KR102502923B1 - Solar panel mounting device for structures that improves the support for wind pressure through a sliding connection method. - Google Patents

Abstract

The solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention relates to a solar panel mounting device in which a solar panel is coupled to a structure for installing a solar panel on the ground, particularly It relates to a solar panel mounting device for a structure that improves bearing capacity against wind pressure by a sliding fastening method. In the solar panel mounting device of a structure composed of a support and a solar panel mounting device to configure a solar panel array , A first fixed rail fastened to the upper end of the solar panel in a sliding manner, a second fixed rail fastened to the lower end of the solar panel in a sliding manner, and combining the first fixed rail and the second fixed rail with the structure It includes a fixed frame, and the first fixed rail or the second fixed rail is made of a main body portion and a body cover fastened at an upper portion of the main body portion to form a sliding groove, and the first fixed rail or the second fixed rail The technical feature is to include a pressurizing bolt for pressurizing the solar panel, and it is a sliding method to improve the bonding force between the solar panel and the solar panel mounting device to prevent the solar panel from being damaged by strong winds It is effective, relatively easy to assemble, convenient to maintain, provides a relatively high binding force with a surface pressure method, and has the effect of shortening the construction period by providing it to the construction site of a solar power facility in a provisionally assembled state.

Description

Solar panel mounting device for structures that improves the support for wind pressure through a sliding connection method.}

The present invention relates to a solar panel mounting device installed on a structure for installing a solar panel on the ground and to which a solar panel is coupled, and in particular, a solar panel mounting device for a structure that improves bearing capacity against wind pressure by a sliding fastening method. It is about.

'Solar power generation' is a method of producing electricity using a solar panel, and power generation is achieved by using a discharge effect that converts solar energy (sunlight) into electrical energy through the solar panel.

In order to reduce carbon dioxide and air pollutants emitted from thermal power generation, many countries are providing support in various ways while compulsory for a certain amount of renewable energy, including photovoltaic power generation, by law.

Compared to thermal power generation, photovoltaic power generation has the advantage of being an environmentally friendly power generation method in that it does not emit air pollutants.

In addition, photovoltaic power generation has the advantage of having relatively low maintenance costs due to relatively low maintenance factors.

In addition, photovoltaic power generation has a significantly safer effect than conventional power generation methods. In the case of thermal power generation or nuclear power generation, there is a risk such as an explosion, and hydroelectric power generation or wind power generation is always exposed to the risk of accidents due to large structures due to the need for large structures.

In addition, photovoltaic power generation has the advantage of having relatively few spatial restrictions. Conventionally, traditional power generation has many restrictions and resistance during installation due to hazards or air pollutant emissions, while photovoltaic power generation has few site restrictions, making it easy to scale down and correct solar power generation facilities, and it is easy to install in various situations or places. There are possible advantages.

Recently, due to the increase in power generation efficiency of solar panels and the low cost of auxiliary equipment, generation costs similar to those of traditional power generation methods are required or relatively low.

On the other hand, while having the above advantages, solar power generation has a problem of toxic substances such as heavy metals being discharged during the disposal process of solar panels that have reached the replacement time, and it is necessary to install facilities for solar power generation on slopes in forests with good lighting. Due to the installation, the problem of forest damage is being caused.

In addition, as solar panels are continuously installed in a plate shape in a wide area, problems such as being vulnerable to wind pressure due to strong winds such as typhoons have been presented.

Looking at the above photovoltaic power generation facility, as shown in (a) of the drawing showing an example of a solar panel and a solar panel fixing device in FIG. 1, the solar panel 1 and the structure 2 It is included, and it consists of auxiliary facilities including connection board, inverter, distribution board, etc.

The solar panel 1 electrically connects a plurality of cells 11 in a generally rectangular plate shape, protects the cells 11 by positioning them in the middle, forms a front part to transmit sunlight, and external frame 12 ends with

The solar panel 1 as above is installed by the structure 2 as shown in FIG. 1(b).

It consists of a support 21 vertically coupling and fixing the structure to the ground, etc., and a solar panel holding device 22 coupled to the solar panel 1 by combining the support 21.

Such a structure (2) is a fixed structure (2-1) that does not change direction in the state in which the solar panel (1) is coupled according to the shape and structure of the structure and a variable-inclination structure (2-2 that can change the inclination) ) and a tracked structure 2-3 capable of changing direction in various directions according to the position of the sun.

The solar panel mounting device 22 in which the solar panel 1 is installed has a structure in which metal beams are arranged in a lattice form and mutually fastened, and the outer frame 12 and the bracket of the solar panel 1 Combined using a light or combined with a coupling bar formed on the back of the solar panel (1).

In this way, the structure 2 composed of the support 21 and the solar panel mounting device 22 is usually structural loads including self-weight, loading load, snow load, wind load, etc. It is manufactured in a safe structure against vibration and shock, but it is frequently damaged by excessive wind pressure acting due to strong wind.

That is, as shown in the case of damage to the photovoltaic power plant due to wind pressure in FIG. 2, the structure 2 is easily damaged by wind pressure due to the low binding force of the solar panel 1 and the solar panel mounting device 22. Collapsing, or when the solar panel (1) is separated from the structure (2) and damaged occurs frequently.

Therefore, there is a demand for a solar panel holding device 22 of a new form and fastening method that provides a relatively strong bearing force against wind pressure.

As a prior art, Application No. 10-2017-0004016, the title of the invention "a photovoltaic array having a structure corresponding to natural disasters" has been disclosed.

The prior art relates to a photovoltaic array having a structure to respond to natural disasters, and more particularly, by tracking the movement of the sun to perform photovoltaic power generation, thereby improving photovoltaic power generation efficiency, strong winds, It was invented to increase safety by preventing damage to the photovoltaic array in natural disasters such as earthquakes and heavy snow. a solar array 10; a driving frame 20 fixedly mounted at the lower center of the reinforcing bar 12 to allow the photovoltaic array 10 to rotate left and right, and having a shaft connecting plate 21 formed at one end; A shaft fixing plate 31 hinged to be rotatably forward and backward on the upper side is provided on one side, and a pair of front pillars 34 are hinged on both sides of the lower side and have moving screw grooves 35 on the bottom. a front elevating member 30; A driving part is mounted on one surface of the shaft fixing plate 31 of the front lifting member 30, and the ball joint part J including the driving shaft is coupled to the shaft connecting plate 21 of the driving frame 20 to form the driving frame ( 20) and a rotational power unit 40 that rotates left and right; A pair of ball joint parts (J) are rotatably mounted at the rear of the driving frame (20), hinged at both sides of the lower end of the ball joint part (J), and have moving screw grooves (52) on the bottom surface. The rear elevating member 50 including the rear pillar 51 of; The movable screw 62 having spiral grooves in opposite directions is coupled to the movable screw grooves 35 and 52 of the front pillar 34 and the rear pillar 51, respectively, and the power of the driving unit provided on one side A safety lift 60 that operates the pair of front pillars 34 and rear pillars 51 to open or close while the moving screw 62 rotates forward or backward; A light sensor for detecting the moving direction of the sun, an anemometer for detecting wind strength, a weight sensor for detecting snowfall, and a vibration sensor for detecting vibration are provided. A control unit 70 for operating the rotational power unit 40 and the safety elevator unit 60 by comparison with the numerical values is included and configured.

The present invention was devised to solve the problems of the prior art as described above, and the combination of the solar panel and the solar panel mounting device is made in a sliding manner to improve the bonding force between the solar panel and the solar panel mounting device. It is an object of the present invention to provide a solar panel mounting device for structures capable of preventing panels from being damaged by strong winds.

In addition, an object of the present invention is to provide a solar panel mounting device for a structure having a structure that is relatively easy to assemble and convenient to maintain while providing relatively high robustness compared to conventional solar panel mounting devices.

In addition, an object of the present invention is to provide a solar panel mounting device for structures that prevents excessive force from acting on a specific point that provides a relatively high binding force in a surface pressing method rather than a point pressing method.

Other objects of the present invention can be understood through the characteristics of the present invention, can be more clearly known through the embodiments of the present invention, and can be realized by means and combinations shown in the claims.

In order to achieve the problem to be solved by the present invention as described above, the present invention has the following technical features.

In the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention, in the solar panel mounting device of a structure composed of a support and a solar panel mounting device to configure a solar panel array, A first fixed rail fastened to the upper end of the solar panel in a sliding manner; a second fixed rail coupled to the lower end of the solar panel in a sliding manner; And a fixed frame coupled to the first fixed rail and the second fixed rail and the structure; including, wherein the first fixed rail or the second fixed rail is fastened between the body portion and the upper portion of the body portion to form a sliding groove. It is made of a main body cover to form, and the first fixed rail or the second fixed rail includes a pressing bolt for pressurizing the solar panel; as a technical feature.

The fixed frame of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention is combined with a structure according to any one of the functions of a fixed, variable or tracking type support according to the function of the structure made of a structure; as a technical feature.

The solar panel mounting device for structures that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention is inserted between the solar panels, fixed by the first fixed rail and the second fixed rail, and has a plurality of ventilation holes. Ventilation spacer having; as a technical feature to further include.

The ventilation spacer of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention is made of a metal material and manufactured by a casting method through a mold; as a technical feature.

The solar panel mounting device for structures that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention supports the solar panel in contact with the rear surface of the solar panel fixed by the first fixed rail and the second fixed rail, , Solar panel support coupled and fixed by fastening means through the ventilation holes of the ventilation spacer;

In the solar panel mounting device for structures that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention, the main body part and the main body cover form protrusions and grooves on mutually contacting surfaces, and after inserting and coupling, the fastening means inserts and connects the state. What is maintained; as a technical feature.

In the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention, the first fixed rail and the second fixed rail form a clasp at a portion in contact with the fixing frame, and at the clasp portion It is a technical feature that the fixed frame and the first fixed rail and the second fixed rail are fastened by fastening means.

The fastening jaw of the solar panel mounting device for structures that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention is made of a groove shape into which the end of the fixed frame is inserted, and the end of the inserted fixed frame and the end of the fastening end What is fastened by; as a technical feature.

The present invention, through means for solving the above problems, by improving the bonding force between the solar panel and the solar panel mounting device by sliding the combination of the solar panel and the solar panel mounting device, the solar panel is damaged by strong winds. It has the effect of preventing breakage.

In addition, the present invention has the effect of having a structure that is relatively easy to assemble and convenient to maintain while providing relatively high robustness compared to conventional solar panel mounting devices.

In addition, the present invention has an effect of preventing excessive force from acting on a specific point by providing a relatively high binding force in a surface pressing method rather than a point pressing method.

Furthermore, the present invention is provided to the construction site of a photovoltaic power generation facility in a provisionally assembled state and has an effect of shortening the construction period.

Other effects of the present invention can be understood through the characteristics of the present invention, can be more clearly seen through the examples of the present invention, and can be exhibited by means and combinations shown in the claims.

1 is a view showing an example of a solar panel and a solar panel fixing device;
2 is a case of damage to solar power generation facilities due to wind pressure, etc.
3 is a view showing a solar installation example including a solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention;
4 is a view for explaining the configuration of a solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention;
5 is a view for explaining the first fixed rail and the second fixed rail of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention;
6 is a view for explaining the case where the second fixing rail of the solar panel mounting device for structures improving the bearing capacity against wind pressure by the sliding fastening method of the present invention is composed of a body portion and a body cover;
7 is a view for explaining the ventilation spacer of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention;
8 is a view for explaining the solar panel support of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention;
9 is a view for explaining a coupling method between the first and second fixed rails and the fixed frame of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention;
10 is a view for explaining another advantage of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed description of the present invention which follows refers to the accompanying drawings which illustrate, by way of example, specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable any person skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention with respect to one embodiment. Also, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description set forth below is not to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with all equivalents as claimed by those claims. Like reference numbers in the drawings indicate the same or similar function throughout the various aspects.

3, as shown in the drawing showing a solar installation case including a solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention, the solar panel mounting device 100 according to the present invention As shown in FIG. 3, in forming a solar array by fixing a plurality of solar panels 1, as a means for connecting the solar panels 1 and the support 21 installed on the ground. used

That is, the solar panel holding device 100 according to the present invention is combined with a fixed support as shown in FIG. 3 to form a fixed structure 2, or combined with a variable support with an adjustable inclination It can form a structure, and furthermore, it can become a tracked structure by combining with a tracked support that is driven in conjunction with a system capable of tracking along the sun.

The fixed support, variable support, and tracking support are typical supports used in photovoltaic facilities and are not limited to any specific type of support, and the solar panel mounting device 100 according to the present invention is combined with the structure It can be a support that can achieve, but in the present invention, it is described based on a fixed support.

When the solar panel fixing device 100 according to the present invention is described in detail through an embodiment, FIG. 4 to explain the configuration of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention As shown in the drawing for, the first fixed rail 110, the second fixed rail 120, the fixed frame 130 as a basic configuration, the ventilation spacer 140 and the solar panel support 150 are further can include

Therefore, the solar panel mounting device 110 according to the present invention is characterized in that the solar panel 1 is installed in a sliding manner.

The first fixed rail 110 is as shown in the drawing for explaining the first fixed rail and the second fixed rail of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention in FIG. As such, it has a sliding groove 111 formed in the longitudinal direction for fastening to the upper end of the solar panel 1 in a sliding manner, and the second fixed rail 120 also, as shown in FIG. 5, It has a sliding groove 121 formed in the longitudinal direction for fastening with the lower end of the panel 1 in a sliding manner.

That is, the plate-shaped solar panel 1 having a predetermined thickness is installed while being inserted into the sliding groove 111 of the first fixed rail 110 and the sliding groove 121 of the second fixed rail 120.

At this time, the first fixed rail 110 or the second fixed rail 120 is the second fixed rail of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention shown in FIG. As shown in the drawing for explaining the case of the main body cover, the main body in which the second fixed rail 120 is fastened to the main body 122 and the upper part of the main body 122 to form the sliding groove 121 It can be formed as a cover 123 .

At this time, it is preferable that the body portion 122 and the body cover 123 can be easily and accurately coupled to each other by the protrusion 123-1 and the groove 122-1.

As shown in FIG. 6, a protrusion 123-1 is formed on the body cover 123, and a groove 122-1 corresponding to the protrusion 123-1 is formed on the body portion 122. As the protrusion 123-1 is inserted into the groove 122-1 and the position is fixed, the body cover 123 is placed in the correct position on the body part 122.

At this time, it is preferable that the body portion 122 and the body cover 123 are maintained in an inserted-coupled state by the bolt 124 and the fastening means.

In this way, both the first fixed rail 110 and the second fixed rail 120 are made of the body portion 122 and the body cover 123, or as shown in FIG. 6, the first fixed rail 110 Alternatively, if one of the second fixed rails 120 is made up of the body portion 122 and the body cover 123, replacement of the solar panel 1 installed in the future is required, some solar panels of the solar panel array. It is for replacing (1), and after replacing the solar panel 1 by separating the body cover 123 of the second fixed rail 120 to which the solar panel 1 to be replaced belongs, the separation The replacement work of the solar panel 1 may be completed by reassembling the main body cover 123.

At this time, as shown in FIG. 5, the first fixed rail 110 to the second fixed rail 120 include the pressure bolt 111, the first fixed rail 110 and the second fixed rail 120 ) to directly press the solar panel 1 inserted in the sliding manner to fix the solar panel 1 inserted in the sliding manner.

As shown in FIG. 5, the pressure bolt 111 is coupled to a position moving in the vertical direction with respect to the sliding groove 111 of the first fixed rail 110, and as shown in FIG. , In the case of the body portion 122 and the body cover 123, a pressing bolt is formed in the body cover 123 and can be coupled to a position moving in a vertical direction with respect to the sliding groove 121.

The first fixed rail 110 and the second fixed rail 120 are made of an aluminum alloy material, may be formed by an injection method, and preferably have a length of 5 to 6 m.

The fixed frame 130 combines the first fixed rail 110 and the second fixed rail 120 to form an overall appearance, and the first fixed rail 110 and the second fixed rail 120 have a constant inclination angle. make it possible to achieve

The fixing frame 120 may have various shapes for coupling with the support of a structure installed on the ground, and the material may be formed by welding or coupling each pipe made of stainless metal through a fastening means.

On the other hand, the coupling (assembly) method of the first fixed rail 110 and the second fixed rail 120 and the fixed frame 130 is for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention in FIG. 9 As shown in the drawing for explaining the coupling method between the first fixed rail and the second fixed rail of the solar panel mounting device and the fixed frame, the first fixed rail 110 and the second fixed rail 120 Forms the fastening jaws 110-1 and 120-1 at portions in contact with the fixing frame 130, and fixes the fixing frame 130 and the first fixing at the portions of the fastening jaws 110-1 and 120-1. It is preferable that the rail 110 and the second fixed rail 120 are fastened by fastening means 110-2 and 120-2 such as bolts, nuts, and washers.

On the other hand, the clamping jaws 110-1 and 120-1 can have various shapes that can come into contact with the fixing frame 130 in the form of a square column other than the shape shown in FIG. 9.

Such binding jaws 110-1 and 120-1 are intended to provide easy binding and relatively high binding force with the fixing frame 130, and have a groove shape into which the square columnar end of the fixing frame 130 is inserted. can also be made with

The ventilation spacer 140 is a solar panel according to the present invention, as shown in the drawing for explaining the ventilation spacer of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention in FIG. In the mounting device 100, it is inserted between the solar panels 1, fixed by the first fixed rail and the second fixed rail, and has a plurality of ventilation holes 141.

The ventilation spacer 140 serves to connect the first fixed rail 110 and the second fixed rail 120, and also serves to reduce the wind pressure while the wind passes through the ventilation hole 141 when wind pressure is generated. .

Such ventilation spacer 140 is preferably made of a metal material and manufactured by a casting method through a mold.

In this way, when the ventilation spacer 140 is manufactured by casting, relatively high hardness and tensile strength can be provided.

On the other hand, as shown in FIG. 7, the ventilation hole 141 is preferably formed in a direction perpendicular to the longitudinal direction of the ventilation spacer 140, but may be formed in the longitudinal direction of the ventilation spacer 140.

The solar panel support 150 is, as shown in the drawing for explaining the solar panel support of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention in FIG. 8, the first fixed It serves to support the solar panel 1 in contact with the rear surface of the solar panel 1 fixed by the rail 110 and the second fixed rail 120 .

As shown in FIG. 8, the solar panel support 150 is a fastening means 151 such as bolts, nuts, and washers through the ventilation hole 141 of the ventilation spacer 140 using a square pipe. It is preferable to be bonded and fixed.

The solar panel mounting device 100 according to the present invention as described above has another advantage of being able to install on-site in a state in which the solar panel 1 is temporarily assembled in advance when constructing facilities for photovoltaic power generation.

10 As shown in (a) of the drawing for explaining another advantage of the solar panel mounting device for a structure that improves the bearing capacity against wind pressure by the sliding fastening method of the present invention, the first fixed rail 110 and the first fixed rail 110 After arranging a plurality of photovoltaic panels 1 in a sliding manner between 2 fixed rails 120, they are fixed to each other by pressing bolts 112 so that they can be temporarily assembled, and additionally the ventilation spacer 140 and There is an advantage that even the solar panel support 150 can be temporarily assembled.

In this way, it is provided to the photovoltaic installation site in a provisionally assembled state, and there is an advantage in that the installation time of the facility for photovoltaic power generation can be significantly reduced.

Furthermore, the fixing frame 130 may also be assembled in advance in the temporarily assembled state as shown in (a) of FIG. 10 and provided to the photovoltaic installation site.

In the above, the present invention has been described based on the preferred embodiments, but the technical spirit of the present invention is not limited thereto, and modifications or changes can be made within the scope described in the claims. Those skilled in the art to which the present invention belongs is obvious, and such modifications or alterations will fall within the scope of the appended claims.

1: solar panel
2: Structures
2-1: Fixed structure
2-2: Inclined structure
2-3: Tracking type structure
11: cell
12: external frame
21: support
22: Solar panel mounting device
100: Solar panel mounting device according to the present invention
110: first fixed rail
110-1: sticky jaw
110-2: fastening means
111: sliding groove
112: pressurization bolt
120: second fixed rail
120-1: sticky jaw
120-2: fastening means
122: main body
122-1: home
123: body cover
123-1: projection
121: sliding groove
130: fixed frame
140: ventilation spacer
141: ventilation hole
150: solar panel support
151: fastening means

Claims (8)

In the solar panel mounting device of a structure composed of a support and a solar panel mounting device to configure a solar panel array,
A first fixed rail coupled to the upper end of the solar panel in a sliding manner, a second fixed rail coupled to the lower end of the solar panel in a sliding manner, and the first fixed rail and the second fixed rail coupled to the structure It includes a fixed frame; wherein the first fixed rail or the second fixed rail is made of a main body portion and a main body cover fastened at an upper portion of the main body portion to form a sliding groove, and the first fixed rail or the second fixed rail The fixed rail includes a pressure bolt for pressurizing the solar panel,
A ventilation spacer inserted between the solar panels, fixed by the first fixed rail and the second fixed rail, and having a plurality of ventilation holes;
The first fixing rail and the second fixing rail form a fixing jaw at a portion in contact with the fixing frame, and the fixing frame and the first fixing rail and the second fixing rail are fastened by a fastening means at the fixing joint portion, The binding jaw is made of a groove shape into which the end of the fixing frame is inserted, and is fastened to the end of the inserted fixing frame by a fastening means; a structure that improves the bearing capacity against wind pressure by a sliding fastening method, characterized in that For solar panel mounting device. The method of claim 1, wherein the fixed frame
It consists of a structure coupled to a structure according to any one of the functions of a fixed, variable or tracking support according to the function of the structure; a solar panel for a structure that improves the bearing capacity against wind pressure by a sliding fastening method characterized by stand device. delete The method of claim 1, wherein the ventilation spacer
Made of a metal material and manufactured by a casting method through a mold; solar panel mounting device for a structure that improves the bearing capacity against wind pressure by a sliding fastening method, characterized in that. According to claim 1,
A solar panel support supporting the solar panel in contact with the rear surface of the solar panel fixed by the first fixed rail and the second fixed rail and coupled and fixed by a fastening means through the ventilation hole of the ventilation spacer; further included. Solar panel mounting device for structures that improve the bearing capacity against wind pressure by sliding fastening method, characterized in that for doing. According to claim 1,
The main body part and the main body cover form protrusions and grooves on the mutually contacting surfaces, and after insertion and coupling, the insertion and coupling state is maintained by the fastening means; Photovoltaic panel mounting device. delete delete

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