KR20120007153U - a structure for assembling of solar module - Google Patents

Abstract

The present invention relates to a new type of solar module coupling structure that allows the overall structure of a simple yet convenient manufacturing and convenient assembly work.
To this end, the present invention, a plurality of vertical struts fixedly installed in a vertical position from the ground, arranged to form a plurality of rows and columns; A plurality of vertical supports connecting the vertical columns forming the same column among the vertical columns, the upper surface having a plurality of first fastening holes formed therethrough; In addition, while being coupled to the upper surface of each vertical support is installed so as to cross the cross between each vertical support, is formed to have a bottom, a back and a top surface by bending the plate-like plate in multiple stages and the vertical support on the bottom A plurality of second fastening holes corresponding to each of the first fastening holes are formed, respectively, and a plurality of horizontal supporters each having a plurality of third fastening holes for coupling with the solar module are formed on the upper surface thereof. A module coupling structure is provided.

Description

Structure for combining solar modules {a structure for assembling of solar module}

The present invention relates to a structure for coupling a solar module installed in an inclined structure, and in particular to a new type of solar module coupling structure that can be made simple assembly and easy assembly work, enabling accurate coupling It is about.

In general, a solar heat collecting device is a series of devices that absorb the energy from the solar heat to obtain heat energy therefrom and then heat the water with the above-mentioned heat energy to generate hot water.

The solar heat collecting device as described above includes a solar module, a module support structure and a hot water storage tank, wherein the module support structure is mounted on the solar module so that the solar module receives sunlight better. It is a structure that supports to be installed inclined to receive.

The module support structure is largely comprised of a plurality of vertical struts and a plurality of longitudinal supports and transverse supports.

That is, when viewed from the solar module as a reference to the front and rear of the back of the vertical struts are vertically installed in pairs in a state standing vertically from the ground, respectively, the plurality of vertical supports to the upper surface of the pair of vertical struts Each of the vertical support is fixedly installed along the vertical direction, and a plurality of horizontal supports are fixedly installed along the horizontal direction, respectively, and the solar modules are fixedly installed on the upper surfaces of the respective horizontal supporters.

On the other hand, the coupling between the horizontal support and the vertical support and the coupling between the horizontal support and the solar module can be made in a variety of ways, coupling by welding, or a coupling structure using a separate bracket is mainly used.

At this time, the joining method by welding is not only difficult to form in the state of coupling for maintaining the correct angle, but also has a problem due to the impossibility of disassembly work, and now most of them use a joining method using a separate bracket. .

That is, by using a separate bracket (or angle), the coupling site between the vertical support and the horizontal support, such as registered Patent Publication No. 10-1004052, Korean Utility Model Publication No. 20-0431878, etc. The work and disassembly work was made easy.

However, the coupling structure using the bracket between the vertical support and the horizontal support according to the above-described prior art has a bolt hole formed in the vertical support and a bolt hole formed in the bracket and the horizontal support so that the fastening of the bolt can be made smoothly. There was an inconvenience in that the bolt hole formed in the and the bolt hole formed in the bracket must be exactly matched.

In other words, if a deviation occurs in any one of the bolt holes, the bolt could not be fastened smoothly.

In particular, the above-described conventional technology has a problem that the matching between the respective bolt holes was not accurately made due to the processing error between the vertical support and the horizontal support. Accordingly, in the prior art, there was an inconvenience in forming additional bolt holes in the bracket through a separate drill operation in the field.

In addition, the above-described prior art has a slow overall operation due to the progress of the dual operation, such as the coupling operation between the vertical support and the bracket, and the coupling operation between the bracket and the horizontal support, and the separate coupling member such as the bracket The additional use of the present invention has the problem of causing an increase in the overall manufacturing cost.

In addition, the above-described prior art has a disadvantage in that the space for the fastening of the bolts is narrow and the fastening of the bolts is not achieved, and the fastening work using the power tool is difficult to perform.

The present invention is devised to solve the various problems according to the above-described prior art, the purpose of the present invention is a new type of solar module that allows the overall structure is simple, yet easy to manufacture, and convenient assembly work It is to provide a coupling structure.

According to the support structure for a photovoltaic module of the present invention for achieving the above object, a plurality of vertical struts fixedly installed vertically from the ground and arranged to form a plurality of rows and columns; A plurality of vertical supports connecting the vertical columns forming the same column among the vertical columns, the upper surface having a plurality of first fastening holes formed therethrough; In addition, while being coupled to the upper surface of each vertical support is installed so as to cross the cross between each vertical support, is formed to have a bottom, a back and a top surface by bending the plate-like plate in multiple stages and the vertical support on the bottom A plurality of second fastening holes corresponding to each first fastening hole are formed, respectively, and a plurality of horizontal supporters, each of which has a plurality of third fastening holes for coupling with the solar module, are formed on the upper surface.

Here, the horizontal support is formed on the top surface of each of the vertical support while forming the bottom of the horizontal support, and the bottom end of the flat plate type each formed with a plurality of second fastening holes corresponding to each of the first fastening hole of the vertical support, and the horizontal support A rear end bent upward from the rear end of the bottom end while forming a rear surface of the bottom end and bent forward from the upper end of the rear end while forming an upper surface of the horizontal support, and through the third fastening hole for coupling with the solar module It is characterized by including the upper end formed.

In addition, a through hole for penetrating insertion of a socket for a power tool is formed in a portion directly below the third fastening hole of the upper end of the lower end of each horizontal support.

In addition, the second fastening hole formed in the horizontal support is characterized in that it is formed in a long long hole in the longitudinal direction of the horizontal support.

In addition, the third fastening hole formed in the horizontal support is characterized in that it is formed in a long long hole in the longitudinal direction of the horizontal support.

In addition, the front end of the bottom end and the upper end constituting the horizontal support is further formed to form a front surface of the horizontal support while bending toward each other, the first end of the bottom end of each portion of the front end The front side portion of the portion where the two fastening holes are formed is characterized in that the wrench insertion hole is formed so as to allow the insertion of the wrench.

As described above, the solar module coupling structure of the present invention has the effect of enabling the fastening of the bolt to be a power tool through the structural improvement of the horizontal support, thereby achieving a shortening of the overall installation work time.

In particular, the horizontal support is formed by bending the plate-like plate in multiple stages, and each of the second fastening holes and the third fastening holes may be formed through a punching process to form each of the fastening holes in an accurate shape at an accurate position. In addition, in particular, it is possible to form each of the fastening holes as a long hole, which is due to the structure of the long hole due to the structure of the long hole even when some of the coupling error occurs when the horizontal support and the solar module is coupled It has the effect that the compensation can be made accordingly.

1 is an exploded perspective view showing a structure for combining the solar module according to a preferred embodiment of the present invention
Figure 2 is a perspective view showing a combination for explaining a solar module coupling structure according to an embodiment of the present invention
Figure 3 is a development view showing to explain the structure of the horizontal support of the solar module coupling structure according to an embodiment of the present invention
Figure 4 is a front view showing to explain the structure of the bending and punching of the horizontal support of the solar module coupling structure in accordance with a preferred embodiment of the present invention
5 is a plan view showing the structure of the bending and punching of the horizontal support is completed in the solar module coupling structure according to an embodiment of the present invention
Figure 6 is a bottom view showing the structure of the bending and punching of the horizontal support is completed in the solar module coupling structure according to an embodiment of the present invention
Figure 7 is a longitudinal cross-sectional view illustrating the structure of the bending and punching of the horizontal support of the solar module coupling structure according to an embodiment of the present invention is completed
8 and 9 is a side view showing a coupling state between the horizontal support and the solar module of the solar module coupling structure according to an embodiment of the present invention

Hereinafter, a preferred embodiment of the solar module coupling structure of the present invention will be described with reference to FIGS. 1 to 9.

1 and 2 show a solar module coupling structure according to a preferred embodiment of the present invention.

As can be seen through this, the solar module coupling structure according to an embodiment of the present invention comprises a plurality of vertical support (110,120), a plurality of vertical support 200 and a plurality of horizontal support 300 do.

This will be described in more detail below for each configuration.

First, the vertical struts (110, 120) means the main frame is fixed to the ground, it is formed of a conventional square tube (角 管). In this case, the ground may be a ground of a place where the solar module is installed, or may be a roof or a roof of a building.

The vertical struts 110 and 120 are fixedly installed vertically from the ground and are arranged to form a plurality of rows and columns. This is the same as in FIGS. 1 and 2.

In particular, the vertical struts 110 and 120 are formed to have a height higher than that of the vertical struts 120 arranged in the rear column compared to the vertical struts 110 arranged in the front row.

This structure is to allow the solar module to be installed to be inclined to receive sunlight well.

Next, the vertical support 200 is a series of configurations for connecting between the vertical column (110, 120) forming the same column of the vertical column (110, 120) arranged in a plurality of columns and rows.

For example, the vertical support 200 is formed of a multi-stage bending plate having a bottom surface opened as shown in the accompanying drawings, but if necessary, the vertical support 200 has a square tube having the same structure as that of the vertical supports 110 and 120. In addition to being formed by a pipe, it may also be formed as a cylindrical pipe or a bar structure.

At this time, the vertical support 200 is coupled to surround the upper surface between the vertical support (110,120) forming the same column of the vertical support (110,120), the horizontal support (to be described later on the upper surface of the vertical support 200) The first fastening hole 201 for coupling with the 300 is formed through.

Next, the horizontal support 300 is a series of configurations for the installation of the solar module 10, the horizontal support between the vertical support 200 while being coupled to the state mounted on the upper surface of each vertical support 200. Installed to shout.

In particular, the embodiment of the present invention suggests that the horizontal support 300 is formed to have a bottom surface, a rear surface, and an upper surface as shown in FIGS. .

The horizontal support 300 according to the embodiment of the present invention is configured to include a flat bottom end 310, the rear end 320 and the upper end 330.

Here, the bottom end 310 is a portion which is formed on the upper surface of each vertical support 200 while forming the bottom of the horizontal support 300, the bottom end 310, each of the vertical support 200 A plurality of second fastening holes 311 corresponding to the first fastening holes 201 are formed, respectively. In this case, each of the second fastening holes 311 is formed as a long long hole in the longitudinal direction of the horizontal support 300, the left and right directions (length of the horizontal support) in the drawing between the horizontal support 300 and the vertical support 200. Direction) can be compensated for by the structure of the above-mentioned long hole.

The rear end 320 forms a rear surface of the horizontal support 300 and is bent upward from the rear end of the bottom end 310.

In addition, the upper end 330 is bent forward from the upper end of the rear end 320 while forming the upper surface of the horizontal support 300, the solar module 10 is coupled to the upper surface.

In addition, a plurality of third fastening holes 331 for fastening the bolt 20 with the solar module 10 is formed through the upper end 330. At this time, each of the third fastening holes 331 is formed at a position shifted from each of the second fastening holes 311 formed at the bottom end 310 when viewed in the longitudinal direction of the horizontal support 300. When the bolt 20 is fastened through the third fastening hole 331, the power tool (not shown) may be prevented from interfering with the vertical support 200.

In addition, the third fastening hole 331 is formed as a long long hole along the longitudinal direction of the horizontal support 300, such as the second fastening hole 311, thereby the horizontal support 300 and the sun Coupling errors in the left and right directions between the optical modules 10 may be compensated due to the above-described long hole structure.

On the other hand, in the embodiment of the present invention in the lower portion of the lower end 310 forming the horizontal support 300, the lower portion of the third fastening hole 331 of the upper end 330 in the socket for the power tool (for example, VAXAL The through hole 312 for the through insertion of the socket (40) is characterized in that is formed through.

That is, the coupling between the horizontal support 300 and the photovoltaic module 10 is configured not to be performed by hand using a wrench such as a spanner, but by a work using a power tool as shown in FIG. 8. The fastening work is made easier and faster.

In addition, according to the embodiment of the present invention, the front end of the bottom end 310 and the upper end 330 forming the horizontal support 300 is bent toward each other while the front of the horizontal support 300 It is suggested that the front end 340 is formed further.

At this time, the front end 340 serves to reinforce the strength according to the bending deformation between the upper end 330 and the bottom end 310 of the horizontal support 300.

In particular, a portion of the front side of the portion where the second fastening hole 311 of the bottom portion 310 of the front end 340 as described above is partially inserted to enable the insertion of the wrench 50 such as a spanner. A wrench insertion hole 341 formed by cutting is formed through. That is, as shown in FIG. 9, the wrench 50 is inserted through the wrench insertion hole 341 to fix the nut 30 to the horizontal support 300 from the bottom of the upper surface of the vertical support 200. The bolt bolt 20 may be smoothly fastened by penetrating the bottom end 310 to fasten the bolt 20 to the nut 30.

Meanwhile, the second fastening hole, the thirty-third body bone ball, the through hole, and the wrench insertion hole among the shapes formed in the horizontal support 300 described above are formed through a punching process.

This, when considering that the horizontal support 300 is formed by bending the flat plate in multiple stages, the second fastening hole 311 and the third body bone 331 and the through hole (through the punching process in the flat plate state) 312) and the wrench insertion hole 341 can be formed in a batch, so that each hole can be formed quickly and easily.

In this case, the bending process of bending the bottom end 310, the rear end 320, the upper end 330, and the front end 340 of the horizontal support 300 may be performed after the above punching process is performed. At this time, the punching process is performed as shown in FIG. 3.

In the following, it will be described in more detail with respect to the installation process and action of the solar module coupling structure of the present invention described above.

First, the plurality of vertical struts 110 and 120 are fixedly installed on the ground in a state spaced apart by a predetermined interval and a space set to the left and right. In this case, the ground means a ground of a portion to which the solar module 10 is to be installed, and may be a rooftop or a roof.

In addition, when the vertical struts 110 and 120 are installed on the ground as described above, the vertical struts 110 having the relatively low height among the vertical struts 110 and 120 are disposed in front and vertically having a relatively high height. The strut 120 is disposed at the rear.

Next, the vertical support 200 is installed on the upper surface of each vertical support stand (110 120) installed as described above. In this case, the vertical support 200 is installed so as to connect between the vertical support (110, 120) forming the same row, the coupling between the vertical support 200 and the vertical support (110, 120) may be performed by direct bolt fastening. It may be performed by welding, or may be coupled to each other using a bracket (not shown) such as a separate angle.

In addition, when the vertical support 200 is coupled to the upper surface of each of the vertical support (110, 120) due to the height difference between the front vertical support 110 and the rear vertical support 120, the vertical support 200 ) Is naturally inclined.

When the operation of coupling the vertical support 200 to the upper surfaces of the vertical supporters 110 and 120 is completed, the operation of coupling the plurality of horizontal supporters 300 to the upper surface of the vertical supporter 200 is performed.

That is, the first fastening hole 201 and the horizontal support 300 of the vertical support 200 in the state in which the horizontal support 300 is placed in a direction perpendicular to the installation direction of each vertical support 200 The second fastening holes 311 are matched with each other, and then the fastening bolts 20 passing through the fastening holes 201 and 311 are coupled to each other.

At this time, the nut 30 is seated on the upper surface of the second fastening hole 311 in the inner space of the horizontal support 300, the bolt 20 is the first fastening hole (from the bottom of the vertical support 200) 201) and the second fastening hole 311 are sequentially fastened to the nut 30.

Particularly, in consideration of the fact that the wrench insertion hole 341 is formed through the front end of the horizontal support 300 which is the front of the portion where the second fastening hole 311 is located, the wrench insertion hole as shown in FIG. Since the fastening of the above-described bolt 20 can proceed while the wrench 50 is inserted through the 341 to fix the nut 30, the fastening operation of the bolt 20 is smoothly and accurately performed.

In addition, when the second fastening hole 311 is formed as a long hole, even if a coupling error occurs in the longitudinal direction of the horizontal support 300, the compensation for the coupling error may be made due to the structure of the long hole. And, due to this, the coupling between the horizontal support 300 and the vertical support 200 can be made accurately.

In addition, when the coupling between the vertical support 200 and the horizontal support 300 is completed by the above-described series of processes, the solar module 10 is coupled to the upper surface of the horizontal support 300.

That is, the horizontal support 300 in a state where the position of the third fastening hole 331 formed in the upper end 330 of the horizontal support 300 and the fastening hole 11 formed in the solar module 10 coincide with each other. By fastening the bolt 20 through the bottom of the 300 is coupled between the horizontal support 300 and the solar module 10.

At this time, since the through hole 312 is formed in a portion directly below the third fastening hole 331 formed in the upper end 330 of the lower end 310 of the horizontal support 300, the through hole ( The through hole 312 may be smoothly inserted into the bolt 20 through 312, and the through hole 312 is formed to a size such that the power tool socket 40 may be penetrated. As shown in FIG. 8, the bolt 20 may be fastened using a power tool (not shown), and thus, a fast and stable bolt fastening operation may be performed.

As a result, the installation of the solar module 10 is completed through the above-described series of processes.

As such, in the solar module coupling structure according to the embodiment of the present invention, through the structural improvement of the horizontal support 300, the fastening of the bolt 20 is also possible as a power tool, thereby reducing the overall installation work time. Can be achieved.

In particular, the horizontal support 300 is formed by bending the plate-like plate in multiple stages, and each of the second fastening holes 311 and the third fastening holes 331 are formed through a punching process to form the respective fastening holes ( 311, 331 can be formed in the correct shape in the correct position, and in particular, it is possible to form each of the fastening holes (311, 331) to the long hole, which is due to the horizontal support 300 and the solar module 10 Even when some coupling error occurs during coupling, compensation due to the coupling error can be achieved due to the structure of the above-mentioned long hole.

10. PV modules 20. Volts
30.Nut 40.Socket
50.Wrench 110,120. Vertical props
200. Vertical support 201. First fastener
300. Lateral support 310. Bottom end
311.Section 2 fastening hole 312.Through hole
320. Rear end 330. Upper end
331. Third fastener 340. Front end
341.Wrench Insertion Holes

Claims (6)

A plurality of vertical struts fixedly installed vertically from the ground and arranged to form a plurality of rows and columns;
A plurality of vertical supports connecting the vertical columns forming the same column among the vertical columns, the upper surface having a plurality of first fastening holes formed therethrough; And,
It is installed to cross each of the vertical support while being coupled to the upper surface of each vertical support, and is formed to have a bottom, a back and a top by bending the plate-shaped plate in multiple stages, and at the bottom of each vertical support A plurality of second fastening holes corresponding to one fastening hole are formed, respectively, and a plurality of horizontal supporters each having a plurality of third fastening holes for coupling with the solar module are formed on the upper surface. Structures. The method of claim 1,
The horizontal support is
The bottom end of the flat plate form a bottom surface of the horizontal support and a plurality of second fastening holes corresponding to each of the first fastening hole of the vertical support, and is mounted on the upper surface of each vertical support,
A rear end bent upward from the rear end of the bottom end while forming a rear side of the horizontal support;
Forming a top surface of the horizontal support is bent forward from the upper end of the rear end, and a solar module coupling structure comprising a top end formed through the third fastening hole for coupling with the solar module. The method of claim 2,
The solar module coupling structure, characterized in that the through hole for the through-insertion of the power tool socket is formed through the lower portion of the lower end of the horizontal support of the third fastening hole of the upper end. The method according to any one of claims 1 to 3,
The second fastening hole formed in the horizontal support
The solar module coupling structure, characterized in that formed in the long hole along the longitudinal direction of the horizontal support. The method according to any one of claims 1 to 3,
The third fastening hole formed in the horizontal support is
The solar module coupling structure, characterized in that formed in the long hole along the longitudinal direction of the horizontal support. The method according to any one of claims 1 to 3,
The front end of the lower end and the upper end constituting the horizontal support is further formed to form a front surface of the horizontal support while being bent toward each other,
The solar module coupling structure, characterized in that through the wrench insertion hole is formed in the front side of the portion of the front end of the portion where the second fastening hole of the bottom end is formed to enable the insertion of the wrench.

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