KR200457202Y1 - Installation structure for solar power generator - Google Patents

Abstract

The solar light collecting plate connection structure according to the present invention is a light collecting plate support portion installed on the lower surface of the light collecting plate to support the solar light collecting plate; A support station fixed to one side of the light collecting plate support to support the light collecting plate support; Upper connecting means provided between the support and the light collecting plate support such that the support supports the light collecting plate support; A pedestal provided between the support zone and the ground to support the support zone; And a lower connection means provided between the pedestal and the pedestal so that the pedestal supports the pedestal, the installation process is simple and durability is improved.

Description

Installation structure for solar power generator

The present invention relates to a light collecting plate installation structure for photovoltaic power generation, and more particularly, to a solar light collecting plate installation structure for improving the convenience and durability of the installation by forming a skeleton constituting the light collecting plate installation structure to be easily assembled at the construction site will be.

In order to solve problems such as global warming and depletion of fossil fuels, efforts have been made to make electric energy such as solar heat, wind power, tidal power, wave power, and geothermal energy, and commercialization is being actively carried out beyond the R & D stage.

In particular, sunlight has been attracting the most attention because it is relatively easy to obtain compared to other natural forces and there are few places restrictions, and it is commercialized in various forms in a wide range of regions.

1 is a side view showing a known solar light collecting plate installation structure. For photovoltaic power generation, as shown in FIG. 1, a light collecting plate 1 or a solar cell in which solar light is incident and converted into electric energy is used to be installed at a predetermined angle with the ground 100. Known photovoltaic light collecting plate installation structure is fixed to the bottom portion of the mounting portion 110, the mounting portion 110 to mount the light collecting plate 1, the light collecting plate 1 to maintain a specific angle with the ground 100 Support leg 120 to support 110, the rib 121 fixed to the lower portion of the support leg 120 for the firmness of the installation structure and the auxiliary support for connecting the support leg 120 and the mounting portion 110 130 and each component is connected by welding.

In this case, when the solar light collecting plate 1 is installed using welding, it is necessary to remove a material already used and install a new material in order to incorrectly install or change the design during installation, resulting in waste of resources and inefficient and inefficient problems. In addition, since welding is performed by skilled workers, the installation cost increases and there is a problem in that the installation time is long because there is a need to weld in advance in the factory. In addition, welding cracks, corrosion resistance of welds, weld deformations, etc. occur during welding, and maintenance and repair due to corrosion of welds are required continuously, resulting in difficulty in management and excessive management costs.

Therefore, the present invention was created in order to solve the above problems, and the skeleton of the light collecting plate installation structure is formed to be easily assembled at the construction site to improve the convenience and durability of the installation, and to reduce the installation cost and after-sales cost The purpose is to provide a light collecting plate installation structure for photovoltaic power generation.

An object of the present invention as described above is a light collecting plate support portion installed on the lower surface of the light collecting plate to support the solar light collecting plate; A support station fixed to one side of the light collecting plate support to support the light collecting plate support; Upper connecting means provided between the support and the light collecting plate support such that the support supports the light collecting plate support; A pedestal provided between the support zone and the ground to support the support zone; And a lower connecting means provided between the pedestal and the pedestal so that the pedestal supports the pedestal, the light collecting plate connection structure for solar power generation.

The light collecting plate support may include: a plurality of light collecting plate pedestals installed to contact the bottom surface of the light collecting plate to support the light collecting plate; And an upper support installed in contact with one side of the light collecting plate pedestal and supporting the light collecting plate pedestal.

And the light collecting plate pedestal is characterized in that the cross-section is C shape or c shape.

And the upper support is characterized in that the cross section ㅁ shape.

At least one of the light collecting plate pedestal and the upper support may be formed by cutting a metal rod.

And the light collecting plate pedestal and the upper support is characterized in that the mutual fixing by the fastening means.

And the upper connecting means is characterized in that for connecting the upper support and the support.

And the upper connecting means is characterized in that it is fixed by the fastening means in contact with one side of the upper support.

And the support is characterized in that the hollow metal bar is formed by cutting.

And the upper connection means is characterized in that the rectangle formed with a specific thickness and one side of the hypotenuse.

And the upper connecting means is characterized in that fixed to at least one of the light collecting plate support and the support.

And the pedestal is characterized by having a plate shape having a plurality of holes and having a specific thickness.

And the lower connecting means is characterized in that the rectangular shape having a specific thickness is formed by bending the B-shaped.

And the lower connecting means is characterized in that fixed to the at least one of the support and the support means.

And the lower connecting means is characterized in that two or four are arranged symmetrically around the main zone.

And the fastening means is characterized in that it comprises a bolt.

According to the present invention, since the skeleton constituting the solar light collecting plate installation structure is cut to a certain length in the factory and can be assembled at the construction site without undergoing a process such as welding, the installation time is shortened and the installation is easy.

In addition, it is eco-friendly because it is assembled using fastening means such as bolts, not welding, and anyone can assemble using a tool such as an electric screwdriver, thereby reducing installation costs.

In the after-care, it is assembled using fastening means such as bolts, so repair is easy and the corrosion resistance of the connection is improved, so the durability is strong, thus reducing the after-care costs.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description of the present invention serve to further understand the technical spirit of the present invention, the present invention is limited only to those described in such drawings. It should not be interpreted.
1 is a side view of a light collecting plate installation structure for photovoltaic power generation;
2 is a side view of a light collecting plate installation structure for photovoltaic power generation according to a preferred embodiment of the present invention;
Figure 3 is an enlarged perspective view of a portion including a lower connection means of the light collecting plate installation structure for photovoltaic power generation according to an embodiment of the present invention,
FIG. 4 is an exploded perspective view of FIG. 3,
5 is an exploded perspective view of a portion including an upper connection means of a light collecting plate installation structure for photovoltaic power generation according to a preferred embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment so that those skilled in the art can easily implement the present invention. However, in describing in detail the operating principle of the preferred embodiment of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

<Configuration>

2 is a side view of a light collecting plate installation structure for photovoltaic power generation according to a preferred embodiment of the present invention. The solar light collecting plate installation structure according to the preferred embodiment of the present invention consists of a light collecting plate support 10, a support 20, an upper connecting means 30, a pedestal 40, and a lower connecting means 50. .

The light collecting plate support part 10 fixes and supports the light collecting plate 1 in contact with at least the lower surface of the light collecting plate 1 so that sunlight is incident on the at least one solar light collecting plate 1. The light collecting plate support 10 includes a light collecting plate pedestal 11 and an upper support 13. The light collecting plate pedestal 11 contacts the bottom surface of the light collecting plate 1 and may be fastened by the light collecting plate 1 and fastening means such as bolts and rivets. The light collecting plate pedestal 11 is preferably formed by cutting a section steel whose cross section is C-shaped or c-shaped. In order to fix the light collecting plate 1 firmly, at least two light collecting plate pedestals 11 are preferably used for one light collecting plate 1. In addition, the light collecting plate pedestal 11 is preferably symmetrically arranged on the lower surface of the light collecting plate 1 in order to fix the light collecting plate 1 in a balanced manner. The upper support 13 is fastened and fastened by fastening means every contact with the light collecting plate pedestal 11 across one side of the plurality of light collecting plate pedestals 11. For example, the upper support 13 crosses the light collecting plate pedestal 11 at right angles to the light collecting plate pedestal 11 and is fastened by bolts 73. In this case, one side of the plurality of light collecting plates 1 may be installed so that one upper support 13 is connected across and arranged in one plane, and one upper support 13 is installed at one side of each light collecting plate 1. May be For example, a contact surface with the light collecting plate pedestal 11 across the light collecting plate pedestal 11 fixed to the lower surface of each light collecting plate 11 so that one upper support 13 is arranged so that three light collecting plate 1 is arranged in one plane. Each bolt may be fastened to each other. The upper support 13 is installed in this way is preferably a plurality of parallel to each other along the horizontal length of the light collecting plate (1). The upper support 13 may be formed by cutting a metal rod having a cross-sectional shape ㅁ. The light collecting plate pedestal 11 and the upper support 13 are provided with a plurality of holes that can accommodate the fastening means.

The support zone 20 is fixed to one side of the light collecting plate support 10 to support the light collecting plate support 10. In addition, at least two support zones 20 are fixed to one side of the light collecting plate support 10 by varying the length so that the light collecting plate 1 supported by the light collecting plate support 10 forms a specific angle with the ground 100. For example, the support 20 is installed at right angles to the ground 100 so as to support one side of the upper support 13, and the upper connecting means 30 is provided between the upper support 13 and. At this time, a portion of the upper connecting means 30 is fixed by the fastening means in contact with one side of the upper support 13, the remaining portion of the upper connecting means 30 in the distal end of the supporting base 20 in contact with the upper support 13 It is contacted and fixed by the fastening means. Wherein the fastening means includes a bolt 70, rivets and the like. At least two of the supporting zones 20 are fixed to each upper support 13 at predetermined intervals, and one is long and the other is formed short so that the light collecting plate 1 forms a specific angle with the ground 100. do. The support zone 20 may be formed by cutting a hollow metal rod, and may have, for example, a cross-section. The support zone 20 also has a plurality of holes for accommodating the fastening means.

The upper connecting means 30 connects the light collecting plate support 10 and the support 20 as described above. The upper connection means 30 is a plate having a specific thickness and width and may be made of a metal material. In addition, the upper connection means 30 may be formed in a rectangle having at least one hypotenuse and the angle of the hypotenuse is preferably the same as the angle of the upper support 13 and the ground 100.

The pedestal 40 supports the support base 20 in contact with the distal end portion of the base where the support ground 20 is connected to the light collecting plate support 10. In other words, the support base 20 is erected at right angles to the ground 100 on the pedestal 40. Pedestal 40 is a rectangular plate having a specific thickness and width and may be made of a metallic material. The pedestal 40 has a plurality of holes for receiving the fastening means. The pedestal 40 is connected to the support base 20 by the lower connecting means 50 and is fixed to the lower connecting means 50 by the fastening means. The fastening means includes bolts 71, rivets, and the like. In addition, a bolt 72 inserted into the ground 100 to securely support the support 20 is accommodated in a hole provided in the pedestal 40, wherein a base pad (between the pedestal 40 and the ground 100) is provided. 60) is located. The base pad 60 may be formed by filling concrete between the pedestal 40 and the ground 100 with the bolt 72 as a skeleton, and is preferably formed wider than the pedestal 40. This secures the support zone 20 to the ground.

The lower connecting means 50 connects the support zone 20 and the pedestal 40. The lower connection means 50 is plate-shaped bent in a b-shaped with a specific thickness and width and is made of a metallic material. The lower connection means 50 is fixed to the fastening means in contact with the lower end side of one support zone 20, the fastening means includes a bolt 70, rivets and the like. And two or four lower connection means 50 are symmetrically arranged around the support zone 20 and connected. At the same time, the lower connection means 50 is fixed to the fastening means in contact with a portion of the pedestal 40, the fastening means includes a bolt 71, rivets and the like. In order to be connected in this way, the lower connection means 50 is installed so that the concave portion of the B shape faces outward.

3 is an enlarged perspective view of a portion including a lower connection means 50 of the solar light collecting plate installation structure according to a preferred embodiment of the present invention and Figure 4 is an exploded perspective view of FIG. 3 and 4 will be described in more detail the connection structure of the lower support 20.

As shown in FIG. 3, the pedestal 40 is positioned above the base pad 60, and the support base 20 is erected at right angles thereon. Pedestal 40 and the support zone 20 is made of the above-described configuration. In this case, two lower connection means 50 having the above-described configuration are disposed symmetrically with the support base 20 interposed therebetween to connect the lower end of the pedestal 40 and the support zone 20. As shown, the lower connecting means 50 is provided with three holes arranged in parallel with each other in the part in contact with the support zone 20, and two holes are provided in a line in the part in contact with the pedestal 40. The support zone 20 and the pedestal 40 in contact with the lower connecting means 50 formed as described above are formed with holes for accommodating the fastening means at positions corresponding to the holes. For example, as shown in Figure 4, the lower connecting means 50 in the support 20 to accommodate the bolt 70 through the lower connecting means 50 in contact with one side of the support 20. Holes are formed corresponding to the positions of the holes provided in). Similarly, a hole is formed in the pedestal 40 corresponding to the position of the hole provided in the lower connection means 50 so as to accommodate the bolt 71 passing through the lower connection means 50 in contact with the pedestal 40. The base pad 60 made of concrete or the like is formed on the bottom surface of the pedestal 40 configured to be firmly fixed to the ground 100 as shown in FIG. 3. At this time, the base pad 60 made of concrete includes four bolts 72 received in the holes provided at each corner of the pedestal 40 and fixed to the ground 100. In other words, as shown in FIG. 4, the bolts 72 penetrate the ground 100 to be positioned at positions corresponding to the four holes provided at the respective corners of the pedestal 40, and four bolts are inserted into the bolts 72. Is installed to rise above the ground 100 and is received in a corresponding hole in the pedestal 40.

5 is an exploded perspective view of a portion including an upper connection means of a light collecting plate installation structure for photovoltaic power generation according to a preferred embodiment of the present invention. The upper support 13, the support 20, and the upper connecting means 30 is made of the above-described configuration and will be described in more detail the structure that is connected and fixed to each other. When the upper connecting means 30 is a rectangle including one hypotenuse as shown, the portion including the hypotenuse is fastened by bolts 70 in contact with the upper support 13 so that the hypotenuse and the upper support 13 are in parallel with each other. The remaining part of the connecting means 30 is fastened with bolts 70 in contact with the distal end of the support zone 20. The upper connecting means 30 is arranged side by side with the side facing the hypotenuse and the two holes and formed at a predetermined distance from the hypotenuse so as to accommodate the bolt 70 passing through the upper support 13 and arranged side by side with the hypotenuse. It has two holes formed to receive the bolts 70 through the zone 20. In addition, it is preferable that two upper connecting means 30 are used to face the support 20 to fix the upper support 13 and the support 20 securely. And the end of the support base 20 in contact with the upper support 13 when the support base 20 is installed to be perpendicular to the ground 100, the angle of the cutting surface is formed with the ground 100, the upper support 13 May be formed to approximate an angle formed with the ground 100.

<Installation Method>

Hereinafter will be described in detail with respect to the installation method of the solar collector plate mounting structure according to a preferred embodiment of the present invention. The solar collector plate mounting structure has the above-described configuration.

First, in the place where the light collecting plate 1 is to be installed, on the ground 100 to which the support zone 20 is to be fixed, as shown in FIG. 4, about 5 cm at a position corresponding to a hole formed at four corners of the pedestal 40. Drill a hole in depth. Then, half of the bolt 72 is inserted and the hole is filled with silicon or the like. Then, the nut 72 is inserted into a portion where the bolt 72 is in contact with the ground 100 so that the bolt 72 is firmly fixed to the ground 100. In addition, one more nut is inserted into the bolt 72 to be spaced apart from the ground 100 by a predetermined interval. In this way, the nut is screwed into the four bolts 72.

 Next, two lower connecting means 50 on the pedestal 40 are fixed with bolts 71 so that the portions recessed into the letter N are symmetrically facing outwards. As such, the four bolts 72 fixed to the ground 100 are installed in the corner holes of the pedestal 40 as described above. At this time, the pedestal 40 is supported by a nut inserted into the bolt 72 spaced apart from the ground 100 by a predetermined interval, and an empty space is formed between the pedestal 40 and the ground 100. At this time, it is preferable to adjust the position of the nut so that the base 40 is leveled. When the base pad 60 is formed by filling the space between the pedestal 40 and the ground 100 installed in this way, the support zone 20 is firmly fixed to the ground 100. Therefore, the solar light collecting plate installation structure according to the present invention is provided. Is firmly fixed to the ground (100).

When the pedestal 40 is fixed in this way, it is located between two lower connection means 50 fastened to the pedestal 40 as shown in Figs. It is fixed to the lower connecting means 50 with a bolt (70). Then, as shown in FIG. 5, two upper connecting means 30 are fixed to bolts 70 on the opposite end side of the ground 100 of the support zone 20. At this time, the bolt 70 is accommodated in two holes formed in a line in parallel with the side facing the hypotenuse side of the four sides of the upper connecting means (30). As shown in FIG. 5, the upper support 13 is positioned between the two fixed upper connecting means 50 so that the bolt 70 is formed in a line formed in parallel with the hypotenuse of the upper connecting means 30. Insert and fix. In this way, the three rows of support posts 20 of short length are installed in the front row, and the length of the support posts 20 of the long row is installed in line with the support zone 20 installed in the front row. And one upper support 13 connecting the short support 20 and the long support 20 is connected to the support 20 as shown in FIG. Then, the light collecting plate pedestal 11 fixed to the bolts in contact with the bottom surface of the light collecting plate 1 is installed on the three upper supports 13 installed in this way.

As described above, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive. The scope of the present invention is shown by the utility model registration claims to be described later rather than the detailed description, and all changes or modifications derived from the meaning and scope of the utility model registration claims and equivalent concepts are included in the scope of the utility model. Should be interpreted as

1: Light collecting plate 10: Light collecting plate support
11: light collecting plate base 13: upper support
20: known zone 30: upper connecting means
40: pedestal 50: lower connection means
60: base pad 70, 71, 72, 73: bolt
100: ground 110: mounting portion
120: support leg 121: rib
130: auxiliary support

Claims (15)

A light collecting plate support part 10 installed on the bottom surface of the light collecting plate 1 to support the solar light collecting plate 1;
A support stand 20 fixed to one side of the light collecting plate support 10 so as to support the light collecting plate support 10;
Upper connecting means (30) provided between the support plate (20) and the light collecting plate support (10) so that the support plate (20) supports the light collecting plate support (10);
A pedestal 40 provided between the support zone 20 and the ground 100 so as to support the support zone 20; And
And a lower connecting means 50 provided between the pedestal 40 and the pedestal 20 so that the pedestal 40 supports the pedestal 20.
The light collecting plate support unit 10 includes a plurality of light collecting plate pedestals 11 installed to contact the lower surface of the light collecting plate 1 to support the light collecting plate 1; And an upper support 13 which is in contact with one side of the light collecting plate pedestal 11 and is supported to cross the light collecting plate pedestal 11, wherein the light collecting plate pedestal 11 and the upper support 13 are fastened to the fastening means. Being mutually fixed by
The upper connecting means 30 is connected to the upper support 13 and the support 20, is fixed by a fastening means in contact with one side of the upper support 13, fastened to the support 20 Fixed by means, the sides having a specific thickness and having a rectangular side formed with a hypotenuse corresponding to the inclination of the light collecting plate 1, arranged side by side with two holes formed at a predetermined interval away from the hypotenuse and the side facing the hypotenuse; With two holes formed,
The pedestal 40 is a plate shape having a plurality of holes and having a specific thickness,
The lower connecting means 50 is formed by bending a rectangle having a specific thickness into a B-shape, and is fixed to the support zone 20 and the pedestal 40 by fastening means, two of which are centered on the support zone 20. Is arranged symmetrically, and the three holes are arranged in parallel with each other in contact with the support zone 20, and two holes are provided in a line in the contact with the pedestal (40). Light collecting plate connection structure for photovoltaic power generation. delete The method of claim 1,
The light collecting plate pedestal 11 is a light collecting plate connection structure for solar power generation, characterized in that the cross section is formed by cutting the C-shaped or c-shaped section steel. The method of claim 1,
The upper support 13 is a solar light collecting plate connection structure, characterized in that the cross section is formed by cutting the section steel ㅁ shape. delete delete delete The method of claim 1,
The support zone 20 is a solar light collecting plate connection structure, characterized in that the hollow metal bar is formed by cutting. delete delete delete delete delete delete The method of claim 1,
The fastening means is a solar light collecting plate connecting structure, characterized in that it comprises a bolt.

Images