KR101451089B1 - A structure for solar generator - Google Patents

Abstract

The present invention relates to a structure for solar power generation and, unlike the prior art in the field of photovoltaic power generation, a plurality of light collecting plates are arranged in concave and convex shapes to increase a light collecting efficiency and to bring about aesthetic effect as a structure, The present invention provides a solar power generating structure that can be easily assembled using a fastening.

Description

{A structure for solar generator}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of solar power generation, and more particularly to a structure for solar power generation.

Solar power generation is a power generation method that converts solar light directly into electric energy by using solar energy without the aid of generator. Because it uses infinite and pollution-free solar energy, there is no need for extra fuel cost, It has advantages. Therefore, a lot of investment and research and development are going on in this field. However, in general, development has been proceeding on heat collecting plates, condensing mirrors, reflectors, reflectors, and the like.

For example, Japanese Patent Application Laid-Open No. 10-2007-0022498 discloses a heat collecting plate of a vacuum tube type solar collector including a heat collecting plate, a heat pipe, and a glass tube, and Korean Patent No. 10-0936624 discloses a heat collecting plate A condensing lens for surrounding the solar module, a convex lens part protruding and arranged on the inner surface of the condensing lens, a sealing material between the condensing lens and the base plate, and a fastening means.

On the other hand, Japanese Utility Model Registration No. 3161485 discloses a Fresnel lens used in a photovoltaic photovoltaic power generation device having a dome shape and a plurality of triangular protrusions formed on the inner surface thereof in a concentric ring shape around an optical axis Discloses a Fresnel lens in which an LIB portion is provided around a lens.

Also, in Registration Practical Utility Model No. 20-0375355, there is disclosed a continuous integrated reflector composed of a flat plate having a flat plate hole, a reflecting mirror having a reflecting mirror hole, and a bolt nut having a flat plate and a reflecting mirror.

As described above, the technology development in the field of solar power generation has been limited not to the structure but to the heat collecting plate, the condensing device, the reflection device, the reflector, and the like.

Unlike the prior art in the field of solar power generation as described above, a plurality of light collecting plates are arranged in concave and convex shapes to increase a light collecting efficiency and to bring about aesthetic effect as a structure, and can be assembled easily by using a bolting type fastening The present invention has been made to solve the above problems.

In order to accomplish the object of the present invention as described above,

Two stand bases to house solar cells and solar modules;

A check stand installed on the upper portions of the two cages;

External safety rails;

A ladder leading to said checkbath; And

And an upper support portion for supporting the stand,

The support part includes a first support for supporting and supporting a curved surface RI on an upper surface thereof to support the upper stand, and a second support for supporting and supporting a curved surface R2 toward the lower surface to support the upper stand;

And a lower surface peripheral portion formed of a curved lower first support R3 and a second support R4 for supporting the first support and the second support of the upper support.

Preferably, the upper support portion and the lower support portion are installed in each of six solar module plates 200 mounted on the bench.

Wherein a curvature R1 of the first support is between 18,000 and 19,000 and a curvature R2 of the second support is between 17,000 and 19,500 and a curvature R3 of the first support is between 3,500 and 4,200, The curvature R4 is preferably 11,000 to 11,500.

According to the present invention, the 100 lower module plates can be arranged in a concave shape, the 100 upper module plates can be arranged in a convex shape, the ladder can be provided on the side, and the inspection table can be installed on the upper side of the upper and lower stands, It is easy to judge whether there is an abnormality of the plate or not, and the module plate can be easily cleaned and many module plates can be arranged in a concave shape and a convex shape, thereby providing a structure that maximizes the heat collection performance even when the incident angle of sunlight changes .

Fig. 1 is a view showing the use state of the structure of the present invention
2 is a plan view of the module plate used in the present invention.
3 is a side view of the structure of the present invention

Hereinafter, the present invention will be described in more detail with reference to preferred embodiments and accompanying drawings. The following description is provided to assist the understanding and implementation of the present invention, but the present invention is not limited thereto. Those skilled in the art will appreciate that various modifications and variations are possible within the spirit and scope of the invention as set forth in the following claims.

1 shows a module plate 10 placed in a structure 100 of the present invention, a handrail 20 installed on a structure 100, a check port 30 and a ladder 40.

In the structure 100 of the present invention, the module plates 10 are installed between the structures 100 so that the module plates 10 are laid vertically by 20 at the top and bottom (see FIG. 2).

Referring to FIG. 3, the first support R1 and the second support R2, which are the supports 110 in the structure 100 of the present invention, may be integrally formed, or may be integrally formed and fastened using a separate method. The first support R1 is curved in the lower side and has a curvature R1 of 18000 to 19000, preferably 18,726 on the lower side, 18,526 on the lower side, and 18,326 on the upper side. When the plates are aligned, they are preferably arranged in a concave shape. The portion having the convex curvature R2 on the upper side has a curvature R2 toward the lower side of 17,000 to 19500, preferably 19,088 on the top, 18,888 on the bottom, and 18,688 on the bottom. It is desirable to use a welding beam or H beam, and it is most preferable to use H-400 × 200 × 8 × 13 in the case of an H beam because the load required to support the upper module plate and the stand, The beam uses LH-200 × 150 × 4.5 × 6.

The support 120 for supporting the support part 110 has a first support R3 for supporting the first support R1 on the lower side to have a curvature R3 inward and a curvature R3 of the first support R3) is 3500 to 4200, preferably 4,189 in the lower part, 3,960 in the central part, and 3,731 in the upper part. In addition, the second support R4 supporting the second support R2 is 11000 to 11500, and the lower side is 11,000 and the upper side is 11,229 to 11,458. This is also for supporting the upper second support R2 and most preferably 457.2 to 16.0t.

The above-described structure 100 is intended to have 100 module boards on a first support and 100 module boards on a second support.

The first strut and the second strut R3 and R4 of the structure 100 may be installed on the ground by using an anchor bolt or the like, and the first and second struts (R1, R2) may be fastened by a conventional method using welding or fastening bolts. The railings, checkpoints, and stands of the present invention can also be installed using conventional methods.

10: Module plate
20: Handrail 30: Checkpoint
40: Ladder 100: Structure
110: support part 120: holding part

Claims (2)

The solar cell and the photovoltaic module have a plurality of anchors for laying;
A check table provided at the upper portion of the bench, and an external safety guardrail; A ladder connected to the safety guardrail; And a first support for supporting the bench and a second support for forming a second support, wherein the first support of the upper support has a concave curvature R1 and the second support has a convex curvature (R2), a first support having a curvature (R3) inward to support the first support, and a second support having a curvature (R4) toward the outside to support the second support, wherein the second support Wherein the curvature R1 is 18,326 to 18,726, the curvature R2 is 18,688 to 19,088, the curvature R3 is 3,731 to 4,189, and the curvature R4 is 11,000 to 11,458. delete

Images