KR200495901Y1 - Solar cell module fixing bracket - Google Patents

Abstract

In the present invention, the structure for fixing the solar module to the roof is simple by forming the body part and the lower end of the coupling part in a shape corresponding to the mountain of the roof, and the fixing part of the solar module is fastened to the upper part of the body by the fastening member. Provides a bracket for fixing a solar module that is easy to install. The present invention has a simple configuration by fastening the body part and the coupling part and the fixing of the solar module fixed on the upper part of the body part by a fastening member, so that the installation work is shortened and the work efficiency is increased because the fastening is easy. can have an effect. In addition, by forming the anti-rotation protrusion on the vertical part of the body portion, there is an effect of preventing the fastening member from being rotated and loosened even by external vibration, thereby preventing the solar module from being separated from the roof.

Description

Solar cell module fixing bracket

The present invention relates to a bracket for fixing a photovoltaic module. More specifically, the lower end of the body and the coupling part are formed in a shape corresponding to the mountain of the roof, and the fixing part of the photovoltaic module is fastened to the upper end of the body by a fastening member. It relates to a bracket for fixing a photovoltaic module with a simple structure and easy installation work for fixing the photovoltaic module to the roof by making it possible.

In general, a solar power generation system is a power generation facility that receives DC power from a solar module that generates electrical energy by sunlight and supplies stable power to the phase electric system and houses. , it is a nature-friendly power generation system that can be used conveniently.

In such an environment-friendly photovoltaic power generation system, good solar conditions are given priority by the prerequisites for stably producing and supplying electric power. conditions such as ease of installation of

A variety of techniques for installing the photovoltaic module as described above on the roof have been proposed, and the bracket module for installing the photovoltaic unit of Patent Document 1 has a plurality of upwardly protruding bent portions as shown in FIG. 1 . In being fastened to the protruding bent part of the roof panel, the upper support part 111 and the upper support part 111 are respectively provided with hooking parts downwardly on both sides of the upper support part 111 so that the front/rear and lower parts form an open shape ( 110); and a coupling bolt 120 and a nut 130 for pressing the both side hook portions 112 to be fixed to the bent portion.

The bracket module as described above has the advantage of a simple structure, but as shown in FIG. 2, the frame 10 is placed on the upper surface of the upper support part 111 of the bracket module installed after the bracket module 110 is combined at each predetermined position of the roof panel. By bolting the back and installing the photovoltaic unit (P) on the frame 10, when the frame 10 is coupled to the bracket module, an impact is applied to the roof or the photovoltaic unit, so that the roof or photovoltaic unit There was a problem with this breakage.

The clamp for a solar cell module of Patent Document 2 includes a first clamp body 110 in which both upper sides protrude by a predetermined length so as to be in close contact with the upper end of the solar cell module to form a fixing portion 111 as shown in FIG. 3 ; The receiving groove 112 is formed so that the lower part of the first clamp body part 110 is inserted and seated, and the lower both sides protrude by a predetermined length so as to be in close contact with the lower end of the solar cell module 200 to the fixing part 122 . a second clamp body portion 120 formed of; and the first clamp body part 110 and the second clamp body part 120 are installed to pass through, and the first and second clamp body parts 11 and 120 are fastened to fix the solar cell module 200 . It is characterized in that it includes a fastening portion 130 to.

However, the clamp for a solar cell module as described above fixes the solar cell module 200 in a state adjacent to or in close contact with a wall surface, and there is a problem that the angle of the solar cell module 200 cannot be adjusted, and also the second clamp The body part 120 is fixed to the wall surface 200 , and the solar cell module 200 and the first clamp body part 110 are sequentially fastened to the second clamp body part 120 using the fastening part 130 . However, in the configuration in which the nut 121 is positioned inside the second clamp body part 120 , there is a problem in that it is difficult to fasten the fastening part 130 and the nut 12 .

Patent Document 1: Domestic Utility Model Publication No. 10-2012-0043469 (published on May 04, 2012) Bracket module for installing solar power unit on top of roof panel Patent Document 2: Domestic Patent Publication No. 10-1306098 (registered on September 03, 2013) Clamp for solar cell module

Therefore, the present invention has been proposed to improve such conventional problems, by forming the lower end of the body and the coupling part in a shape corresponding to the mountain of the roof, and fastening the fixture of the solar module to the upper end of the body by a fastening member. An object of the present invention is to provide a new type of bracket for fixing a photovoltaic module with a simple structure for fixing the photovoltaic module to the roof and easy installation work.

In particular, by fastening the body part and the coupling part and the fixing of the solar module fixed on the upper part of the body part by the fastening member, the construction is simple and the fastening is easy, so the installation work can be shortened to increase the work efficiency. An object of the present invention is to provide a bracket for fixing a new type of photovoltaic module.

In addition, a new type of solar module fixing bracket that prevents the solar module from being separated from the roof by preventing the fastening member from rotating and loosening even in external vibration by forming a rotation preventing protrusion on the vertical part of the body intended to provide

According to the features of the present invention for achieving the above object, in the bracket 10 for fixing the solar module 110 by being coupled to the roof 100 of a building in which valleys and mountains are repeatedly formed, the lower portion is the roof a body portion 20 fixed to one side of the mountain formed in 100 and fixed to the upper portion of the solar module 110; A coupling part 40 formed in a shape corresponding to the lower part of the body 20 , in close contact with the other side of the mountain formed on the roof 100 , and fastened to the body 20 and the fastening member 30 by the fastening member 30 . ) is characterized in that it contains.

In the photovoltaic module fixing bracket according to the present invention, the body 20 includes a lower end 21 in close contact with one side of the mountain formed on the roof 100; a vertical portion 22 extending vertically upward of the lower portion 21; It is formed in a 'C' shape with an open upper portion and is formed on the upper portion of the vertical portion 22 , and includes an upper end portion 23 to which the fixture 112 of the solar module 110 is coupled.

And in the photovoltaic module fixing bracket according to the present invention, the vertical portion 22 has a through hole 221 through which the fastening member 30 passes is formed on the center side, and the through hole 221 is centered on the outside. In the upper and lower sides, the rotation preventing protrusion 222 for preventing the rotation of the fastening member 30 is formed, and the inner protrusion 223 is formed on the upper side with the through hole 221 on the inner side. do.

In addition, in the photovoltaic module fixing bracket according to the present invention, the coupling part 40 has a lower end part 41 and a vertical part ( 42), and at the upper end of the vertical portion 42, has a seating portion 43 placed on the upper side of the inner protrusion 223 formed in the vertical portion 22 of the body portion 20, the vertical The portion 42 is characterized in that a through hole 421 is formed at a position corresponding to the through hole 221 of the body portion 20 .

In the bracket for fixing the photovoltaic module according to the present invention, it is characterized in that it further comprises a horizontal part 24 to which the fixture 112 of the photovoltaic module 110 is coupled to the upper portion of the upper end 23 .

And in the photovoltaic module fixing bracket according to the present invention, the horizontal portion 24 is characterized in that the bent portion 241 bent downward at both ends is formed.

In addition, in the bracket for fixing the solar module according to the present invention, the upper surface of the horizontal part 24 is formed with a plurality of protrusions 242 for preventing the fixture 112 of the solar module 110 from moving. characterized in that

As described above, according to the bracket for fixing the solar module according to the present invention, the lower end of the body and the coupling part are formed in a shape corresponding to the mountain of the roof, and the fixing part of the solar module is fastened to the upper part of the body by the fastening member. The structure for fixing the solar module to the roof is simple and has the effect of easy installation.

In particular, by fastening the body part and the coupling part and the fixing of the solar module fixed on the upper part of the body part by the fastening member, the construction is simple and the fastening is easy, so the installation work can be shortened to increase the work efficiency. there is an effect

In addition, by forming the anti-rotation protrusion on the vertical part of the body portion, there is an effect of preventing the fastening member from being rotated and loosened even by external vibration, thereby preventing the solar module from being separated from the roof.

1 to 3 are views for explaining the prior art;
4 is a perspective view of a bracket for fixing a solar module according to a first preferred embodiment of the present invention;
5 is an exploded perspective view of a bracket for fixing a solar module according to a first preferred embodiment of the present invention;
6 is a front view of a bracket for fixing a solar module according to a first preferred embodiment of the present invention;
7 is a view showing an installation state of a bracket for fixing a solar module according to a first preferred embodiment of the present invention;
8 is a perspective view of a bracket for fixing a solar module according to a second preferred embodiment of the present invention;
9 is an exploded perspective view of a bracket for fixing a solar module according to a second preferred embodiment of the present invention;
10 is a front view of a bracket for fixing a solar module according to a second preferred embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail based on the accompanying drawings, and in FIGS. 4 to 10, the same reference numerals are given to components performing the same function. On the other hand, in the drawings and detailed descriptions, detailed descriptions and illustrations of specific technical configurations and actions of elements not directly related to the technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly illustrated or explained.

4 to 7 , the solar module fixing bracket 10 according to the first preferred embodiment of the present invention includes a body 20 positioned on one side of the mountain of the roof 100 and the other side. It is made to include a coupling part 40 that is fastened to the body 20 and is fixed to the valleys and mountains that are repeatedly formed on the roof 100 so that the solar module 110 is fixed to the upper part.

The body 20 is fixed in close contact with one side of the mountain formed on the roof 100 at the lower part, and the solar module 110 is fixed on the upper part, which is in close contact with one side of the mountain formed on the roof 100 . The lower end 21, the vertical portion 22 extending vertically upwards of the lower end 21, and an open 'C' shape are formed on the upper portion of the vertical portion 22, and the solar module ( The fixture 112 of the 110 is made to include an upper end 23 is coupled.

On the other hand, in the bracket 10 for fixing the solar module according to the preferred embodiment of the present invention, the fixture 112 of the solar module 110 may be variously configured such as a profile, a pipe (rod), a fixing bracket, and the like.

The lower end 21 has a shape corresponding to one side of the mountain of the roof 100 and is in close contact with one side of the mountain, and the end is formed inward to prevent separation from the mountain of the roof 100 .

The vertical portion 22 is formed with a through hole 221 through which the fastening member 30 passes on the central side, and for preventing rotation of the fastening member 30 on the upper and lower sides with the through hole 221 as the center on the outer side. The anti-rotation protrusion 222 is formed, and the inner protrusion 223 is formed on the upper side with the through hole 221 on the inner side.

On the other hand, the fastening member 30 is preferably made of a fastening bolt 31 and a nut (32).

The upper end 23 is made of a support plate 231 formed horizontally on the upper portion of the vertical portion 22, and side plates 232 formed vertically on both sides of the support plate 231, and the side plate 232 has a solar module. A fastening hole 233 is formed so that the fixture 112 of the 110 is fastened.

The coupling part 40 is located on one side of the mountain of the roof 100 and is fastened by the body part 20 and the fastening member 30 , and the lower end part 21 and the vertical part 22 of the body part 20 . It has a lower end 41 and a vertical portion 42 having a shape corresponding to . At this time, the upper end of the vertical portion 42 has a seating portion 43 placed on the upper side of the inner protrusion 223 formed on the vertical portion 22 of the body portion 20, and the vertical portion 42 is the body A through hole 421 is formed at a position corresponding to the through hole 221 of the part 20 , and the fastening member 30 is inserted through the through hole 421 to be fastened to the body 20 .

The lower end of the body portion 20 and the coupling portion 40 is formed in a shape corresponding to the mountain of the roof 100 , and the fixture 112 of the solar module 110 is provided on the upper end 21 of the body 20 . By fastening by the fastening member 30 , the structure for fixing the solar module 110 to the roof 100 is simple and the installation operation is easy.

In particular, the structure is simple by fastening the body part 20 and the coupling part 40 and the fixing of the solar module 110 fixed to the upper part of the body part 20 by the fastening member 30 . , because it is easy to fasten, there is an effect that the installation work can be shortened and the work efficiency can be increased.

In addition, by forming the anti-rotation protrusion 222 on the vertical portion 22 of the body portion 20 to prevent the fastening member 30 from being rotated and loosened even in external vibrations, the solar module 110 is installed on the roof 100 . It has the effect of preventing it from escaping.

When describing the configuration for fixing the solar module 110 to the roof 100 using the solar module fixing bracket 10 according to the first preferred embodiment of the present invention, first, the lower end of the body 20 (21) and the lower end (41) of the coupling part (40) are in close contact with both sides of the mountain of the roof (100), and are fixed using the fastening member (30). Thereafter, the fixture 112 of the solar module 110 is positioned between the side plates 32 of the upper end 23 of the body 20, and the solar module 110 is fixed using the fastening member 30. will be.

8 is a perspective view of a bracket for fixing a solar module according to a second preferred embodiment of the present invention, and FIG. 9 is an exploded perspective view of a bracket for fixing a solar module according to a second preferred embodiment of the present invention, FIG. It is a front view of a bracket for fixing a solar module according to a second preferred embodiment of the present invention.

8 to 10 , the bracket 10 ′ for fixing a solar module according to a second preferred embodiment of the present invention includes a body 20 ′ and a coupling unit 40 . Here, the coupling part 40 has the same configuration as the coupling part 40 of the first embodiment described with reference to FIGS. 4 to 7 .

The body portion 20 ′ is fixed in close contact with one side of the mountain formed on the roof 100 , and the photovoltaic module 110 is fixed on the upper portion, and is in close contact with one side of the mountain formed on the roof 100 . It is formed on the upper part of the vertical part 22, consisting of a lower end 21, a vertical portion 22 extending vertically upward of the lower end 21, and an open 'C' shape. The fixture 112 of (110) is made including a horizontal portion 24 to which the fixture 112 of the solar module 110 is coupled to the upper part 23 and the upper part 23 to which the fixture 112 is coupled.

The lower end 21 has a shape corresponding to one side of the mountain of the roof 100 and is in close contact with one side of the mountain, and the end is formed inward to prevent separation from the mountain of the roof 100 .

The vertical portion 22 is formed with a through hole 221 through which the fastening member 30 passes on the central side, and for preventing rotation of the fastening member 30 on the upper and lower sides with the through hole 221 as the center on the outer side. The anti-rotation protrusion 222 is formed, and the inner protrusion 223 is formed on the upper side with the through hole 221 on the inner side.

The upper end 23 includes a support plate 231 horizontally formed on the upper portion of the vertical portion 22 , and side plates 232 vertically formed on both sides of the support plate 231 .

The horizontal portion 24 is formed horizontally on each of the upper portions of the side plate of the upper end 23 , the bent portions 241 bent downwards of both ends are formed, and the upper surface is the fixture 112 of the solar module 110 . ) is formed with a plurality of projections 242 to prevent movement.

As described above, when fixing the fixture 112 of the photovoltaic module 110 on the upper portion of the photovoltaic module fixing bracket 10 ′ according to the second preferred embodiment of the present invention, the bending part of the horizontal part 24 The fastening bolt 31 of the fastening member 30 is positioned in the vertical direction at the lower portion of the 241 to fix the fixture 112 of the solar module 110 .

As described above, although the photovoltaic module fixing bracket according to the preferred embodiment of the present invention has been shown according to the above description and drawings, this is merely an example and various within the scope not departing from the technical spirit of the present invention. It will be appreciated by those skilled in the art that changes and modifications are possible.

10, 10' : Bracket for fixing solar module
20, 20': body part 21: lower part
22: vertical part 221: through hole
222: anti-rotation projection 223: inner projection
23: upper part 24: horizontal part
241: bent part 242: protrusion
30: fastening member 40: coupling part
41: lower part 42: vertical part
43: safe
100: roof
110: solar module 112: fixture

Claims (7)

In the bracket 10 for fixing the photovoltaic module 110 by being coupled to the roof 100 of a building in which valleys and mountains are formed repeatedly,
a lower end 21 in close contact with one side of the mountain formed on the roof 100; a vertical portion 22 extending vertically upward of the lower portion 21; It is formed in a 'C' shape with an open upper part and is formed on the upper part of the vertical part 22 , the fixture 112 of the solar module 110 is coupled, and the vertical part 22 is fastened to the center side. A through hole 221 through which the member 30 passes is formed, and a rotation preventing protrusion 222 for preventing rotation of the fastening member 30 is formed on the upper and lower sides around the through hole 221 on the outside. The inner protrusion 223 is formed on the upper side with the through hole 221 on the inside, and the support plate 231 is formed horizontally on the upper part of the vertical part 22, and the support plate 231 is perpendicular to both sides of the support plate 231. It is made of a side plate 232 that is formed so as to be fastened to the side plate 232 so that the fastener 112 of the solar module 110 is fastened by the fastening member 30 consisting of a fastening bolt 31 and a nut 32 . The body portion 20 includes an upper end 23 in which a hole 233 is formed, the lower portion is fixed in close contact with one side of the mountain formed on the roof 100, and the photovoltaic module 110 is fixed to the upper portion. )Wow;
It has a lower end 41 and a vertical portion 42 of a shape corresponding to the lower end 21 and the vertical portion 22 of the body portion 20, and the body portion 20 is located at the upper end of the vertical portion 42. ) has a seating portion 43 to be placed on the upper side of the inner protrusion 223 formed in the vertical portion 22 of the vertical portion 42 , and the vertical portion 42 corresponds to the through hole 221 of the body portion 20 . A through hole 421 is formed at the position, and it is in close contact with the other side of the mountain formed in the roof 100 and includes a coupling part 40 that is fastened by the body part 20 and the fastening member 30. A bracket for fixing solar modules. delete delete delete delete delete delete

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