KR102195701B1 - Clamp device for solar module - Google Patents

Abstract

The present invention relates to a solar module clamp device for installing a solar module on a roof panel. The solar module clamp device of the present invention has a left and right symmetric structure. The solar module clamp device comprises a base plate, first and second side wall plates, and a support plate. In the solar module clamp device, the base plate, the first and second side wall plates, and the support plates are integrally formed. The solar module clamp device has an upper part coupled to a square tube frame for installing the solar module, and a lower part fixedly installed on the roof panel. According to the present invention, due to the symmetric structure in a cross-section, stress is improved and directionality is removed, thereby having easy installation.

Description

Solar module clamp device {CLAMP DEVICE FOR SOLAR MODULE}

The present invention relates to a photovoltaic module clamp device, and more specifically, to install a photovoltaic module on a roof panel, has a structure in which the cross section is symmetrical so that installation is easy and the distribution of stress is improved, and a plurality of It relates to a solar module clamp device that is fixedly installed and coupled to a square tube frame on which a solar structure is installed.

In recent years, most countries are spurring on carbon reduction, carbon resource conversion, and climate change response technology development. Accordingly, the Korean government is also pursuing policies and strategies to replace up to 11% of primary energy consumption by 2025, and further developing new and renewable energy technologies as a new growth engine.

Based on these social issues, various buildings, for example, buildings, solar power plants, factories, warehouses, barns, etc., as well as large-scale industrial facilities, port logistics facilities, public sports facilities and exhibition and sales facilities, etc. There are increasing cases of building solar power plants on the roof panels of buildings.

However, the current method of installing photovoltaic power generation facilities on the roof panel requires installing a structure for mounting the photovoltaic module on the roof panel first, i.e., a photovoltaic structure, and then installing the photovoltaic module on the roof panel. It seriously damages the original design intention of the supreme building and causes various defects in the roof panel, which is an obstacle to widespread application. Accordingly, in order to overcome these problems with a simple process, various solar module installation technologies are currently being developed.

The roof panel of such a building is mainly constructed using a sandwich panel manufactured by filling a pair of metal plates with a synthetic resin foaming agent such as styrofoam or polyurethane foam, or an insulating material such as mineral wool or glass wool. Sandwich panels are in the spotlight as panels for constructing outer shells such as roofs and walls when constructing simple structures, buildings, and various facilities due to their easy manufacturing and construction, low manufacturing cost, and excellent insulation performance. Here, in the case of the sandwich panel constituting the roof, a plurality of protrusions extending along the slope direction of the roof are formed at regular intervals, and a solar module may be installed on the protrusion using various types of brackets or clamps.

For example, in the case of the L-shaped clamp, which is currently mainly used, the distribution of stress is unstable due to the asymmetric structure, and the directionality is inconvenient during operation, resulting in inferior efficiency. In addition, as the L-shaped clamp is formed by hot-dip galvanizing treatment of a steel material, there is a problem in durability such as occurrence of corrosion due to uneven plating quality.

Korean Registered Patent Publication No. 10-1498566 (announced on March 04, 2015) Korean Patent Publication No. 10-1444818 (announced on October 02, 2014) Korean Registered Patent Publication No. 10-1489410 (announced on February 6, 2015) Korean Patent Publication No. 10-1498554 (announced on March 5, 2015)

An object of the present invention is to provide a solar module clamp device for stably and conveniently installing a solar module on a roof panel.

Another object of the present invention is to provide a solar module clamp device having a symmetrical structure in cross section in order to improve stress so as to minimize changes due to external environments.

Another object of the present invention is to provide a solar module clamp device for improving productivity, economy and stability.

In order to achieve the above objects, the solar module clamp device of the present invention has a symmetrical structure in cross section, and is combined with a square tube frame for installing a solar module on a roof panel. The solar module clamp device of the present invention can be easily installed since the directionality due to the symmetrical structure is removed, and the stress can be improved by distributing the load of the solar module and minimizing the deformation force according to the external environment.

The solar module clamp device of the present invention according to this feature comprises: a base plate having a shape matching the surface of a trapezoidal protrusion formed on a roof panel, seated on the surface of the protrusion, and fixed to the roof panel by bolting; First and second side wall plates having a predetermined length extending vertically at both ends of the base plate so as to be symmetrical to each other, and being coupled to each of both side surfaces of the square tubular frame for installing a solar module therein; And a support plate positioned above the base plate, having both ends vertically coupled to the first and second side wall plates, and having an upper surface formed to support the angular tubular frame, wherein the base plate and the The first side wall plate, the second side wall plate, and the support plates are integrally formed so that cross-sections of the first side wall plate, the second side wall plate, and the support plates are symmetrical to each other.

In this feature, the base plate includes: an upper mounting portion having a flat central portion so as to be seated on an upper surface of the protruding portion, and having a first fastening hole for fastening bolts with the upper surface of the protruding portion; First and second inclined portions extending downwardly inclined from both sides of the upper mounting portion to be seated on the left and right inclined surfaces of the protruding portion; And first and second lower seating portions extending a predetermined length in a horizontal direction from each of the first and second inclined portions so as to be seated on both planes of the protrusion portion, wherein the support plate includes the base plate and A through hole having a diameter larger than that of the first fastening hole is formed through vertically at a position corresponding to the first fastening hole so that a bolt for fixing the roof panel is inserted.

In this feature, each of the first and second side wall plates is formed with second and third fastening holes in the form of long holes extending vertically so that the vertical coupling position with the square tubular frame is adjusted. It is screwed to each side of the tubular frame.

In this feature, each of the first and second side wall plates includes an upper side wall plate positioned inside and a lower side wall plate positioned outside, and a lower end of the upper side wall plate and an upper end of the lower side wall plate They are coupled to overlap each other for a predetermined length, and the second and third fastening holes are formed in each of the upper sidewall plates.

In this feature, the support plate is coupled at both ends to the inner side of a portion where the upper and lower side wall plates overlap.

As described above, the solar module clamp device according to the present invention is provided in an integral type whose cross section is symmetrical left and right, and it is possible to minimize the deformation force according to the external environment by improving the stress, and to be easily installed on the roof panel by removing directionality. It is possible.

In addition, the solar module clamp device of the present invention can be rigidly fixed and installed by fixing the square tube-shaped frame on both sides in a symmetrical structure.

In addition, the solar module clamp device of the present invention can be formed in a symmetrical structure to evenly distribute the load caused by the solar module installed thereon.

In addition, since the solar module clamp device of the present invention is formed of an integral aluminum material, plating is unnecessary, corrosion is prevented to increase durability, and the manufacturing cost can be reduced compared to the conventional steel clamp device, resulting in productivity and economy. Can be secured.

1 is a perspective view showing the configuration of a solar module clamp device according to the present invention,
Figure 2 is a front view of the solar module clamp device shown in Figure 1,
3 is a plan view of the solar module clamp device shown in FIG. 1;
Figure 4 is a side view of the solar module clamp device shown in Figure 1,
5 is a rear view of the solar module clamp device shown in FIG. 1;
6 is a perspective view showing a state of being installed on the roof panel of the solar module clamp device shown in FIG. 1, and
7 is a cross-sectional view showing an installation state of the solar module clamp device shown in FIG. 6.

The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited by the embodiments described below. This embodiment is provided to more completely explain the present invention to those of ordinary skill in the art. Therefore, the shape of the constituent elements in the drawings is exaggerated in order to emphasize a more clear description.

In order to install a solar module on a roof panel, a plurality of solar module clamp devices according to the present invention are fixedly installed on the protrusion of the roof panel at regular intervals, and a frame for fixing the solar module to the top or one side, etc. It is combined with the square tube frame on which the solar structure is installed. To this end, the solar module clamp device has a structure in which the cross section is symmetrical left and right. The solar module clamp device of the present invention is provided with an aluminum material that is integrally formed and is fixedly installed on the protrusion of the roof panel.

Therefore, the solar module clamp device of the present invention can be easily installed on the roof panel as the orientation is removed due to the symmetrical structure, and the stress is improved in response to the external environment, for example, the load and wind speed of the solar module. It can minimize deformation.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 7.

1 is a perspective view showing the configuration of a solar module clamp device according to the present invention, each of Figures 2 to 5 is a front view, a plan view, a side view and a rear view of the solar module clamp device shown in FIG.

1 to 5, the solar module clamp device 100 of the present invention is for installing a plurality of solar modules (not shown) on a roof panel (10 of FIG. 6) formed of, for example, a sandwich panel. For this purpose, it has a structure in which the cross section is symmetrical, and a plurality of pieces are fixedly installed on the roof panel 10. In addition, the solar module clamp device 100 of the present invention is a solar structure for installing a solar module on the top or one side, for example, a bracket, a fastening member such as a fastener, a supporter, a frame such as C-beam It is combined with a square tube-shaped frame on which the back is fixedly installed.

To this end, the solar module clamp device 100 of the present invention includes a base plate 110, a first side wall plate 120, a second side wall plate 130, and a support plate 140. The solar module clamp device 100 is provided with, for example, an aluminum material, and the base plate 110, the first and second side wall plates 120 and 130, and the support plate 140 are integrally formed. .

Specifically, the base plate 110 has a shape that matches the surface of the protrusions (12 and 14 in FIG. 6) of the roof panel 10. That is, the base plate 110 has substantially the same shape as the cross section of the protrusions 12 and 14 of the roof panel 10, and is seated on the surface of the protrusions 12 and 14 of the roof panel 10 to fasten bolts. Fixed by

In the present invention, the roof panel 10 is provided as a sandwich panel of a typical structure that forms a roof of various buildings, such as buildings, solar power plants, factories, warehouses, barns, etc., and protrusions 12 and 14 having a trapezoidal cross section Are formed by being spaced apart from each other at a certain interval in the horizontal direction and extending long in the vertical direction.

Therefore, the base plate 110 includes an upper seating portion 112 having a flat central portion so as to be seated on the upper surface 12 of the protruding portions 12 and 14 of the roof panel 10 and the protruding portion of the roof panel 10 ( First and second inclined portions 113 and 114 extending downwardly inclined from both sides of the upper mounting portion 112 so as to be seated on the left and right inclined surfaces 14 of 12 and 14 and the protrusion 12 of the roof panel 10 , 14) consists of first and second lower seating portions 115 and 116 extending a predetermined length in the horizontal direction from each of the first and second inclined portions 113 and 114 so as to be seated on both planes. The upper mounting portion 112 has a first fastening hole (118 in FIG. 3) for screwing with the upper surfaces 12 of the protrusions 12 and 14 of the roof panel 10 in the center. This base plate 110 is mounted on the protrusions 12 and 14 of the roof panel 10, and is fixedly installed on the roof panel 10 by fastening bolts (150 in FIG. 7) to the first fastening hole 118. .

The first and second side wall plates 120 and 130 are formed by extending a predetermined height upward from the left and right ends of the base plate 110. That is, the first side wall plate 120 is formed to extend vertically upward from one end of the base plate 110, and the second side wall plate 130 is formed to extend vertically upward from the other end of the base plate 110. Each of the first and second side wall plates 120 and 130 is formed with second and third fastening holes 126 and 136 that penetrate from the outside to the inside, respectively.

Therefore, a square tube frame (200 in FIG. 6) is inserted between the first and second side wall plates 120 and 130, and the first side wall plate 120 is a square tube frame 200 through the second fastening hole 126. ) And the bolt (160 in FIG. 7) is coupled, and the second side wall plate 130 has the other side of the square tube frame 200 and the bolt (162 in FIG. 7) through the third fastening hole 136 Is combined, to fix the angular tubular frame 200. At this time, the first and second side wall plates 120 and 130 are coupled so that the upper surface of the combined angular tubular frame 200 and portions of the upper portions of both side surfaces are exposed to the outside.

In this embodiment, each of the first and second side wall plates 120 and 130 is coupled so that portions of the upper side wall plates 124 and 134 and the lower side wall plates 122 and 132 are overlapped. That is, each of the first and second side wall plates 120 and 130 is provided with upper side wall plates 124 and 134 on the inside, and lower side wall plates 122 and 132 on the outside. The lower ends of the upper side wall plates 124 and 134 and the upper ends of the lower side wall plates 122 and 132 are coupled to overlap each other for a predetermined length. Second and third fastening holes 126 and 136 are formed in each of the upper side wall plates 124 and 134. Each of the second and third fastening holes 126 and 136 is formed in the form of a long hole extending vertically so that the vertical coupling position with the square tubular frame 200 is adjusted. Therefore, the angular tubular frame 200 can be firmly fixed to both sides through the first and second side wall plates 120 and 130.

In addition, the support plate 140 is positioned above the base plate 110, and both ends thereof are vertically coupled to the inner sides of the first and second side wall plates 120 and 130. The support plate 140 supports the lower surface of the square tubular frame 200 seated on the upper surface. The support plate 140 vertically penetrates a central portion corresponding to the first fastening hole 118 of the base plate 110 and has a through hole 142 having a larger diameter than the first fastening hole 118. The through hole 142 is formed such that a bolt 150 for fixing the base plate 110 and the roof panel 10 is inserted into the base plate 110 and the roof panel 10 through the first fastening hole 118. Screw it. The support plate 140 has both ends coupled to the inner side of the overlapped portion of the first and second side wall plates 120 and 130 to reinforce the binding force and strength of the solar module clamp device 100.

Therefore, in the solar module clamp device 100 of the present invention, the base plate 110, the first side wall plate 120, the second side wall plate 130, and the support plate 140 are integrally formed so that the cross section is symmetrical. , The stress is improved due to the symmetrical structure, so that the solar module can be stably fixed.

The photovoltaic module clamp device 100 of the present invention analyzes and analyzes stress and strain according to the material and structure, and models each component accordingly to produce a symmetrical structure, so that the load by the photovoltaic module installed on the top Can be evenly distributed, and the stress can be improved to minimize the deformation force due to external environment such as wind speed.

And Figure 6 is a perspective view showing a state installed on the roof panel of the clamp device shown in Figure 1, Figure 7 is a cross-sectional view showing the installation state of the clamp device shown in FIG.

6 and 7, in the solar module clamp device 100 of the present invention, the lower portion is fixedly installed on the protrusions 12 and 14 of the roof panel 10, and each The tubular frame 200 is coupled.

Specifically, in the solar module clamp device 100 of the present invention, the base plate 110 is mounted on the protrusions 12 and 14 of the roof panel 10, and the bolt 150 is inserted through the through hole 142 Is fixedly installed by being coupled to the roof panel 10 through the first fastening hole 118. At this time, between the protrusions 12 and 14 of the roof panel 10 and the base plate 110, a waterproof sheet 170 made of an asphalt material, a silicone material, or a rubber material is inserted.

In addition, in the solar module clamp device 100, a square tube frame 200 is inserted and seated between the first and second side wall plates 120 and 130, and in the second and third fastening holes 126 and 136, respectively. Bolts 160 and 162 are inserted and fastened to fix the square tube frame 200.

A plurality of such solar module clamp devices 100 are installed to be spaced apart in the left and right directions and the front and rear directions of the protrusions 12 and 14, and the square tube-shaped frames 200 are installed in the front and rear directions. Accordingly, a bracket for fixing the solar module or a frame (eg, C-beam, etc.) for supporting or installing the solar module is fixedly installed on the upper surface or one side of the square tube frame 200.

In addition, the solar module clamp device 100 is fixed to the roof panel 10 and the roof frame 20 such as purlin positioned under the roof panel 10 by bolts 150. At this time, the solar module clamp device 100 is installed using an existing fastening hole existing in the roof panel 10, so that it is not necessary to form an additional fastening hole in the roof panel 10, and thus the roof panel (10) Leakage concerns may also be reduced.

Therefore, the solar module clamp device 100 of the present invention is oriented due to its symmetrical structure, so when installed on the roof panel 10, efficient fastening is possible, and it is stable in the external environment due to the symmetrical structure. It is possible to minimize deformation due to a load applied to the roof panel 10 according to the module.

In the above, the configuration and operation of the solar module clamp device according to the present invention have been shown according to the detailed description and drawings, but this is only described by way of example, and various changes and changes within the scope not departing from the technical idea of the present invention Can be changed.

10: roof panel
12, 14: protrusion
20: roof frame
100: solar module clamp device
110: base plate
120: first side wall plate
130: second side wall plate
140: support plate
200: square tube frame

Claims (5)

In the solar module clamp device:
A base plate having a shape matching the surface of the trapezoidal protrusion formed on the roof panel, seated on the surface of the protrusion, and fixed to the roof panel by bolting;
Each of the both ends of the base plate is formed to extend vertically in the upper direction so as to be symmetrical to each other, and the square tube frame for installing the solar module inside is installed in the front and rear length direction of the protrusion. First and second sidewall plates coupled to each of both side surfaces; And
Including; a support plate positioned above the base plate, having both ends vertically coupled to the first and second side wall plates, and having an upper surface formed to support a lower surface of the angular tubular frame,
The base plate, the first side wall plate, the second side wall plate, and the support plates are integrally formed so that cross-sections of the base plate, the first side wall plate, and the support plates are symmetrical left and right;
The base plate includes: an upper mounting portion having a flat central portion so as to be seated on an upper surface of the protruding portion, and having a first fastening hole for fastening a bolt with the upper surface of the protruding portion; First and second inclined portions extending downwardly inclined from both sides of the upper mounting portion to be seated on the left and right inclined surfaces of the protruding portion; And first and second lower seating portions extending a predetermined length in a horizontal direction from each of the first and second inclined portions so as to be seated on both planes of the protrusion portion,
The support plate is vertically penetrated at a position corresponding to the first fastening hole so that a bolt for fixing the base plate and the roof panel is inserted, and a through hole having a larger diameter than the first fastening hole is formed;
Each of the first and second side wall plates has second and third fastening holes in the form of long holes vertically penetrating so that the vertical coupling position with the square tubular frame is adjusted, respectively, so that each of both side surfaces of the square tubular frame A solar module clamp device, characterized in that screwed to the.
delete delete The method according to claim 1,
Each of the first and second side wall plates,
Consisting of an upper sidewall plate positioned inside and a lower sidewall plate positioned outside, a lower end of the upper sidewall plate and an upper end of the lower sidewall plate are coupled to overlap each other for a predetermined length, and each of the upper sidewall plates includes the second And each of the third fastening holes.
The method of claim 4,
The support plate,
Solar module clamp device, characterized in that each of both ends is coupled to the inner side of the overlapped portion of the upper and lower side wall plates.

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