KR101161009B1 - Solar cell module support for steel frame structure - Google Patents

Abstract

PURPOSE: A solar cell module support structure for a roof frame structure is provided to simply and securely install a support structure for installing a solar cell module on a roof frame structure. CONSTITUTION: A solar cell module support structure for a roof frame structure comprises a support frame, a vertical frame, and support fixtures(300). The support frame is composed of horizontal support frames(110) and longitudinal support frames(120). The horizontal support frames support the bottom of a solar cell module(10). The longitudinal support frames are arranged on the bottom of the horizontal support frames. The vertical frame is supported to the front and rear ends of the longitudinal support frames and is placed on the top of a horizontal plate(S1) of a roof frame structure. The support fixtures are inserted into both ends of the horizontal plate.

Description

SOLAR CELL MODULE SUPPORT FOR STEEL FRAME STRUCTURE}

The present invention relates to a solar electric module support structure installed in the roof steel structure, and more particularly, to support the structure for installing the solar cell module in the roof steel structure consisting of H beam or T-shaped steel while minimizing disassembly of the roof panel It relates to a solar cell module support structure that is installed on the roof steel structure that can be installed simply and robustly.

Energy consumption in countries around the world, including Korea, is increasing every year, and greenhouse gas emissions from energy use also increase rapidly in proportion to energy consumption. Therefore, the development of environmentally friendly alternative energy has long been a major concern in each country's energy retention policy, and the need and importance of alternative energy development is increasing in weight over the years.

In recent years, energy technology development using solar energy, which is relatively pollution-free and relatively easy to secure its energy source, has been actively researched and used. The solar energy is a technology for converting sunlight directly into electrical energy (photoelectric effect) and includes a solar cell module, a battery and an inverter. That is, through the above configuration it is possible to use unlimited clean energy sources using sunlight.

On the other hand, Korea was appointed as the compulsory country to control greenhouse gas emissions by joining the 47th in the United Nations Framework Convention on Climate Change held in Rio de Janeiro, Brazil in December 1993. . The main purpose of the above-mentioned UN Framework Convention on Climate Change is that States Parties will endeavor to regulate and prevent global warming, which has been adopted by the Parties to determine standards for greenhouse gas emissions control by States Parties to implement this. 'to be.

Accordingly, in accordance with the above Kyoto Protocol, Korea should reduce 5.2% of greenhouse gas emissions by 1990 by 2012. Accordingly, as a part of reducing greenhouse gas emissions, solar energy is stored on the exterior walls of houses and buildings as well as outdoors. Power generation equipment is installed. For such a photovoltaic power generation facility, a fixed frame for installing a solar cell module and a support frame for supporting the fixed frame on the ground are essential.

Such solar power generation equipment is generally welded to a plurality of frames organically bonded to each other to install a support frame to be fixed to the ground, seating the solar cell module on the fixed frame, then a plate material that can fix the solar cell module The fixing plate of the form is fastened to the fixing frame by using a screw or the like on the upper module is fixed to press the solar cell module by the fixing plate, or fixed by fastening the frame of the module directly to the fixing frame.

In recent years, solar modules have been installed on the roof of buildings to optimize space efficiency and solar collection efficiency. In addition, the roof of the building in which the photovoltaic module is installed is constructed in such a manner that a roof panel is covered with a roof steel structure composed of an H beam or a T-beam.

However, in the related art, when installing the supporting structure for installing the solar module on the roof steel structure composed of the H beam or the T-shaped steel as described above, since it was difficult to install the supporting structure in a narrow gap, the supporting structure in the steel structure After dismantling all the roof panels of the part to be installed, the supporting structure had to be installed in the steel structure. Therefore, the installation of the support structure on the roof was very cumbersome and the construction method was complicated, as well as a lot of manpower and installation costs, there was a problem that takes a lot of construction time.

It is an object of the present invention to minimize the dismantling of the roof panel, the solar cell module is installed on the roof steel structure that can be installed simply and robustly the support structure for the installation of the solar cell module in the roof steel structure consisting of H beam or T-shaped steel To provide a support structure.

In order to achieve the above object, a solar cell module supporting structure installed in a roof steel structure according to the present invention is a support for installing a solar electric module on a roof steel structure including an H beam or a T-beam consisting of a horizontal plate and a vertical plate. In the structure, the support frame consisting of a left and right support frame arranged to be spaced forward and rearward at regular intervals to support the lower side of the solar cell module, and a front and rear support frame arranged to be arranged at regular intervals to the left and right to be disposed below the left and right support frame. and; A vertical frame installed at the front and rear ends of the front and rear support frames at a predetermined angle with respect to the ground, the vertical frame being composed of an H beam and seated on an upper surface of the horizontal plate of the roof steel structure; It is characterized in that it comprises a pair of support fixtures that are fitted and fixed to both ends of the horizontal plate of the roof steel structure, respectively, interposed and assembled by interposing the lower end of the vertical frame.

The support fixture has a bent portion provided at one side thereof, and a fitting groove is formed at the inner side to be fitted to the horizontal plate of the roof steel frame structure, and a fastening hole is formed at the center of the upper surface to fasten the tightening bolt fixed by pressing the upper surface of the horizontal plate. Comprising the support plate and is formed extending from the upper surface of the support plate to the upper side, the support fixing portion is formed with a plurality of fitting holes in the vertical direction of the central portion, respectively, the horizontal frame of the vertical frame consisting of the H-beam the fitting in the vertical direction A plurality of fastening holes corresponding to the ball are formed, and the bolt is inserted into the fitting hole and the fastening hole of the supporting base, and then the nut is fastened to the male threaded portion of the bolt, so that the lower portion of the horizontal frame of the vertical frame consisting of the H beam is supported between the fixing base. It is preferably configured to be coupled to each other in a state interposed therebetween.

And, the support fixture is in close contact with the upper surface of the horizontal plate of the roof steel structure and the upper support plate is formed with a fastening hole is fastened to the fastening bolt is fixed by pressing the upper surface of the horizontal plate in the center portion, and the horizontal plate of the roof steel structure It consists of a lower support plate in close contact with the upper surface, and a connecting plate for coupling one end of the upper support plate and the lower support plate to each other, the support plate is formed in the inner groove is fitted to the horizontal plate of the roof steel structure, and the upper surface of the upper support plate It is formed extending from the upper side, each of which is composed of a supporting fixing portion formed with a plurality of fitting holes in the vertical direction of the central portion, the coupling portion corresponding to the fitting hole in the vertical direction at the lower end of the vertical frame of the vertical frame consisting of the H beam Formed, inserted into the fitting hole and the coupling hole of the fixing base Is then constructed by fastening the nuts to the male screw portion of the bolt, the lower end of the vertical frame vertical frame consisting of H beams and support to be coupled with and closer is interposed between the government state is preferred.

The solar cell module support structure installed in the roof steel structure according to the present invention is because each part is prefabricated and can be installed in a small size and each can be installed separately in the roof steel structure, the part of the steel structure is installed After dismantling only some roof panels, the solar cell module support structure can be installed on the roof steel structure, which makes construction very easy, shortens the construction time, and significantly lowers the installation cost.

In addition, since the solar cell module support structure installed in the roof steel structure according to the present invention is prefabricated through bolts, nuts and screws, all parts can be freely connected and installed, and the support structure is simple and robust. Not only can be installed easily, but also excellent compatibility with bolts and nuts, the construction is very easy, the construction time is shortened, there is an effect that the installation cost can be significantly lowered.

1 is a side view of a solar cell module support structure installed in a roof steel structure according to the present invention,
Figure 2 is a cross-sectional view showing the coupling of the roof steel structure and the support fixture in the present invention,
Figure 3 and Figure 4 is a side cross-sectional view showing the coupling of the roof steel structure and the support fixture in the present invention,
Figure 5 is a plan sectional view showing another preferred embodiment of the combination of the roof steel structure and the support fixture in the present invention,
6 and 7 are side cross-sectional views showing another preferred embodiment of the combination of the roof steel structure and the support fixture in the present invention.

Hereinafter, a solar cell module supporting structure installed in a roof steel structure according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a side view of the solar cell module support structure installed in the roof steel structure according to the present invention, Figure 2 is a cross-sectional view showing the coupling of the roof steel structure and the support fixture in the present invention, Figures 3 and 4 Is a side cross-sectional view showing a combination of the roof steel structure and the support fixture in the present invention, Figure 5 is a cross-sectional plan view showing another preferred embodiment of the combination of the roof steel structure and the support fixture in the present invention, Figures 6 and 7 Is a side cross-sectional view showing another preferred embodiment of the coupling of the roof steel structure and the support fixture in the present invention.

The solar cell module support structure according to the present invention is characterized in that it is configured to install the support structure for the installation of the solar cell module in a roof steel structure consisting of H beams or T-beams simply and robustly while minimizing disassembly of the roof panel. do. In general, the solar cell module 10 is a plurality of solar cells connected in series or in parallel, the solar cell is used to seal the structure to withstand a long-term natural environment or external shock, etc., in this case usually reinforced on the front Glass is provided and the back side is sealed using transparent resins. The solar cell module 10 is connected to a plurality of vertically and horizontally arranged on the support in the present invention to form a solar cell array (array), it is to build one solar power equipment. In addition, as shown, the H-beam or T-shaped steel constituting the roof steel structure (S) is composed of a vertical plate (S2) and a horizontal plate (S1).

Referring to the accompanying drawings, the solar cell module support structure according to the present invention comprises a support frame 100, a vertical frame 200, and the support fixture 300.

First, the support frame 100 is configured to support the lower side of the solar cell module 10 can be installed in the solar cell module, can be constructed in various forms according to the shape of the basic structure, such as a general house or building. In addition, as shown in FIG. 1, the solar cell module 10 is installed to be maintained at a predetermined angle so as to maximize light absorption. Here, the optimal inclination angle of the support frame 100 is preferably installed to form an angle of about 30 degrees with respect to the ground. In detail, the support frame 100 has left and right support frames 110 arranged to be arranged at regular intervals in front and rear to support the lower side of the solar cell module 10, and left and right to be disposed under the left and right support frames 110. It consists of a front and rear support frame 120 is arranged at regular intervals in the room.

Next, the vertical frame 200 serves to support the support frame 100 is installed at the front and rear ends of the front and rear support frame 120 at a predetermined angle with respect to the ground. That is, the vertical frame 200 is installed below the support frame 100 to support the support frame 100 so that the solar cell module 10 can be installed at a predetermined angle.

Specifically, the vertical frame 200 is installed so that the support frame 100 is supported at a predetermined angle with respect to the ground at the front end and the rear end of the front and rear support frame 120, consisting of an H beam of the roof steel structure It is configured to be seated on the upper surface of the horizontal plate (S1). Here, the vertical frame 200 is formed of a front length frame 210 and a length longer than the front length frame 210 is coupled to the lower front end of the front and rear support frame 120, the front and rear support frame 120 It is preferable that the rear vertical frame 220 is configured to be coupled to the rear end of the lower side. That is, since the rear vertical frame 220 is formed to have a longer size than the front vertical frame 210, the support frame 100 may be installed to be inclined at an angle. Here, the vertical frame composed of the H beam is composed of vertical frame horizontal plates 211 and 221 and vertical frame vertical plates 212 and 222.

Next, the support fixture 300 is fitted to each of the both ends of the horizontal plate (S1) of the roof steel frame structure is coupled and fixed, the lower end of the vertical frame 200 is interposed and assembled.

Specifically, as shown in Figures 2 to 4, the support fixture 300 is provided with a bent portion (311a) on one side is fitted fitting groove (311b) to be fitted to the horizontal plate (S1) of the roof steel structure inside And a support plate 311 formed with a tightening hole 311d for fastening a tightening bolt 311c fixed by pressing the upper surface of the horizontal plate S1 to a central portion of the upper surface, and an upper side of the upper surface of the support plate 311. It is preferably formed of a support fixing portion 312 is formed to extend, the plurality of fitting holes (312a) formed in the vertical direction of the central portion. That is, the support fixture 300 is inserted into the horizontal plate (S1) in the fitting groove (311b) of the support plate 311 as shown in Figures 3 and 4, then tightening bolts (311c) from the outer surface of the support plate 311 By tightening the clamping bolt 311c to press the upper surface of the horizontal plate, the support fixture 300 is configured to be fixed to the horizontal plate (S1) of the roof steel structure. In addition, a plurality of fastening holes 211a and 221a corresponding to the fitting holes 312a are formed at the lower ends of the horizontal frames 211 and 221 of the vertical frames 210 and 220 including the H beams. By such a configuration, by inserting the bolt (B) into the fitting hole (312a) and the fastening holes (211a, 221a) of the supporting fixing portion and then fastening the nut (N) to the male screw portion of the bolt (B), The lower end of the horizontal frame (S1) of the vertical frame composed of the H beam is configured to be coupled to each other in a state interposed between the supporting fixing portion 312. 3 and 4, the roof steel structure (S) may be composed of H beam or T-shaped steel.

In addition, as shown in Figures 5 to 7, the support fixture 300 is fixed by pressing the upper surface of the horizontal plate (S1) to the central portion in close contact with the upper surface of the horizontal plate (S1) of the roof steel structure. An upper support plate 321a having a tightening hole 321f to which the tightening bolt 321e is fastened, a lower support plate 321b in close contact with the bottom surface of the horizontal plate S1 of the roof steel structure, and the upper support plate 321a. And a support plate 321c configured to couple one end of the lower support plate 321b to each other, and a support plate 321 having an insertion groove 321d formed therein to be fitted into the horizontal plate S1 of the roof steel structure, and the It is formed to extend from the upper surface of the upper support plate 321a to the upper side, the support fixing portion 322 is formed with a plurality of fitting holes 322a in the vertical direction of the central portion. That is, the supporting fixture 300 is fitted with a horizontal plate (S1) in the fitting groove (321d) formed between the upper support plate (321a) and the lower support plate (321b), then the outer surface of the upper support plate (321a) By tightening the fastening bolt 321e in this pressure bolt 321e is to press the upper surface of the horizontal plate (S1), the support fixture 300 is configured to be fixed to the horizontal plate (S1) of the roof steel structure. Here, the upper support plate 321a, the lower support plate 321b and the connecting plate 321c are preferably coupled to each other by welding. In addition, a plurality of coupling holes 212a and 222a corresponding to the fitting hole 322a are formed in the lower end of the vertical frames 212 and 222 of the vertical frames 210 and 220 including the H beams. With this configuration, the bolt B is inserted into the fitting hole 322a and the coupling hole 212a, 222a of the supporting fixing part, and then the nut N is fastened to the male threaded portion of the bolt B to thereby beam H. The lower end of the vertical frame (S2) of the vertical frame composed of interposed between the supporting fixing portion 322 is configured to be coupled in a close state. 6 and 7, the roof steel structure S may be formed of an H beam or a T-beam.

Furthermore, the connecting plate 321c is configured to protrude to the lower side of the lower supporting plate 321b, and a reinforcing piece 323 is installed between the inner side of the connecting plate 321c and the bottom of the lower supporting plate 321b. It is preferable. That is, it is configured to support the bottom of the lower support plate 321b through the reinforcing piece 323 is to be configured so that the support fixture 300 is more firmly fixed on the horizontal plate (S1).

The solar cell module support structure installed in the roof steel structure according to the present invention configured as described above can be installed in a small size because each part is prefabricated and configured to be installed on the roof steel structure separately, steel structure is installed After dismantling only part of the roof panel, the solar cell module support structure can be installed on the roof steel structure, which is not only easy to construct, but also shortens the construction time and has the advantage of significantly lowering the facility cost.

In addition, the present invention is because all parts are prefabricated through the bolts, nuts and screws, it is possible to freely install the support structure, and to install the support structure simple and robust, as well as compatibility with the bolts and nuts This is very excellent, not only the construction is very easy, but also the construction time is shortened, there is an advantage that the facility cost can be significantly reduced.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

100: support frame 200: vertical frame
300: support fixture

Claims (4)

delete In the support structure for installing a solar electric module on a roof steel structure comprising an H-beam or T-beam consisting of a horizontal plate and a vertical plate,
A support frame including a left and right support frame arranged at regular intervals in front and rear to support a lower side of the solar cell module, and a front and rear support frame arranged at regular intervals in a horizontal direction to be disposed below the left and right support frames;
A vertical frame installed at the front and rear ends of the front and rear support frames at a predetermined angle with respect to the ground, the vertical frame being composed of an H beam and seated on an upper surface of the horizontal plate of the roof steel structure;
Fitted and fixed to both ends of the horizontal plate of the roof steel structure, and comprises a pair of support fixtures are assembled and assembled by interposing the lower end of the vertical frame,
The support fixture is provided with a bent portion is provided on one side is fitted with a fitting groove to be fitted to the horizontal plate of the roof steel frame structure, the fastening bolt is formed to fasten the fastening bolt is fixed by pressing the upper surface of the horizontal plate in the center of the upper surface Comprising a support plate and a support fixing portion which is formed extending from the upper surface of the support plate to the upper side, each of the plurality of fitting holes are formed in the vertical direction of the central portion, the horizontal hole of the vertical frame consisting of the H beam and the fitting hole in the vertical direction The corresponding fastening holes are formed a plurality,
The bolt is inserted into the fitting hole and the fastening hole of the supporting base, and then the nut is fastened to the male threaded portion of the bolt, so that the lower end of the horizontal frame of the vertical frame composed of the H beam is configured to be coupled to each other with being interposed between the supporting fixing parts. Characterized in that the solar cell module support structure.
In the support structure for installing a solar electric module on a roof steel structure comprising an H-beam or T-beam consisting of a horizontal plate and a vertical plate,
A support frame including a left and right support frame arranged at regular intervals in front and rear to support a lower side of the solar cell module, and a front and rear support frame arranged at regular intervals in a horizontal direction to be disposed below the left and right support frames;
A vertical frame installed at the front and rear ends of the front and rear support frames at a predetermined angle with respect to the ground, the vertical frame being composed of an H beam and seated on an upper surface of the horizontal plate of the roof steel structure;
Fitted and fixed to both ends of the horizontal plate of the roof steel structure, and comprises a pair of support fixtures are assembled and assembled by interposing the lower end of the vertical frame,
The supporting fixture is in contact with the upper surface of the horizontal plate of the roof steel structure and the upper support plate is formed with a fastening hole is fastened to the fastening bolt is fixed by pressing the upper surface of the horizontal plate to the center portion, the lower surface of the horizontal plate of the roof steel structure A lower plate that is in close contact with the support plate, and a connecting plate for coupling one end of the upper support plate and the lower support plate to each other, and a support plate on which a fitting groove is formed to be fitted into a horizontal plate of the roof steel structure, and an upper surface of the upper support plate. It is formed to extend upward, and the support fixing portion is formed in each of the plurality of fitting holes in the vertical direction of the central portion, and a plurality of coupling holes corresponding to the fitting holes in the vertical direction formed at the lower end of the vertical frame of the vertical frame composed of the H beam Become
The bolt is inserted into the fitting hole and the coupling hole of the supporting base, and then the nut is fastened to the male threaded portion of the bolt so that the lower end of the vertical frame of the vertical frame composed of the H beam is interposed between the supporting fixing unit and coupled in close contact. Solar cell module support structure, characterized in that.
The method of claim 3,
The connecting plate is configured to protrude to the lower side of the lower support plate,
The solar cell module support structure, characterized in that the reinforcing piece is installed between the inner side of the connecting plate and the bottom surface of the lower support plate.

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