KR20170089357A - Support structure for solar modules - Google Patents

Abstract

The present invention relates to a support structure for a solar cell module, and more particularly, to a support structure for a solar cell module with excellent constructability and safety. The support structure for a solar cell module according to the present invention improves a support structure installed on the ground to support a solar cell module to be configured to fasten a coupling support while a spiral column is being inserted into the ground. Therefore, the support structure for a solar cell module is easy to construct by directly inserting the column into the ground to form supporting force without forming a hole on the ground and has strong supporting force on the ground by stably supporting a load of a solar cell module.

Description

Support structure for solar cell module {Support structure for solar modules}

The present invention improves the supporting structure for supporting the solar cell module on the ground to simplify the structure, and is easy to manufacture, easy to install, and stably supports the load of the solar cell module while providing a stable supporting force on the ground, To a supporting structure for an excellent solar cell module.

Generally, a support structure is installed in a solar power generation facility to support the solar power generation module while being separated from the ground.

The conventional support structure has a certain length so as to place the solar photovoltaic module at a height apart from the ground, and partly buried in the ground. These supporting structures can be used to dig the site where the solar photovoltaic module will be installed, insert a part of the lower part of the strut, support the concrete by placing it in the ground, or attach the concrete laying material to the bottom of the strut separately.

However, as described above, the method of supporting the support by pouring the concrete has a disadvantage in that it requires a lot of work such as tearing, pouring concrete mortar and curing, and the construction period is prolonged. In addition, there is a problem that the working period due to the weather is extended.

In order to solve this problem, a method of embedding a foundation file on the top of a foundation file after buried in the ground has been researched.

Korean Patent Registration No. 10-0905069 discloses a technique in which a base file having a predetermined length on an embankment or the ground and a plurality of support vanes formed on an outer surface of the body is buried in the ground and a solar module cradle is mounted on a foundation file is disclosed .

The above technique has an advantage that the conventional problem of using concrete can be solved in that the foundation pile can be installed in the ground without forming a foundation with concrete. However, since the mounting hole is buried in the ground and the foundation file is inserted into the mounting hole and then buried, the operation time is still long, and additional work such as boring and burial is accompanied, which complicates the installation process.

Also, since the height of the foundation file embedded in the ground can not be adjusted, it is very difficult to match the height of adjacent cradles.

KR 10-0905069 (B1, June 22, 2009)

Accordingly, the present invention has been made to solve the above-described problems of the prior art, and it is an object of the present invention, which is a new technology, which is easy to manufacture according to a simple structure and can be easily adjusted in height when installed on the ground, And to provide a supporting structure for supporting the solar cell module in which the load of the solar cell module can be stably supported.

In order to achieve the above object, according to the present invention, there is provided a spiral column in which a spiral-shaped penetration body is formed at the lower end so as to be penetrated into the ground, and a coupling hole is formed at a predetermined length at the upper end of the penetration body. A coupling support formed on the upper end of the support tube for coupling the support frame on which the solar cell module is mounted and a coupling part for coupling the outer periphery of the coupling hole on the lower end thereof; Wherein the engagement piece is formed in a vertical plate shape, a front end portion is formed with a triangular inclined surface, an inclined long hole is formed along the upper longitudinal direction in the inclined surface, a cut portion is formed at both ends of the support portion, A pair of pressing flanges protruding from both sides of the pressing flange, and a plurality of bolt holes are formed in the pressing flange.

The cutout portion of the fastening portion is formed such that the tension cutout portion is extended from the pressurizing flange so that the fastening force by the bolt nut fastening of the pressurizing flange is uniformly dispersed to form a supporting force.

In addition, the cut-out portion may be formed in a top-down shape so as to form a tightening force by applying a tension to the pressing flange.

According to the concrete means for solving the above-mentioned problems, the structure and structure of the supporting structure supporting the solar cell module on the ground are simplified, and a supporting structure for the solar cell module can be provided which is simple in installation and installation while lowering the manufacturing cost.

Further, since the coupling support can be fastened while the spiral column is penetrated into the ground, it is easy to adjust the height and it is possible to form a stable supporting force due to the fixed state on the ground.

1 is an exploded perspective view showing a supporting structure for a solar cell module according to the present invention.
2 is a perspective view showing a state of use of a support structure for a solar cell module according to the present invention.
3 is a side view showing a state of use of a support structure for a solar cell module according to the present invention
4 is a side view showing the operation of the fastening portion in the structure of the support structure for a solar cell module according to the present invention
5 to 6 are views showing another embodiment of the fastening portion of the structure of the support structure for a solar cell module according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings. However, these drawings are only for illustrating the contents and scope of the technical idea of the present invention, and the technical scope of the present invention is not limited or changed. It will be apparent to those of ordinary skill in the art that various changes and modifications can be made within the scope of the technical idea of the present invention based on these examples.

In addition, terms and words used in the present specification are terms selected in consideration of functions in the embodiments, and the meaning of the terms may be changed according to the intention or custom of the invention. Therefore, the terms used in the following embodiments are defined according to their definitions when they are specifically defined in this specification, and unless otherwise defined, they should be construed in a sense generally recognized by ordinary artisans.

FIG. 1 is a perspective view illustrating a supporting structure for a solar cell module according to the present invention. FIG. 2 is a perspective view illustrating a supporting structure for a solar cell module according to the present invention. 2 is a side view showing a state of use of a support structure for a solar cell module according to the present invention.

The support structure for a solar cell module according to the present invention is a structure that is installed to support a solar cell module at a lower part of a plate-shaped solar cell module so as to be spaced apart from the ground by fixing and mounting the solar cell module at an inclination angle. , A rigid fixed state, and a supporting force.

The supporting structure 1 for a solar cell module according to the present invention includes a spiral column 2 fixedly mounted on the ground surface and a coupling support member (not shown) coupled to the spiral column 2 to support and support the solar cell module 4 3).

The spiral column 2 is formed with a spiral-shaped penetration body 10 at the lower end to facilitate penetration into the ground, and a coupling port 20 is formed at a predetermined length at the upper end of the penetration body 10.

Since the penetration body 10 is formed in a spiral shape, it forms a rigid fixed state in the ground due to a pulling resistance force when it is intruded into the ground and provides a supporting force, and can be fixed by being pushed into the ground by rotational pressing using a conventional rotary tool So that the installation work can be performed quickly.

The coupling hole 20 may be formed as a pipe or a bar shape with an empty interior, and may be integrally manufactured or separately welded to the intrusion body 10.

The support frame 3 is formed with a support tube 30 for inserting the coupling hole 20 and a support frame 5 on which the solar cell module 4 is mounted is coupled to the upper end of the support tube 30 And a fastening portion 50 for fastening and fixing the support tube 30 to the outer peripheral surface of the coupling hole 20 is formed at the lower end.

The engagement piece 40 is formed integrally with the support tube 30 in the form of a vertical plate, and a triangular inclined surface 41 is formed at the front end so that the support frame 5 can be easily installed at an inclined angle. An oblong slot 42 for bolt fastening of the support frame 5 is formed along the upper longitudinal direction at the lower frame 41.

The fastening part 50 is formed with cutouts 51 and 51 'at both ends of the support tube 30 and has a pair of pressurizing flanges 52 and 52' on both sides of the cutouts 51 and 51 ' And a plurality of bolt holes 53 are formed on the pressing flanges 52 and 52 'in the up and down directions.

4, the coupling support 3 is inserted into the coupling tube 20 of the spiral column 2 so as to be inserted into the lower portion of the support tube 30, And the pressing flanges 51 and 51 'protruding from both sides of the cut-away portions 51 and 51' of the support tube 30 are fastened to the outer circumference of the coupling 20 by the bolt nuts, So as to form a firmly fixed state.

The coupling support 3 is provided with a diameter larger than the diameter of the coupling hole 20 so that the coupling hole 20 is inserted.

The cutout portions 51 and 51 'of the fastening portion 50 are formed by pressing flanges 52 and 52' so that the fastening force by the bolt nut fastening of the pressurizing flanges 52 and 52 ' The tension cutout portions 51a and 51a 'are further extended by a predetermined distance from the upper ends of the tension flanges 52 and 52' and the cohesion force generated when the pressurizing flanges 52 and 52 'are pressed by the bolts / A tension hole 51b of a spherical shape is formed so as to prevent cracks from being generated in the action cutout portions 51a and 51a '.

5, when the fastening portions 51 and 51 'of the coupling support 3 are formed, tension is applied to the pressing flanges 52 and 52' It can be deformed so as to have a strong fastening force and at the same time to cut the upper flange (upper portion is narrower and lower portion is broader) in order to uniformly fasten the pressurizing flanges 52 and 52 '.

6, the structure of the pressurizing flanges 52 and 52 'protruding from both ends of the cut-out portions 51 and 51' is referred to as a one-side pressurizing flange 52 and the other pressurizing flange 52 ' May be bent and deformed in the opposite direction so as to be given a tension.

The support structure 1 for the solar cell module as described above is put into the ground by rotating and pressing the spiral column 2 using a rotating tool. When the intruding body 10 is intruded into the ground and is firmly fixed, The coupling support 3 is fastened to the coupling hole 2 which is in a state of being integrally uprighted.

The pressing flanges 52 and 52 'of the coupling part 50 are inserted into the coupling pipe 20 in the longitudinal direction of the coupling pipe 20 after the coupling pipe 20 is inserted into the lower end of the supporting pipe 30 of the coupling pipe 3, Bolts / nuts are assembled and fixed by pressure tightening.

The solar cell module 4 can be installed by mounting the support frame 5 on the engagement piece 40 formed at the upper end of the support tube 30.

 As described above, according to the present invention, it is possible to easily insert the coupling support 3 having a simplified structure in a state where the spiral column 2 is put in the ground and insert the coupling support 3 into the insertion holes 51, 51 'and the pressing flanges 52, 52' When the fastening part 50 is fastened with a bolt / nut, the support structure that maintains a firmly fixed state while sufficiently supporting the load of the solar cell module 4 is formed.

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, It should be understood that the scope of the claims is not limited to the examples but covers the scope of the claims and the scope of equivalents thereof.

1: Support structure for solar cell module
2: Spiral holding
10: Vessel 20:
3: Coupling support
30: Support tube
40: engaging piece 41: inclined surface 42: oblique slot
50:
51,51 'cut-out portion 52,52' pressure flange 53: bolt hole
51a, 51a ': a tension cut-
4: Solar module
5: Support frame

Claims (3)

A spiral column 2 in which a spiral-shaped penetration body 10 is formed at the lower end to be penetrated into the ground, a coupling hole 20 is formed at a predetermined length on the upper end of the insertion body 10,
A support pipe 30 for inserting a coupling hole 20 is formed and a coupling piece 40 is formed on the upper end of the support pipe 30 so that the support frame 5 on which the solar cell module 4 is mounted is coupled And a coupling support (3) having a coupling part (50) for fastening and fixing the coupling hole (20) on the outer circumferential surface of the coupling hole (20)
The engaging piece 40 is formed in a vertical plate shape and has a triangular inclined surface 41 at the front end thereof. An inclined long hole 42 is formed in the inclined surface 41 along the upper longitudinal direction,
The fastening part 50 is formed with cutouts 51 and 51 'at both ends of the support tube 30 and has a pair of pressurizing flanges 52 and 52' on both sides of the cutouts 51 and 51 ' , And a plurality of bolt holes (53) are formed in the pressing flanges (52, 52 ').
The method according to claim 1,
The cut-out portions 51 and 51 'of the fastening portion 50 are provided at the pressing flanges 52 and 52' so that the fastening force by the bolt-nut fastening of the pressurizing flanges 52 and 52 ' And a cutout portion (51a, 51a ') is extended.
The method according to claim 1,
Wherein the cut-out portions (51, 51 ') are formed in a vertically lowered shape so as to provide a tightening force to the pressing flanges (52, 52').

Images