TWM593524U - Improved structure of solar power generation device - Google Patents

Abstract

The present invention is an improved structure of a solar power generation device, which includes a stage, a plurality of solar panels, and at least one diaphragm. The plurality of solar panels are arranged in an array above the stage, and each of the solar panels is arranged at the same slope, with a low end 1. A high-end, with a space between the high-end and low-end of the adjacent solar panel, and the solar panel is provided with a light-receiving surface on the top surface and the back surface that can receive light and generate electricity; and the diaphragm is located between the two adjacent solar panels Part of the position, and corresponding to the oblique setting of the solar panel, and the diaphragm can be made of a total reflection material or a light-transmitting refractive material; by this creation, it can improve better power generation efficiency.

Description

Improved structure of solar power generation device

This creation relates to an improved structure of a solar power generation device, mainly referring to a structure that can improve the efficiency of solar power generation.

Solar energy is clean energy and can reduce air pollution caused by coal-fired power generation. The solar power generation device mainly has a carrier, and a plurality of solar panels are arranged above the carrier, and the top of the solar panel can receive the light receiving surface of the power generation, and the Each solar panel is generally arranged in the same diagonal direction to reduce dust adhesion and facilitate drainage, and there is a space between adjacent solar panels to provide a diagonal angle of sunlight that can still be irradiated to the light-receiving surface to generate electricity.

However, in the aforementioned structure, when the sunlight hits the position of the space between two adjacent solar panels, the sunlight at that position cannot be used to generate electricity, and when it rains, rainwater tends to accumulate on the stage at the position of the space, causing the stage to be easily rusted and damaged. .

The purpose of this creation is to provide a structure that can provide solar power efficiency.

Another purpose of this creation is to provide a better drainage structure for solar power generation devices.

This creation includes a stage, a plurality of solar panels, and at least one diaphragm. The plurality of solar panels are arranged in an array above the stage. The solar panels are arranged in the same oblique direction, with a low end, a high end, and adjacent solar energy. There is a space between the high end and the low end of the board, and the solar panel is provided with a light-receiving surface capable of receiving light and generating electricity at least on the top surface; and the membrane is provided at the position of the space between the two adjacent solar panels and corresponds to the different oblique directions of the solar panel Settings.

Further, the membrane can be rolled up or unrolled.

Further, one end of the diaphragm is joined to the high end of a solar panel, and the other end is joined to the position of the stage on the lower end side of the other solar panel, and the position of the stage is provided with a drainage groove that can lead rainwater out of the stage.

Further, the diaphragm is made of a totally reflective material or a light-transmitting refractive material, and the solar panel is provided with light-receiving surfaces on the top surface and the back surface respectively, which can receive light and generate electricity.

In this creation, when the solar power generation device needs to be maintained, the diaphragm can be retracted to facilitate maintenance operations, and the diaphragm can be unfolded at ordinary times. When it rains, rainwater can flow down the diaphragm to the drainage groove and be discharged, which can prevent the accumulation of water at the position of the partition. Corrosion of the stage.

When the diaphragm of this creation is a totally reflective material, the sunlight can directly illuminate the top light-receiving surfaces of two adjacent solar panels to generate electricity, and the sunlight at the position of the partition can be reflected to the top light-receiving surface of a solar panel when illuminating the diaphragm, which can be improved Better power generation efficiency.

When the diaphragm of this creation is a light-transmitting and refracting material, a solar panel with a double-sided light-receiving surface can be used. The sunlight can directly illuminate the top light-receiving surfaces of two adjacent solar panels to generate electricity. It can be refracted to generate electricity on the back light-receiving surface of a solar panel, which can improve better power generation efficiency.

Please refer to Figures 1 and 2. This creation includes a stage 1, a plurality of solar panels 2, and a diaphragm 3. The stage 1 can be set on land, water, high buildings, or other suitable locations; and the plurality of solar panels 2 Arranged above the stage 1, the solar panels 2 are arranged in the same oblique direction, with a low end 21 and a high end 22, and there is a space 23 between the high end 22 and the low end 21 of the adjacent solar panel 2, and The solar panel 2 is provided with light receiving surfaces 24 and 25 on the top surface and the back surface, respectively, which can receive light and generate electricity.

The diaphragm 3 is disposed at the position of the space 23 between two adjacent solar panels 2 and is arranged diagonally corresponding to the solar panels 2 and can be retracted or unfolded. The diaphragm 3 can be made of a totally reflective material or a light-transmitting refractive material , One end is joined to the high end 22 of a solar panel 2 and the other end is joined to the position of the carrier 1 on the side of the low end 21 of the other solar panel 2, and the position of the carrier 1 is set to discharge rainwater to the row outside the carrier 1 The sink 4.

Please refer to FIG. 3, this creation can be used to maintain the membrane 3 when the solar power generation device is maintained for easy maintenance operations. As shown in FIG. 4, the membrane 3 can be unfolded at ordinary times. When it rains, rainwater can flow down the membrane 3 When the drain 4 is discharged again, it is possible to prevent the platform 1 from corroding due to water accumulation at the position of the partition 23.

Please refer to FIG. 5, when the diaphragm 3 of this creation is a totally reflective material, the sunlight can directly illuminate the top light-receiving surface 24 of two adjacent solar panels 2 to generate electricity, and the sunlight at the position of the partition 23 can be reflected again when illuminating the diaphragm 3 Up to the light-receiving surface 24 on the top of a solar panel 2 can improve better power generation efficiency.

Please refer to FIG. 6, when the film 3 of this creation is a light-transmitting refractive material, a solar panel 2 with double-sided light-receiving surfaces 24, 25 can be used, and the sunlight can directly illuminate the top light-receiving surface 24 of two adjacent solar panels 2 to generate electricity In addition, when the sunlight at the position of the partition portion 23 irradiates the diaphragm 3, it can be refracted and refracted to the back light-receiving surface 25 of a solar panel 2 to generate electricity, which can improve better power generation efficiency.

Therefore, as mentioned above, this creation can have better power generation efficiency and drainage efficiency, and the foregoing embodiment is an example of the creation, not a limitation of this creation, and any equivalent changes based on the spirit of this creation should also fall within the scope of this creation .

1: carrier 2: Solar panel 21: Low-end 22: High-end 23: Spacer 24: light-receiving surface 25: light-receiving surface 3: diaphragm 4: Drainage trough

Figure 1 is a schematic side view of this creation.

Figure 2 is a top view of this creation.

Figure 3 is a schematic diagram of the film rewinding of this creation.

Figure 4 is a schematic diagram of rainwater guided by this creation.

Figure 5 is a schematic diagram of the solar panel receiving light when the film of this creation is totally reflective.

Figure 6 is a schematic diagram of the solar panel receiving light when the film of this creation is a light-transmitting refractive material.

1: carrier

2: Solar panel

21: Low-end

22: High-end

23: Spacer

24: light-receiving surface

25: light-receiving surface

3: diaphragm

4: Drainage trough

Claims (6)

An improved structure of a solar power generation device, including: One carrier A plurality of solar panels are arranged in an arrangement above the stage, the solar panels are arranged in the same oblique direction, with a low end and a high end, and there is a space between the high end and the low end of the adjacent solar panel, and the solar panel is at least A light-receiving surface capable of receiving light and generating electricity is provided on the top surface; At least one diaphragm is arranged at the position of the space between two adjacent solar panels, and is arranged diagonally corresponding to different solar panels. The improved structure of the solar power generation device according to claim 1, wherein the membrane can be rolled up or unrolled. The improved structure of the solar power generation device according to claim 1, wherein one end of the diaphragm is joined to the high end of a solar panel, and the other end is joined to the stage position on the side of the lower end of the other solar panel. The improved structure of the solar power generation device as described in claim 3, wherein the position of the carrier on the lower end side of the solar panel is provided with a drainage channel that can lead rainwater to the outside of the carrier. The improved structure of the solar power generation device according to claim 1, wherein the diaphragm is made of totally reflective material. The improved structure of the solar power generation device according to claim 1, wherein the diaphragm is made of a light-transmitting refractive material, and the solar panel is provided with a light-receiving surface on the top surface and the back surface respectively, which can receive light and generate electricity.

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