KR101934798B1 - Solar panel installing device for circular pillar - Google Patents

Abstract

The present invention relates to a solar panel installation device, and more specifically, to a detachable solar panel installation device attached to a curved surface of a column, which can bring a solar panel having a planar structure into contact with a curved surface of an outer diameter of a pipe or a columnar structure or facility to attach the solar panel thereto, can safely fix and maintain the solar panel, and can have a heat dissipation space secured on a rear surface of the solar panel to cool heat generated from the solar panel. The installation device comprises the solar panel, a solar panel bracket, a fixing clamp, a clamp, a safety plate, a support clamp, and a support. The solar panel bracket includes: end frames formed on upper and lower portions thereof; an intermediate frame formed between the upper and lower end frames; a reinforcing frame formed between the end frames and the intermediate frame; and a connection frame connecting the end frames, the intermediate frame, and the reinforcing frame. The solar panel is detachably attached to a front surface of the solar panel bracket. The fixing clamp primarily fixes the solar panel bracket to the column. The clamp completely attaches and fixes the solar panel and the solar panel bracket to the column. The support clamp and the support are provided to support the stacked solar panel brackets.

Description

SOLAR PANEL INSTALLING DEVICE FOR CIRCULAR PILLAR BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a solar panel installation apparatus, and more particularly, to a solar panel apparatus having a flat structure on a curved outer surface of a pipe or a circular column structure or a facility, The present invention relates to a solar-type panel mounting apparatus with a circular-column curved surface-mounted type attachable / detachable solar-type panel in which a heat radiation space for cooling the heat of the panel is secured.

Solar power generation technology is continuously expanding in areas such as land, water, and marine. In recent years, due to rising land use costs, rising installation and maintenance costs, and environmental destruction due to development, Power generation technologies and application methods are needed.

Therefore, in recognition of the necessity of photovoltaic power generation utilizing existing buildings, civil structures and facilities, solar panels are used in various forms such as roof tiles of houses, walls of buildings, columns of street lamps However, there are limitations in the efficiency and durability of applied materials, relatively high manufacturing costs and maintenance costs, problems with installation stability of planar solar panels due to strong winds, large volume Due to limitations in technology, safety, and efficiency, such as difficulties in transportation and installation due to the lack of a reliable operation.

In particular, in our daily living space, there are many facilities and structures of circular column structure, but the circular column has a curved outer surface, so it is not easy to attach and fix the planar solar panel to the outer surface safely, In addition, it is technically and economically inefficient to produce silicon-based solar cells with various curvature curved structures. On the other hand, in the case of a flexible solar panel using a compound material, it is possible to adhere to a curved surface structure, but it is not easy to secure a space for heat dissipation on the back surface of the panel that can cool the heat generated by the panel during power generation. It is also not an optimal choice considering the power generation efficiency.

The structure of the solar cell module disclosed in Japanese Unexamined Patent Application Publication No. 2009-49504 (Laid-Open Publication No. 2009-49504), Laid-open Patent Application No. 1 The solar water power generation module device described in 2) is intended to provide a solar cell module in which the solar cell module is shaped like a cylinder so as to be able to withstand external wind pressure and external force to enhance the durability of the product, And a circular plate-like organic cell which receives solar light and generates electric energy, and the organic cell is a cylindrical module or a zigzag In the above-described manner.

Further, a cylindrical granular photovoltaic power generation device described in Patent Publication No. 10-1051307 (published on July 22, 2011, Patent Literature 3) relates to a cylindrical granular photovoltaic power generation device, and more particularly, The present invention relates to a cylindrical granular photovoltaic power generation apparatus capable of absorbing solar energy and increasing production efficiency without being limited to an installation site, A solar module including an organic or inorganic cell provided to generate solar energy by receiving sunlight inside the outer tube, and a solar module being shielded by an outer tube, so that a blowing device is required inside the outer tube Lt; / RTI >

The solar cell module described in Japanese Laid-Open Patent Publication No. 2016-178120 (published on October 6, 2016, Patent Document 4) is a solar cell module using a plurality of flat solar cells, A solar cell module includes a plurality of solar cell units each having a flat plate shape, and a plurality of solar cell units, each of which includes a plurality of solar cell units, So that the resin layer is molded by a resin layer having a curved surface shape.

The solar cell system described in Japanese Laid-Open Patent Publication No. 2015-46540 (published on Mar. 12, 2015) is a solar cell system in which a plurality of solar cell modules are electrically connected to each other. In order to provide a solar cell system with a large amount of power generation, a plurality of plate-shaped solar cell modules are arranged in a transparent cylindrical container so that the light receiving surfaces thereof face outward, System in which a plurality of solar cell modules are arranged in a cylindrical container by arranging triangular columns, quadrangular columns, pentagonal columns or hexagonal columns in the cylindrical container.

Patent Document 1: Japanese Patent Application Laid-Open No. 10-2009-49504 Patent Document 2: Japanese Patent Application Laid-Open No. 10-2009-67444 Patent Document 3: Registration Patent No. 10-1051307 Patent Document 4: JP-A-2016-178120 Patent Document 5: Japanese Patent Publication No. 2015-046540

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and it is an object of the present invention to provide a solar panel with a planar structure in which the solar panel is attached to an outer curved surface of a circular column under optimum conditions, .

Another object of the present invention is to provide a sufficient space on the rear surface of the solar panel for cooling the heat generated in the solar panel itself during power generation, thereby enabling the solar panel to maintain the maximum efficiency.

It is another object of the present invention to improve the efficiency of manufacture, transportation, installation, maintenance, and the like by constituting a mounting and demounting type capable of assembly and demolition in the field.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a solar panel mounting apparatus for mounting a solar panel on a curved surface of a pipe or a circular column structure or a facility, The solar panel 100 includes a solar panel 100, a solar panel 200, a fixing clamp 300, a clamp 400, a safety plate 500, a support clamp 600, and a support 700. The solar panel bracket 200 is attached and fixed to the circular column 1000 by a fixing clamp 300 and the solar panel 100 and the sunlight The panel bracket 200 is completely fixed to the circular column 1000 by the tightening clamp 400 and the solar panel bracket 200 is supported by the support clamp 600 and the support table 700, (500) is formed into a semi-cylindrical plate structure, and a tightening clamp 400 are installed on the rear surface of the circular column 1000 where the solar panel 100 is not installed and the support clamp 600 has a generally C type clamp body 610 at both side ends A plurality of solar panels 1000 may be divided into a plurality of solar panels 1000 according to the size of the circular columns 1000. The solar panels 1000 may be stacked and installed on the solar panel bracket 200, A support plate 620 having a semi-circular plate structure capable of supporting the bracket 200 at a middle height of the support clamp 600 is formed, and the support plate 620 is provided with a plate- And a ventilation / water intake hole (621).
[2] In the above-described [1], the solar panel bracket 200 includes an end frame 210 provided at the top and the bottom, an intermediate frame 220 installed at the middle portion, And a connecting frame 240 connecting the end frame 210, the intermediate frame 220, and the reinforcing frame 230. The reinforcing frame 230 is provided between the frame 210 and the intermediate frame 220, To a circular pillar curved surface type attachable and detachable solar panel installation apparatus.
[3] In the above-mentioned [2], the end frame 210 of the solar panel bracket 200 is formed symmetrically to the upper and lower ends of the bracket 200, The contact surface 211 has a trapezoidal shape that is formed with the same curvature as the radius R of the circular column and has a predetermined frame angle A in the outward direction, And a frame depth (D) for securing a space for cooling the heat generation. A part of the front end of the panel mount part 213 has a thickness equal to the panel thickness T, And a clamp fastening protrusion 215 which can fasten the fastening clamp 400 on the front surface and at a lower end of the panel insertion portion 214. [ On a circular pillar curved-surface mounting and attaching type solar panel installation device to be.
The intermediate frame 220 of the solar panel bracket 200 is formed in the middle between the upper and lower end frames 210 so that the length of the bracket 200 is The inner contact surface 211 may be formed in a shape of a circle having a circular pillar shape and may have a shape of ' A trapezoidal structure having a curvature equal to the radius R and having a predetermined frame angle A in the outward direction and a clamp clamping protrusion 300 having a trapezoidal cross- (220), and a circular pillar curved surface attachment type attachable / detachable solar cell panel installation device (222).
The reinforcing frame 230 of the solar panel bracket 200 is formed between the upper and lower end frames 210 and the intermediate frame 220. The brackets 200 The inner contact surface 231 is formed to have the same curvature as the radius R of the circular column, and the inner contact surface 231 is formed to have the same curvature as the radius R of the circular column, And the side contact surface 232 includes a frame depth D for securing a space for cooling the heat of the solar panel 100 Wherein the solar panel is mounted on the solar panel.
The connection frame 240 of the solar panel bracket 200 may have a vertically elongated rod structure of a circular or polygonal cross section and may have an end frame 210, 220 and the reinforcing frame 230 so as to be in direct contact with the rear surface of the panel mount 213 of the end frame 210 so that the bracket 200 The insertion depth of the panel is limited when the optical panel 100 is inserted and both side ends of the panel are supported when the solar panel 100 is closely attached to the bracket 200 by the clamping pressure of the clamp, Is mounted on the bracket (200), and the mounting bracket (200) is fixed to the bracket (200).
[7] In the above-mentioned [4], the fixing clamp 300 is formed by fastening a general C-type clamp body 310 with bolts and nuts at both side ends thereof, And is clamped between clamp fixing projections (222) of the middle frame (220) of the solar panel bracket (200) according to the size of the circular pillar curved surface mounting type mounting type solar cell module And an optical panel installation apparatus.
[8] In the above-mentioned [3], the tightening clamp 400 is formed by fastening a general C-shaped clamp body 410 with bolts and nuts at both side ends thereof, And is clamped between the clamp fixing projections 215 of the end frame 210 of the solar panel bracket 200 and has a pressing surface 411 having a flat structure on the inner surface, And a part of the end of the solar panel 100 and the panel holder 213 of the solar panel bracket 200 are pressed at the same time.
[9] In the above-mentioned [1], the supporting table 700 may be constructed by stacking the solar panels 100 and selectively adding below the supporting clamp 600 during installation to support the accumulated load of the apparatus The present invention relates to a circular-column curved-surface-attachable / detachable solar panel installation apparatus.
[10] In the above-mentioned [1] or [2], if the structure or facility of the circular column (1000) has a draft angle, the same angle of inclination is applied to the solar panel bracket (200) The present invention also relates to a circular pillar curved surface mounting type attachable / detachable solar panel installation device.

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With the above-described structure, the present invention can safely attach a flat solar panel to all the circular column structures or facilities that are currently installed and used.

Further, sufficient heat dissipation / cooling space can be secured between the outer diameter surface of the circular column and the solar panel, thereby sufficiently cooling the solar panel itself and preventing the power generation efficiency from being lowered.

In addition, it is constructed as a detachable assembly type which can be assembled and assembled in the field, so that transportation, installation and dismounting are easy, and maintenance such as repair and replacement is easy, and operation and management costs are reduced.

In addition, it can be applied to all circular column structures and facilities because it can be manufactured and manufactured by changing the size of the circular column to the same structure with various diameters, sizes and gradients.

Further, the solar panel can be laminated in the height direction of the circular column and can be extended and attached thereto, thereby sufficiently securing the solar power generating area. In particular, the solar panel having the planar structure is stacked around the circular column , The power generation efficiency and the life efficiency can be maximized.

In addition, it is possible to apply the solar panel safely even in windy places such as the sea area or the high position of the structure by minimizing the influence of the wind by installing the solar panel around the circular column.

In addition, it is possible to maximize the power generation efficiency by concentrating the solar panel with the optimum azimuth angle in which the sun is best reflected in the circumference of the circular column.

Also, it is possible to enlarge the condensed area by maximizing the height of the circular column structure or facility by applying it from the design stage to the newly installed circular column structure or facility.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a configuration of a solar panel installation apparatus according to the present invention. FIG.
2 is a perspective view showing the structure of a solar panel bracket according to the present invention;
3 is a perspective view showing a state in which a solar panel is fastened to a bracket;
4 is a perspective view showing a state where the bracket is first fixed by a fixing clamp.
5 is a perspective view showing a state in which a plurality of brackets are installed around a circular column;
6 is a perspective view showing a state in which a solar panel is fixed by a tightening clamp;
7 is a perspective view showing a state in which a safety plate is installed on a rear surface.
8 is a perspective view showing a state in which solar panel brackets are stacked and installed.
9 is a perspective view of another embodiment in which the present invention is applied to a circular column having various diameters and gradients;

Hereinafter, a preferred embodiment of the present invention will be described with reference to Figs. 1 to 9. Fig.

1, the apparatus for attaching and detaching a circular pillar curved surface type solar panel of the present invention includes a solar panel 100, a solar panel bracket 200, a stationary clamp 300, a fastening clamp 400 A safety plate 500, a support clamp 600, and a support table 700. In the following, each of the configurations will be described in detail.

[Solar panel bracket (200)]

2, the solar panel bracket 200 of the present invention includes an end frame 210, an intermediate frame 220, a reinforcing frame 230, and a connection frame 240.

The basic structure of the end / intermediate / reinforcement frame 210/220/230 has a basic shape of 'ㅁ', 'ㅡ' and 'ㄷ', and the curvature of the inner contact surfaces 211, 221 and 231 is a circular column radius R, And the outer frame 210 is formed in a trapezoidal structure by applying an appropriate frame angle A with respect to the center of the circular column 1000. The side contact surfaces 212 of the end frame 210 and the reinforcing frame 230 232 are formed to have an appropriate frame depth D for the heat dissipation and cooling action of the rear surface of the solar panel 100. When the diameter of the circular column 1000 is small, the frame angle A is decreased while the frame depth D can be adjusted to increase the number of solar panel brackets 200 and solar panels 100 installed.

The end frame 210 is formed symmetrically with the upper and lower ends of the solar panel bracket 200 and the intermediate frame 220 is formed between the upper and lower end frames 210, The reinforcing frame 230 may be formed between the upper and lower end frames 210 and the intermediate frame 220. The reinforcing frame 230 may be formed between the upper and lower end frames 210 and 220, When the length of the bracket 200 is long, it is possible to install two or more of the brackets 200 between the upper and lower end frames 210.

In addition, the connection frame 240 is a vertically elongated rod structure that is attached in tangential contact with the inner edge of the end / middle / reinforcement frame 210/220/230 and the inner side thereof to connect the frames composed of a plurality of layers The diameter of the connecting frame 240 and the number of the connecting frames 240 may be adjusted according to the size of the bracket 200.

In this embodiment, the circular cross-section bar is used as the connection frame 240. However, depending on the size and condition of the bracket 200, various shapes and various materials such as square / pentagonal / hexagonal cross- ).

The solar panel 100 is installed on the front surface of the solar panel bracket 200 constructed as described above.

As shown in FIG. 3, a solar panel 100 having a planar structure is installed in a detachable manner on the front surface of the solar panel bracket 200 of the present invention.

At this time, a part of the front end of the front end of the end frame 210 and the reinforcing frame 230 is extended to form the panel inserting portions 214 and 233 matching the panel width L and the panel thickness T, respectively. This is for assembling the solar panel 100 on the front surface of the bracket 200 in a detachable manner and the fitting tolerance between the solar panel 100 and the panel inserting portions 214 and 233 is formed to be a light interference fit .

In addition, it is preferable to form a panel rest 213 matching the panel thickness T up to the middle height of the end frame 210 at the front lower end of the end frame 210. This is to properly form the fastening and fixing height of the solar panel 100.

The connection frame 240 is disposed in tangential contact with the front edge of the end frame 210 and the rear surface of the panel mount 213. This is to prevent the solar panel 100 from being inserted deeper into the panel through the panel inserting portions 214 and 233 of the bracket 200. [

In the drawings of embodiments of the present invention, six solar cell panels 110 of a general size (156 mm x 156 mm, 105 mm x 105 mm) are installed vertically, and the solar panel 100 The solar cell 100 according to the present invention may be constructed such that the length of the solar cell panel 100 is further increased by adding the number of the solar cells 110 vertically to the width of the solar cell 110 in consideration of the power generation efficiency, The height and the width of the bracket 200 can be freely adjusted and designed according to the conditions of the solar panel 100 such as the solar panel 100 adjusted by the user.

[Fixed Clamp (300)]

4, when the solar panel bracket 200 of the present invention is assembled around the outer surface of the circular column 1000, a fixing clamp (not shown) is mounted on the middle frame 220 of the solar panel bracket 200 300) are fastened and fixed first.

At this time, clamp fastening protrusions 222 are formed on the upper surface of the front surface of the intermediate frame 220 and the lower surface of the front surface of the intermediate frame 220. When the fastening clamp 300 is fastened or fastened, .

The fixing clamp 300 has a general clamp structure for fastening the C-type clamp body 310 with bolts and nuts at both side ends thereof. When the diameter of the circular column 1000 is large, It is also possible to fix the clamp body 310 by dividing the clamp body 310 into plural pieces.

5, the number of the solar panel brackets 200 may be adjusted around the outer diameter surface of the circular column 1000 according to the sunshine condition of the sunlight, It is preferable that the solar panel brackets 200 of the fixing bracket 200 are provided with a plurality of side contact surfaces 212 and 232 completely in contact with each other so as not to generate an empty space therebetween. It is preferable that the minimum number of the solar panel brackets 200 to be installed is dispersed at a specific angle.

[Fastening Clamp (400)]

6, when a plurality of solar panel brackets 200 are first fixed by the fixing clamp 300 around the outer surface of the circular column 1000, the sunlight is applied to the front surface of the bracket 200, The fixing bracket 400 is fastened to the front surface of the end bracket 210 to completely fix the bracket 200 and the solar panel 100 after the panel 100 is attached and assembled by the method described with reference to FIG. Clamping protrusions 215 are formed on the front and the lower surfaces of the fastening clamp 210 to prevent the fastening clamp 400 from being moved by its own weight or other external force at the time of tightening or tightening of the tightening clamp 400 do.

Further, the tightening clamp 400 has a general clamp structure for fastening the C-type clamp body 410 with bolts and nuts at both side ends thereof. When the diameter of the circular column 1000 is large, two or more It is also possible to apply and fix the clamp body 410 divided into a plurality of parts.

The structure of the pushing surface 411 is preferably formed at an angle equal to the installation angle of the bracket 200 to the inner circumferential surface of the solar panel 100 Of the end bracket 210 and the front surface of the panel mount 213 of the end bracket 210 can be contacted and pressed at the same time.

[Safety plate (500)]

7, after the solar panel bracket 200 and the solar panel 100 are completely fixed by the tightening clamp 400, a semicylindrical thin A safety plate 500 having a plate structure is installed. This is to minimize the influence of the wind blowing from the rear side, and the fixing of the safety plate 500 can be performed in all the usual ways such as welding, bolting, and fitting using the tightening clamp 400.

Also, the safety plate 500 can be manufactured using an iron plate or a plastic material, and can be used as an adboard if necessary.

In addition, the solar panel bracket 200 and the solar panel 100 can be additionally installed on the rear surface of the circular column 1000 according to the sunlight condition of the installation area. In this case, can do.

[Base clamp (600)]

As shown in Fig. 8 (a), when the solar panel bracket 200 is stacked around the circular column 1000, the support clamp 600 is installed below the solar panel bracket 200 desirable.

At this time, a support plate 620 having a semicircular plate structure capable of supporting the bracket 200 is formed at the middle height of the support clamp 600, and the support plate 620 is provided with a ventilation / Thereby forming a hole 621.

Further, the support clamp 600 has a general clamp structure for fastening the C-type clamp body 610 with bolts and nuts at both side ends thereof. When the diameter of the circular column 1000 is large, It is also possible to fix the clamp body 610 by dividing the clamp body 610 into plural pieces.

As shown in FIG. 8 (b), when the solar panel brackets 200 are stacked and installed using the support clamp 600 and the stationary clamp 300, the processes of FIGS. 6 to 7 are repeated, The optical panel 100, the tightening clamp 400, and the safety plate 500 may be assembled to complete the installation.

[Support (700)]

As shown in FIG. 8, the support 700 can be additionally installed under the support clamp 600 to more safely support the accumulated load during the lamination of the solar panel 100 .

In addition, the shape and material of the support table 700 are not particularly limited, and may be a structure that can sufficiently support the plurality of solar panel brackets 200.

FIG. 9 is a view showing another embodiment corresponding to various diameters and gradients of the circular column 1000. FIG. 9 (a) is an embodiment applied to a small-sized circular column 1000, .

9 (b) is an example in which the circular column 1000 is applied to a large-size circular column 1000, and the circumference of the circular column 1000 is assembled by two or more clamp bodies.

9 (c) shows an example in which the same gradient is applied to the bracket 200 as an example applied to a circular column 1000 having a gradient.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And various modifications and changes may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should be construed as being interpreted by the matters described in the claims, and technical terms within the scope of equivalents thereof.

1000: Circular column
100: Solar panel
110: Solar cell
200: Solar panel support bracket
210: end frame
211: Inner contact surface
212: side contact surface
213: Panel Cradle
214:
215: Clamp clamping projection
220: intermediate frame
221: Inner contact surface
222: clamp clamping projection
230: reinforcing frame
231: Inner contact surface
232: side contact surface
233:
240: connection frame
300: Fixing clamp
310: Clamp body
400: tightening clamp
410: Clamp body
411:
500: Safety plate
600: Support clamp
610: Clamp body
620:
621: Ventilation and intake water ball
700: Support
A: Frame angle
D: Frame depth
L: Panel Width
T: Panel Thickness
R: Circular column radius

Claims (12)

The present invention relates to a mounting apparatus for a solar cell panel mounted on a pipe or circular column structure or a curved outer surface of a facility,
The solar panel installation apparatus includes a solar panel 100, a solar panel bracket 200, a stationary clamp 300, a tightening clamp 400, a safety plate 500, a support clamp 600, and a support 700 Respectively,
The solar panel 100 is detachably assembled to the solar panel bracket 200,
The solar panel bracket 200 is fixedly attached to the circular column 1000 by a fixing clamp 300,
The solar panel 100 and the solar panel bracket 200 are completely fixed to the circular column 1000 by the tightening clamp 400,
The solar panel bracket 200 is supported by a support clamp 600 and a support table 700,
The safety plate 500 is formed on the rear surface of the circular column 1000 where the solar panel 100 is not provided and is formed into a semi-cylindrical plate structure and fastened to the outer surface of the tightening clamp 400,
The support clamp 600 is formed by fastening a generally C-shaped clamp body 610 with bolts and nuts at both side ends thereof. The support clamp 600 is divided into two or more pieces according to the size of the circular column 1000 A base plate structure having a semi-circular plate structure capable of supporting the bracket 200 at the middle height of the support clamp 600 while being mounted under the solar panel bracket 200 when the solar panel 1000 is stacked, 620), and the support plate (620) includes a ventilation / intake hole (621) for preventing internal ventilation and rainwater from accumulating. The method according to claim 1,
The solar panel bracket (200)
A reinforcing frame 230 installed between the end frame 210 and the intermediate frame 220, and a reinforcing frame 230 interposed between the end frame 210 and the intermediate frame 220. [
And a connecting frame (240) connecting the end frame (210), the intermediate frame (220), and the reinforcing frame (230). 3. The method of claim 2,
The end frame (210) of the solar panel bracket (200)
Are formed symmetrically to the upper and lower ends of the bracket 200,
The inner contact surface 211 has a trapezoidal structure that is formed to have the same curvature as the radius R of the circular column and has a certain frame angle A in the outward direction. And a frame depth (D) for securing a space for cooling the exotherm of the cooling water
A panel mount 213 having a thickness equal to the panel thickness T is formed at a part of the front end and a panel insert 214 having an interval equal to the panel width L is formed above the panel mount 213, And a clamp fastening protrusion (215) for fastening the tightening clamp (400) to the front surface and the lower end of the clamping protrusion (215). 3. The method of claim 2,
The middle frame 220 of the solar panel bracket 200 is formed of a light-
The upper and lower end frames 210 and the upper and lower end frames 210. When the length of the bracket 200 is long, one or more of the upper and lower end frames 210 can be formed,
The inner contact surface 211 has a trapezoidal shape that is formed to have the same curvature as the radius R of the circular column and to have a constant frame angle A in the outward direction In addition,
And a clamp fastening protrusion (222) for fastening the fixing clamp (300) to the front surface and the lower end of the cabinet. 3. The method of claim 2,
The reinforcing frame 230 of the photovoltaic panel bracket 200 may be formed,
The upper frame 210 and the intermediate frame 220. When the length of the bracket 200 is long, it is possible to form more than two frames between the upper and lower frame, As a result,
The inner contact surface 231 is formed to have a curvature equal to the radius R of the circular column and has a trapezoidal structure that flares outwardly at a constant frame angle A,
Wherein the side contact surface (232) includes a frame depth (D) for securing a space for cooling the heat of the solar panel (100). 3. The method of claim 2,
The connection frame 240 of the solar panel bracket 200 includes a plurality of
A plurality of longitudinally elongated bar structures of circular or polygonal cross section and attached to one or more of the inner edge and the inner middle of the end frame 210, the intermediate frame 220, and the reinforcing frame 230,
The insertion depth of the panel is limited when the solar panel 100 is inserted into the bracket 200 so as to be in direct contact with the rear surface of the panel mount 213 of the end frame 210, The solar panel (100) is fixed to the bracket (200) by supporting both side ends of the panel when the optical panel (100) is in close contact with the bracket (200) Panel mounting device. 5. The method of claim 4,
The stationary clamp 300,
A general C-shaped clamp body 310 is fastened with bolts and nuts at both side ends thereof,
The solar panel bracket 200 is fastened between the clamp fixing protrusions 222 of the intermediate frame 220. The circular pillar curved surface 220 may be divided into two or more pieces depending on the size of the circular column 1000, Attachable detachable solar panel installation device. The method of claim 3,
The tightening clamp (400)
A general C-shaped clamp body 410 is fastened with bolts and nuts at both side ends thereof,
The solar cell panel 200 may be divided into two or more pieces depending on the size of the circular column 1000 and is fastened between the clamp fixing projections 215 of the end frame 210 of the solar panel bracket 200, And a pushing surface 411 is formed to press a part of the end of the solar panel 100 and the panel rest 213 of the solar panel bracket 200 simultaneously. Device. The method according to claim 1,
The support 700 includes:
Wherein the solar panel (100) is stacked and selectively installed under the support clamp (600) during installation to support the accumulated load of the apparatus. 3. The method according to claim 1 or 2,
The present invention is also applicable to a circular pillar curved surface attachment type solar photovoltaic system (1000) in which a solar cell panel bracket (200) can be formed in an inclined cylindrical shape by applying the same gradient angle to a circular column Panel mounting device. delete delete

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