KR102548302B1 - Device for solar panels installation - Google Patents

Abstract

Disclosed is a solar panel installation device. According to the present invention, when solar panels are installed, they can be tilted in the east-west direction, thereby improving the separation distance between the solar panels and increasing the installation capacity of the solar panels.

Description

Solar panel installation device {DEVICE FOR SOLAR PANELS INSTALLATION}

The present invention relates to a solar panel installation device, and more particularly, when solar panels are installed, an inclined arrangement is possible in the east-west direction, thereby improving the separation distance between the solar panels and increasing the installation capacity of the solar panels It relates to a solar panel installation device.

Photovoltaic power generation is very advantageous in that it is eco-friendly without using additional energy or driving facilities, and can generate power only as much as necessary in a necessary place.

However, such photovoltaic power generation has disadvantages in that power production depends on the amount of sunlight, the installation location is limited, the initial investment cost and the unit cost of power generation are high, and a large space is required to supply the required amount of power production.

Therefore, in order to install a more effective photovoltaic device, there is a demand for a solar panel installation structure for securing a space for installing a solar panel, a shape appropriate to the space, and efficient space utilization.

However, the altitude of the sun varies depending on the season, and since the solar panels of existing power generation facilities always incline toward the south at a certain angle, it is difficult to increase the efficiency of solar power generation.

For this reason, in the management of conventional photovoltaic facilities, work is being done to change the inclination angle of the solar panel according to the season.

However, conventional photovoltaic power generation facilities have difficulties in requiring a large number of manpower and time to adjust the inclination of the solar panels.

In general, the installation structure of a solar power collecting panel includes a girder in which the solar collecting panel is located at the top, and a girder for supporting and fixing the solar collecting panel and a vertical support for supporting and fixing the girder on the bottom ( column).

1 is an exemplary view showing a solar panel installation structure according to the prior art, in which solar panels 10 and 10a concentrating sunlight are installed at an angle through a support 11.

This light collecting panel installation structure for solar power generation is a fixed structure, which is a representative type installed on the ground or on the roof of a building, and it is impossible to adjust the angle, and it is essential to check the direction to the south in order to increase power generation efficiency. Separation distance is very important.

In addition, the variable fixed structure has a problem in that maintenance costs are incurred because the angle adjustment is required for each season compared to the fixed structure.

In addition, the tracking-type structure has a problem in that the initial cost is high and the land area increases because a wide separation distance is required to avoid shadows.

For this reason, existing structures for photovoltaic power generation are mainly installed facing the south, and a separation distance between the arrays of photovoltaic collection panels is essential to avoid shade, which limits the capacity of the photovoltaic collection panels that can be installed on the solar site There is a problem that occurs.

In addition, in recent solar market trends, the use of bifacial solar modules capable of generating additional power of 10% using rear reflection is increasing.

However, existing structures in use so far are only used for single-sided power generation solar collector panels, and are used without considering the design of avoiding the shade of the structure for back reflection, so there is a problem that is not suitable for double-sided power generation.

Korean Registered Patent Publication No. 10-1847293 (Title of Invention: Solar Collecting Panel Tilt Control Device)

In order to solve this problem, the present invention is a solar panel installation device capable of improving the separation distance between solar panels and increasing the installation capacity of the solar panels by enabling inclined arrangement in the east-west direction during installation of the solar panels. intended to provide

In order to achieve the above object, one embodiment of the present invention is a solar panel installation device, wherein a plurality of solar panels 200 are arranged facing each other in the east-west direction, and the solar panels 200 are It includes a solar panel installation structure fixed to form an inclination angle of (east high west low) or east low west high (east low west high), and the solar panel installation structure includes a front end first post 110 having a certain length and a rear end first post 110' having a certain length; A plurality of posts having the same length as the front and rear first posts 110 and 110' and spaced apart from each other at regular intervals between the first post 110 at the front end and the first post 110' at the rear end. 2 posts (120); It is installed in a horizontal direction between the first posts 110 and 110' at the front and rear ends and the plurality of second posts 120, and the first posts 110 and 110' at the front and rear ends and the plurality of second posts 120 ) A plurality of girders 130 connecting so that they are fixed; The front and rear first posts 110, 110' and upper ends of the plurality of second posts 120 are connected, and the first posts 110, 110' and the plurality of second posts 120' A plurality of beams 140 connecting to have a predetermined inclination angle therebetween; and a plurality of purlins 150 installed in a horizontal direction on the upper side of the beam 140 and fastened so that the solar panel 200 is fixed to the inclined upper side of the beam 140. The rear first posts 110 and 110' are fixed by fastening the beam 140 with the front and rear first posts 110 and 110' together with the girder 130 connected to the upper end of the second post 120 adjacent thereto. A first fastening portion 110a supported so as to include a first surface fastening plate (including a first fastening portion 110a in contact with and connected to the flange plate 141 provided at the lower end of the inclined beam 140) 111), the first inclined fastening plate 112 extending from the first interview fastening plate and connected to the first posts 110 and 110' at the front and rear ends, and one end at the first posts 110 and 110' at the front and rear ends It includes a horizontal girder 130 and a first horizontal fastening plate 113 to which the other end is connected, and the second post 120 includes the front and rear first posts 110 and 110 'and the second post ( 120) and a separately connected girder 130 and a second fastening part 120a supporting the beam 140 to be fastened and fixed to the second post 120; including, the second fastening part 120a Is connected to the second face fastening plate 121 connected in contact with the other flange plate 141 provided at the lower end of the inclined beam 130, and extending from the second face fastening plate to the second post 120 It includes a second inclined fastening plate 122 and a second horizontal fastening plate 123 having one end connected to each upper end of the plurality of second posts and the other end connected to the horizontal girder 130, and the beam ( 140) is a third fastening part for supporting the plurality of beams 140 individually connected to the front and rear first posts 110 and 110 and the plurality of second posts 120 to be fastened and fixed to the auxiliary girder 131 ( 140a), and the third fastening part 140a includes a third horizontal fastening plate 141 connected to the upper end of the auxiliary girder 131, the lower end of which is fixed in the middle of the length of the girder 130, and 3 It is characterized in that it includes a third inclined fastening plate 142 extending downward at an angle obliquely from both ends of the horizontal fastening plate and connected to the upper end of the inclined beam 140.

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In addition, the solar panel installation apparatus according to the embodiment may further include a plurality of purlins installed in a horizontal direction on the upper side of the beam and fastened so that the solar panel is fixed to the upper side of the beam.

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The present invention has the advantage of increasing the installation capacity of the solar panels by minimizing the shading and separation distance between the solar panels, since the solar panels can be tilted in the east-west direction during installation.

In addition, the present invention has the advantage of reducing the number of parts of a structure for installing a solar panel and improving stability and reliability against environmental factors such as typhoons and winds by strengthening the fastening structure between parts of the structure. there is.

1 is an exemplary view showing a solar panel installation structure according to the prior art.
Figure 2 is an exemplary view showing a solar panel installation device according to an embodiment of the present invention.
Figure 3 is an exemplary view showing a side of the solar panel installation device according to the embodiment of Figure 2;
Figure 4 is an exemplary view showing the configuration of the fastening part of the solar panel installation device according to the embodiment of Figure 3;
Figure 5 is an exemplary view showing another coupling part configuration of the solar panel installation device according to the embodiment of Figure 3;
Figure 6 is an exemplary view showing another coupling part configuration of the solar panel installation device according to the embodiment of Figure 3;
Figure 7 is an exemplary view showing a solar panel installation device according to another embodiment of the present invention.
8 is an exemplary diagram showing a state in which a solar panel is disposed facing south.
Figure 9 is an exemplary view showing the east-west arrangement state of the solar panel installation device according to the present invention.

Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the present invention and accompanying drawings, but the same reference numerals in the drawings will be described on the premise that they refer to the same components.

Prior to describing specific details for the implementation of the present invention, it should be noted that configurations not directly related to the technical subject matter of the present invention are omitted within the scope of not disturbing the technical subject matter of the present invention.

In addition, the terms or words used in this specification and claims are meanings and concepts consistent with the technical idea of the invention based on the principle that the inventor can define the concept of appropriate terms to best describe his/her invention. should be interpreted as

In this specification, the expression that a certain part "includes" a certain component means that it may further include other components, rather than excluding other components.

In addition, terms such as ".. unit", ".. unit", and ".. module" refer to units that process at least one function or operation, which may be classified as hardware, software, or a combination of the two.

In addition, the term "at least one" is defined as a term including singular and plural, and even if at least one term does not exist, each component may exist in singular or plural, and may mean singular or plural. would be self-evident.

In addition, the singular or plural number of each component may be changed according to embodiments.

Hereinafter, a preferred embodiment of a solar panel installation device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is an exemplary view showing a solar panel installation device according to an embodiment of the present invention, Figure 3 is an exemplary view showing the side of the solar panel installation device according to the embodiment of Figure 2, Figure 4 is FIG. It is an exemplary view showing the configuration of the fastening part of the solar panel installation device according to the embodiment of, Figure 5 is an exemplary view showing the configuration of another fastening part of the solar panel installation device according to the embodiment of Figure 3, Figure 6 is a 3 is an exemplary view showing another configuration of the fastening part of the solar panel installation device according to the embodiment.

2 to 6, in the solar panel installation device 100 according to an embodiment of the present invention, a plurality of solar panels 200 are disposed facing each other in the east-west direction, and the solar panels 200 ) is fixed to form an inclination angle of east high west low or east low west high, and the front and rear first posts (110.110 '), the second post 120, and the girder ( 130) and the beam 140.

In addition, in the solar panel installation device 100, in a state in which the solar panels 200 are arranged in the east-west direction, the shape of the cross section in the width direction in which the solar panel 200 is installed is 'A' shape, 'V' shape It is composed of either a 'shape' shape or a 'W' shape.

The front and rear first posts 110 and 110' are composed of a plurality of members having a certain length.

In addition, the front and rear first posts 110 and 110' support the girder 130 so as to be connected to the adjacent second post 120, and the front and rear first posts 110 and 110' and the second post 120 ) It may be configured to include a first fastening portion (110a) for supporting the beam 140 to be fixed to form an inclination angle between the fastened to the upper portion of the first post 110 to be fixed.
As shown in FIG. 4, the first fastening part 110a includes a first face fastening plate 111 connected to and in contact with the flange plate 141 provided at the lower end of the inclined beam 140, and the first The first inclined fastening plate 112 extending from the face fastening plate and connected to the first posts 110 and 110' at the front and rear ends and the horizontal girder 130 having one end connected to the first posts 110 and 110' at the front and rear ends ) and a first horizontal fastening plate 113 to which the other end is connected.

The second post 120 is a plurality of members installed at a predetermined distance from the front and rear first posts 110 and 110', and is configured to have the same length as the front and rear first posts 110 and 110'. .

In addition, the second post 120 includes a girder 130 individually connected to the front end first post 110 adjacent to one side and the second post 120 adjacent to the other side, and the second post 120 A second fastening that supports the beam 140 fastened to the upper part of the second post 120 to be fixed so that an inclination angle is formed between the first posts 110 and 110' at the front and rear ends and the second posts 120 adjacent thereto. It may be configured to include a part (120a).
As shown in FIG. 5, the second fastening part 120a includes a second face fastening plate 121 connected to and in contact with another flange plate 141 provided at the lower end of the inclined beam 130, and 2 The second inclined fastening plate 122 extending from the face fastening plate and connected to the second post 120 and one end connected to each upper end of the plurality of second posts and the other end connected to the horizontal girder 130 It includes a second horizontal fastening plate 123 to be.

The girder 130 is installed in the horizontal direction between the first posts 110 and 110' at the front and rear ends and the second post 120 or between the second post 120 and the second post 121 adjacent to the line. , It may be composed of a plurality of members that connect the rear end first posts 110 and 110' and the second post 120 so that the second post 120 and the adjacent second posts 120' are fixed.

In addition, the girder 130 may further include an auxiliary girder 131 extending a certain length upward in the central portion.

At the upper end of the auxiliary girder 131, a line installed in both directions, connected to the first post 110, 110 'and the second post 120 or the second post 120 and the second post 121 adjacent to the rear end, A beam 140 may be installed.

That is, the beam 140 is installed around the auxiliary girder 131 so that the front and rear first posts 110 and 110' and the second post 120 can be configured in an 'A' shape.

The beam 140 connects the first posts 110 and 110' at the front and rear ends and the upper ends of the auxiliary girders 131, or the upper ends of the auxiliary girders 131 and the second posts 120 to connect the first posts at the front and rear ends. The posts 110 and 110' and the second post 120 are connected to have a predetermined inclination angle.

In addition, the beam 140 is a third fastening part for supporting the beam 140 individually connected to the front and rear first posts 110 and 110 'and the second post 120 to be fastened and fixed to the auxiliary girder 131 ( 140a).
As shown in FIG. 6, the third fastening part 140a includes a third horizontal fastening plate 141 connected to the upper end of the auxiliary girder 131, the lower end of which is fixed in the middle of the length of the girder 130, It includes a third inclined fastening plate 142 extending downward at an angle obliquely from both ends of the third horizontal fastening plate and connected to the upper end of the inclined beam 140.

In addition, the front and rear first posts 110 and 110', the second post 120, the adjacent second post 121, the girder 130, the auxiliary girder 131 and the beam 140 according to the present embodiment Assemblies fastened in a row constitute a first assembly module, and beams of the first and second assembly modules in a state in which a second assembly module having the same configuration as the first assembly module is spaced apart from a certain distance and arranged in the east-west direction It may be configured to further include a plurality of purlins 150 installed in the horizontal direction on the upper side of 140.

The purlin 150 is fastened so that the solar panel 200 is fixed to the upper side of the beam 140.

On the other hand, Figure 7 is an exemplary view showing a solar panel installation device according to another embodiment of the present invention.

In the embodiment according to FIG. 7, a plurality of solar panels 200 are disposed to face each other in the east-west direction, and the solar panels 200 have a high-to-east or low-to-low-to-west height. ) forms an inclination angle of

The solar panel installation device 100' according to the embodiment of FIG. 7 is installed with a plurality of first posts 110' having a certain length and spaced apart from the first posts 110' by a certain distance, A plurality of second posts 120' having the same length as the first post 110' or different lengths, and installed in a horizontal direction between the first post 110' and the second post 120', A plurality of girders 130' connecting the first post 110' and the second post 120' so as to be fixed, and connecting the upper ends of the first post 110' and the second post 120' It may be configured to include a plurality of beams 140 connected to have a predetermined inclination angle between the first post 110' and the second post 120'.

In the solar panel installation device 100' according to the embodiment of FIG. 7, the cross-sectional shape of the solar panel installation device 100' in which the solar panel 200 is disposed is a 'V' shape or a 'W' shape. It can be distinguished from the solar panel installation device 100 according to the embodiment of FIG. 2 in that it is configured to be installed in a shape.

That is, in the solar panel installation device 100' according to the embodiment of FIG. 7, the first post 110' and the second post 120' are installed in the center of the horizontal direction girder 130'. The post 110' and the beam 140' connected to the upper ends of the second post 120' are fastened so that an inclination angle is formed in the downward direction between the first post 110' and the second post 120'. It is configured so that the beam 140 can be arranged in a 'V' shape.

8 is an exemplary view showing a solar panel arrangement in the south direction, and FIG. 9 is an example view showing an east-west arrangement of the solar panel installation device according to the present invention.

As shown in FIGS. 8 and 9, comparing the solar panel 210 installed in the south-facing direction and the solar panel 200 disposed in the east-west direction, the solar panel 200 disposed in the east-west direction in FIG. By minimizing shading and separation distance, it is possible to install more than 1.5~1.7 times more in the same area of installation area.

Therefore, when the solar panels are installed, they can be tilted in the east-west direction, thereby minimizing the shade and separation distance between the solar panels, thereby increasing the installation capacity of the solar panels.

In addition, it is possible to reduce the number of parts of a structure for installing a solar panel, and it is possible to improve stability and reliability against environmental factors such as typhoons and winds by strengthening a fastening structure between parts of a structure.

As described above, although it has been described with reference to the preferred embodiments of the present invention, those skilled in the art will variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. You will understand that it can be done.

In addition, the drawing numbers described in the claims of the present invention are only described for clarity and convenience of explanation, but are not limited thereto, and in the process of describing the embodiments, the thickness of lines or the size of components shown in the drawings, etc. may be exaggerated for clarity and convenience of description.

In addition, the above-mentioned terms are terms defined in consideration of functions in the present invention, which may change according to the intention or custom of the user or operator, so the interpretation of these terms should be made based on the contents throughout this specification. .

In addition, even if it is not explicitly shown or described, a person skilled in the art to which the present invention belongs can make various modifications from the description of the present invention to the technical idea according to the present invention. Obviously, it is still within the scope of the present invention.

In addition, the above embodiments described with reference to the accompanying drawings are described for the purpose of explaining the present invention, and the scope of the present invention is not limited to these embodiments.

100, 100': Solar panel installation device
110, 110': First post at the front and rear ends
110a: first fastening part
120, 120': second post
120a: second fastening part
130, 130', : Girder
131: auxiliary girder
140, 140': Beam
140a: third fastening part
150: Purin
200: solar panel
210: Solar panel installed to the south

Claims (7)

A plurality of solar panels 200 are disposed facing each other in the east-west direction,
The solar panel 200 is fixed to form an inclination angle of east high west low or east low west high,
a front end first post 110 having a certain length and a rear end first post 110' having a certain length;
A plurality of posts having the same length as the front and rear first posts 110 and 110' and spaced apart from each other at regular intervals between the first post 110 at the front end and the first post 110' at the rear end. 2 posts (120);
It is installed in a horizontal direction between the first posts 110 and 110' at the front and rear ends and the plurality of second posts 120, and the first posts 110 and 110' at the front and rear ends and the plurality of second posts 120 ) A plurality of girders 130 connecting so that they are fixed;
The front and rear first posts 110, 110' and upper ends of the plurality of second posts 120 are connected, and the first posts 110, 110' and the plurality of second posts 120' A plurality of beams 140 connecting to have a predetermined inclination angle therebetween; and
A plurality of purlins 150 installed in the horizontal direction on the upper side of the beam 140 and fastened so that the solar panel 200 is fixed to the inclined upper side of the beam 140; includes,
The front and rear first posts 110 and 110' are coupled with the girder 130 connected to the upper end of the adjacent second post 120, and the beam 140 is fastened with the front and rear first posts 110 and 110'. Including; a first fastening part (110a) for supporting so that it is fixed;
The first fastening part 110a is connected to the flange plate 141 provided at the lower end of the inclined beam 140, and extends from the first face fastening plate 111 and the first face fastening plate to the line. , The first inclined fastening plate 112 connected to the first posts 110 and 110' at the rear end and the first end connected to the first posts 110 and 110' at the line and rear end and the other end connected to the horizontal girder 130 Including a horizontal fastening plate 113,
The second post 120 includes the front and rear first posts 110 and 110' and the girder 130 individually connected to the second post 120, and the beam 140 is coupled to the second post 120. Including; second fastening part (120a) for supporting so that it is fixed;
The second fastening part 120a extends from the second interview fastening plate 121 connected to and in contact with the other flange plate 141 provided at the lower end of the inclined beam 130, and the second interview fastening plate. The second inclined fastening plate 122 connected to the second post 120 and the second horizontal fastening plate 123 having one end connected to each upper end of the plurality of second posts and the other end connected to the horizontal girder 130 ),
The beam 140 is a third support for supporting the plurality of beams 140 individually connected to the front and rear first posts 110 and 110 and the plurality of second posts 120 to be fastened to the auxiliary girder 131 and fixed. Including a fastening portion (140a),
The third fastening part 140a is a third horizontal fastening plate 141 connected to the upper end of the auxiliary girder 131, the lower end of which is fixed in the middle of the length of the girder 130, and both ends of the third horizontal fastening plate. A solar panel installation device comprising a third inclined fastening plate 142 extending downward at an angle from the inclined beam 140 and connected to the upper end of the inclined beam 140. According to claim 1,
The solar panel installation device, characterized in that the solar panel 200 is installed in any one of 'A' shape, 'V' shape or 'W' shape. delete delete delete delete delete

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