KR102112347B1 - Prefabricated Solar Structure - Google Patents

Abstract

The present invention relates to an assembled solar structure, an upper frame, a solar panel fixed to Perlin on an upper portion of the upper frame, a lower frame coupled with the upper frame, a supporting frame installed under the lower frame, and the support In the assembled solar structure comprising a base plate installed on the lower portion of the frame and a structure base installed on the lower portion of the base plate, the upper frame is bent at right angles to the lower portion from the horizontal portion, both sides of the horizontal portion The vertical frame where the upper frame fixing hole is formed and the rack portion bent at a right angle from the front and rear ends of the horizontal portion and formed with a perlined fixing groove, wherein the lower frame includes a first horizontal portion and an upper portion at both sides of the first horizontal portion. A first vertical portion bent at a right angle in the direction, in a horizontal direction from the top of the first vertical portion It includes a second vertical portion bent at a right angle from the end of the second horizontal portion and a second vertical portion that is bent at a right angle, and a lower frame fixing hole is formed. The upper frame and the lower frame are combined with each other to form a square tube shape. The combination of the upper frame and the lower frame penetrates the upper frame fixing hole and the lower frame fixing hole in a state in which the inner side of the vertical portion of the upper frame and the outer side of the second vertical portion of the lower frame are in close contact with each other. It was characterized by being coupled by bolts.

Description

Prefabricated Solar Structure {Prefabricated Solar Structure}

The present invention relates to an assembled solar structure, and more specifically, an assembled solar structure composed of a support frame and a base plate supporting the upper and lower frames and the upper and lower frames for fixing the solar panel, the conventional welding method Rather, it relates to an assembly-type photovoltaic structure that is made to be bolted to facilitate replacement and repair when a replacement situation occurs due to corrosion of the structure.

In general, in photovoltaic power generation, it means to perform power generation by condensing (heating) solar light onto a solar cell or a photovoltaic module. The solar panel is a type of photovoltaic panel and is called a solar module, and there are general type, window type, tracking type, and hybrid type.

The principle of photovoltaic power generation using such a solar panel is performed by a photovoltaic effect, and when n-type doping is performed on a silicon crystal to irradiate sunlight to a pn-bonded solar panel, the photovoltaic energy is conserved. By this, electromotive force generated by electron-holes is generated, and this is called a photovoltaic effect. The solar panels are connected in series and in parallel as desired to make and use the desired power. The system stored and stored in the storage battery is called an individual solar power system or a stand-alone solar power system. When it is called a grid-connected solar power system.

The advantages of photovoltaic power generation are that there is no pollution, power can be generated only as needed at the required location, and maintenance is easy. On the other hand, the amount of electricity production depends on the amount of sunshine, the installation location is limited, and the initial investment cost and the power generation cost are high.

And once the photovoltaic device is installed, in the case of the fixed type, the inclination of the solar panel is fixed, which causes a problem that cannot be changed. The variable type is expensive, but it is frequently broken, so a fixed type is usually selected and installed, but the fixed type has this problem.

In general, the photovoltaic device is a structure in which a plurality of solar panels are fixed to the upper end of the support, and the lower end of the support is supported by a foundation concrete. In this structure, the wind pressure received by the solar panel, and the loads of the pillars and the solar panel must be firmly supported by the foundation concrete.

However, when the foundation concrete is constructed by a civil engineering work on a slope or other difficult place to install, there has been a problem in that a large amount of cost is generated and a large amount of sealing is passed.

In particular, in the case of slopes, it was difficult to perform large-scale civil works such as flattening work when installing the photovoltaic device.

And when installing the frame to install the solar panel, a lot of welding is done. It is also difficult to properly produce the quality, and it is an additional factor in many construction costs due to labor costs.Replacement of structures due to damage and corrosion of structures There was a problem that the replacement is not easy even if it is necessary.

KR 20-0481087 Y1

The present invention has been devised to solve the above-mentioned problems, and the purpose thereof is a prefabricated solar structure composed of a support frame and a base plate supporting the upper and lower frames and the upper and lower frames fixing the solar panel. It is made of a bolted connection method rather than a welding method, so that it can be easily replaced and repaired in the event of a replacement situation due to corrosion of the structure, so that the construction cost can be reduced and the construction period can be shortened. In providing an optical structure.

In addition, another object is to provide a prefabricated photovoltaic structure that facilitates installation of a photovoltaic structure of various structures and sizes by constructing a frame used for the photovoltaic structure by bending and deploying a steel plate having a certain thickness. have.

In addition, there is another object to provide a prefabricated photovoltaic structure that is made of a prefabricated frame used for the photovoltaic structure to facilitate the transportation of materials, and can be installed in various places.

In order to achieve the above object, the prefabricated solar structure of the present invention, the upper frame 100, the solar panel 10 fixed to the top of the upper frame 100 with a perlin 20, the upper frame 100 ) And the lower frame 200, the support frame 300 installed under the lower frame 200, the base plate 400 and the base plate 400 installed under the support frame 300 In the assembled solar structure (1) comprising a structure base (500) installed at the bottom of the, the upper frame (100), the horizontal portion 150, the horizontal portion 150, both sides of the lower direction It is bent at a right angle and is bent at right angles from the front and rear ends of the horizontal part 150 and the vertical part 160 where the upper frame fixing hole 161 is formed, and the rack part 140 having the perlined fixing groove 141 formed thereon. Including, the lower frame 200, the first horizontal portion 210, the first The first vertical portion 220 bent at right angles from both sides of the flat portion 210 to the upper direction, the second horizontal portion 230 bent at a right angle in the horizontal direction from the top of the first vertical portion 220 and the second horizontal It includes a second vertical portion 240 in which a lower frame fixing hole 201 is formed at a right angle from the end of the portion 230 and is formed, and the upper frame 100 and the lower frame 200 are coupled to each other. The upper frame 100 and the lower frame 200 are combined into the vertical portion 160 of the upper frame 100 and the second vertical portion 240 of the lower frame 200. It is characterized by being coupled by bolts penetrating the upper frame fixing hole 161 and the lower frame fixing hole 201 in a state in which the outsides of the) overlap and adhere to each other.

In addition, the support frame 300, the first support frame 310 and the second support frame 320 formed in the same shape as each other are configured to face each other are combined, the first support frame 310 and the The upper portion of the second support frame 320 is formed by including a coupling member 330 having a lower frame fixing hole 331, the lower frame 200 on the upper portion of the support frame 300 is bolts and nuts It was characterized by being combined by.

In addition, the base plate 400, the upper plate 410; A central plate 420 coupled to the lower portion of the upper plate 410; And a lower plate 430 installed under the central plate 420.

In addition, the central plate 420 is characterized in that the first plate 421 and the second plate 422 are configured to be symmetrically coupled to face each other.

In addition, one side of the first plate 421 and the second plate 422 is formed to be inclined at a 45 ° angle from both ends of the vertical member 423 formed to protrude in the vertical direction, and both ends of the vertical member 423. It was characterized in that the inclined member 424 is formed.

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According to the assembled solar structure of the present invention, the assembled solar structure consisting of a support frame and a base plate supporting the upper and lower frames and the upper and lower frames fixing the photovoltaic panel is a bolted connection method rather than a conventional welding method. By doing so, it is possible to facilitate replacement and repair in the event of a replacement situation due to corrosion of the structure, to reduce construction costs, and to shorten the construction period.

In addition, by constructing a frame used for a solar structure by deploying and bending an iron plate having a certain thickness, there is an effect to facilitate the installation of solar structures of various structures and sizes.

In addition, the frame used for the photovoltaic structure is made of an assembly type so that the material can be easily transported, and there is an effect that it can be installed in various places.

1 is a side view showing a state of the assembled solar structure of the present invention
Figure 2 is an exploded perspective view of the upper frame of the present invention
Figure 3 is an exploded perspective view showing an embodiment of the upper frame of the present invention
4 is a developed view of the upper frame of the present invention
5 is a perspective view of the lower frame of the present invention
6 is an exploded view of the subframe of the present onset
7 is a perspective view showing a state before combining the upper frame and the lower frame of the present invention
8 is a perspective view showing a state in which the upper frame and the lower frame of the present invention are combined
Figure 9 is an exploded perspective view of the support frame of the present invention
10 is a perspective view of the support frame of the present invention
11 is a perspective view showing another embodiment of the support frame of the present invention
12 is a side view showing another embodiment of the support frame of the present invention
13 is a perspective view of the base plate of the present invention
14 is an exploded perspective view of the base plate of the present invention
15 is an exploded perspective view of the central plate of the present invention

The terms or words used in the present specification and claims should not be construed as being limited to ordinary or lexical meanings, and the inventor can appropriately define the concept of terms in order to describe his or her invention in the best way. Based on the principles, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, and various equivalents that can replace them at the time of this application It should be understood that there may be and variations.

Hereinafter, prior to the description with reference to the drawings, not necessary for revealing the gist of the present invention, that is, a well-known configuration that can be added by those skilled in the art will not be shown or not specifically described Well, reveal the notes.

1 is a side view showing a state of the assembled solar structure of the present invention.

As shown in Figure 1, the assembled solar structure 1 of the present invention is coupled to the upper frame 100 and the upper frame 100 for fixing the solar panel 10 and the solar panel 10 The lower frame 200, a supporting frame 300 installed under the lower frame 200, a base plate 400 installed under the supporting frame 300, and a lower portion of the base plate 400 It comprises a structure base 500 is installed on.

At this time, as shown in the enlarged portion of Figure 1, the solar panel 10 and the upper frame 100 are made to be coupled by a Perlin 20 having a cross-section C-shaped, and the upper frame 100 includes The rack part 140 is formed so that the side parts of the perlin 20 are coupled.

Figure 2 is an exploded perspective view of the upper frame of the present invention, Figure 3 is an exploded perspective view showing an embodiment of the upper frame of the present invention.

2 and 3, the upper frame 100 is configured by combining the first upper frame 110, the second upper frame 120, and the third upper frame 130.

The first upper frame 110, the second upper frame 120, and the third upper frame 130 are for indicating that the upper frame 100 is composed of a plurality of frames, for example, The first upper frame 110 and the third upper frame 130 may be formed of the same shape and size, and may be formed to be coupled to both sides of the second upper frame 120.

In addition, the first upper frame 110, the second upper frame 120 and the third upper frame 130, respectively, the horizontal portion 150 and the vertical portion formed on both sides of the horizontal portion 150 It includes 160, and further comprises a rack portion 140 formed extending from the end of the horizontal portion 150.

The first upper frame 110, the second upper frame 120 and the third upper frame 130, the horizontal portion 150, the vertical portion 160 and the rack portion 140 are respectively formed in the shape And since the configuration is the same, the horizontal portion 150, the vertical portion 160 and the rack portion 140 formed in each frame are considered to be the same below.

'형상으로 이루어지도록 구성되고, 상기 수직부(160)의 일측에는 일정간격 이격되어 다수개의 상부프레임고정홀(161)이 형성되고, 상기 래크부(140)에는 상기 펄린(20)이 고정되도록 펄린고정홀(141)이 형성된다.The upper frame 100 is cross-sectioned by the horizontal portion 150 and the vertical portion 160 that is bent downward from both sides of the horizontal portion 150 and the upper frame fixing hole 161 is formed.

It is configured to be formed in a shape, one side of the vertical portion 160 is spaced a predetermined interval to form a plurality of upper frame fixing holes 161, the rack portion 140, the perlin so that the perlin 20 is fixed The fixing hole 141 is formed.

And, the rack portion 140 is formed by bending at right angles to the upper direction from the front and rear ends of the horizontal portion 150, as shown in Figures 2 and 3.

In other words, when the rack portion 140 is manufactured, it is formed to protrude from the horizontal portion 150 at regular intervals, and then, through laser processing, the rack portion 140 can be bent so that the upper frame 100 is formed. When each frame is combined to constitute a, after bending the rack portion 140 in the 90 ° direction as shown in FIG. 3, the perlin 20 is fixed to the rack portion 140, The solar panel 10 is fixed to the upper portion of the perlin 20 so that the solar panel 10 can be fixed to the upper frame 100.

Thus, the rack portion 140 is formed by bending at right angles to the upper direction from the front and rear ends of the horizontal portion 150, so that the welding operation is omitted when the solar panel 10 is fixed to the upper frame 100. It was made possible, and the construction of the photovoltaic structure (1) was made easy, and it was possible to enjoy the effect of easily replacing parts that require maintenance.

In addition, a plurality of upper frame fixing holes 161 are formed in the vertical part 160 so that the lower frame 200 and the upper frame 100, which will be described later, are coupled with bolts and nuts.

The upper frame is made to be manufactured through bending and cutting of a rectangular panel. The production of the first upper frame will be described below with reference to FIG. 4.

4 is an exploded view of the first upper frame 110 of the present invention.

'형상으로 이루어지도록 하는 것이다.As shown in Figure 4, the first upper frame 110, after cutting the corner portion of the rectangular panel in a rectangular shape, to form a side bending groove 610 on both sides of the panel, the upper and lower Each partially forming the upper bending groove 620 and the lower bending groove 630 to bend each of the side bending grooves at a right angle, so that the cross section of the first upper frame is'

'It is to be done in a shape.

Then, the upper bending groove 620 and the lower bending groove 630 are bent at a right angle in the upper direction, so that the rack portion 140 is formed.

That is, by making the first upper frame 110 to be manufactured only through bending and cutting operations, the structure is simple and has an effect that is easy to manufacture.

Meanwhile, since the second upper frame 120 and the third upper frame 130 are manufactured in the same manner as the first upper frame 110, a description thereof will be omitted.

5 is a perspective view of the lower frame of the present invention.

'형상으로 형성된다.As illustrated in FIG. 5, the lower frame of the present invention includes a first horizontal portion 210 formed at a lower portion and a first vertical portion 220 bent at right angles from both sides of the first horizontal portion 210 upwardly. And a second horizontal portion 230 that is bent at a right angle in the horizontal direction from the top of the first vertical portion 220 and a second vertical portion 240 that is bent at a right angle from the end of the second horizontal portion 230 The cross section consists of '

'It is formed into a shape.

In addition, a plurality of lower frame fixing holes 201 are formed along the longitudinal direction of the second vertical portion 240 to fasten the upper frame fixing holes 161 formed in the upper frame 100 with bolts and nuts. It is made so that the upper frame and the lower frame can be combined by bolts and nuts.

The lower frame 200 is made to be manufactured through bending and cutting of a rectangular panel as in the upper frame 100. The manufacturing of the lower frame will be described below with reference to FIG.

6 is an exploded view of the lower frame of the present invention.

'형상으로 이루어지도록 하는 것이다.As illustrated in FIG. 6, the lower frame 200 includes a first side bent portion 710, a second side bend portion 720, and a third side bend portion 730 on a rectangular panel, respectively. It is formed symmetrically with respect to, the first side bent portion 710 is bent 90 ° in the upper direction, the third side bent portion 730 is bent 90 ° in the downward direction of the lower frame 200 Cross section

'It is to be done in a shape.

By making the lower frame 200 manufactured in this way, the structure of the lower frame 200 is simply formed, and thus has an effect that can be easily manufactured.

7 is a perspective view showing a state before combining the upper frame and the lower frame of the present invention, and FIG. 8 is a perspective view showing a state in which the upper frame and the lower frame of the present invention are combined.

7 and 8, the lower frame is coupled to the lower portion of the upper frame.

The combination of the upper frame 100 and the lower frame 200 is overlapped with the inside of the vertical portion 160 of the upper frame 100 and the outer side of the second vertical portion 240 of the lower frame 200 overlapping each other. In the coupled state, the upper frame fixing hole 161 and the lower frame fixing hole 201 are joined by bolts. At this time, the upper frame fixing hole 161 formed in the upper frame 100 and the lower frame fixing hole 201 formed in the lower frame 200 are formed at positions corresponding to each other, so that the upper frame fixing The upper frame 100 is fixed to the lower frame 200 by combining bolts and nuts to the hole 161 and the lower frame fixing hole 201 so that the upper frame 100 and the lower frame 200 are fixed. As shown in FIG. 8, it is to be formed in one tube shape.

As described above, the upper frame 100 and the lower frame 200 are formed to be coupled with bolts and nuts, thereby shortening the construction period as the welding operation is omitted, and securing construction and economical efficiency by saving material and labor costs. It can also be easily replaced in terms of maintenance.

9 is an exploded perspective view of the support frame of the present invention, Figure 10 is a perspective view of the support frame of the present invention.

9 and 10, the support frame 300 is formed upright in the vertical direction, and is configured by combining the first support frame 310 and the second support frame 320, which are formed identically to each other. do.

At this time, the combination of the first support frame 310 and the second support frame 320 is made by fixing bolts and nuts to the support frame fixing holes 340 formed at regular intervals along the height direction. .

In addition, a coupling member 330 having a lower frame fixing hole 331 is formed on upper portions of the first supporting frame 310 and the second supporting frame 320, and the lower frame fixing hole 331 is formed. The lower frame 200 is made to be coupled to the upper portion of the support frame 300 by a coupling member 330 by bolts and nuts.

In addition, a plate fixing hole 350 is formed under the support frame 300 so that the support frame 300 can be fixed to the base plate 400 to be described later with bolts and nuts.

11 is a perspective view showing another embodiment of the support frame of the present invention, Figure 12 is a side view showing another embodiment of the support frame of the present invention.

11 and 12, the coupling member of the support frame may be formed of a vertical coupling member 330a and an inclined coupling member 330b formed to be inclined at a predetermined angle from the top of the vertical coupling member 330a. .

That is, the lower frame 200 is coupled to the inclined coupling member 330b that is formed to be inclined at a constant angle, so that the lower frame is installed to be inclined at a constant angle, as shown in FIG. 12.

By forming the inclined coupling member 330b in this way, after combining the lower frame 200 and the support frame 300, the inclination of the lower frame 200 is adjusted to adjust the angle of the solar panel 10. Without the hassle that had to be done, through the combination of the support frame 300 and the lower frame 200, the solar panel 10 is to be formed at a constant angle.

13 is a perspective view of the base plate of the present invention, Figure 14 is an exploded perspective view of the base plate of the present invention.

13 and 14, the base plate 400 includes an upper plate 410, a central plate 420, and a lower plate 430.

The upper plate 410 is installed on the upper portion of the base plate 400, a square groove 411 is formed in the center, and an edge groove 412 is formed at the corner of the square groove 411.

In addition, a plurality of base fixing holes 413 are formed so that the base plate 400 is fixed to the structure base 500, wherein the base fixing holes 413 are screwed to the base fixing holes 413 Depending on the size of the diameter may be formed differently.

The central plate 420 is installed on the lower portion of the upper plate 410, the base fixing hole 413 is formed in a position corresponding to the base fixing hole 413 formed on the upper plate 410, the upper portion It is made to be combined with the plate 410.

In addition, the central plate 420 is formed with a vertical member 423 formed in the vertical direction and an inclined member 424 formed on the side of the vertical member 423, and the inclined member 424 is the upper plate. It is made to fit into the edge groove 412 of 410.

In addition, the vertical member hole 425 is formed in the vertical member 423 so that the plate fixing groove 350 of the vertical member hole 425 and the support frame 300 are bolted and screwed to the support frame 300 ) Is made to be fixed to the base plate 400.

The lower plate 430 is formed in the same manner as the upper plate 410, and is made of a configuration without the corner groove 412, so that the lower plate 430 is installed under the central plate 420.

Meanwhile, the central plate 420 is configured such that the first plate 421 and the second plate 422 are symmetrically coupled facing each other, which will be described later with reference to FIG. 15.

15 is an exploded perspective view of the central plate of the present invention.

As shown in FIG. 15, the central plate 420 is configured by combining a pair of first plates 421 facing each other and a pair of second plates 422 facing each other.

The first plate 421 is formed with a vertical member 423 formed vertically at one end, and an inclined member 424 formed to be inclined at a constant angle on both sides of the vertical member 423.

At this time, the vertical member 423 is vertically formed at an angle of 90 ° from one side of the first plate 421, and the inclined member 424 is inclined at an angle of 45 ° from both ends of the vertical member 423. do.

The second plate 422 is installed between the first plate 421 and the other first plate 421, which is installed facing the first plate 421, so as to connect each of the first plates 421. A vertical member 423 and an inclined member 424 formed to correspond to the inclined member 434 and the vertical member of the one plate 421 are formed.

In addition, an inclined member hole 426 is formed on the inclined member 424 of the first plate 421 and the second plate 422 so that the first plate 421 and the second plate 422 are fixed. do.

Thus, by forming the central plate 420 by combining the first plate 421 and the second plate 422, it is made to facilitate the manufacture of the central plate 420.

In addition, the inclined member 424 serves as a rib, and the inclined member 424 is fitted to the edge groove 412 formed in the upper plate 410, so that the support of the solar structure 1 is further improved. It is to make it stable.

According to the assembled solar structure (1) of the present invention, the assembled frame consisting of a support frame 300 and a base plate 400 supporting the upper and lower frames 200 and the upper and lower frames 200 for fixing the solar panel The photovoltaic structure (1) is made of a bolted connection method rather than a conventional welding method, so that it can be easily replaced and repaired in the event of a replacement situation due to corrosion of the structure, reducing construction costs, and construction period There is an effect that can be shortened.

In addition, the frame used for the solar structure 1 is configured by deploying and bending an iron plate having a certain thickness, thereby making it easy to install the solar structures 1 of various structures and sizes.

As described above, the assembled solar structure 1 according to the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, and the technical idea of the present invention Of course, various modifications can be made by those skilled in the art within the scope of the.

DESCRIPTION OF SYMBOLS 1 Solar structure 10 Solar panel 20 Perlin
100: upper frame 110: first upper frame 120: second upper frame
130: third upper frame 140: rack portion 141: Perlin fixing hole
150: horizontal part 160: vertical part 161: upper frame fixing hole
200: lower frame 201: lower frame fixing hole 210: first horizontal part
220: first vertical portion 230: second horizontal portion 240: second vertical portion
300: support frame 310: first support frame 320: second support frame
330: coupling member 331: lower frame fixing hole 340: support frame fixing hole
350: Plate fixing hole 400: Base plate 410: Upper plate
411: Square groove 412: Corner groove 413: Base fixing groove
420: central plate 421: first plate 422: second plate
423: vertical member 424: inclined member 425: vertical member hole
426: inclined member hole 430: lower plate 500: structure base

Claims (8)

The upper frame 100, the solar panel 10 fixed to the upper frame 100 with a Perlin 20, the lower frame 200 coupled to the upper frame 100, the lower frame 200 of Assembled sun comprising a support frame 300 installed in the lower portion, a base plate 400 installed in a lower portion of the support frame 300 and a structure base 500 installed in a lower portion of the base plate 400 In the optical structure (1),
The upper frame 100, the horizontal portion 150, the vertical portion 160 and the horizontal portion 150 is bent at right angles from both sides of the horizontal portion 150 and the upper frame fixing hole 161 is formed ), The rack portion 140 is bent at a right angle from the front and rear ends and formed with a perlin fixing groove 141,
The lower frame 200 of the first horizontal portion 210, the first vertical portion 220, the first vertical portion 220 is bent at right angles from both sides of the first horizontal portion 210, the first vertical portion 220 A second horizontal portion 230 that is bent at a right angle in the horizontal direction from the top and a second vertical portion 240 that is bent at a right angle from the end of the second horizontal portion 230 to the bottom and is fixed to the lower frame fixing hole 201 It includes,
The upper frame 100 and the lower frame 200 are combined with each other to be formed in a square tube shape,
The combination of the upper frame 100 and the lower frame 200 is overlapped with the inside of the vertical portion 160 of the upper frame 100 and the outer side of the second vertical portion 240 of the lower frame 200 overlapping each other. Assembled solar structure, characterized in that coupled by a bolt passing through the upper frame fixing hole 161 and the lower frame fixing hole 201 in the state.
delete delete delete According to claim 1,
The support frame 300,
The first support frame 310 and the second support frame 320 formed in the same shape as each other are configured to face each other and are configured, but the upper portion of the first support frame 310 and the second support frame 320 is formed. The lower frame fixing hole 331 is formed including a coupling member 330 is formed,
An assembled solar structure, characterized in that the lower frame 200 is coupled to the upper portion of the support frame 300 by bolts and nuts.
According to claim 1,
The base plate 400,
An upper plate 410;
A central plate 420 coupled to the lower portion of the upper plate 410; And
An assembly-type photovoltaic structure comprising a; lower plate 430 installed on the lower portion of the central plate 420.
The method of claim 6,
The central plate 420 is a prefabricated solar structure characterized in that the first plate 421 and the second plate 422 are configured to be symmetrically coupled to face each other.
The method of claim 7,
On one side of the first plate 421 and the second plate 422, a vertical member 423 formed to protrude in a vertical direction, and an inclined member formed to be inclined at an angle of 45 ° from both ends of the vertical member 423 Prefabricated solar structure, characterized in that 424 is formed.

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