KR20200085497A - Solar panel support device - Google Patents

Abstract

The present invention relates to a solar panel support device. More specifically, the present invention relates to a solar panel support device which is improved to enable smooth, convenient, and accurate angle and height adjustment of a solar panel support structure through minimal shape processing. Unlike a household solar panel support structure having a thickness less than or equal to 2 mm, the solar panel support structure is for power plants and thus has a thick thickness, thereby being difficult to process a shape. To this end, the solar panel support device comprises a support, a support fixture, a solar panel, and a panel fixing unit.

Description

Solar panel support device

The present invention relates to a photovoltaic panel support device, and more specifically, to a power plant, rather than a thickness of 2 mm or less, such as a small household, the thickness of the photovoltaic panel support structure, which is difficult to process because of its thick thickness, is smooth through minimal shape processing. The present invention relates to an improved solar panel support device that enables convenient and accurate angle adjustment and height adjustment.

The power generation method using solar energy uses infinite clean energy, so there is no need for additional energy or driving source, and it has the advantage of simple construction of a large-scale system at a small scale and is not affected by installation restrictions due to environmental problems. This is infinite.

For a photovoltaic power generation facility, a support frame for installing a solar panel and a prop for supporting the support frame on the ground are essential.

In general, such a photovoltaic power generation facility is fixed by fixing a plurality of props to the ground, and then installing a support frame on the upper part of the support, and mounting a solar panel on the support frame.

Conventional props have a certain length to place the solar panel at a height spaced from the ground, and a part is buried in the ground.

Such a support frame can be supported by supporting the ground by digging a site where the solar panel will be installed, inserting a lower part of the prop, and pouring concrete, or directly buried by attaching a concrete attachment to the bottom of the prop in advance.

In addition, after forming the foundation ground made of concrete in advance on the installation site, it is also possible to fix the posts using anchors or the like on the foundation ground.

As described above, the method of supporting the prop by pouring concrete has disadvantages such as digging, pouring concrete mortar, and curing, and the construction period is lengthened.

In addition, there was a problem such as extending the working period according to the weather.

In order to solve this problem, a method of coupling a post to an upper portion of the foundation pile has been studied after the foundation pile is buried in the ground.

Korean Patent Registration No. 10-0905069 discloses a technique of mounting a solar panel holder on a foundation pile after embedding a foundation pile in the ground having a predetermined length on the forest or ground and having a plurality of support wings on the outer surface of the body. It is done.

The above technique has the advantage of being able to solve the conventional problems using concrete in that it is possible to install the foundation file in the ground without making a foundation from concrete.

However, since the foundation pile buried in the ground cannot adjust the height, it is very difficult to match all the heights of adjacent cradles.

Particularly, as illustrated in FIG. 1, when the solar panel 10 is fixedly supported on the support 30 in the form of an angular pipe through the connection 20, the support 30 is an angular pipe for fixing the connection 20. In the angle 32 is welded, the C-shaped steel connecting rod 20 is bolted, and the upper end of the connecting rod 20 is installed in the solar panel 10 after the fixing bolt 22 passes through it. It will be fastened to the hole (not shown).

However, it is difficult to match the height simply by rotating the support 30 itself when the height difference occurs because the horizontality does not match depending on the floor topography, and above all, the angle 32 is already welded and maintained. At the same time, since the mounting holes formed in the solar panel 10 are also in a fixed position, it is very difficult to precisely align them with each other in the field construction.

However, the prior arts only have the technology for the overall angle or height adjustment, and in fact, the improvement of the technology is slow for the coupling structure between the connecting rod 20 and the support 30 directly fixing the solar panel 10. .

Republic of Korea Patent No. 10-0905069: Basic file of the solar module holder Republic of Korea Registered Patent No. 10-1602953: Height-adjustable photovoltaic module support device Republic of Korea Registered Patent No. 10-1200244: a connection unit for a photovoltaic module, a photovoltaic module support structure having the same, and a photovoltaic device having the same Republic of Korea Patent No. 10-1573239: Solar module support structure Republic of Korea Patent No. 10-1919834: Bracket for support structure of photovoltaic power generation

The present invention was created to solve these problems in consideration of various problems in the prior art as described above. As a small household, the thickness of the solar panel support structure, which is difficult to process, is minimal because it is thick for power plants, not less than 2 mm. The main objective is to provide an improved solar panel support device that enables smooth, convenient and accurate angle adjustment and height adjustment through shape processing.

The present invention is a means for achieving the above object, the support 100 is a holding; A support 200 that is hinged and rotatably fixed to the top of the support 100; A solar panel 300 fixedly installed at intervals from the support 200; In the solar panel support device including a panel fixing unit 400 for fixing the solar panel 300; The panel fixing unit 400 is mounted on the upper surface of the support 200, the movable panel mounting table 410; A panel fixing bracket 420 fixed to an upper surface of the panel mounting table 410; Includes; the fixing plate mounting bracket 430 for fixing the panel mounting plate 410 on the support 200, one end of the solar panel 300 and the upper surface of the panel mounting plate 410 It provides a solar panel support device characterized in that it is fitted in the space between the upper end of the panel fixing bracket 420 and fixed in an engaging form.

At this time, the panel mounting base 410 has a'∩' shaped body portion 412, and the sliding guide portions 414, which are each roundly bent outwardly from the bottom of both sides of the body portion 412, and It is made of a variable fixing hole 416 formed in a long hole shape in the longitudinal direction on the upper surface of the body portion 412; The panel fixing bracket 420 includes a'∪'-shaped bracket body portion 422, a panel hanging portion 424 vertically bent from both upper ends of the bracket body portion 422, and the bracket body. It is made of a bracket fastening hole 426 formed in the center of the bottom surface of the portion 422; After fitting the one end of the solar panel 300 in the state where the lower surface of the panel fixing bracket 420 is attached to the upper surface of the panel mounting bracket 410, the bracket fixing bolt is fixed to the bracket fastening hole 426 and the variable type fixing After passing through the hole 416 is fixed with a bracket nut; The support 200 is a sliding groove 220 formed by bending the upper body on both sides of the support main body 210 with the upper side open to have a'∪' shape, and each of the upper ends of the support main body 210 facing each other inward. ); Sliding fixing pieces 230 are provided on both sides of the panel mounting table 410, and bolt holes 232 are processed at the center of the sliding fixing pieces 230, and the sliding fixing is performed. On the lower surface of the piece 230, the upper end of the elastic spring 240 is integrally fixed, and the lower end is configured to be supported on the bottom surface of the support main body 210; The mounting bracket fixing bracket 430 includes a fitting end part 432 fitted to the sliding guide part 414, a horizontally extended horizontal surface part 434 after being bent upward from the fitting end part 432, and the horizontal surface part After being bent downward from (434), a plurality of horizontally extended upper seating portions 436 seated on the upper end of the support main body 210, and fixed formed to have a long hole shape in the longitudinal direction on the horizontal surface portion 434 Includes a hole 438; The fixing bracket 430 is also characterized in that the bracket is fastened to the bolt hole 232 of the sliding fastening piece 230 after fitting the fastening bolt to the fixing hole 438.

According to the present invention, since the thickness is thick for a power plant rather than a thin thickness like a small household, a smooth and convenient and accurate angle adjustment and height adjustment effect can be obtained through a minimum shape processing of a solar panel support structure that is difficult to process. Can.

1 is an exemplary view showing a main portion of a solar panel support structure according to the prior art.
2 is an exemplary view of a solar panel support device according to the present invention.
FIG. 3 is an exemplary view excerpted from the panel fixing unit in FIG. 2.
4 is an exemplary assembly cross-sectional view of a panel fixing unit constituting a solar panel supporting device according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Prior to the description of the present invention, the following specific structures or functional descriptions are merely exemplified for the purpose of describing the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms, It should not be construed as being limited to the embodiments described herein.

In addition, embodiments according to the concept of the present invention can be applied to various changes and may have various forms, so specific embodiments will be illustrated in the drawings and described in detail herein. However, it is not intended to limit the embodiments according to the concept of the present invention to a specific disclosure form, and it should be understood that it includes all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

As shown in FIG. 2, the solar panel support apparatus according to the present invention includes a support 100 that is a pillar.

At this time, the support 100 is not significantly different from the props disclosed in the prior arts described above.

And, at the top of the support 100, the center of the length of the support 200 having a regular pipe shape is hinged to be rotatable.

In addition, both sides of the support 200 is configured to adjust the angle inclined through the angle adjuster 100 installed on the support 100.

In this case, the angle adjuster 100 is for adjusting the main inclination angle of the support 200, and cannot be used for fine angle adjustment required when assembling the solar panel 300.

Therefore, the panel fixing unit 400 according to the present invention is required.

That is, a solar panel 300 is fixed to the upper surface of the support 200 in parallel with the support. The solar panel 300 is angle-adjusted by a panel fixing unit 400 uniquely implemented according to the present invention. Of course, it is configured to be adjustable in height, above all, in order to fix the position of the photovoltaic panel 300, the installation hole must be made on the back surface of the photovoltaic panel 300, but in the present invention, There is no need to make a mounting hole by adopting a method of holding and fixing the circumference, so it has good workability and excellent characteristics.

To this end, the present invention includes a panel fixing unit 400 as illustrated in FIGS. 3 and 4.

According to FIGS. 3 and 4, the panel fixing unit 400 constituting the present invention is used for a power plant, not a general household, and thus a frame having a much thicker thickness than a typical household having a thickness of 2 mm or less should be used.

Therefore, the frame processing is not easy, and there is a big limitation in processing into various shapes like a general household.

Accordingly, in the present invention, the solar panel 300 can be easily and easily assembled and installed only by simple and simple forming and rounding treatment, and height adjustment according to the inclination is easily configured.

That is, the panel fixing unit 400 includes a panel mounting table 410.

The panel mounting table 410 includes a body part 412 having a '412' shape, a sliding guide part 414 each roundly bent upward from the bottom of both sides of the body part 412, and the body part It consists of a variable fixing hole 416 formed in a long hole shape in the longitudinal direction on the upper surface of (412).

In addition, the panel fixing bracket 420 is fixed to the upper surface of the panel mounting table 410, more precisely, the upper surface of the main body portion 412.

In this case, the panel fixing brackets 420 include a'의' shaped bracket body portion 422, and panel hanging portions 424 vertically bent from both upper ends of the bracket body portion 422, respectively, It consists of a bracket fastening hole 426 formed in the center of the bottom surface of the bracket body portion (422).

Thus, the bracket fixing bolt (not shown) (not shown) in the state in which the lower surface of the panel fixing bracket 420 is mounted on the upper surface of the panel mounting bracket 410, the bracket fastening hole 426 and the variable fixing hole ( After passing through 416), temporarily fixed, that is, temporarily fixed with a bracket nut (not shown).

Then, one end of the solar panel 300 is fitted in the space between the upper surface of the main body portion 412 and the panel hanging portion 424 of the panel fixing bracket 420.

At this time, since the panel fixing bracket 420 is temporarily fixed, it is easy to insert to fix the solar panel 300 and it is easy to move the position.

In this state, when the fixed position of the solar panel 300 is determined, the bracket fixing bolt is tightened to fix it with a nut to fix the end portion of the solar panel 300 in a tight grip.

Therefore, there is no need to make a hole (hole) for fixing the position in the photovoltaic panel 300, so the workability is very good, there is no risk of damage to the photovoltaic panel 300, and the part being beaten is photovoltaic. Since it is the circumferential frame of the panel 300, there is no fear of damage.

Moreover, since both ends of the upper surface of the main body 412 are rounded, it is easy to insert the fitting end of the solar panel 300, and it is easy to adjust the angle by moving, and in this manner, it is continuously installed at regular intervals. It is convenient and excellent in construction workability.

On the other hand, in the present invention, the shape of the support 200 for the installation of the panel mounting base 410 is improved unlike the existing.

The improved support 200 according to the present invention is changed in shape to the support main body part 210 having an open top so as to have a'∪' in the existing angular pipe structure, and the upper ends of both sides of the support main body part 210 are inward. It has a structure in which the sliding groove 220 is formed by bending two times facing each other.

In addition, both side surfaces of the support main body 210 further include a forming portion 212 formed in a trapezoidal shape facing each other for strength reinforcement, that is, the forming portion 212 has a plurality of fastening holes. 214 is further formed to guide to be used when assembling the appliance.

In addition, a sliding fixing piece 230 is provided on both sides with the panel mounting table 410 seated therebetween, and a bolt hole 232 is processed at the center of the sliding fixing piece 230.

In addition, although the sliding fastening piece 230 is omitted in the figure, it is configured to move along the state in which both ends are fitted in the sliding groove 220, in particular, a hidden line on the lower surface of the sliding fastening piece 230. The upper end of the elastic spring 240 shown as a (dashed line) is fixed integrally and the lower end is configured to be supported on the bottom surface of the support body 210 so that it does not slip freely, but the operator applies a certain force to move it from side to side. It has a structure that can.

Through this, it is configured to improve the fixing ability while improving the fixing ability.

In this case, if the lower end of the elastic spring 240 is also fixed to a separate piece member, and this piece member is configured to be movable in a grounded state on the bottom surface of the support body 210, a more smooth assembly structure You can achieve

In addition, the fixing bracket 430 is mounted on both sides of the sliding guide portion 414 of the panel mounting table 410.

The mounting bracket fixing bracket 430 includes a fitting end portion 432 fitted to the sliding guide portion 414, a horizontally extending horizontal plane portion 434 after being bent upward from the fitting end portion 432, and the horizontal surface portion After being bent downward from (434), a plurality of horizontal extensions secure the upper seating portion (436) to be seated at the upper end of the support body portion (210), and to have a long hole shape on the horizontal surface portion (434) in its longitudinal direction. It includes a hole 438.

Thus, the mounting bracket fixing bracket 430 is inserted into the bracket fastening bolt (not shown) in the fixing hole 438 in a position as shown in the figure, and then fastened to the bolt hole 232 of the sliding fixture 230 The mounting bracket fixing bracket 430 can be fixed.

When the mounting bracket fixing bracket 430 is fixed in this way, the panel mounting bracket 410 pressed naturally by this is also fixed in position, so that even when the inclination or bending of the installation floor is not uniform, the panel mounting bracket 410 is moved up, down, left, and right. After pushing or pulling to adjust the position, simply tighten the bolt, and the fitted solar panel 300 can be fixed very easily and quickly.

In addition, conventionally, since these structures were made of galvanized steel sheets, there was also a problem of corrosion due to corrosion when plating was peeled off for a long time, but in the present invention, the use of a high corrosion-resistant steel with a combination of magnesium and aluminium was performed The problem was eliminated.

For example, the high corrosion resistance steel material according to the present invention is configured to achieve a high corrosion resistance function by using an aluminum-magnesium alloy steel material included in a range of 6-10% by weight aluminum and 0.1-1% by weight magnesium.

For this, the production of aluminum-magnesium alloy steel includes preparing an aluminum melt containing magnesium; It consists of a step of casting the aluminum molten metal into a steel material.

In addition, the aluminum molten metal is prepared by dissolving a magnesium mother alloy together with aluminum, and the composition of the alloy is the same as that of a conventional aluminum-magnesium alloy component, except that the content range of 6-10 wt% aluminum and 0.1-1 wt% magnesium. It must be maintained.

Accordingly, the present invention has been able to achieve not only work convenience but also high corrosion resistance of the structure.

100: support
200: support
300: solar panel
400: panel fixing unit

Claims (2)

Landing support 100; A support 200 that is hinged and rotatably fixed to the top of the support 100; A solar panel 300 fixedly installed at intervals from the support 200; In the solar panel support device including a panel fixing unit 400 for fixing the solar panel 300;
The panel fixing unit 400 is mounted on the upper surface of the support 200, the panel mounting table 410 to move; A panel fixing bracket 420 fixed to an upper surface of the panel mounting table 410; Includes; a surface mount fixing bracket 430 for fixing the panel mount 410 on the support 200;
One end of the solar panel 300 is fitted to the space between the upper surface of the panel mounting bracket 410 and the upper end of the panel fixing bracket 420, the solar panel support device, characterized in that fixed.
The method according to claim 1,
The panel mounting table 410 includes a body part 412 having a '412' shape, a sliding guide part 414 each roundly bent upward from the bottom of both sides of the body part 412, and the body part It consists of a variable fixing hole 416 formed in a long hole shape in the longitudinal direction on the upper surface of (412);
The panel fixing bracket 420 includes a'∪'-shaped bracket body portion 422, a panel hanging portion 424 vertically bent from both upper ends of the bracket body portion 422, and the bracket body. It is made of a bracket fastening hole 426 formed in the center of the bottom surface of the portion 422;
After fitting the one end of the solar panel 300 in the state where the lower surface of the panel fixing bracket 420 is attached to the upper surface of the panel mounting bracket 410, the bracket fixing bolt is fixed to the bracket fastening hole 426 and the variable type fixing After passing through the hole 416 is fixed with a bracket nut;
The support 200 is a sliding groove 220 formed by bending the upper body on both sides of the support main body 210 with the upper side open to have a'∪' shape, and each of the upper ends of the support main body 210 facing each other inward. ); Sliding fixing pieces 230 are provided on both sides of the panel mounting table 410, and bolt holes 232 are processed at the center of the sliding fixing pieces 230, and the sliding fixing is performed. On the lower surface of the piece 230, the upper end of the elastic spring 240 is integrally fixed, and the lower end is configured to be supported on the bottom surface of the support main body 210;
The mounting bracket fixing bracket 430 includes a fitting end portion 432 fitted to the sliding guide portion 414, a horizontally extending horizontal plane portion 434 after being bent upward from the fitting end portion 432, and the horizontal surface portion After being bent downward from (434), a plurality of horizontal extensions secure the upper seating portion (436) to be seated at the upper end of the support body portion (210), and to have a long hole shape on the horizontal surface portion (434) A hole 438;
The mounting bracket fixing bracket 430 is fitted to the bracket fastening bolt 438 in the fixing hole 438, then fastened to the bolt hole 232 of the sliding fixture 230, the solar panel support device, characterized in that fixed.

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