KR20210088147A - Wall Solar Structure System - Google Patents

Abstract

According to an aspect of the present invention, a wall solar structure system comprises: a precast support structure fixed to an outer surface of a building; a solar module positioned in front of the precast support structure to absorb sunlight; a fixing member provided between the precast support structure and the solar module to fix the solar module to the precast support structure; and an elastic support holder provided in a rear side of the precast support structure so that the solar module is elastically coupled to the fixing member and the fixing member elastically supports the solar module.

Description

Wall Solar Structure System {Wall Solar Structure System}

The present invention relates to a wall solar structure system, and more particularly, to a wall solar structure system capable of improving construction convenience for workers.

According to the government policy of 'mandatory installation of new and renewable energy' and 'all-zero energy building', the installation of new and renewable energy in apartment houses is gradually increasing.

Accordingly, among new and renewable energy, solar (PV), geothermal, and fuel cells have a high rate of choosing solar (PV) as an alternative in consideration of regional characteristics and economic feasibility.

However, in order to satisfy the energy self-reliance rate in a zero energy building, the effective area for installing photovoltaic (PV) within the limited apartment complex is insufficient, so the recent case of attaching photovoltaic (PV) to the wall beyond installation on the roof and rooftop of the apartment building is increasing

However, because there are not many wall solar power design standards or installation cases, the construction method needs to be improved, and the construction safety and construction speed of workers according to high-place work needs improvement.

Republic of Korea Patent Registration No. 10-1181406 (September 19, 2012)

The present invention is to solve the above problems, and an object of the present invention is to provide a wall solar structure system capable of improving economic efficiency through improvement of constructability and construction speed.

And to provide a wall solar structure system that can improve safety and efficiency.

In addition, it is to provide a wall solar structure system capable of improving structural stability.

In addition, it is to provide a wall solar structure system that can enhance the aesthetics by minimizing the external exposure of the clamp.

A wall solar structure system according to an embodiment of the present invention for achieving the above object includes a precast support structure fixed to the outer surface of a building, and a sun positioned in front of the precast support structure to absorb sunlight An optical module, a fixing member provided between the precast support structure and the photovoltaic module for fixing the photovoltaic module to the precast support structure, is provided at the rear of the precast support structure so that the photovoltaic module is It may be provided with an elastic support holder elastically coupled to the fixing member and elastically supporting the solar module by the fixing member.

The precast support structure may include an upper frame, a lower frame corresponding to the upper frame in a downward direction, and a pair of side frames connecting the upper frame and the lower frame.

The elastic support support holder includes a case each fixed to the pair of side frames and having an inner space, an elastic body provided in the inner space of the case, and an elastic body positioned at the upper end of the case and both ends connected to the elastic body It can be provided with an upper structure elastically moving in the vertical direction by the.

The fixing member may include a first clamp fastened to the upper end of the photovoltaic module, and a second clamp fastened to the lower end of the photovoltaic module.

The first clamp includes a first front portion that is abutted against the upper front surface of the solar module, and a first rear portion corresponding to the first front portion and both surfaces are respectively buttted to the rear surface of the solar module and the front surface of the upper frame and a first connection part connecting the first front part and the first rear part, and a support part extending from the first rear part to support the upper structure.

The second clamp includes a second front portion that is abutted to the lower front surface of the solar module, and a second rear portion corresponding to the second front portion and both surfaces being buttted to the rear surface of the solar module and the front surface of the lower frame, respectively And, a second connection part connecting the second front part and the second rear part, and a clasp extending from the second rear part and spanning the lower frame may be provided.

The precast support structure may include a plurality of fixing anchor bolts for fixing the precast support structure to the outer surface of the building.

The upper frame, the lower frame, and the pair of side frames may be provided with a rubber cushioning material for improving structural stability of the precast support structure and preventing vibration due to wind load.

According to the wall solar structure system according to the present invention, it is possible to improve the workability and economical efficiency.

And it can improve safety and efficiency.

In addition, structural stability can be improved.

In addition, it is possible to enhance the aesthetics by minimizing the external exposure of the clamp.

1 is a view showing a state in which a wall solar structure system according to an embodiment of the present invention is installed.
2 and 3 are perspective views of the wall solar structure system shown in FIG. 1 .
Figure 4 is an exploded perspective view of the wall solar structure system shown in Figure 3;

Hereinafter, a wall solar structure system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a state in which a wall solar structure system according to an embodiment of the present invention is installed, and FIGS. 2 and 3 are perspective views of the wall solar structure system shown in FIG. 1 .

1 to 3 , the wall solar structure system 10 according to an embodiment of the present invention includes a precast support structure 100 , a solar module 200 , a fixing member 300 and an elastic support support. A holder 400 may be provided.

The precast support structure 100 is manufactured in a rectangular frame shape and fixed to the outer surface of the building 20 , and the solar module 200 is fixed to the outer surface of the building 20 through the fixing member 300 . can

And the precast support structure 100 may be provided with a plurality of fixing anchor bolts 140 on one surface facing the outer surface of the building 20 in order to be fixed to the outer surface of the building 20 . Although not shown in the drawings, a separate wall structure frame is provided on the outer surface of the building 20 so that the precast support structure 100 may be fixed to the separate wall structure frame through the fixing anchor bolts 140 .

In addition, the precast support structure 100 may be provided with a rubber cushioning material 150 along the inner rim of the precast support structure 100 in order to improve the structural stability of the precast support structure 100 .

The solar module 200 is positioned in front of the precast support structure 100 and can absorb sunlight to generate electricity. One photovoltaic module 200 may be positioned and fixed to one precast support structure 100 .

The fixing member 300 is positioned between the precast support structure 100 and the photovoltaic module 200 and is fastened to the precast support structure 100 and the photovoltaic module 200 to be fixed to the building 20 . The solar module 200 may be coupled to the support structure 100 .

And, as shown in the drawing, the precast support structure 100 and the solar module 200 are respectively provided at the upper end and lower end to be supported and fixed in the vertical direction.

In this embodiment, it was shown that a plurality of fixing members 300 form a pair and are provided at the upper end and the lower end, but a plurality of fixing members 300 may be provided at the upper end and lower end, respectively.

The elastic support support holder 400 is provided at the rear of the precast support structure 100 and exerts an elastic force so that the solar module 200 is elastically coupled to the fixing member 300 and the fixing member 300 is the solar module (200) can be elastically supported.

Therefore, the solar module 200 can be coupled to the precast support structure 100 without additional bolting, thereby improving workability and efficiency.

In addition, the construction cost is reduced through the improvement of construction convenience and construction speed of the worker, and maintenance such as replacement due to contamination or failure of the solar module 200 is convenient because it is easy to attach and detach with an elastic structure.

Next, the wall solar structure system 10 according to an embodiment of the present invention will be described in more detail. In the following description, only parts different from the above-described embodiments will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

FIG. 3 is a perspective view of the wall solar structure system shown in FIG. 1 , and FIG. 4 is an exploded perspective view of the wall solar structure system shown in FIG. 3 .

1 to 4 , the wall solar structure system 10 according to an embodiment of the present invention includes a precast support structure 100 fixed to the outer surface of a building 20 , and a precast support structure 100 . The photovoltaic module 200 that is located in front of and absorbs sunlight is provided between the precast support structure 100 and the photovoltaic module 200 to attach the photovoltaic module 200 to the precast support structure 100 . It is provided at the rear of the fixing member 300 for fixing and the precast support structure 100 so that the solar module 200 is elastically coupled to the fixing member 300 and the fixing member 300 is the solar module 200 . An elastic support support holder 400 for elastically supporting it may be provided.

As mentioned above, the precast support structure 100 is manufactured in a rectangular frame shape, and the upper frame 110 , the upper frame 110 and the lower frame 120 and the upper frame 110 corresponding to the lower direction in the downward direction. and a pair of side frames 130 connecting the lower frame 120 and the lower frame 120 .

The elastic support support holder 400 is respectively fixed to a pair of side frames 130 and includes a case 410 having an inner space 411 , an elastic body 420 and a case 410 provided in the inner space 411 ). It may be provided with an upper structure 430 located at the upper end of the both ends are connected to the elastic body (420).

The elastic body 420 has one end fixed to one surface of the case 410 forming the inner space 411 and the other end connected to the upper structure 430 , and the upper structure 430 connected to the elastic body 420 is the elastic body 420 . ) can move elastically in the vertical direction.

The fixing member 300 may be formed of a first clamp 310 fastened to the upper end of the photovoltaic module 200 and a second clamp 320 fastened to the lower end of the photovoltaic module 200 depending on the provided position. .

The first clamp 310 is a first front portion 311 facing the upper front of the solar module 200, a second rear portion 322 corresponding to the first front portion 311, a first front portion 311 ) and a first connecting portion 313 connecting the first rear portion 312 and a support portion 314 extending from the first rear portion 312 may be provided.

The first front part 311 is abutted with the front surface of the solar module 200, but in consideration of the efficiency of the solar module 200, the solar module 200 is separated from the first clamp 310 with a minimum area. It is desirable to prevent

The first rear portion 312 may have one surface facing the rear surface of the solar module 200 and the other surface facing the front surface of the upper frame 110 .

The support part 314 may extend from one end of the first rear part 312 and serve to support the upper structure 430 .

The second clamp 320 is a second front portion 321 facing the lower front of the solar module 200, a second rear portion 322 corresponding to the second front portion 321, the second surface portion and the second A second connection part 323 for connecting the rear part 322 and a clasp part 324 extending from the second rear part 322 may be provided.

The second front part 321 is abutted with the front surface of the photovoltaic module 200, but in consideration of the efficiency of the photovoltaic module 200, the photovoltaic module 200 is separated from the second clamp 320 with a minimum area. It is desirable to prevent

The second rear part 322 may have one surface facing the rear surface of the solar module 200 and the other surface facing the front surface of the lower frame 120 .

The hanging part 324 may extend from one end of the second rear part 322 and may span the lower frame 120 from the top to the bottom.

A method in which the photovoltaic module 200 is installed on the precast support structure 100 through the fixing member 300 based on the above is as follows.

First, the precast support structure 100 is fixed to the outer surface of the building 20 through the fixing anchor bolts (140).

Here, the elastic support support is transferred to the site together with the precast support structure 100 in a state installed on the precast support structure 100 .

After fixing the precast support structure 100 to the outer surface of the building 20 , the first clamp 310 and the second clamp 320 are installed.

And the upper end of the photovoltaic module 200 is connected to the first clamp 310 to apply an upward pushing force.

At this time, since the upper structure 430 supported by the first clamp 310 can move elastically in the upward direction by the elastic body 420, the space between the first clamp 310 and the second clamp 320 can be widened. .

After positioning the lower end of the photovoltaic module 200 on the upper side of the second clamp 320, the upper structure 430 is elastically moved in the downward direction by removing the upward force to move the first clamp 310. The space between the and the second clamp 320 may be narrowed and at the same time, the first clamp 310 may apply a downward force to the solar module 200 by the elastic force of the elastic body 420 .

Accordingly, the fixing force of the solar module 200 may be improved.

In this way, by using the elastic force of the elastic body 420, the solar module 200 can be coupled to the precast support structure 100 without a separate bolt fastening, so that the workability and efficiency of the operation can be improved.

In addition, the construction cost is reduced through the improvement of the construction convenience and construction speed of the worker, and maintenance such as replacement due to contamination or failure of the solar module 200 can be conveniently performed because it is easy to attach and detach.

In the above, the wall solar structure system according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiments presented herein. And those skilled in the art who understand the spirit of the present invention will be able to easily suggest other embodiments by addition, change, deletion, addition, etc. of components within the scope of the same spirit, but this is also said to be within the scope of the present invention. will be.

10: wall solar structure system 20: building
100: precast support structure
110: upper frame 120: lower frame
130: side frame 140: fixed anchor bolt
150: rubber cushioning material 200: solar module
300: fixing member 310: first clamp
311: first front part 312: first rear part
313: first connection part 314: support part
320: second clamp 321: second front part
322: second rear part 323: second connection part
324: hanging portion 400: elastic support support holder
410: case 411: inner space
420: elastic body 430: superstructure

Claims (8)

A precast support structure fixed to the outer surface of the building,
A solar module positioned in front of the precast support structure to absorb sunlight;
a fixing member provided between the precast support structure and the photovoltaic module to fix the photovoltaic module to the precast support structure;
A wall solar structure system comprising an elastic support support holder provided at the rear of the precast support structure so that the solar module is elastically coupled to the fixing member and the fixing member elastically supports the solar module.
The method of claim 1,
The precast support structure includes an upper frame,
a lower frame corresponding to the upper frame in a downward direction;
A wall solar structure system comprising a pair of side frames connecting the upper frame and the lower frame.
3. The method of claim 2,
The elastic support support holder is each fixed to the pair of side frames and a case having an inner space,
an elastic body provided in the inner space of the case;
The wall solar structure system, characterized in that it is located at the upper end of the case and has an upper structure connected to the elastic body at both ends to move elastically in the vertical direction by the elastic body.
4. The method of claim 3,
The fixing member includes a first clamp fastened to the upper end of the solar module;
A wall photovoltaic structure system comprising a second clamp fastened to the lower end of the photovoltaic module.
5. The method of claim 4,
The first clamp includes a first front portion facing the upper front surface of the solar module,
A first rear portion corresponding to the first front portion and both surfaces facing the rear surface of the solar module and the front surface of the upper frame, respectively;
a first connection part connecting the first front part and the first rear part;
The wall solar structure system, characterized in that it extends from the first rear portion and includes a support portion for supporting the upper structure.
5. The method of claim 4,
The second clamp includes a second front portion facing the lower front surface of the solar module,
a second rear portion corresponding to the second front portion and both surfaces facing the rear surface of the solar module and the front surface of the lower frame, respectively;
a second connection part connecting the second front part and the second rear part;
The wall solar structure system, characterized in that it extends from the second rear portion and includes a clasp that spans the lower frame.
The method of claim 1,
The precast support structure is a wall solar structure system, characterized in that it comprises a plurality of fixing anchor bolts for fixing the precast support structure to the outer surface of the building.
3. The method of claim 2,
The upper frame, the lower frame and the pair of side frames are provided with a rubber cushioning material for improving structural stability of the precast support structure and preventing vibration due to wind load.

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