KR20200142348A - Clamp for supporting solar light collecting module - Google Patents

Abstract

According to an embodiment of the present invention, provided is a clamp for fixing a solar module which can improve work efficiency of an assembler. According to an aspect of the present invention, the clamp for fixing a solar module comprises: a first plate having a lower surface coupled to an upper surface of a base; a plurality of side surface plates extended to be bent upward from both side surfaces of the first plate and having a first pipe coupled to the inside; and a fourth plate having both ends coupled to an inner surface of the plurality of side surface plates and disposed on an upper portion of the first plate. The plurality of side surface plates include a second plate and a third plate disposed parallel to each other.

Description

Clamp for fixing the solar module {Clamp for supporting solar light collecting module}

This embodiment relates to a clamp for fixing a solar module.

There is a demand for the development of clean energy that does not generate environmental pollutants, and as a power generation device using such clean energy, a power generation device using solar power is representative. In recent years, as the cost of development and installation of technology becomes inexpensive, the spread is expanding, and the power generation capacity of such a photovoltaic device differs according to the power generation area and the amount of sunlight.

The fields of collecting and using solar energy are largely divided into two. One is the solar heat field that collects solar heat and uses it for heating or hot water hot water, and the other uses the phenomenon of generating electricity (photoelectric effect) when sunlight is incident on a solar cell made of silicon semiconductors, etc. It is a solar power generation field that generates electricity. In the early days, research and commercialization of the solar heat field, which mainly collects solar heat and uses it as heating and hot water, were conducted, and in recent years, research and commercialization of the solar power field has been actively conducted thanks to the development of solar cell-related technologies.

As described above, in order to heat water or generate electricity using the sun, a device for collecting solar heat or solar energy is essential, and this may be referred to as a solar module. In addition, because the sun always rises from the south due to the geographic characteristics of Korea located in the northern hemisphere, it is common for the solar module to be installed in an inclined state from the ground in order to effectively obtain sunlight. For this purpose, a support is provided, and the support is provided with sunlight. A clamp for fixing the module is provided.

When a large amount of impact is applied from the outside (especially, such as an earthquake or typhoon), the fixing of each connection is weakened, resulting in a decrease in the durability of the structure or the structure itself may collapse. Therefore, clamps that connect different configurations are the most important parts to be considered when designing in order to secure the durability of the solar device.

The present invention has been proposed in order to improve the above problems, and is to provide a clamp for fixing a photovoltaic module capable of improving durability against impact and improving work efficiency of an assembler when assembling parts.

The clamp for fixing a solar module according to the present embodiment includes: a first plate having a lower surface coupled to an upper surface of the base; A plurality of side plates bent upward from both sides of the first plate and extending, and to which the fifth pipe is coupled to the inside; And a fourth plate having both ends coupled to the inner surfaces of the plurality of side plates and disposed above the first plate, wherein the plurality of side plates includes a second plate and a third plate disposed parallel to each other. Include.

Through this embodiment, when a tolerance occurs, the screw is moved within the fastening hole, so that the fastening operation can be made more easily.

In addition, by forming the cross-sectional shape of the screw in a square shape to prevent arbitrary movement in the coupling groove, there is an advantage that the coupling state of the clamp and the fifth pipe can be firmly maintained.

In addition, since the side plate presses the side of the fifth pipe by the elastic force of the clamp, an assembly process between the clamp and the solar module can be easily performed.

1 is a perspective view of a solar module according to an embodiment of the present invention.
2 is a perspective view of a clamp according to an embodiment of the present invention.
3 is a perspective view showing a state in which a clamp is coupled to a region between a fifth pipe and a base according to an embodiment of the present invention.
4 is a cross-sectional view of a clamp according to an embodiment of the present invention.
5 is a plan view showing a side of a clamp according to an embodiment of the present invention.
6 is a plan view showing a lower surface of a clamp according to an embodiment of the present invention.
7 is a cross-sectional view of a clamp according to a second embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described through exemplary drawings. In the description of reference numerals for elements in each drawing, the same elements are denoted by the same numerals as possible even if they are indicated on different drawings.

In addition, terms such as first, second, A, B, (a), and (b) may be used in describing the constituent elements of the embodiment of the present invention. These terms are only used to distinguish the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being'connected','coupled' or'connected' to another component, the component may be directly connected, coupled or connected to the other component, but that component and its other components It will be understood that another component may be'connected','coupled' or'connected' between elements.

1 is a perspective view of a solar module according to an embodiment of the present invention.

Referring to FIG. 1, a solar module 100 according to an embodiment of the present invention may be coupled to an upper surface of a base 130 through a clamp 200. The base 130 is a roof surface or a top surface of a building or structure, and may be understood as an area in which the solar module 100 is installed.

The photovoltaic module 100 may have an external shape as a combination structure of a plurality of frames. The plurality of frames may include a first frame 110 and a second frame 120. The second frame 120 may be disposed under the first frame 110 to support the first frame 110 with respect to the base 130.

The first frame 130 may be disposed to be inclined with respect to the base 130 or the second frame 120 so that a solar panel (not shown) may be disposed on an upper surface. The first frame 130 is spaced apart from each other and arranged in parallel with the first pipe 112 and the second pipe 116, and a third connecting the first pipe 112 and the second pipe 116 It may include a pipe 114.

The first pipe 112 and the second pipe 116 are disposed to be inclined with respect to the base 130 or the second frame 120. For example, the first pipe 112 and the second pipe 116 may be disposed so that the heights of the first pipe 112 and the second pipe 116 differ from the upper surface of the base 130 in the upper and lower directions from one end to the other. The length directions of the first pipe 112 and the second pipe 116 may correspond to the length direction of the solar panel.

The third pipe 114 is disposed on the top surfaces of the first pipe 112 and the second pipe 116. The third pipe 114 may be disposed vertically to the first pipe 112 and the second pipe 116, respectively. The third pipe 114 may be provided in plural and disposed to be spaced apart from each other. One region of the third pipe 114 may be coupled to the first pipe 112 and the other region may be coupled to the second pipe 116. The third pipe 114 may be coupled to the first pipe 112 and the second pipe 116 through separate brackets (not shown).

The second frame 120 supports the lower surface of the first frame 110. The second frame 120 has a fourth pipe 122 disposed perpendicular to the base 130 to support the lower surface of the first pipe 112 or the second pipe 116, and the lower surface thereof is the base. A fifth pipe 124 may be coupled to the upper surface of 130 to support the lower end of the fourth pipe 122.

The fourth pipe 122 has an upper end coupled to the lower surface of the first pipe 112 or the second pipe 116, and a lower end coupled to the upper surface of the fifth pipe 114. The fourth pipe 122 may be provided in plural and disposed to be spaced apart from each other along the length direction of the solar panel. The plurality of fourth pipes 122 may have different heights. Accordingly, the first pipe 112 or the second pipe 116 may be disposed to be inclined with respect to the base 130. More specifically, in a region where the distance between the lower surface of the first pipe 112 or the second pipe 116 and the upper surface of the base 130 is relatively long, a relatively long fourth pipe 122 Is placed. In addition, a relatively short fourth pipe 122 is disposed in a region in which the distance between the lower surface of the first pipe 112 or the second pipe 116 and the upper surface of the base 130 is relatively short. do.

Meanwhile, the fourth pipe 122 and the first pipe 112 or the second pipe 116 may be coupled to each other through the bracket 130. In addition, the bracket 130 is also disposed between the lower end of the fourth pipe 122 and the fifth pipe 124, so that the fourth pipe 122 and the fifth pipe 124 are mutually coupled. I can.

In addition, a reinforcing pipe 126 may be additionally provided between the plurality of fourth pipes 122 having different lengths and disposed adjacent to each other. One end of the reinforcing pipe 126 may be coupled to a lower end to the fourth pipe 122 at one end, and the other end may be coupled to an upper end to the fourth pipe 122 at another end. For this reason, the reinforcing pipe 126 may be disposed inclined with respect to the fifth pipe 124.

The fifth pipe 124 supports the lower end of the fourth pipe 122. A lower surface of the fifth pipe 124 is coupled to an upper surface of the base 130. The fifth pipe 124 may be disposed parallel to the base 130. Accordingly, the fourth pipe 122 disposed in the height direction may be disposed perpendicular to the fifth pipe 124.

The fifth pipe 124 may be coupled to the base 130 through a clamp 200. Accordingly, the clamp 200 may be understood as a configuration for coupling the solar module 100 to the upper surface of the base 130.

Hereinafter, the clamp 200 will be described.

Figure 2 is a perspective view of a clamp according to an embodiment of the present invention, Figure 3 is a perspective view showing a state in which the clamp is coupled to a region between a fifth pipe and a base according to an embodiment of the present invention, and Figure 4 is a view of the present invention A cross-sectional view of a clamp according to an embodiment, FIG. 5 is a plan view showing a side surface of a clamp according to an embodiment of the present invention, and FIG. 6 is a plan view showing a lower surface of a clamp according to an embodiment of the present invention.

2 to 6, the clamp 200 according to the embodiment of the present invention includes a first plate 210, a second plate 220, a third plate 230, and a fourth plate 240. can do. The clamp 200 may be formed of a metal material.

The first plate 210 may form a lower region of the clamp 200. For this reason, the first plate 210 may be referred to as a bottom plate. The lower surface of the first plate 210 may be coupled to the upper surface of the base 130. The lower surface of the first plate 210 may be in surface contact with the upper surface of the base 130. A screw hole 211 may be formed in the center of the first plate 210 to penetrate from the upper surface to the lower surface of the first plate 210. A coupling screw 215 may be coupled to the screw hole 211. Accordingly, the clamp 200 may be coupled on the upper surface of the base 130. The coupling screw 215 may have a head disposed in a region between the first plate 210 and the fourth plate 240. A washer 216 may be provided between the head of the coupling screw 215 and the lower surface of the first plate 21.

That is, the coupling screw 215 may be coupled to the screw hole 211 and the base 130.

The second plate 220 and the third plate 230 form side surfaces of the clamp 200. For this reason, the second plate 220 and the third plate 230 may be referred to as side plates. The second plate 220 and the third plate 230 may be spaced apart from each other and disposed in parallel. The fifth pipe 124 may be disposed in a region between the second plate 220 and the third plate 230.

The second plate 220 may be formed by bending upward from one end of the first plate 210. The third plate 230 may be formed by bending upward from the other end of the first plate 210. The first plate 210 may have a rectangular cross section. In addition, the second plate 220 and the third plate 230 may be formed by extending upward from a relatively long side of the four sides of the first plate 210. That is, a lower end of the second plate 220 and a lower end of the third plate 230 may form a long side of the first plate 210.

A first fastening hole 222 penetrating from an inner surface to an outer surface may be formed in the second plate 220. The first fastening hole 222 may be provided in plurality, and may be formed to be spaced apart from each other in a horizontal direction. The first fastening hole 222 may be disposed to face the coupling groove 126 of the fifth pipe 124 to be described later. A screw 250 may be coupled to the first fastening hole 222. The screw 250 may pass through the first fastening hole 222 and be screwed into the coupling groove 126. To this end, a screw thread or a screw groove may be formed on the inner circumferential surface of the coupling groove 126, and a screw groove or a screw thread may be formed in the coupling region of the screw 250. That is, the coupling region of the screw 250 may be defined as a region that penetrates the first fastening hole 222 and is screwed into the coupling groove 126.

The length of the first fastening hole 222 in the vertical direction may correspond to the length of the coupling region of the screw 250 in the vertical direction. In addition, the length of the first fastening hole 222 in the horizontal direction may be longer than the cross-sectional area of the coupling region of the screw 250. Accordingly, the screw 250 may move in the horizontal direction within the first fastening hole 222. However, when the nut 253 is coupled to the coupling region of the screw 250, the coupling state of the screw 250 may be fixed within the first fastening hole 222.

The third plate 230 may have a second fastening hole 232 penetrating from the inner surface to the outer surface. The second fastening holes 232 may be provided in plural, and may be formed to be spaced apart from each other in a horizontal direction. The second fastening hole 232 may be disposed to face the coupling groove 126 of the fifth pipe 124 to be described later. The second fastening hole 232 may be disposed to face each other in a horizontal direction with the first fastening hole 222. A screw 250 may be coupled to the second fastening hole 232. The screw 250 may pass through the first fastening hole 222 and be screwed into the coupling groove 126. To this end, a screw thread or a screw groove may be formed on the inner circumferential surface of the coupling groove 126, and a screw groove or a screw thread may be formed in the coupling region of the screw 250.

The length of the second fastening hole 232 in the vertical direction may correspond to the length of the coupling region of the screw 250 in the vertical direction. In addition, the length of the second fastening hole 232 in the horizontal direction may be longer than the cross-sectional area of the coupling region of the screw 250. For this reason, the screw 250 may move in the horizontal direction within the second fastening hole 232. However, when the nut 253 is coupled to the coupling region of the screw 250, the coupling state of the screw 250 may be fixed within the second fastening hole 232.

Meanwhile, in the present specification, the horizontal direction may be a direction parallel to the base 130, the first plate 210, and the fourth plate 240.

The screw 250 passes through the fastening holes 222 and 232 from the head 251 disposed on the inner side of the side plates 220 and 230 and the outer surface of the head 251 to the coupling groove ( A coupling region screwed to 126 and a nut 253 coupled to the coupling region to press the outer surfaces of the side plates 220 and 230 may be included. Accordingly, the screw 250 may be coupled to pass through the fastening holes 222 and 232 from the inside of the side plates 220 and 230 through the head 251. Further, when the nut 253 is screwed to the coupling region to press the outer surfaces of the side plates 220 and 230, the screw 250 may be fixed to the fastening holes 222 and 232.

Therefore, the cross-sectional shape of the fastening holes 222 and 232 is formed to be longer in the horizontal direction than the cross-sectional area of the screw 250, and when a tolerance occurs, the screw 250 is moved within the fastening holes 222 and 232. Fastening operation can be made more easily.

Meanwhile, the cross-sectional shape of the head portion 251 may be formed in a square shape. The head 251 may be formed in the shape of a cube or a rectangular parallelepiped.

In addition, the coupling groove 126 in which the head portion 251 is accommodated may be formed on a side of the fifth pipe 124. The coupling groove 126 may be formed to extend in a horizontal direction along a side surface of the fifth pipe 124 as shown in FIG. 3.

When the clamp 250 and the fifth pipe 124 are coupled, the head 251 may be accommodated in the coupling groove 126. At this time, since the coupling groove 126 is formed to be elongated in the horizontal direction, the clamp 250 slides with respect to the fifth pipe 124 while the head portion 251 is accommodated in the coupling groove 126 Can be moved. For this reason, the position of the clamp 250 can be more easily changed. In addition, by the cross-sectional shape of the head portion 251, the head portion 251 can be prevented from moving arbitrarily within the coupling groove 126. In addition, when the nut 253 presses the outer surfaces of the side plates 220 and 230, the clamp 250 may be prevented from randomly sliding with respect to the fifth pipe 124.

Meanwhile, in FIG. 3, the defect groove 126 extends along the length direction of the fifth pipe 124, but is not limited thereto, and the coupling groove 126 is It may be formed to correspond to the cross-sectional shape.

Meanwhile, in an area adjacent to the upper end of the outer surfaces of the side plates 220 and 230, inclined surfaces 229 and 239 may be formed so that the thickness of the side plates 220 and 230 decreases as it goes upward. The inclined surfaces 229 and 239 may include a first inclined surface 229 disposed at an upper end of the second plate 220 and a second inclined surface 239 disposed at an upper end of the third plate 230. have.

The vertical length H1 of the inclined surfaces 229 and 239 may correspond to the vertical length H2 from the coupling groove 126 to the upper end of the side plates 220 and 230. . That is, when the side surfaces of the fifth pipe 124 arranged in the upper and lower directions based on the coupling groove 126 are divided into a fifth pipe lower portion 124a and a fifth pipe upper portion 124b, the fifth pipe It can be understood that the inclined surfaces 229 and 239 are formed on the outer surfaces of the side plates 220 and 230 overlapping the upper portion 124b in the horizontal direction. Accordingly, the coupling state of the side plates 220 and 230 and the fifth pipe 124 may be firmly fixed, and the clamp 200 may be prevented from being separated by an outsider or a third party. .

A rubber plate 270 may be coupled to the inner surfaces of the side plates 220 and 230. The rubber plate 270 may be interposed between a side surface of the fifth pipe 124 and an inner surface of the side plates 220 and 230. The material of the rubber plate 270 may be rubber. Accordingly, the side plates 220 and 230 and the fifth pipe 124 may be fixed more firmly, and the coupling state may be maintained even with corrosion of the clamp 200 or the fifth pipe 124 .

A plurality of ribs 271 protruding inwardly are formed on the inner surface of the rubber plate 270, so that the combined area with the side surface of the fifth pipe 124 may be formed to be wider.

In this embodiment, although the rib 271 is formed due to the arrangement of the rubber plate 270 in the clamp 200, the inner surface of the side plates 220 and 230 without the rubber plate 270 By directly forming a plurality of ribs protruding inward to the fifth plate 124, the bonding force with the fifth plate 124 may be more firmly maintained.

A fourth plate 240 may be disposed on the first plate 210. The fourth plate 240 may be disposed parallel to the first plate 210. One end of the fourth plate 240 may be coupled to the inner surface of the second plate 220 and the other end may be coupled to the inner surface of the third plate 230. The fourth plate 240 may be disposed to interconnect regions between the plurality of side plates 220 and 230 to reinforce the strength of the clamp 200. The upper surface of the fourth plate 240 may support the lower surface of the fifth pipe 124.

Holes 242 penetrating from an upper surface to a lower surface may be formed in the fourth plate 240. The cross-sectional area of the hole 242 may be larger than the cross-sectional area of the screw hole 211. Therefore, the operator can perform the fastening operation of the coupling screw 215 to the screw hole 211 more easily through the hole 242.

A spacer 205 may be formed between the upper surface of the first plate 210 and the lower surface of the fourth plate 240 to separate the first plate 210 and the fourth plate 240. In addition, a reinforcing portion 280 having a lower end coupled to the upper surface of the first plate 210 and an upper end coupled to the lower surface of the fourth plate 240 may be disposed in the spacing portion 205. Through the reinforcing part 280, the clamp 200 may more firmly support the load of the solar module 100.

The reinforcing part 290 may be formed in a ring shape in cross section so as to be disposed outside the hole 242. Alternatively, the reinforcing part 290 may have a shape of a plurality of plates disposed to face each other with respect to the hole 242.

7 is a cross-sectional view of a clamp according to a second embodiment of the present invention.

In this embodiment, other parts are the same as in the first embodiment, but there is a difference according to the shape of the side plate. Therefore, hereinafter, only characteristic parts of the present embodiment will be described, and the first embodiment will be used for the remaining parts.

Referring to FIG. 7, the clamp 300 according to the present embodiment includes a first plate 310 disposed below the fifth pipe 124 and extending upward from an edge region of the first plate 310. The second plate 330 and the third plate 340 are disposed opposite to each other, and both ends are coupled to the inner surfaces of the second plate 330 and the third plate 340 so that the fifth pipe 124 It may include a fourth plate 320 supporting the lower surface of the.

In this embodiment, protrusions 333 and 343 protruding inward may be formed on inner surfaces of the second plate 330 and the third plate 340, that is, the side plates 330 and 340. The protrusions 333 and 343 may be understood as a region coupled to the coupling groove 125 disposed on the side of the fifth pipe 124.

In detail, the inner surfaces of the side plates 330 and 340 have a first inclined surface 332 that is formed to be inclined so that the horizontal distance between the inner surfaces of the plurality of side plates 330 and 340 becomes closer as it goes upward, and the first inclined surface ( It may include a second inclined surface 334 disposed on the top of the 332 and formed to be inclined so that the horizontal distance between the inner surfaces of the plurality of side plates 330 and 340 increases as it goes upward. In addition, the protrusions 333 and 343 are disposed between the first inclined surface 332 and the second inclined surface 334. That is, the protrusions 333 and 343 may be disposed at an upper end of the first inclined surface 332 and a lower end of the second inclined surface 334. The protrusions 333 and 343 may have inner ends formed in an apex shape.

In addition, the side plates 330 and 340 may provide elastic force in a direction in which the plurality of protrusions 333 and 343 are close to each other. For this reason, when the clamp 300 is coupled with the fifth pipe 124, it can be easily inserted into the area between the side plates 330 and 340 through the second inclined surface 334. Upon retraction, the plurality of side plates 330 and 340 may be moved in a direction away from each other by the fifth pipe 124. In addition, when the protrusions 333 and 343 are coupled to the coupling groove 125, the side plates 330 and 340 may move inward to press the side of the fifth pipe 124 by the elastic force. .

The outer surfaces of the side plates 330 and 340 have a third inclined surface 335A formed to be inclined so that the horizontal distance between the outer surfaces of the plurality of side plates 330 and 340 becomes closer as it goes upward, and the third inclined surface ( A first vertical surface 335B extending upward from an upper end of 335A and disposed perpendicularly to the first plate 310 or the fourth plate 320, and extending from the upper end of the first vertical surface 335B and upwardly The fourth inclined surface 335C is formed to be inclined so that the horizontal distance between the outer surfaces of the plurality of side plates 330 and 340 is closer to each other, and the fourth inclined surface 335C extends from the upper end of the fourth inclined surface 335C. A fifth inclined surface 335D formed to be inclined to increase a horizontal distance between the outer surfaces of the plates 330 and 340, and the first plate 310 or the first plate 310 or the first plate 310 or the first plate 310 or the first plate 310 or the first plate 310 or the first plate 310 by extending upward from the upper end of the fifth inclined surface 335D. A horizontal direction between the second vertical surface 335E disposed perpendicularly to the fourth plate 320 and the outer surface of the plurality of side plates 330 and 340 extending upward from the upper end of the second vertical surface 335E. It may include a sixth inclined surface 335F that is formed to be inclined to increase the distance.

Accordingly, the nut 253 (refer to FIG. 3) is coupled to the outer surfaces of the first vertical surface 335B and the second vertical surface 335E, and can be firmly coupled with the screw 250 and the side plates 330 and 340. have. Furthermore, since the first vertical surface 335B and the second vertical surface 335E are partitioned from other regions by adjacent inclined surfaces, a fastening process of the nut 253 may be made more easily.

In addition, an elastic force may be more easily provided to the side plates 330 and 340 by the plurality of inclined surfaces.

In the above, the clamp according to the present invention has been described by dividing it into a plurality of embodiments, but the configurations of the clamps of different embodiments may be applied to all within a single clump, and this will also be included in the technical idea of the present invention. For example, it is possible to apply the shape of the side plate of the clamp according to the second embodiment to the side plate of the clamp according to the first embodiment, and it is also possible to couple the rubber plate to the side plate of the clamp according to the second embodiment. It is possible.

In the above, even if all the constituent elements constituting an embodiment of the present invention have been described as being combined into one or operating in combination, the present invention is not necessarily limited to these embodiments. That is, within the scope of the object of the present invention, all of the constituent elements may be selectively combined and operated in one or more. In addition, terms such as'include','consist of' or'have' described above mean that the corresponding component can be present unless otherwise stated, so other components are excluded. Rather, it should be interpreted as being able to further include other components. All terms, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the art, unless otherwise defined. Terms generally used, such as terms defined in the dictionary, should be interpreted as being consistent with the meaning of the context of the related technology, and are not interpreted as ideal or excessively formal meanings unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

Claims (6)

A first pipe and a second pipe that are spaced apart from each other and disposed in parallel, and disposed to be inclined with respect to the base;
A third pipe disposed on an upper surface of the first pipe and the second pipe and having a solar panel disposed on the upper surface;
A fourth pipe having an upper end coupled to a lower surface of the first pipe and the second pipe and disposed perpendicular to the base; And
In the solar module fixing clamp for fixing a solar module including a fifth pipe to the base, the lower end of the fourth pipe is coupled to the upper surface, the lower surface is coupled to the upper surface of the base,
A first plate whose lower surface is coupled to the upper surface of the base;
A plurality of side plates bent upward from both side surfaces of the first plate and extending, and to which the fifth pipe is coupled to the inside; And
Both ends are coupled to the inner surface of the plurality of side plates, and includes a fourth plate disposed above the first plate,
The plurality of side plates includes a second plate and a third plate disposed in parallel with each other,
The second plate and the third plate each have a fastening hole formed from an inner surface to an outer surface through which a screw passes,
The fastening holes are provided in plural in each of the second plate and the third plate, and are disposed to be spaced apart from each other,
The first plate is formed with a screw hole through which the coupling screw is coupled from the upper surface to the lower surface,
The coupling screw is coupled to the base and the screw hole,
Holes penetrating from the upper surface to the lower surface are formed in the fourth plate,
The cross-sectional area of the hole is formed larger than the cross-sectional area of the screw hole,
The screw includes a head portion, a coupling region extending from an outer surface of the head portion, penetrating the coupling hole, and forming a thread or screw groove, and a nut coupled to the coupling region to press the outer surface of the side plate, ,
The upper and lower lengths of the fastening holes correspond to the upper and lower lengths of the coupling region,
The length in the horizontal direction of the fastening hole is formed longer than the length in the horizontal direction of the coupling area,
In the side of the fifth pipe, a coupling groove is formed which is recessed than other regions to which the head is coupled,
The cross-sectional shape of the head is formed in a square shape,
A rubber plate made of rubber is interposed between the inner surface of the side plate and the side surface of the fifth pipe,
A plurality of ribs protruding inward are formed on the inner surface of the rubber plate,
The coupling groove is formed along the length direction of the fifth pipe from the side of the fifth pipe,
The head is slidably coupled to the coupling groove,
A clamp for fixing a solar module comprising a reinforcing pipe having an upper end coupled to a lower surface of the fourth pipe and a lower end coupled to an upper surface of the first pipe.
The method of claim 1,
An inclined surface is formed in an area adjacent to the upper end of the outer surface of the side plate so that the thickness of the side plate decreases as it goes upward,
A side surface of the fifth pipe is divided into an upper portion of a fifth pipe disposed at an upper portion and a lower portion of a fifth pipe disposed at the lower portion based on the coupling groove,
The inclined surface is a clamp for fixing a solar module formed on the outer surface of the side plate overlapping the fifth pipe in the horizontal direction.
The method of claim 1,
Each of the plurality of inner surfaces of the side plates has a first inclined surface formed to be inclined so that the horizontal distance between the plurality of inner surfaces of the side plates becomes closer as it goes upward, and the plurality of side plates are disposed on the first inclined surface so as to go upward. A second inclined surface is formed to be inclined so that the horizontal distance between the inner surfaces is increased, and a protrusion is formed between the first inclined surface and the second inclined surface to protrude inward from the other area and coupled to the coupling groove,
The side plate is a clamp for fixing a solar module for forming an elastic force in a direction in which the plurality of protrusions are close to each other, so that an inner surface presses the side surface of the fifth pipe.
The method of claim 3,
The outer surface of the side plate has a third inclined surface formed to be inclined so that a horizontal distance between the outer surfaces of the plurality of side plates becomes closer as it goes upward, and the third inclined surface extends upward from the upper end of the third inclined surface to increase the first plate or the A first vertical surface disposed perpendicular to the fourth plate; a fourth inclined surface extending from an upper end of the first vertical surface and formed to be inclined so that a horizontal distance between the outer surfaces of the plurality of side plates becomes closer as it goes upward; and 4 A fifth inclined surface extending from an upper end of the inclined surface and being inclined to increase a horizontal distance between the outer surfaces of the plurality of side plates toward an upward direction, and a fifth inclined surface extending upward from the upper end of the fifth inclined surface to increase the first plate or the A second vertical surface disposed perpendicular to the fourth plate, and a sixth inclined surface extending from an upper end of the second vertical surface and formed to be inclined so that a horizontal distance between the outer surfaces of the plurality of side plates increases upward,
The nut is a clamp for fixing a photovoltaic module whose inner surface is coupled to the outer surface of the first vertical surface and the outer surface of the second vertical surface.
The method of claim 1,
The reinforcing pipe is a clamp for fixing a solar module whose cross section is formed in a ring shape.
The method of claim 1,
The reinforcing pipe is a clamp for fixing a photovoltaic module, which is a plurality of plates arranged to face each other with respect to the hole.

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