaped groove for assembly; installed on the bracket on the lamp pole, the overall shape of the street lamp cannot be unified and unsightly. The above two structures require a lot of manpower during assembly, and it is very difficult to achieve seamless splicing of the assembly corners, which is almost impossible, and the required waterproofing requirements are also high. None of them can be adapted to the requirements of street lamp poles, which are both beautiful and can ensure the long-term stability of product quality, easy installation and low cost.

In view of the above problems, relevant technical solutions have been disclosed in the prior art, such as patent application number: 201510719999X, application date: October 30, 2015, and the name of the invention is: a solar frame. The solar frame of the application includes a fixed base, a bracket is arranged on the fixed base, the bracket is arranged in a rectangular tube structure, a top plate is arranged on the top of the bracket, a support plate is arranged on one side of the bracket, the top plate is arranged in an arc shape, a clamping strip is arranged at one end of the support plate, a plurality of waterproof rubber strips are arranged on the clamping strip, and a plurality of waterproof rubber strips are arranged on the top plate; the solar frame in the scheme can clamp the solar silicon panel through the action of the top plate and the clamping strip, wherein the waterproof rubber strip can prevent rainwater from entering the connection of the silicon panel to prevent short circuit accidents, but in the scheme, the solar silicon panel is clamped by the top plate and the clamping strip, and the silicon panel needs to be clamped into the groove, which is not easy to operate during the assembly installation, and the installation of the solar silicon panel is not stable enough. Another example is the patent application number: 2020222213129, the application date: September 30, 2020, and the name of the invention is: a solar panel assembly that is easy to install. The solar panel assembly of the application includes a solar panel, an L-shaped outer frame against the back of the solar panel, and a hook installed on the L-shaped outer frame. Adhesive is injected between the solar panel and the L-shaped outer frame to fix the solar panel on the L-shaped outer frame. The L-shaped outer frame is welded together, and the hook is welded to the L-shaped outer frame through multiple sets of hanging pieces. However, the shape and dimensional accuracy of the welded combination are unstable, and multiple sets of hanging pieces restrict each other when hanging, which brings inconvenience to installation.

In summary, how to overcome the insufficiency of complex assembly of the outer frame of the existing solar panel assembly is a technical problem that urgently needs to be solved in the prior art.

Technical issues

The utility model solves the existing problems, overcomes the shortcomings of the existing solar panel assembly frame being complicated to assemble, and provides a composite solar panel assembly installed on a street light pole. The surface of the solar panel silicon wafer is protected by glass to prevent it from being bumped, weathered, or damp, and the bonding glass and the silicon crystal cell of the solar panel are hot pressed with a highly transparent polymer material EVA film. The bottom chassis with a pad is sealed and connected to the solar panel by an adhesive, and the bottom chassis is an open installation structure, which is not limited by the installation space, is convenient and efficient to install, and saves labor costs.

Technical Solutions

The technical solution adopted by the utility model is a composite solar panel assembly installed on a street light pole, including a solar panel and a base chassis on the back of the solar panel. The surface of the solar panel is protected by a protective plate, and a film is pressed between the two. Adhesive is injected between the protective plate and the solar panel and the base chassis to fix the solar panel on the base chassis.

Furthermore, the solar panel assembly is provided with a mounting component.

Furthermore, the mounting component is a hook mounted on the back of the base chassis for hanging on a lamp pole.

Furthermore, the mounting component is provided with mounting holes at both ends of the assembly, and a connector is used to directly fix the composite solar panel assembly on the lamp pole for application.

Furthermore, the bottom chassis is made of metal material or plastic material.

Furthermore, the shape of the bottom chassis is integral, or it can be manufactured as a whole and the middle part is punched out.

Furthermore, the solar panel assembly is configured as an arc structure or a plane structure.

Furthermore, the solar panels are made of solar power generation materials such as silicon crystals or by printing solar power generation materials on flexible films.

Furthermore, the protective plate is made of polymer plastic materials such as glass, ETFE or PTFE.

Furthermore, the film is a polymer material EVA film.

Beneficial Effects

The beneficial effects of the utility model compared with the prior art are as follows: the surface of the solar panel is protected by a protective plate which also has good waterproof performance, and the two are laminated with a polymer material EVA film; the bottom chassis and the solar panel are sealed and connected by adhesive, and the bottom chassis is an open installation structure, which is not limited by the installation space, and can be installed conveniently and efficiently at the construction site, saving labor costs. At the same time, it is safe, reliable and not easy to be damaged during transportation, and the shape and size accuracy of the bottom chassis after molding are stable.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 and FIG. 2 are schematic structural diagrams of the existing solar panel and outer frame assembly (gluing) according to the present invention.

FIG. 3 is a front view of the arc structure of the utility model.

FIG. 4 is an exploded view of the arc structure of the present invention.

FIG5 is a cross-sectional view of the arc-shaped structure of the present invention.

FIG. 6 is a schematic diagram showing the arc structure of the present invention being connected to a lamp pole via a hook.

FIG. 7 is a schematic diagram showing the arc structure of the present invention being connected to a lamp pole via a connecting piece.

FIG8 is a front view of the planar structure of the utility model.

FIG. 9 is a planar structural sectional view of the present utility model.

FIG. 10 is a schematic diagram showing the planar structure of the present invention being connected to a lamp pole via a hook.

FIG. 11 is a schematic diagram showing the connection between the planar structure of the present invention and the lamp pole via a connecting piece.

Best Mode for Carrying Out the Invention

As shown in Figures 1 to 11, a composite solar panel assembly installed on a street light pole includes a solar panel 1, a base chassis 2 on the back of the solar panel 1, the surface of the solar panel 1 is protected by a protective plate 6, a film 7 is pressed between the two, and an adhesive 4 is injected between the protective plate 6 and the solar panel 1 and the base chassis 2 to fix the solar panel 1 on the base chassis 2.

Adhesive 4 is injected into the gap between the back of the bottom chassis 2 opposite to the solar panel 1 and between the bottom chassis 2 opposite to the protective plate 6 and the side of the solar panel 1 .

The solar panel assembly is provided with a mounting component, through which the solar panel assembly can be mounted and fixed to the lamp pole.

The mounting component is a hook 3 mounted on the back of the base chassis 2 for hanging on a lamp pole.

Specifically in this embodiment, firstly, the hook 3 is assembled on the bottom chassis 2 with screws, and the hook 3 is pointed to the junction box. Then, the bottom edges of the bottom chassis 2 are arranged relative to each other and a gap for filling the adhesive 4 is left. The adhesive 4 is injected into the gap by a glue machine to realize the connection between the protective plate 6 and the solar panel 1 and the bottom chassis 2.

When installing the composite solar panel assembly of this embodiment, it is first connected to the corresponding electrical connector in the lamp pole 10 so as to output and receive the electrical energy converted from the sunlight received by the solar panel 1, and then the hook 3 configured for the composite solar panel assembly is aligned with the corresponding hanging hole on the lamp pole 10 or the fixed object to complete the installation. The corresponding number of composite solar panel assemblies is mounted according to the power of the lamp pole lamp.

As shown in Figures 6 and 10, the mounting component of this embodiment does not need a hook. The mounting component is to set mounting holes 9 at both ends of the component, and use a connector 8 to directly fix the composite solar panel component on the lamp pole 10 for application.

When installing the composite solar panel assembly of this embodiment, it is first connected to the corresponding electrical connector in the lamp pole 10 so as to output and receive the electrical energy converted from the sunlight received by the solar panel 1, and then the mounting holes 9 at both ends of the composite solar panel assembly are matched with the holes on the corresponding lamp pole 10 or fixed object, and the assembly is completed by installing the connector 8 in place. The corresponding number of composite solar panel assemblies can be mounted according to the power of the lamp pole lamp.

The solar panel assembly is configured as an arc structure or a plane structure.

As shown in Figures 7, 8, 9 and 10, the solar panel assembly is a planar structure, and the bottom chassis 2 is also a corresponding planar structure. Other structures are the same as the above embodiment.

The surface of the solar panel 1 is laminated with a protective plate 6 and a polymer EVA film 7 is laminated therebetween.

The bottom chassis 2 can be formed by metal material, plastic material, or other materials. The bottom chassis 2 can also be hollowed out by punching in the middle to reduce weight after the whole plate is pressed and formed.

The solar panel 1 is made of solar power generation materials such as silicon crystals, and can also be made of solar power generation materials printed on flexible films. It can also be made of single-junction perovskite cells, multi-junction perovskite cells (such as full perovskite stacked cells and perovskite-crystalline silicon stacked cells, etc.).

The above schematically describes the utility model and its implementation methods. This description is not restrictive. What is shown in the accompanying drawings is only one of the implementation methods of the utility model, and the actual structure is not limited to this. Therefore, if ordinary technicians in this field are inspired by it, without departing from the inventive purpose of the utility model, they can creatively design structural methods and embodiments similar to the technical solution, which should all fall within the protection scope of the utility model.

Claims (10)

A composite solar panel assembly mounted on a street light pole, characterized in that it includes a solar panel (1), a base chassis (2) on the back of the solar panel (1), the surface of the solar panel (1) is protected by a protective plate (6), the two are pressed together with a film (7), and an adhesive (4) is injected between the protective plate (6) and the solar panel (1) and the base chassis (2) to fix the solar panel (1) on the base chassis (2). The composite solar panel assembly mounted on a street light pole according to claim 1, wherein the solar panel assembly is provided with a mounting component. The composite solar panel assembly installed on a street light pole according to claim 2 is characterized in that: the mounting component is a hook (3) installed behind the base chassis (2) for hanging on the light pole. The composite solar panel assembly mounted on a street light pole according to claim 2 is characterized in that: the mounting component is a mounting hole (9) provided at both ends of the assembly, and a connector (8) is used to directly fix the composite solar panel assembly on the lamp pole (10) for application. The composite solar panel assembly mounted on a street light pole according to claim 1 is characterized in that the bottom chassis (2) is made of metal material or plastic material. The composite solar panel assembly mounted on a street light pole according to claim 5 is characterized in that the bottom chassis is integral in shape, or can be integrally manufactured with the middle portion punched out. The composite solar panel assembly mounted on a street light pole according to claim 1 is characterized in that the solar panel assembly is arranged in an arc structure or in a plane structure. The composite solar panel assembly installed on a street light pole according to claim 1 is characterized in that the solar panel (1) is made of solar power generation materials such as silicon crystals or is made of solar power generation materials printed on a flexible film. The composite solar panel assembly mounted on a street light pole according to claim 1 is characterized in that the protective plate is made of a polymer plastic material such as glass, ETFE or PTFE. The composite solar panel assembly mounted on a street light pole according to claim 1, characterized in that the film (7) is a polymer material EVA film.