KR20070082289A - A structure of sun-ray collecting board with reflector and the method of manufacturing sun-ray collecting board thereof - Google Patents

Abstract

A sunlight collecting board with a reflection board and a method for manufacturing the same are provided to collect effectively incident sunlight by using a reflection board, while reducing a required amount of expensive solar cells. A reflection board(10) which comes in contact with a solar cell board(20) has the same base length and longitudinal length as horizontal and vertical widths of the solar cell board. The reflection board is disposed to be outwardly inclined at an angle of 60 degrees to a horizontal axis of the solar cell board, so that the reflection board is completely assembled to each of four sides of the solar cell board.

Description

A structure of sun-ray collecting board with reflector and the method of manufacturing sun-ray collecting board

1 is a view showing a conventional solar light reflecting plate structure,

Figure 2 is a side cross-sectional view showing a structure of a solar light reflecting plate considering the incident angle of sunlight according to the present invention,

3 and 4 is a view for explaining a comparative embodiment in which each angle for comparing the effect of the angle of the solar light reflecting plate of the present invention,

Figure 5a is a plan view for explaining the reflection operation according to the incident angle of the solar light is coupled to the solar light reflecting plate module according to the present invention, 5b is a perspective view of the reflector module,

6 is a perspective view showing the overall appearance of the solar light collecting plate according to the present invention,

7 is a view illustrating an operating state in which the solar light collecting plate according to the present invention tracks the sun.

The present invention is characterized by the structure of the solar reflector used to charge the solar cell, and more specifically, while reducing the requirement of expensive solar cell (Cell) to replace the incident solar light into the panel The present invention relates to a structure of a light collecting plate that employs a reflecting plate that enables the most efficient light collecting and power generation.

Solar power generation is an environmentally friendly technology, and a lot of research has been repeated as a way to solve the problem of energy depletion on the earth.

The basic principle of power generation using photovoltaic is that electron-hole pairs are generated when solar light with energy greater than the semiconductor's forbidden energy enters the solar cell made of pn junction of semiconductor. As the electrons are collected in the n-layer and the holes are collected in the p-layer, electromotive force (photovoltage) is generated between pn. At this time, if the load is connected to the electrodes at both ends, the current flows.

In this case, the efficient use of solar cells is such that the photons of sunlight reach the solar panels as much as possible.

This research is paying attention to collect solar light incident on the solar panel as effectively as possible by using a reflector while minimizing the use of solar cells.

The prior art as such an attempt has been disclosed in the Republic of Korea Patent Publication 2002-0011353.

In the prior art, in the apparatus for producing electricity using solar cells, a rectangular frame is formed, the tempered glass 50 is disposed on the upper part of the frame, and the reflector plate and the solar cell fixing frame 30 are arranged in the inside. The vertical support 40 is provided between the reflector and the solar cell fixing frame, and the buffer 35 is formed on the upper side of the vertical support to absorb shock from the outside of the tempered glass. The horizontal support 45 which can support the battery fixing frame 30 is constituted, and the shape is formed by the outer frame 55 which fixes and supports the whole, and there is a central portion in the reflecting plate and the solar cell fixing frame 30 inside. Grooves are formed in the grooves, and the solar cell panels (cells) 10 are arranged in the grooves, and the wirings 65 and the insulators are inserted into the solar panel 10 rear surface to facilitate the wiring, and are arranged at both ends of the arrayed solar panels. For wiring to external connection As constituting a connection portion, attaching a reflective plate 20 to the reflection plate and the solar cell flange on both sides, is formed by coating, see the detailed description it is assumed that the angle of reflection of the reflection plate 45 degrees.

However, when the reflecting plate has a reflecting angle of 45 degrees, when the sunlight is incident at a right angle with respect to the solar cell plane, the sunlight passing through the reflecting plate does not enter the solar panel and is lost. In addition, as disclosed in the drawings, even when the 40 degrees to 49 degrees, the sunlight can not be accurately converged to all the solar panel has a disadvantage that a large amount is lost.

The present invention is to solve the above problems, an object of the present invention is to provide a light collecting plate with high efficiency using an inexpensive reflector by optimizing the angle and shape of the solar panel and the reflector and the angle of the reflector with the solar panel.

The unit reflector according to the present invention has a short side and a long side having a long inverted trapezoidal shape, and the length of the base and the length of the water line connecting the bottom side and the top side (hereinafter referred to as “the full length”) are horizontal or It is equal to the vertical width, and the reflecting plates are arranged at an angle so as to have an inclination of 60 degrees with respect to the horizontal plane of the solar panel.

Another object of the present invention is to provide a method for manufacturing the reflector module in which four inverted trapezoidal unit reflectors are combined to manufacture a solar cell light collecting plate, thereby improving the assembly process.

The solar light reflecting plate according to the present invention has a configuration in which the bottom side of the unit reflector having an inverted trapezoidal shape is set to be inclined obliquely outward toward the upper side against each side of the square solar panel.

The unit reflector has a relationship of 1: 1: 2 between the bottom side, the full length, and the upper side, and the length and the full length of the unit reflector are configured to be equal to the length or width of the square solar panel. In addition, the unit reflector is inclined to form an outward 60 degrees with respect to the horizontal plane of the solar panel.

In addition, as illustrated in FIGS. 5A and 5B, one unit of a reflector unit may be formed by combining the four unit reflectors.

And the solar light collecting plate manufacturing method according to the present invention,

And a first process of floating the solar panels at regular intervals, a second process of constructing a reflector module combining four unit reflectors, and a third process of arranging the reflector module at the center of the module. It is characterized by.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

Figure 2 is a side cross-sectional view showing the structure of the solar light reflecting plate considering the angle of incidence of sunlight according to the present invention, Figure 3 and Figure 4 is a comparison for explaining the incident and reflected light path in the solar light reflecting plate of the present invention 5A is a plan view illustrating a process in which the solar light reflector module according to the present invention is combined with a solar cell to converge sunlight into a solar panel.

As shown in FIGS. 2 to 5, the bottom side and the full length side contacting the solar panel 20 of the unit reflector 10 are the same as the length of the horizontal or vertical width of the solar panel 20. In the case of a solar panel that is actually commercially available has a specification of 104mm x 104mm, the unit reflector of the present invention has a bottom side and a full length of 104mm, the upper side is manufactured to a size of 208mm, twice that. However, it is apparent to those skilled in the art that the reflecting plate of the present invention is not limited to the above standard and may be modified and utilized as necessary. In addition, the unit reflector 10 is disposed to be inclined outward at an angle of 60 degrees with respect to the horizontal axis of the solar panel 20. According to the above standard, one solar panel 20 can be centered and unit reflection plates can be perfectly combined without gaps at every four sides thereof.

The material of the reflector may be any material having a high luminance reflection efficiency among the reflector using a super stainless steel (SS) or an aluminum powder coating reflector, laminating, PE, or the like.

In this arrangement, as shown in FIG. 2, the total length of the reflecting plate length: height (the distance from the solar panel horizontal plane to the highest point of the unit reflecting plate) has a ratio of 2: Root3 by Pythagorean theorem.

Looking at the path of sunlight from the reflecting plates arranged in this way, the solar light incident at the highest point A of the reflecting plate is incident at an angle of incidence of 30 degrees with respect to the reflecting plate. Converges to edge B. In addition, all the sunlight incident to a position lower than the highest point A of the reflector 10 may converge to the solar panel 20.

However, referring to Figs. 3 and 4, the angle of incidence is between 30 degrees and 45 degrees and the reflection angle is between 30 degrees and 45 degrees and the angle between the reflecting plate is 45 degrees or more and 60 degrees, and the incident incident to the peak A. The light does not converge to the edge B of the solar panel and is lost to the outside. And when the reflector is exactly 45 degrees, it is reflected in parallel with the solar panel, which also results in a failure to converge to the solar panel.

In other words, it is necessary to configure the specification and the inclination angle proposed in the present invention to induce all the solar light without loss.

As shown in FIGS. 5A and 5B, four inverted trapezoidal unit reflectors 10 are combined to form a reflector module, wherein the ratio of the reflector to the entire light collecting plate irradiated with sunlight is 3/4. Solar panels will only be a quarter.

That is, even if the solar panel, which should be used for three quarters of the total required area, is replaced with a reflecting plate, it is possible to realize a light collecting panel without losing sunlight. This means that the manufacturing cost of the light collecting plate can be considerably reduced considering that the solar panel is considerably more expensive than the reflector.

6 is a perspective view showing the overall appearance of a solar light collecting plate employing a reflecting plate according to the present invention, Figure 7 is a view for explaining the steering operation to receive the solar light vertically the solar light collecting plate according to the present invention.

As shown in FIG. 6, the reflector module is disposed with the solar panel at the center of the module, which is also arranged in the manufacturing process by placing the solar panel at a predetermined interval, and then assembling the reflector module for each solar panel. It will be possible to make a light collecting plate.

That is, the solar cell light collecting plate is manufactured in the following order.

First, the solar panels are arranged at regular intervals, and as shown in FIG. 5B, four unit reflectors are combined to form a reflector module. Then, when the reflector modules are placed one by one at the center of the module, the solar cells are continuously disposed without loss of area. A light collecting plate can be configured. According to the above method, the capacity of the light collecting plate can be flexibly selected by adjusting the arrangement of the solar panel and the reflector module in series and parallel. In addition, it is possible to perform maintenance such as replacement by the reflector module unit, and thus advantageous effect is expected from the aspect of equipment operation.

FIG. 7 is a view for explaining a steering operation of adjusting the light collecting plate so that the plurality of light collecting plates formed in FIG. 6 are rotated in the X-axis and Y-axis directions by a motor (not shown) to receive sunlight vertically. In other words, the latitude change that changes with the change of the season can be corrected by rotating in the X axis direction, and the hardness that changes according to the rotation of the earth can be adjusted so that the light collecting plate is always perpendicular to the sunlight by adjusting the rotation amount in the Y axis direction. have.

The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the following claims. Until the technical spirit of the present invention will be said.

The solar light collecting plate having the above configuration can reduce the manufacturing cost of the light collecting plate by replacing expensive solar cells with reflecting plates without light loss.

In addition, in manufacturing the light collecting device, the capacity of the light collecting plate can be changed in units of reflector modules, and the effect of improving the convenience of maintenance such as replacement of the reflector is also expected.

Claims (5)

In the solar light collecting plate employing a reflecting plate, The reflecting plate has an inverted trapezoidal shape and is arranged to have an inclination of 60 degrees outward with respect to the horizontal plane of the solar panel. The method of claim 1, The reflecting plate has a relationship of 1: 1: 2 between the bottom side, the full length, and the upper side, and the length and the full length of the reflecting plate are the same as the vertical or horizontal width of the solar panel.  The method according to claim 1 or 2, The reflector is a solar light collecting plate employing a reflector, characterized in that the four reflector module combined   The method of claim 3 A solar light collecting plate employing a reflector, characterized in that steering means for tracking the sunlight is further provided. A first process of arranging the solar panels at regular intervals, A second process of combining four reflectors to form a reflector module, and And a third process of arranging the reflector modules one by one with the solar panel at the center of the module.

Images