KR102188607B1 - Fixing apparatus for solar panels - Google Patents

Abstract

The present invention is a solar panel fixing device that can be arranged at a required angle and the angle can be changed, and is disposed at the top of a post disposed on the ground and includes a first rotation hole. , A first bracket body in which first to third unit angle adjustment holes and first stopper holes are formed; A second rotation hole disposed under the solar power generation panel and connected to the first rotation hole of the first bracket body through a rotation shaft, and a second rotation hole selectively connected to any one of the first to third unit angle adjustment holes. A second bracket body having a fourth to sixth unit angle adjustment hole and a second stopper hole connected to the first stopper hole; A fixing pin inserted into the second angle adjusting hole selected from the first angle adjusting hole selected from among the plurality of first angle adjusting holes and the second angle adjusting hole selected from the plurality of second angle adjusting holes; And a stopper bolt inserted into the first stopper hole and the second stopper hole to limit rotation of the second bracket body.

Description

Fixing apparatus for solar panels {Fixing apparatus for solar panels}

The present invention relates to a solar panel fixing device, and in more detail, the solar panel can be arranged at a predetermined angle, and thereafter, the solar panel fixing capable of easily changing the arrangement angle of the solar panel according to the needs of the user It relates to the device.

Recently, the construction of eco-friendly power generation facilities using solar power, wind power, and tidal power, which are clean energy sources that do not cause environmental pollution problems while replacing fossil fuels, is gradually increasing.

Among these power generation facilities, photovoltaic power generation devices that generate electricity by arranging solar cells that convert sunlight into electrical energy can further increase the amount of power generated in a small scale that can generate electricity enough to generate hot water for daily use by one household. It is being installed on a large scale so that it can be expanded.

In order to convert solar energy into heat or electricity, a light collecting plate is required. Here, the light collecting plate is a concept including all of a plate-shaped panel for absorbing sunlight, such as a solar heat collecting panel that obtains thermal energy from sunlight or a solar power generation panel that obtains electric energy from sunlight.

1 is a view showing an example of a conventional solar panel fixing device.

Referring to FIG. 1, a conventional solar panel fixing device 1 includes a plurality of posts 2 that support the solar panel apart from the ground and one end is fixed to the installation surface.

It can be seen that the angle of the photovoltaic power generation panel is set by differently setting the heights of the posts 2 disposed before and after the photovoltaic module fixing device 1 as described above.

In order to improve the solar power generation efficiency, it is necessary to adjust the surface of the photovoltaic power panel and the incident angle of sunlight as close to the vertical as possible.

To this end, a solar tracking method capable of increasing light collecting efficiency by changing the angle of the light collecting plate has been disclosed.

A typical solar tracking system takes a method of directly driving a solar tracker connected to a heat collecting plate.

The solar tracking system requires a motor that changes the angle of the photovoltaic power generation panel, a reducer, primary and secondary worm gears, etc., so it is expensive, and due to the frequent driving of the motor to track the sun, the motor inside the device , Reducer, primary and secondary worm gears, etc., and, in the end, there is a problem in that the above-described parts of the solar tracker have to be frequently replaced.

In order to solve the above problems, Korean Patent Application Publication No. 2016-0139626'Manual Angle Variable Solar Power Generation Device' has been disclosed.

In the above-described prior art, it is configured to adjust the angle of the solar panel using a rotating part formed in a semicircle shape.

However, the above-described technique requires the work of matching the hole on the rotating part and the hole on the post when adjusting the angle, but there is a problem that the work is difficult due to the high load of the solar panel.

The present invention is to solve the above problems, and arrange a connection bracket capable of supporting the photovoltaic power panel at a predetermined angle and changing the support angle as necessary on the upper end of the support supporting the photovoltaic power panel from the bottom. It is an object of the present invention to provide a solar panel fixing device that can easily set the angle of the solar panel.

In order to achieve the above object, the present invention is a solar panel fixing device that can be arranged at a required angle and the angle can be changed, to the upper end of the post disposed on the ground. A first bracket body disposed and having a first rotation hole, a first to third unit angle adjustment hole, and a first stopper hole; A second rotation hole disposed under the solar power generation panel and connected to the first rotation hole of the first bracket body through a rotation shaft, and a second rotation hole selectively connected to any one of the first to third unit angle adjustment holes. A second bracket body having a fourth to sixth unit angle adjustment hole and a second stopper hole connected to the first stopper hole; A fixing pin inserted into the second angle adjusting hole selected from the first angle adjusting hole selected from among the plurality of first angle adjusting holes and the second angle adjusting hole selected from the plurality of second angle adjusting holes; And a stopper bolt inserted into the first stopper hole and the second stopper hole to limit rotation of the second bracket body.

It may further include a plurality of connection supports protruding from the lower portion of the first bracket body and connected to the support.

The connection support may be in the form of a rod having a predetermined length and having a connection hole connected to the support bolt at an end thereof.

The first and second unit angle adjustment holes may be formed in a circular shape adjacent to each other at the same distance as the first rotation hole.

The third unit angle adjustment hole,

As an ellipse formed adjacent to the first or second unit angle adjustment hole, a long axis may pass through the center of the first rotation hole.

The first angle adjustment hole may have an oval shape disposed on a center line passing through the first rotation hole.

One end of the third unit angle adjustment hole is disposed to be spaced apart from the first rotation hole by a separation distance equal to a separation distance between the first rotation hole and the first unit angle adjustment hole, and the other end of the third unit angle adjustment hole is It may be disposed toward the first rotation hole.

The fourth to sixth unit angle adjustment holes are on a straight line crossing at a predetermined angle with a line passing through the center of the second rotation hole and the fourth unit angle adjustment hole, at a predetermined interval from the outside to the inside of the second rotation bracket. Can be placed.

A separation distance between the fourth unit angle adjustment hole and the second rotation hole may be the same as a separation distance between the first and second unit angle adjustment holes and the first rotation hole.

A separation distance between the fifth unit angle adjustment hole and the second rotation hole may be the same as a separation distance between the middle portion of the third unit angle adjustment hole and the first rotation hole.

A separation distance between the sixth unit angle adjustment hole and the second rotation hole may be the same as a separation distance between one end of the third unit angle adjustment hole and the first rotation hole.

The first stopper hole has an arc shape having a certain circumferential distance, and may be disposed to be spaced apart from the first rotation hole by a certain distance.

The second stopper hole may be circular and may be spaced apart from the second rotation hole by a predetermined distance.

The stopper bolt may limit the rotation angle of the second bracket body to 0 to 30 degrees.

The present invention as described above, by arranging a connection bracket that can support the solar power panel at a predetermined angle and can change the support angle as necessary on the upper end of the support supporting the solar power panel from the bottom of the solar panel. Angle setting can be easily performed.

1 is a view showing an example of a conventional solar panel fixing device.
2 is a view showing an example of the configuration of the solar panel fixing device according to the present invention.
3 is a detailed view of portion A of FIG. 2.
4 is a view showing an example of the configuration of the first bracket body used in the present invention.
5 is a view showing an example of the configuration of a second bracket body used in the present invention.
6 to 15 are views showing the use of a solar panel fixing device according to an embodiment of the present invention.

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

FIG. 2 is a view showing an example of a configuration of a solar panel fixing device according to the present invention, and FIG. 3 is a detailed view of portion A of FIG. 2. In addition, FIG. 4 is a view showing an example of a configuration of a first bracket body used in the present invention, and FIG. 5 is a view showing an example of a configuration of a second bracket body used in the present invention.

2 and 3, a solar panel fixing device 100 according to an embodiment of the present invention includes a first bracket body 110 and a second bracket body 130.

The first bracket body 110 and the second bracket body 130 are connected to each other by selectively inserting fixing pins into a plurality of unit angle adjustment holes, respectively, so that the solar panel is set at a predetermined angle, and the set angle Is maintained.

Here, the solar panel 1 may be disposed and supported on a predetermined panel support plate 102.

Referring to FIG. 4, the first bracket body 110 is in the form of a plate having a predetermined thickness, and is disposed on the upper end of the post 104 disposed on the ground for the arrangement of the solar panel 1.

Here, the holding 104 may be formed in various forms according to the needs of the user.

That is, as shown in FIG. 2, the two pillars may cross each other at a certain angle. In addition, it may be in the form of a pillar disposed vertically on the ground. The post 104 is not limited to the example shown in the drawing as long as it can support the solar panel 1 and may be formed in various forms.

In addition, in order to facilitate connection with the first bracket body 110 to be described later, the posts 104 may be manufactured using a profile or a square beam providing a space inside.

A bolt hole for connection with the connection support 112 to be described later may be formed on the end side of the post 104.

Although a plurality of posts 104 may be disposed from one lower side of the panel support plate 102 to the other side for stable support of the solar panel 1, it will be described here assuming that they are disposed on both sides of the panel support plate 102. To

The first bracket body 110 is disposed at the upper end of the post 104.

The first bracket body 110 may have a plate shape in a semicircle shape having a predetermined size.

The lower portion of the first bracket body 110 may be formed in a flat shape corresponding to the upper shape of the post 104.

When the post 104 is in a form in which two pillars intersect at a certain angle as shown in FIG. 2, the lower part of the first bracket body 110 is a form in which the two planes intersect to correspond to the intersection angle of the pillars. It is preferable to be.

In addition, after being inserted into the lower portion of the first bracket body 110 into the inner side of the post 104, a plurality of connection supporters 112 coupled to the post 104 protrude.

The connection support 112 is made of a rod shape having a predetermined length. In addition, a connection hole 114 having a predetermined diameter may be formed at an end of the connection support 112.

The connection hole 114 may be aligned with the bolt hole formed at the end of the post 104 and then connected by a bolt, so that the arrangement state of the first bracket body 110 is maintained.

A first rotation hole 122, first to third unit angle adjustment holes 124A, 124B, 124C, and a first stopper hole 126 are formed on the first bracket body 110.

The first rotation hole 122 is formed in the center of the first bracket body 110 with a predetermined diameter. The first rotation hole 122 is connected to the second rotation hole 132 of the second bracket body 130 to be described later, and may be used as a rotation center axis of the second bracket body 130.

The first to third unit angle adjustment holes 124A, 124B and 124C are formed on the first bracket body 110.

The first to third unit angle adjustment holes 124A, 124B, 124C are selectively connected to the fourth to sixth unit angle adjustment holes 134A, 134B, 134C of the second bracket body 130 to be described later, You can set the arrangement angle of the light panel.

The first to third unit angle adjustment holes 124A, 124B, 124C may be formed adjacent to each other. In this case, the first to third unit angle adjustment holes 124A, 124B, and 124C may be formed at predetermined angular intervals based on the first rotation hole 122.

The first and second unit angle adjustment holes 124A and 124B are circular having a predetermined diameter and are disposed at a position spaced apart from the first rotation hole 122 by a predetermined distance. The first rotation hole 122 and the first and second unit angle adjustment holes 124A and 124B each have the same separation distance.

The first and second unit angle adjustment holes 124A and 124B have a predetermined angular interval based on the first rotation hole 122.

The third unit angle adjustment hole 124C may be formed in an elliptical shape having a predetermined long axis length. In this case, the third unit angle adjustment hole 124C is disposed such that the long axis passes through the center of the first rotation hole 122.

One end of the third unit angle adjustment hole 124C is disposed adjacent to the second unit angle adjustment hole 124B. Here, a separation distance between one end of the third unit angle adjustment hole 124C and the first rotation hole 122 is the same as the separation distance between the first rotation hole 122 and the second unit angle adjustment hole 124B.

The other end of the third unit angle adjustment hole 124C is disposed toward the first rotation hole 122.

The first stopper hole 126 is formed in a curved shape having a predetermined circumferential distance on the outer peripheral side of the first bracket body 110 spaced apart from the first rotation hole 122 by a predetermined distance.

The first stopper hole 126 is connected to the second stopper hole 136 of the second bracket body 130 to be described later by a stopper bolt 150.

With reference to FIG. 5, the configuration of the second bracket body 130 will be described.

The second bracket body 130 is formed in a polygonal plate shape having a predetermined size and shape.

The second bracket body 130 is connected to the first bracket body 110 to set the arrangement angle of the solar panel 1.

First, one end of the second bracket body 130 is fixed to both sides of the solar panel 1, respectively. In this embodiment, it may be fixed to the solar panel 1 through a bolt stopper hole 131 formed at one end of the second bracket body 130.

A second rotation hole 132, fourth to sixth unit angle adjustment holes 134A, 134B and 134C, and a second stopper hole 136 may be formed on the second bracket body 130.

The second rotation hole 132 is connected to the first rotation hole 122 to allow the second bracket body 130 to rotate with respect to the first bracket body 110. The second rotation hole 132 may be bolted to the first rotation hole 122.

The second angle adjustment hole 134 is formed in plural on the second bracket body 130.

The fourth to sixth unit angle adjustment holes 134A, 134B, 134C are selectively connected to the first to third unit angle adjustment holes 124A, 124B, 124C, and the first bracket body 110 and the second bracket body The connection angle of 130 can be set.

The fourth to sixth unit angle adjustment holes 134A, 134B, and 134C are circular having a predetermined diameter and are disposed on the second bracket body 130 from the outside to the inside of the second bracket body 130 in a straight line.

At this time, the line on which the fourth to sixth unit angle adjustment holes 134A, 134B, 134C are arranged is a line connecting the center of the second rotation hole 132 and the center of the fourth unit angle adjustment hole 134A and a predetermined angle Cross with

The fourth unit angle adjustment hole 134A is spaced apart from the second rotation hole 132 by a predetermined distance. In this case, the separation distance between the fourth unit angle adjustment hole 134A and the second rotation hole 132 may be the same as the separation distance between the first unit angle adjustment hole 124A and the first rotation hole 122.

The fifth unit angle adjustment hole 134B is spaced apart from the second rotation hole 132 by a predetermined distance. In this case, the separation distance between the fifth unit angle adjustment hole 134B and the second rotation hole 132 corresponds to a distance from the first rotation hole 122 to the middle portion of the third unit angle adjustment hole 124C.

In addition, the sixth unit angle adjustment hole 134C is spaced apart from the second rotation hole 132 by a predetermined distance. At this time, the separation distance between the sixth unit angle adjustment hole 134C and the second rotation hole 132 is between the first rotation hole 122 and the third unit angle adjustment hole 124C close to the first rotation hole 122. Corresponds to the distance to the other end.

The connection between the first bracket body 110 and the second bracket body 130 will be described later.

The second stopper hole 136 is connected to the first stopper hole 126 through a stopper bolt 150 to be described later.

The second stopper hole 136 is a circular shape having a predetermined diameter, and is formed at a position spaced apart from the second rotation hole 132 by a predetermined distance. In this case, the separation distance between the second stopper hole 136 and the second rotation hole 132 corresponds to the separation distance between the first stopper hole 126 and the first rotation hole 122.

The fixing pin 140 is formed in a rod shape having a predetermined length and diameter.

The fixing pin 140 matches any one selected from the first to third unit angle adjustment holes 124A, 124B, 124C and any one selected from the fourth to sixth unit angle adjustment holes 134A, 134B and 134C. It is inserted into the matched unit angle adjustment hole in the state that it is matched, so that the matched state is maintained.

Accordingly, the angular state of the solar panel 1 may be maintained by the insertion of the fixing pin 140.

The stopper bolt 150 is inserted into the first stopper hole 126 through the second stopper hole 136. When the second bracket body 130 rotates based on the second rotation hole 132, the stopper bolt 150 is caught on both ends of the first stopper hole 126 and the rotation angle of the second bracket body 130 is Be limited to a certain range.

In this embodiment, the rotation angle of the second bracket body 130 may be limited to 0 to 30°.

6 to 15 are diagrams showing the use of the solar panel fixing device according to an embodiment of the present invention, showing that the solar panel 1 is set and maintained at a predetermined angle.

6 shows that the angle of the solar panel is set and maintained horizontally.

7 is a detailed view of part B of FIG. 6.

Referring to FIG. 7, the fourth unit angle adjustment hole 134A and the first unit angle adjustment hole of the first fixing bracket 110 are aligned, and the fixing pin 140 is the fourth unit angle adjustment hole 134A. When inserted into the first unit angle adjusting hole through ), the angle of the solar panel may be set horizontally.

8 shows that the angle of the solar panel is set to be inclined by 15 degrees and maintained.

9 is a detailed view of part C of FIG. 8.

Referring to FIG. 9, a fourth unit angle adjustment hole 134A and a second unit angle adjustment hole of the first fixing bracket 110 are aligned, and a predetermined fixing pin 140 is a fourth unit angle adjustment hole. When inserted into the second unit angle adjustment hole through 134A, the angle of the solar panel may be set to be inclined by 15 degrees.

10 shows that the angle of the solar panel is set to be inclined by 20 degrees and maintained.

11 is a detailed view of portion D of FIG. 10.

Referring to FIG. 11, the sixth unit angle adjustment hole 134C coincides with one end of the third unit angle adjustment hole of the first fixing bracket 110, that is, an end close to the first rotation hole 122, and When the fixing pin 140 of is inserted into one end of the third unit angle adjustment hole through the sixth unit angle adjustment hole 134C, the angle of the solar panel may be set to be inclined by 20 degrees.

12 shows that the angle of the solar panel is set to be inclined by 25 degrees and maintained.

13 is a detailed view of part E of FIG. 12.

Referring to FIG. 13, the fifth unit angle adjustment hole 134B coincides with the middle portion of the third unit angle adjustment hole of the first fixing bracket 110, and the predetermined fixing pin 140 is a fifth unit angle. When inserted into the middle of the third unit angle adjustment hole through the adjustment hole 134B, the angle of the solar panel may be set to be inclined by 25 degrees.

14 shows that the angle of the solar panel is set to be inclined by 30 degrees and maintained.

15 is a detailed view of part F of FIG. 14.

Referring to FIG. 15, the fourth unit angle adjustment hole 134A is in a state that matches the other end of the third unit angle adjustment hole of the first fixing bracket 110, and a predetermined fixing pin 140 adjusts the fourth unit angle. When inserted into the other end of the third unit angle adjustment hole through the hole 134A, the angle of the solar panel may be set to be inclined by 30 degrees.

When setting the angle of the solar panel as described above, the stopper bolts 150 inserted through the second stopper hole 136 are caught at both ends of the first stopper hole 126, and the angle of the solar panel is 0 degrees to 30 degrees. Try to be limited within the range.

In this embodiment, a solar panel tilt state of horizontal, 15 degrees, 20 degrees, 25 degrees, and 30 degrees is obtained by the combination of the first angle adjustment hole 124 and the second angle adjustment hole 134, but the first angle adjustment According to changes in the shape, formation position, and number of formations of the hole 124 and the second angle adjustment hole 134, the inclined state of the solar panel may vary in various ways.

In addition, after releasing the fixing pin inserted in the first angle adjustment hole 124 and the second angle adjustment hole 134, the first bracket body 110 and the second bracket body 130 are rotated at a predetermined angle. By changing the combination of the first angle adjusting hole 124 and the second angle adjusting hole 134 and inserting the fixing pin again, the angle of the solar panel 1 can be changed.

In the present invention, by arranging a connection bracket capable of supporting the photovoltaic power panel at a predetermined angle and changing the support angle as necessary, on the top of the post supporting the photovoltaic power panel from the bottom, the angle setting of the solar panel is set. It can be done easily.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those of ordinary skill in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of the present invention should be determined by the technical spirit of the appended claims.

1: solar panel 100: solar panel fixing device
110: first bracket body 112: connection support
114: connection hole 112: first rotation hole
124: first angle adjustment hole 126: first stopper hole
130: second bracket body 132: second rotation hole
134: second angle adjustment hole 136: second stopper hole
140: fixing pin

Claims (13)

As a solar panel fixing device that can arrange the solar power panel at a required angle and allows the angle to be changed,
A first rotation hole disposed at the top of a post disposed on the ground, a first unit angle adjustment hole formed in a circular shape adjacent to each other at the same distance as the first rotation hole, a second unit angle adjustment hole, and an extension line of the long axis As an ellipse passing through the center of the first rotation hole, a first angle adjustment hole including a third unit angle adjustment hole formed adjacent to the first or second unit angle adjustment hole and an arc shape having a constant circumferential distance A first bracket body having a first stopper hole disposed spaced apart from the first rotation hole by a predetermined distance;
A second rotation hole disposed under the solar power generation panel and connected to the first rotation hole of the first bracket body through a rotation shaft, and a second rotation hole selectively connected to any one of the first to third unit angle adjustment holes. A second angle adjustment hole including 4 to 6 unit angle adjustment holes and a second stopper hole disposed in a circular shape and spaced apart from the second rotation hole by a predetermined distance and connected to the first stopper hole are formed, and the second A second bracket body disposed at regular intervals from outside to inside on a straight line crossing a line passing through the center of the rotation hole and the fourth unit angle adjustment hole at a predetermined angle;
Inserted into any selected one of the first to third unit angle adjustment holes included in the first angle adjustment hole through any one selected from the fourth to sixth unit angle adjustment holes included in the second angle adjustment hole Fixing pins;
A stopper bolt inserted into the first stopper hole and the second stopper hole to limit rotation of the second bracket body;
A plurality of connection supports protruding from the lower portion of the first bracket body in the form of a rod having a predetermined length and having a connection hole connected to the support bolt at an end thereof;
Including,
One end of the third unit angle adjustment hole,
It is arranged to be spaced apart from the first rotation hole by a separation distance equal to the separation distance between the first rotation hole and the first unit angle adjustment hole,
The other end of the third unit angle adjustment hole is disposed toward the first rotation hole,
The distance between the fourth unit angle adjustment hole and the second rotation hole is,
It is the same as the separation distance between the first and second unit angle adjustment holes and the first rotation hole,
A separation distance between the fifth unit angle adjustment hole and the second rotation hole,
It is the same as a separation distance between the middle portion of the third unit angle adjustment hole and the first rotation hole,
The distance between the sixth unit angle adjustment hole and the second rotation hole is,
It is equal to the distance between the other end of the third unit angle adjustment hole and the first rotation hole,
The stopper bolt is inserted into the first stopper hole and the second stopper hole to limit the rotation angle of the second bracket body to 0 to 30 degrees,
When the fixing pin is inserted into one end of the third unit angle adjustment hole through the sixth unit angle adjustment hole, the angle of the solar panel is set to be inclined by 20 degrees,
When the fixing pin is inserted into the middle portion of the third unit angle adjustment hole through the fifth unit angle adjustment hole, the angle of the solar panel is set to be inclined by 25 degrees,
When the fixing pin is inserted into the other end of the third unit angle adjustment hole through the fourth unit angle adjustment hole, the solar panel fixing device is set to be inclined at an angle of 30 degrees. delete delete delete delete delete delete delete delete delete delete delete delete

Images