阅读说明：本技术 一种高功效太阳能集成转化方法 (High-efficiency solar energy integration and conversion method ) 是由 刘念 于 2020-07-29 设计创作，主要内容包括：本发明涉及一种高功效太阳能集成转化方法,所述高功效太阳能集成转化方法包括如下步骤：S1、选择太阳能集成板；S2、对太阳能集成板进行焊接针脚处理；S3、采用耐高温玻璃材质进行封装得到初步的太阳能采集颗粒；S4、对封装完成的初步的太阳能采集颗粒针脚进行切脚处理,得到太阳能采集颗粒；S5、将太阳能采集颗粒与电路板进行安装组合,得到太阳能采集装置；S6、利用太阳能采集装置,对进行太阳能发电。该高功效太阳能集成转化方法,当单个高功效太阳能集成转化装置出现损坏的情况下,可以将单个的高功效太阳能集成转化装置进行更换,降低了维修成本,采用多个太阳能采集颗粒对光线进行聚焦,提高了太阳能的利用率。(The invention relates to a high-efficiency solar energy integration and transformation method, which comprises the following steps: s1, selecting a solar energy integrated plate; s2, performing welding stitch processing on the solar integrated plate; s3, packaging the solar energy collecting particles by adopting a high-temperature resistant glass material to obtain primary solar energy collecting particles; s4, performing pin cutting treatment on the packaged primary pins of the solar collecting particles to obtain solar collecting particles; s5, mounting and combining the solar energy collecting particles and the circuit board to obtain a solar energy collecting device; and S6, utilizing the solar energy collecting device to perform solar energy power generation. According to the high-efficiency solar energy integration and conversion method, when a single high-efficiency solar energy integration and conversion device is damaged, the single high-efficiency solar energy integration and conversion device can be replaced, maintenance cost is reduced, a plurality of solar energy collection particles are adopted to focus light, and the utilization rate of solar energy is improved.)

1. A high-efficiency solar energy integration and conversion method is characterized in that: the high-efficiency solar integrated conversion method comprises the following steps:

s1, selecting a solar energy integrated plate;

s2, performing welding stitch processing on the solar integrated plate;

s3, packaging the solar energy collecting particles by adopting a high-temperature resistant glass material to obtain primary solar energy collecting particles;

s4, performing pin cutting treatment on the packaged primary pins of the solar collecting particles to obtain solar collecting particles;

s5, mounting and combining the solar energy collecting particles and the circuit board to obtain a solar energy collecting device;

and S6, utilizing the solar energy collecting device to carry out solar energy power generation.

2. The method of claim 1, wherein the method comprises the following steps: in step S1, the length and width of the solar energy collecting plate are all 0.2 cm.

3. The method of claim 2, wherein the method comprises the following steps: in the step S2, the surface of the solar panel packaged by the high temperature resistant glass material is arc-shaped, the diameter of the packaged solar panel is 0.4cm, the height of the packaged solar panel is 0.7cm, and the heat resistance temperature of the high temperature resistant glass material is 800 ℃ to 1200 ℃.

4. The method of claim 3, wherein the method comprises the following steps: the sunlight is focused through the arc-shaped structure of the packaged solar integrated plate, the focusing point is concentrated on the solar integrated plate, and the light energy is converted into heat energy through the solar integrated plate.

5. A solar energy harvesting particle according to any one of claims 1 to 4, comprising: solar energy collection board (1), stitch (2), glass encapsulation (3) and arc focus face (4), its characterized in that: the solar energy collecting plate is characterized in that pins (2) are connected to the lower portion of the solar energy collecting plate (1), the solar energy collecting plate (1) is arranged inside a glass package (3), and the top of the glass package (3) is an arc-shaped focusing surface (4).

6. The solar harvesting particle of claim 5, wherein: the solar energy collecting particles are uniformly arranged on the circuit board.

Technical Field

The invention relates to the technical field of new energy equipment, in particular to a high-efficiency solar energy integration and conversion method.

Background

Solar photovoltaic power generation refers to a power generation mode of directly converting light energy into electric energy without a thermal process. The method comprises photovoltaic power generation, photochemical power generation, photoinduction power generation and photobiological power generation. Photovoltaic power generation is a direct power generation method that utilizes a solar-grade semiconductor electronic device to effectively absorb solar radiation energy and convert the solar radiation energy into electric energy, and is the mainstream of current solar power generation.

Solar power generation generally adopts a solar panel to generate power. However, the surface of the solar panel is easily damaged, and after the surface of the solar panel is damaged, the whole solar panel needs to be replaced, and the solar panel on the market cannot focus solar energy to generate electricity, so that the generating efficiency is low, and therefore, a high-efficiency solar energy integration and conversion method is provided for solving the problems.

Disclosure of Invention

The invention aims to provide a high-efficiency solar energy integration and conversion method, which aims to solve the problems that the surface of a solar panel proposed by the background art is easy to damage, the whole solar panel needs to be replaced after the surface of the solar panel is damaged, the solar panel on the market cannot focus solar energy for power generation, and the power generation efficiency is low.

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency solar energy integrated transformation method comprises the following steps:

s1, selecting a solar energy integrated plate;

s2, performing welding stitch processing on the solar integrated plate;

s3, packaging the solar energy collecting particles by adopting a high-temperature resistant glass material to obtain primary solar energy collecting particles;

s4, performing pin cutting treatment on the packaged primary pins of the solar collecting particles to obtain solar collecting particles;

s5, mounting and combining the solar energy collecting particles and the circuit board to obtain a solar energy collecting device;

and S6, utilizing the solar energy collecting device to carry out solar energy power generation.

Preferably, in step S1, the solar energy collecting plate has a length and a width of 0.2 cm.

Preferably, in the step S2, the surface of the solar panel packaged by the high temperature resistant glass material is arc-shaped, the diameter of the packaged solar panel is 0.4cm, the height of the packaged solar panel is 0.7cm, and the heat resistance temperature of the high temperature resistant glass material is 800-1200 ℃.

Preferably, sunlight is focused through the arc-shaped structure of the packaged solar integrated plate, a focusing point is concentrated on the solar integrated plate, and light energy is converted into heat energy through the solar integrated plate.

Preferably, the solar energy collecting particle comprises: the solar energy collecting plate comprises a solar energy collecting plate body, pins, a glass package and an arc-shaped focusing face, wherein the pins are connected to the lower portion of the solar energy collecting plate body, the solar energy collecting plate body is arranged inside the glass package, and the arc-shaped focusing face is arranged at the top of the glass package.

Preferably, the solar energy collecting particles are uniformly mounted on the circuit board.

Compared with the prior art, the invention has the beneficial effects that: the high-efficiency solar energy integrated conversion method comprises the following steps:

1. when the single high-efficiency solar integrated conversion device is damaged, the single high-efficiency solar integrated conversion device can be replaced, and the maintenance cost is reduced.

2. The solar energy collecting particles are adopted to focus light rays, so that the utilization rate of solar energy is improved, and if the focusing areas are equal, the solar energy focused by a single focusing surface is not equal to the solar energy focused by a single focusing surface with the same area formed by adding a plurality of focusing surfaces but increased in a geometric multiple manner, so that the utilization rate of the solar energy is improved by adopting the solar energy collecting particles.

Drawings

FIG. 1 is a schematic perspective view of a solar energy collecting particle according to the present invention in an uncut state;

FIG. 2 is a schematic left-side sectional view of a solar energy collecting particle according to the present invention in an uncut state;

FIG. 3 is a schematic left view of a solar collector particle in a corner cut state according to the present invention;

fig. 4 is a schematic perspective view of a solar energy collecting particle in a corner cut state according to the present invention.

In the figure: 1. a solar energy collection panel; 2. a stitch; 3. glass packaging; 4. an arc-shaped focal plane.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a high-efficiency solar energy integrated transformation method comprises the following steps:

s1, selecting a solar energy integrated plate;

s2, performing welding stitch processing on the solar integrated plate;

s3, packaging the solar energy collecting particles by adopting a high-temperature resistant glass material to obtain primary solar energy collecting particles;

s4, performing pin cutting treatment on the packaged primary pins of the solar collecting particles to obtain solar collecting particles;

s5, mounting and combining the solar energy collecting particles and the circuit board to obtain a solar energy collecting device;

and S6, utilizing the solar energy collecting device to carry out solar energy power generation.

Further, in step S1, the length and width of the solar energy collecting plate are both 0.2 cm.

Further, in the step S2, the surface of the solar energy collecting plate packaged by the high temperature resistant glass material is arc-shaped, the diameter of the packaged solar energy collecting plate is 0.4cm, the height of the packaged solar energy collecting plate is 0.7cm, and the heat resistant temperature of the high temperature resistant glass material is 800-1200 ℃.

Furthermore, sunlight is focused through the arc-shaped structure of the packaged solar integrated plate, a focusing point is concentrated on the solar integrated plate, and light energy is converted into heat energy through the solar integrated plate.

Further, the solar energy collecting particle comprises: solar energy collection board 1, stitch 2, glass encapsulation 3 and arc focus face 4, the below of solar energy collection board 1 is connected with stitch 2, solar energy collection board 1 sets up in glass encapsulation 3's inside, 3 tops of glass encapsulation are arc focus face 4, adopt single solar energy to gather the granule, and under the condition that the damage appears in single solar energy collection granule, can change single solar energy collection granule, reduced cost of maintenance. The solar energy collecting particles are adopted to focus the light, so that the utilization rate of the solar energy is improved, if the focusing areas are equal, the solar energy focused by a single focusing surface is not equal to the solar energy focused by a single focusing surface with the same area formed by adding a plurality of focusing surfaces, but is increased in a geometric multiple manner, and therefore, the utilization rate of the solar energy is improved by adopting the solar energy collecting particles

Furthermore, the solar energy collecting particles are uniformly arranged on the circuit board.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.