KR20200000550A - A Solar Photovoltaic Generation Module Supporting Structure and A Structuring Method Using Thereof - Google Patents

Abstract

The present invention relates to a supporting structure of a solar photovoltaic power generation module and a supporting method using the same. The supporting structure of a solar photovoltaic power generation module in composition comprises: a mesh unit formed in a net shape and installed on a bottom surface; a base plate unit formed in a plate shape, formed to be relatively greater than a size of the net shape of the mesh unit and located between the bottom surface and the mesh unit; and a pillar unit vertically fixed to the base plate unit and having a solar module installed upwards.

Description

A Solar Photovoltaic Generation Module Supporting Structure and A Structuring Method Using Thereof}

The present invention relates to a photovoltaic module, and more particularly, to a support structure of a photovoltaic module supported on the ground when installing the photovoltaic module and a method of installing the support structure using the same.

In general, for a photovoltaic power generation equipment, a module fixing frame for installing a solar cell module and a support frame for supporting a fixed frame on the ground are essential.

Such solar power generation equipment is generally welded to a plurality of frames to each other and the support frame is installed on the ground fixed, the photovoltaic module is seated on the fixed frame, and then the photovoltaic module can be fixed form The fixing plate of the module is fastened to the fixing frame by using a screw or the like is configured to press the photovoltaic module by pressing the fixing plate or to fix the photovoltaic module directly to the fixing frame.

The support frame for supporting the fixed frame in which the conventional photovoltaic module is installed has a certain length so as to position the photovoltaic module at a height spaced from the ground and is partially embedded in the ground.

The support frame may be dug up the site where the photovoltaic module is to be installed, insert a lower part of the support frame, and cast concrete mortar to support it in the ground, or separately attach concrete attachment to the bottom of the support frame in advance. It may be buried. In addition, after forming the foundation base made of concrete in advance in the installation site may be fixed to the support frame using an anchor or the like on the foundation base.

Among the methods for supporting the support frame in the ground as described above, in the case of the method of embedding the support frame on the ground and placing concrete around the ground to support the ground, the work such as digging, concrete mortar casting and curing has a disadvantage. .

Patent Registration No. 10-1142898

An object of the present invention for solving the above problems is to provide a support structure for a photovoltaic module that can be easily installed and dismantled without embedding a structure such as concrete on the ground.

In order to achieve the above object, the configuration of the support structure of the photovoltaic module according to the present invention is formed in a mesh, the mesh portion is installed on the bottom surface, and formed in a plate shape relatively larger than the mesh size of the mesh portion It is formed, it may be configured to include a base plate portion located between the bottom surface and the mesh portion, and the support portion is fixed vertically to the base plate portion installed above the solar module.

The mesh portion has a first support portion formed in a bar shape and positioned horizontally, and a first fastening portion, a second fastening portion, and a third fastening portion formed in a bar shape and having through holes penetrating through the front end and the lower end, respectively. A second support portion and the second support portion are connected between the three first support portions, the first fastening portion is fixed through the first first support portion, and the second fastening portion is fixed through the second first support portion. The third fastening part is fixed through the third first support part.

In the second support portion, the first fastening portion is formed with a relatively small width relative to the second fastening portion, the third fastening portion is formed with a recessed groove, the recessed groove corresponding to the first fastening portion Characterized in that the size is formed.

The support structure of the photovoltaic module of the present invention is further provided with a third support portion, wherein the third support portion is formed in a bar shape is provided with a first fastening portion, a second fastening portion which is provided with through holes penetrating through the front end and the bottom, respectively And the third support part is connected between the two first support parts, the first fastening part is fixed through the first first support part, and the second fastening part is fixed through the second first support part. do.

The base plate portion and the mesh portion is characterized in that fastened to each other by a coupling member.

In addition, the support structure installation method using the support structure of the photovoltaic module according to another embodiment of the present invention, the first step of removing the soil of the ground to a certain depth, and the second step of positioning the base plate in a predetermined position and It may include a third step of installing the mesh portion on the base plate, a fourth step of installing the holding portion in the base plate portion, and a fifth step of refilling the soil removed in the mesh portion.

In the present invention, the support structure of the photovoltaic module and the method of installing the support structure using the same have the following effects.

Install the net structure on the floor, install the base of the support structure between the net structure and the bottom surface, and cover the soil on the upper surface so that the structure is supported, it is easy to be in a location where traffic is not convenient simply without the need to install a structure such as concrete It can be installed and removed.

1 is a perspective view showing the structure of a support structure of a solar power module according to the present invention.
Figure 2 is a side view showing the installation of the support structure of the photovoltaic module according to the present invention.
Figure 3 is a view showing the structure of the mesh portion constituting the support structure of the photovoltaic module according to the present invention.
Figure 4 is a view showing a second support and a third support constituting a mesh of the support structure of the photovoltaic module according to the present invention.
5 is a view showing a coupling state of the base plate portion and the first support portion constituting the support structure of the photovoltaic module according to the present invention.

Hereinafter, a preferred embodiment of a support structure and a method for installing a support structure using the same according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a support structure of a solar power module, as shown in Figure 1, is formed in a mesh, the mesh portion 10 is installed on the bottom surface, and formed in a plate shape of the mesh portion 10 It is formed relatively larger than the size of the reticular, the base plate portion 20 located between the bottom surface and the mesh portion 10, and is fixed to the base plate portion 20 perpendicular to the solar module is installed above It may be configured to include a holding portion (30).

First, the support structure according to the present invention is provided with a net portion (10). The net portion 10, as shown in Figure 1, is formed in a mesh is installed on the bottom surface. The mesh portion 10 serves to fix the base plate portion 20 to be described below so that the base plate portion 20 does not move.

The mesh portion 10 may be any structure as long as it is formed in a mesh structure, and examples of the present invention include the following examples.

As shown in FIGS. 3 and 4, the mesh part 10 includes a first support part 12 formed in a bar shape and positioned horizontally, and a through hole formed in a bar shape and penetrated through a tip end and a lower end of the net part 10. The first fastening portion 14a, the second fastening portion 14b, and the second fastening portion 14c may be configured to include a second support portion 14, respectively.

The second supporting portion 14 is connected between the three first supporting portions 12, the first fastening portion 14a is fixed through the first first supporting portion 12, and the second fastening portion 14b ) Is fixed through the second first support part 12, and the third fastening part 14c is fixed through the third first support part 12.

In the second support portion 14, the first fastening portion 14a is formed to have a relatively small width relative to the second fastening portion 14b, and the third fastening portion 14c has a recessed groove 14d. Is formed, and the recessed groove 14d may have a size corresponding to the first fastening portion 14a. That is, the first fastening portion 14a of one second supporting portion 14 may be formed to engage the third fastening portion 14c of the other second supporting portion 14.

And,  My 2 support (14)  Separately 3 support (16)  Can be prepared. The above 3 support 16  As shown in FIG. 4, the two agents are formed in a bar shape. 1 support Are connected between 12, 1 fastener 16a  remind first  My 1 support (12) To Penetrating Fixed by Be The second fastening portion 16b is second  My 1 support 12  It is fixed through.

The above 3 On the support part 16 , Said agent 1 fastener 16a  The above To 2 fasteners 16b  A relatively small width relative to 2 fasteners (16b) Groove (16c)  Formed, said The recess groove 16c  The above On one fastening part 16a  It may be formed in a corresponding size. That is, the first one 3 of the support 16  My 1 fastener 16a  Other 2 support (14) Article of 3 fasteners (14c) or 3 of the support 16  My To 2 fasteners 16b  Can be interlocked.

The base plate portion 20 is provided in the support structure of the present invention. As shown in FIG. 1, the base plate portion 20 is formed in a plate shape and is formed relatively larger than the size of the mesh of the mesh portion 10, and is located between the bottom surface and the mesh portion 10. It is configured to be.

remind In the base plate portion 20 Base fastening part (22)  To be prepared. remind Base fastening Part 22 is shown in Figures 1 and 5, Base plate part 20  It may be provided in pairs at positions symmetrical at both ends.

remind On base fastening part 22  The above 1 support 12  The base plate portion 20 may be fixed to the first support portion 12 and the mesh portion 20 through.

Of course, although not shown, the above In the base plate portion 20 Base fastening part (22)  Not provided, and With base plate part 20  remind The mesh part 20  Distinct On fasteners By May be combined.

The base plate 20 is provided with a support 30. The support portion 30 is fixed to the base plate portion 20 perpendicular to the solar module is installed above serves to support the solar module to be fixed to be spaced apart from the bottom from below.

remind With base plate part 20  remind The holding part 30  It may be configured integrally or may be configured to be coupled to each other by a coupling member.

In addition, upper limbs In the holding part 30  The upper support 40 may be further provided. The upper support 40 is inserted into the bottom surface when the soil of the bottom surface is covered, serves to support the holding portion more strongly.

The upper support 40 may be configured in various forms, as shown in FIG.

Next, a method for installing a support structure of the solar cell module according to the present invention will be described.

First, the first step of removing the soil of the ground to a certain depth is carried out.

By removing the bottom surface for installing the solar module to a predetermined depth, to provide a space in which the support structure according to the invention to be described below will be installed.

Next, the base plate 20 is positioned at a predetermined position of the bottom surface of the space from which the soil is removed to a certain depth. That is, the base plate 20 is positioned at the position for installing the solar module.

Next, the net portion 10 is installed on the base plate portion 20. The mesh portion 10 is positioned to overlap the upper surface of the base plate portion 20 as shown in FIG. At this time, the mesh portion 10 and the base fastening hole 22 of the base plate portion 20 is fastened or fixed to each other using a coupling member.

Next, the support 30 is installed in the base plate 20.

Next, the net part 10 is refilled with the removed soil. The soil is refilled to the depth where the soil is removed to prevent the mesh from moving. In addition, the upper support 40 can be further submerged in the soil to further strengthen the support.

As such, it will be understood by those skilled in the art that the above-described technical configuration may be implemented in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is shown in the following claims rather than the detailed description, and the meaning and scope of the claims and their equivalent concepts. All changes or modifications derived from the invention should be construed as being included in the scope of the present invention.

10: mesh portion 12: the first support portion
14: second support portion 14a: first coupling portion
14b: second coupling portion 14c: third coupling portion
20: base portion 30: holding portion

Claims (5)

Is formed in a mesh, net portion is installed on the bottom surface;
A base plate portion which is formed in a plate shape and is formed relatively larger than the size of the mesh of the mesh portion, and is located between the bottom surface and the mesh portion; And
The support structure of the photovoltaic module comprising a; a holding portion that is vertically fixed to the base plate portion is installed above the photovoltaic module The method of claim 1,
The mesh portion,
A first support part formed in a bar shape and positioned horizontally;
A second support part formed in a bar shape and having a first fastening part, a second fastening part, and a third fastening part respectively provided with through holes penetrating through the front end, the middle part, and the lower end;
The second support part is connected between the three first support parts, the first fastening part is fixed through the first first support part, the second fastening part is fixed through the second first support part, and the third fastening part is The support structure of the solar power module, characterized in that fixed through the third support. The method of claim 2,
In the second support,
The first fastening portion is formed with a relatively small width relative to the second fastening portion, the third fastening portion is formed with a concave groove, the concave groove is formed to a size corresponding to the first fastening portion. Support structure of the solar power module. The method of claim 2,
The third support is further provided,
The third support portion,
The first fastening part and the second fastening part which are formed in a bar shape and have penetrating holes penetrating through the front end and the lower end are respectively provided,
And the third support part is connected between the two first support parts, the first fastening part is fixed through the first first support part, and the second fastening part is fixed through the second first support part. Support structure of photovoltaic module. A first step of removing dirt from the ground to a certain depth;
A second step of positioning the base plate at a predetermined position;
A third step of installing a net on the base plate;
A fourth step of installing a support part on the base plate part;
A fifth step of refilling the removed soil in the mesh;
Method for installing the support structure of the solar power module comprising a.

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