KR20200046606A - A Photovolatic System Supporting Assembly - Google Patents

Abstract

The present invention relates to a photovoltaic structure support assembly which can increase the sturdiness of a structure. A roof unit includes: a roof panel of a plate shape; a roof frame of a bar shape with a C-shaped cross section supported underneath the roof panel; and an H-beam arranged underneath the roof frame to form the body of a house. The photovoltaic structure support assembly comprises: a first frame of a bar shape arranged underneath the H-beam; a first block slidable along the inside of the roof frame; a second block slidable along the inside of the roof frame; a first connection bar formed in a bar shape, wherein one end thereof penetrates the roof panel, and the other end thereof penetrates one sidewall of the roof frame and one sidewall of the first block to be fixed; a second connection bar formed in a bar shape, wherein one end thereof penetrates the first frame, and the other end thereof penetrates one sidewall of the roof frame and the second block to be fixed; and a middle bar of a bar shape penetrating sides of the first block and the second block to be fixed.

Description

A photovolatic system supporting assembly

The present invention relates to a solar structure support assembly, and more particularly, when fixing another structure on the roof of a building or the like, relates to a solar structure support assembly connecting the structure and the roof.

Recently, interest in solar power generation is increasing as an alternative energy source due to the depletion of resources. Photovoltaic power generation is an integrated technology that converts sunlight incident on the earth into electrical energy.It is not only environmentally friendly, but once the device is installed and operated, electricity can be produced only if the sun is present, even if there is no additional energy input. As it has advantages, its application range is gradually expanding.

In general, photovoltaic modules comprising photovoltaic modules comprising a plurality of solar cells, wires electrically connecting the solar cells, and a film or protective glass protecting the solar cells from the external environment. Operate in series or parallel. In order to apply the solar cell module to a building, the most commonly used from the past to the present is a method of mounting the solar cell module on the roof of an existing building.

This method has the advantage that it is not necessary to dismantle the existing building or to newly build a new structure to install the solar cell module in that it can be realized by simply fixing the finishing frame that tightly constrains the solar cell module to the roof. have.

However, the prior art has the following problems.

As shown in FIG. 1, when fixing a solar structure on the roof and roof of a building, a pillar such as a frame is installed on the roof, and the solar structure is fixed thereon. There was a problem in that the force could not be safely supported due to the position difference between the fixing parts supporting the respective structures.

Registered Patent No. 10-1681208

In order to solve the above-mentioned problems, an object of the present invention is to provide a solar structure support assembly capable of increasing the rigidity of a structure when simply fixing the solar structure to the roof.

In order to achieve the above object, the solar structure support assembly according to the present invention includes a plate-shaped roof panel, a C-shaped bar-shaped roof frame having a cross section supported under the roof panel, and a roof-shaped roof frame provided below the house. A roof beam comprising a body; comprising: a first frame having a bar shape provided below the H beam, a first block slidable along the inside of the roof frame, and sliding along the inside of the roof frame A possible second block, a bar shape, one end penetrating through the roof panel, the other end being fixed to the first connecting bar through one side wall of the roof frame and one side wall of the first block, and a bar shape It is formed, one end penetrates the first frame, the second connecting bar fixed to the side wall and the second block of the roof frame, and the first It may be configured to include an intermediate bar in the form of a bar that is fixed through the side of the first block and the second block.

One end of the connection bar is characterized in that it is located in the iron portion of the uneven portion of the upper surface of the roof panel.

The upper surface of the iron portion of the uneven portion of the upper surface of the roof panel is further provided with a C-shaped upper frame, and one end of the first connecting bar is fixed through the upper frame.

A plurality of the first connection bar and the second connection bar are provided, and the first block and the second block are also configured in multiple numbers.

The outer surface of the first connection bar is characterized in that the pipe-shaped reinforcement pipe is further provided.

In the solar structure support assembly according to the present invention has the following effects.

The load generated by the solar structure installed on the upper surface of the roof is distributed to the H beam under the roof, thereby increasing the durability of the solar structure.

1 is a perspective view showing a support assembly for installing a solar structure according to the prior art on the roof.
Figure 2 is a perspective view showing a first preferred embodiment of the solar structure support assembly according to the present invention.
Figure 3 is a front view showing the front of the solar structure support assembly of Figure 2;
4 is a perspective view showing a second preferred embodiment of the solar structure support assembly according to the present invention.
Figure 5 is a front view showing the front of the solar structure support assembly of Figure 4;
Figure 6 is a perspective view showing the components constituting the solar structure support assembly according to the present invention.
7 is a front view showing a third preferred embodiment of the solar structure support assembly according to the present invention.

Hereinafter, preferred embodiments of the solar structural support assembly according to the present invention will be described in detail with reference to the accompanying drawings.

First, as shown in FIG. 2, the solar structure support assembly according to the present invention includes a plate-shaped roof panel 12 and a C-shaped bar-shaped roof frame having a cross section supported under the roof panel 12. ), In the roof portion 10 including the H beam 16 which is provided below the roof frame 14 and constitutes the body of the house, the bar-shaped first frame provided below the H beam 16. (20), the roof frame 14, the first block 30 that is slidable along the inside, the second block 40 that is slidable along the inside of the roof frame 14, and is formed in a bar shape, once Silver penetrates the roof panel 12, the other end is a first connection bar 50 and the first connection bar 50 is fixed through the one side wall and the first block 30 of the roof frame 14, the bar shape It is formed, one end penetrates the first frame 20, one side wall of the roof frame 14 and the second blee The second connecting bar 60 is fixed through the (40), and includes a first bar 30 and the intermediate bar 70 of a bar shape fixed through the side surfaces of the second block 40 It is composed.

First, the solar structure support assembly of the present invention is provided with a roof portion 10 to be fixed to the solar structure on the upper surface. The roof portion 10, as shown in Figure 1, the plate-shaped roof panel 12, and the cross section supporting the lower portion of the roof panel 12, C-shaped bar-shaped roof frame 14, the The roof frame 14 may be provided below the H beam 16 that constitutes the body of the house.

The roof frame 14 is formed in a C-shaped cross section, and the front ends of each bent end of the roof frame 14 may be configured to face each other. This is to allow the blocks 30 and 40 to be described below to enter and exit through the gaps of the front ends of the roof frame 14.

That is, the size of the gap may be configured to be larger than the width and smaller than the height among the widths and heights of the blocks 30 and 40. When the blocks 30 and 40 are transverse, it is possible to flow in and out between the gaps of the first bent portion 14b and the second bent portion 14c, and if the blocks 30 and 40 are vertically placed, entry and exit are impossible. To be configured.

The solar structure is fixed to the roof portion 10 through a support (not shown) or the like. At this time, if the roof portion is affected by the solar structure due to the influence of external wind, the roof portion 10 is subjected to a load of the solar structure, wherein the roof panel of the roof portion 10 It can be configured as follows to be fixed to the H beam 14 so that (12) does not escape.

The first frame 20 is provided in the solar structure support assembly of the present invention. The first frame 20 is formed in a bar shape, and is provided below the H-beam 16.

The first frame 20 is formed in a U-shape, as shown in Figure 2, the plate portion (20a) constituting the body and the first bending portion (20b) bent on one side of the plate portion (20a) And the second bent portion 20c bent on the other side of the plate portion 20a.

In addition, blocks 30 and 40 that are slidable inside the roof frame 14 are provided. The blocks 30 and 40 have a rectangular parallelepiped shape and four through holes are formed on both sides and upper and lower surfaces.

When the blocks 30 and 40 are vertically erected, the through holes formed in the upper and lower surfaces of the blocks 30 and 40 are referred to as first through holes 32 and 42, and the blocks 30 and 40 are formed. The through-holes formed in the side surfaces of the second through-holes (34, 44) can be referred to.

This is to ensure that the intermediate bar 70, the first connecting bar 50 and the second connecting bar 60, which will be described below, are fixed through the through holes 32 and 42.

The through holes 32 and 42 may have an oval shape. The length of the through-holes 32 and 42 is of course relatively larger than that of the middle bar 70 and the like, and the length of the inner surface of the roof frame 14 and the lengths of the blocks 30 and 40 are vertical. It is desirable to be formed relatively smaller than the difference.

This is fixed when the first connecting bar 50 or the like is fixed through the roof frame 14 or the like, so that the outer surfaces of the blocks 30 and 40 and the inner wall of the roof frame 14 are approached. To make it possible.

Multiple blocks 30 and 40 may be applied. At least two or more blocks 30 and 40 may be applied. That is, when two of the blocks 30 and 40 are applied, the first block 30 is in contact with the upper surface of the inner surface of the roof frame 14, and the second block 40 is the roof frame 14 ) It can be fixed to contact the lower surface of the inner surface.

More specifically, the first block 30 is slidable along the inside of the roof frame 14 and the second block 40 is slidable along the inside of the roof frame 14.

In addition, an intermediate bar 50 is fixed through the side surfaces of the first block 30 and the second block 40. The intermediate bar 50 is formed in a bar shape, so that each of the blocks 30 and 40, that is, the second through hole 34 of the first block 30 and the second through hole of the second block 40 Through the ball 44, the blocks are fixed so as not to flow inside the roof frame 14.

A first connection bar 50 fixed to the first block 30 is provided. The first connection bar 50 is formed in a bar shape, one end penetrates the roof panel 12, the other end is one side wall of the roof frame 14 and one side wall of the first block 30. It is fixed through. That is, the roof panel 12 and the roof frame 14 serves to fix each other.

Then, a second connection bar 60 is fixed to the second block 40. The second connecting bar 60 is formed in a bar shape like the first connecting bar 50, one end penetrates the first frame 20, one side wall of the roof frame 14 and the first 2 Block 40 is fixed through. That is, the roof frame 14 is secured to the H beam 16.

In addition, several of the first connection bar 50 and the second connection bar 60 may be configured. As shown in the drawings of each embodiment, the inventors assembly can be applied to the plurality of blocks (30, 40) to be stably fixed, the first connection bar 50 and the fit to the block A plurality of second connection bars 60 may also be applied.

The first block 30 and the second block 40 are as shown in FIGS. 2 and 3, one first block 30 connected to each of the first connection bar 50, It may be composed of one second block 40 connected to each of the second connecting portion 60.

In addition, as shown in FIGS. 4 and 5, the first block 30 connected to the first connection bar 50 includes two second blocks 40 supporting both sides, and the second connection bar. Two first blocks 30 supporting both sides of the second block 40 connected to the 60 may be configured.

In addition, as shown in FIG. 7, one second block 40 is supported on one side of the first block 30 connected to the first connection bar 50, and the second connection bar 60 ) Can be fixed to only the second block 40, and vice versa, only one first block 30 connected to the first connector 50 is fixed and connected to the second connector 60 One first block 30 may be supported on the side of the second block 40.

In addition, a reinforcement pipe 80 may be further provided on the first connection bar 50 and the second connection bar 60. As shown in FIG. 6, a pipe of high strength material may be coupled to the outer surface of the bar of the first connection bar 50.

This is to prevent the roof (L) and the like from being deformed by external force when fixed through the roof (L). In particular, deformation of the roof L occurs in the process of fastening the first connection bar 60, to prevent this.

In addition, the upper end of the first connecting bar 50 may be positioned in the convex portion of the uneven shape of the roof panel 12. In addition, the upper frame 90 is provided on the upper surface of the iron portion. When the upper frame 90 is fixed by the first connecting bar 50, the shape of the roof panel 12 is prevented from being deformed by the pressure of the bolt or nut of the first connecting bar 50. Plays a role for.

The upper frame 90 may be variously configured for the above-described functions, and as shown in FIG. 2, the upper frame 90 may be configured in a C-shape like the roof frame 14, The plate portion 92 constituting the body of the frame, and the first side of the plate portion 92 bent at a right angle to one side with respect to the plate portion 92, and the other side of the plate portion 92 are the It may be configured to include a second bent portion 96 bent in the same direction as the first bent portion 94.

That is, the first bent portion 94 and the second bent portion 96 of the upper frame 90 are located at the main portion of the roof panel 12, so that the force by the first connecting bar 50 is the roof. It is possible to make it spread evenly over all parts of the panel 12 without being concentrated on a part.

Hereinafter, the operation of the solar structure support assembly according to the present invention will be described in detail.

The first frame 10 is fixed to the H beam 16 of the roof. When fixing to the H beam 16, etc., the first frame 10 is shown in FIG. 2, so that the first frame 10 spans the H beam 16, and the two second connection bars 60 Can be fixed.

Blocks 30 and 40 are installed inside the roof frame 14. Multiple blocks 30 and 40 may be configured as needed. 4 and 5, two second blocks 40 may be installed on both sides of the first block 30 to which the first connection bar 50 is fixed.

The blocks 30 and 40 are inserted horizontally between the blocks 30 and 40 between the gap between the first bent portion 14b and the second bent portion 14c of the roof frame 14, and then the block ( 30, 40) vertically so that the blocks (30, 40) are engaged with the first bent portion (14b) and the second bent portion (14c) inside the roof frame (14) so as not to be discharged to the outside.

Then, the intermediate bar 70 is inserted to pass through the second through holes 34 and 44 of each of the blocks 30 and 40 to fix them.

In addition, the second connection bar 60 is fixed to the second block 40 and the first connection bar 50 is fixed to the first block 30 through the first frame 20 so that the first block ( 30) is to be fixed to the lower side of the roof frame 14 and the second block 40 to the upper side of the roof frame 14.

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

Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims It should be interpreted that any altered or modified form derived from the equivalent concept is included in the scope of the present invention.

10: roof 12: roof panel
14: Roof frame 16: H gym
20: 1st frame 30: 1st block
40: second block 50: first connection bar
60: second connection bar 70: middle bar
80: reinforcement pipe 90: upper frame

Claims (5)

Plate roof panels;
A cross-section of a C-shaped bar frame supported under the roof panel;
In the roof portion that is provided below the roof frame to form a body of the house;
A first frame having a bar shape provided under the H-beam;
A first block slidable along the inside of the roof frame;
A second block slidable along the inside of the roof frame;
A first connection bar formed in a bar shape, one end penetrating through the roof panel, and the other end penetrating through one side wall of the roof frame and one side wall of the first block;
It is formed in a bar shape, one end penetrates the first frame, the second connecting bar is fixed through the side wall and the second block of the roof frame; And
And a bar-shaped intermediate bar fixed through the side surfaces of the first block and the second block. According to claim 1,
One end of the connection bar is a solar structure support assembly, characterized in that located on the iron portion of the uneven portion of the upper surface of the roof panel. According to claim 2,
The upper surface of the iron portion of the uneven portion of the upper surface of the roof panel is further provided with a C-shaped top frame, and one end of the first connecting bar is fixed to the upper frame through the top of the solar structure. Support assembly. According to claim 1,
The first connection bar and the second connection bar is provided with a plurality, the first block and the second block is a solar structure support assembly, characterized in that comprises a plurality. According to claim 1,
Solar structure support assembly, characterized in that the outer surface of the first connection bar is further provided with a reinforcement pipe formed in a cylindrical shape to supplement the strength of the first connection bar.

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