KR200458822Y1 - A solar cell generator located on a slope - Google Patents

Abstract

The present invention can reduce the cost of civil engineering work for flattening the slope, and is directly related to the slope variable fixed photovoltaic device for reducing natural damage because it is installed directly on the slope, a plurality of posts 10 are installed along the slope The post 10 includes an outer post 12 installed at a predetermined interval from the center post 11, and the hinge portion 22 of the upper fixing plate 20 fixed to the upper end of the post 10 is pivoting plate 30. The hinge portion 32 is rotatably fixed, and the long hole 23 is formed on both sides of the hinge portion 22 so that the adjustment bolt 24 is fixed to the bottom surface of the rotating plate 30 to maintain the angle. In the center post 11 and the outer post 12, the rectangular bar 100 on the pivoting plate 30 is rotated by the lower hinge bracket 40 and the upper hinge bracket 50 with the rotational direction of the pivoting plate 30 by 90 degrees. Is rotatably fixed in both directions, and both sides of the pivoting plate 30 of the center post 11 and the square bar 100 The angle adjusting device 60 is fixed so that the angle of the solar panel can be adjusted while being configured to adjust the installation angle according to the inclination angle of the slope.

PV, Slope, Swivel Plate, Wire, Post

Description

Fixed solar photovoltaic device for slope installation {A solar cell generator located on a slope}

The present invention relates to a fixed variable photovoltaic device for the installation of slopes, it is possible to install a photovoltaic device without cutting the slope and flattening work to reduce the cost of civil engineering work, and install a photovoltaic device on the slope The present invention relates to a fixed variable photovoltaic device for installing slopes that can reduce natural damage.

The advantages of photovoltaic power generation are that there is no pollution, it can generate as much as necessary where it is needed, and it is easy to maintain. On the other hand, the power output is dependent on the amount of sunshine, the installation site is limited, the initial investment cost and the high cost of power generation.

In particular, when installed on the inclined land should be flattened as shown in Figure 1, cut the upper part of the inclined surface (1) to form the cut portion (2), and the soil cut from the cut portion 2 again the inclined surface of the lower The flattening work to form the filling part 3 by stacking it in (1) is to be carried out. In order to make the installation surface (4) for installing the photovoltaic device, it is necessary to carry out a civil engineering work that requires a lot of cost for the flattening work on the slope, and as shown in FIG. Construction will be carried out to put (7). There is a difference between the water sale (7) between the horizontal plane (5) and the actual flat screen (6) to improve the flow of water when it rains.

However, the space to prepare for the installation of the photovoltaic device is a very large space, so even if a very small angle of the water will be a lot of height difference from the horizontal plane at the end.

 Therefore, after the planarization work, if you actually install the photovoltaic device, there was an inconvenience of having to do civil work again. That is, since it is not a complete horizontal plane as shown in Fig. 3, it is flattened stepwise from the top of the actual flat screen 6. The stepped flat screen 8 is installed with a photovoltaic device, and the next step of flattening work is to install the photovoltaic device.

Since two civil works must be done in this way, the cost is very high, and since it is installed in a terraced manner, it is not possible to install a photovoltaic device within a certain distance from the stairs because the shadow is not provided in the south facing direction. That is, there is a problem that only a small number of photovoltaic devices can be installed in the same area than when installed on the same plane.

The installation of photovoltaic devices on mountain slopes does not solve the problem of pulling down from the slope due to the weight of the mass, and making the slopes perfectly straight is very difficult on the slope and adjusting the angle of inclination of the solar panels on the slope. There was a difficulty.

The present invention is devised to solve the above problems, and an object of the present invention is to provide a fixed variable photovoltaic device for a slope installation that can be easily and firmly installed on a slope.

It is possible to reduce the enormous cost of flattened civil works by making it easy to install after ground pulp processing of trees and stones on mountain slopes.

And the purpose is to simplify the installation by configuring the rotating plate so that the angle can be easily adjusted according to the curvature of the ground.

Due to the characteristics of the inclined surface, an object standing on the inclined surface does not maintain the vertical, and there is an object to provide a configuration for preventing the phenomenon to be tilted down the slope.

The fixed variable type is installed on the slope to adjust the angle of the solar panel to be configured to receive the most sunlight.

The present invention, in the photovoltaic device is installed on the inclined land to achieve the above object, a plurality of posts are installed along the inclined surface, the post is made of the outer post is installed at a constant interval with the center post, the top of the post The hinge part of the fixed upper fixing plate is rotatably fixed to the hinge part of the rotating plate, and the long hole is formed on both sides of the hinge part, so that the adjustment bolt is fixed to the bottom surface of the rotating plate to maintain the angle, and at the center post and the outer post The square bar is fixed to the rotating plate by the lower hinge bracket and the upper hinge bracket so as to be rotatable in the direction of rotation of the rotating plate and 90 degrees, and the angle adjusting device is fixed between both sides of the rotating plate of the central post and the square bar. It is possible to adjust the angle according to the angle of inclination of the slope, while the angle can be adjusted, the rotating plate The hinge part protrudes on the bottom surface and is rotatably fixed to the hinge part protruding on the upper surface of the upper fixing plate. The lower part of the square bar has a lower hinge bracket fixed to the center and the outer end of the pivot plate at the center post and the outer post, and the upper hinge bracket rotatably fixed to the lower hinge bracket at the center post and the outer post. Fixed to the vertical plate body of the lower hinge bracket and the upper hinge bracket, each of the plurality of angle fixing holes are formed to match each other according to the rotation angle, the adjustment bolt is passed through the angle fixing hole, the angle adjusted by the angle adjusting device Are fixed, and wire fixing parts are formed in diagonal directions at upper and lower ends of the post, respectively, The wires are fixed to each other, and the wire fixing part formed at the top of the post on the top of the slope is connected to the upper foundation concrete to prevent the entire phenomenon of the photovoltaic device from being pulled out. The bracket is fixed to one side of the square bar at the top of the bar, and a plurality of grooves are formed at regular intervals on the angle adjusting bar, and the locking rods inserted into the grooves are fixed between a pair of L-shaped angles fixed to the pivoting plate, and L-shaped angles. Both ends of the U-shaped adjuster surrounding the angle adjusting bar is fixed to the end of the inclined bar, characterized in that the adjusting bolt is fastened to the center of the adjusting body so that the end of the adjusting bolt pushes the angle adjusting bar so that the locking rod is inserted into the groove. Provides a fixed variable photovoltaic device for installation.

As described above, the present invention can be easily installed after the ground pulp processing of trees and stones on mountain slopes, so that there is no need for civil engineering work for flattening, and the cost savings for such flattening civil engineering work are reduced. have.

Since the construction period is reduced because the ground is selected in an inclined state, there is no need for a separate secondary planarization work, and since the rotating plate rotates along the inclined surface, it can be easily installed regardless of the curvature of the ground.

The upper end of the inclined part post and the lower part of the inclined part are fixed with wires, and the top and upper foundation concrete of the post positioned at the top of the most inclined part are fixed with wires, thereby reducing the post-bending phenomenon caused by the solar panel load.

Referring to the configuration of the present invention in detail with reference to the accompanying drawings as follows.

The terms or words used in this specification and claims are not to be construed as being limited to the common or dictionary meanings, and the inventors can appropriately define the concept of terms in order to best explain their own design. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

The present invention relates to a photovoltaic device that is installed on a slope, the C channel 101 to which the solar panel 9 is fixed is fixed to the square bar 100 to be orthogonal, the square bar 100 is an angle adjusting device ( 60) and the lower hinge bracket 40 and the upper hinge bracket 50 can rotate the solar panel 9 at a desired angle, the lower hinge bracket 40 is fixed to the rotating plate 30, the rotating plate 30 is rotatably fixed to the upper fixing plate 20 fixed to the upper end of the post 10, the main configuration to prevent the pulling phenomenon with the wire 70 when the post 10 is installed on the slope.

A plurality of posts 10 are installed along the inclined surface of the mountain, the post 10 is composed of the outer post 12 is installed at a predetermined interval with the central post (11). The outer post 12 is installed at the bottom of the inclined surface, and then the center post 11 is installed, and the outer post 12 is installed at the top to form one unit.

The hinge portion 22 of the upper fixing plate 20 fixed to the upper end of the post 10 is rotatably fixed to the hinge portion 32 of the rotating plate 30, and the upper fixing plate 20 is the hinge portion 22. The long hole 23 is formed on both sides, and the adjustment bolt 24 is fixed to the bottom surface of the rotating plate 30 to maintain the angle.

A hinge hole 22-1 is formed in the hinge part 22, and is rotatably fixed through the hinge hole 32-1 of the hinge part 32 formed on the bottom surface of the pivoting plate 30 and a fixing bolt. . Reinforcing ribs 22-2, in which the plate body 21 and the hinge portion 22 are welded at the same time, are fixed to the hinge portion 22 of the upper fixing plate 20 to reinforce the strength, and to the bottom surface of the upper fixing plate 20. The rib is fixed and firmly fixed to the post.

In the center post 11 and the outer post 12, the square bar 100 is rotated to the pivot plate 30 by the lower hinge bracket 40 and the upper hinge bracket 50 in the rotation direction and the 90 degree direction. Is rotatably fixed. Rotating plate 30 has a plurality of long holes are formed on both sides of the plate 31 so that the lower hinge bracket 40 is fixed to one side end or the center. At this time, the lower hinge bracket 40 is fixed at the center of the central post 11, and the lower hinge bracket 40 is fixed to the end of the central post 11 at the pivoting plate 30 at the outer post 12.

The angle adjusting device 60 is fixed between both sides of the rotating plate 30 of the central post 11 and the square bar 100 so that the square bar 100 rotates on the rotating plate 30 in the rotational direction of the rotating plate 30. And rotate in the direction of 90 degrees.

The hinge portion 32 protrudes from the bottom of the rotating plate 30 to be rotatably fixed to the hinge portion 22 protruding from the upper surface of the upper fixing plate 20, and the bottom surface of the plate body 31 of the rotating plate 30. Fixing support part 33 having hemispherical grooves 33-1 on both sides is formed, and the support spherical part 24-2 of the upper end of the adjustment bolt 24 fixed to the upper fixing plate 20 is inserted and fixed to be rotatable. .

The adjustment bolt 24 has a spherical support spherical portion 24-2 formed in the head 24-1, and the support spherical portion 24-2 has a hemispherical groove 33-1 of the fixed support portion 33. It is inserted into and firmly supported even in the rotation state. The adjusting bolt 24 is inserted into the long hole 23 of the upper fixing plate 20 and the nuts 25 are fastened and fixed to the bottom and upper surfaces of the plate body 21 of the upper fixing plate 20, respectively.

The upper hinge bracket 50 and the lower hinge bracket 40 are formed in a U-shape in cross section so that both vertical plate portions 41 and 51 are rotatably fixed to each other, and the lower hinge bracket 40 is rotatably fixed. The upper hinge bracket 50 is fixed to the bottom of the square bar (100).

A plurality of angle fixing holes 53 are formed in the vertical plate portions 41 and 51 of the lower hinge bracket 40 and the upper hinge bracket 50 so as to correspond to each other according to the rotation angle, and the adjusting bolt 44 is It is fixed through the angle fixing hole 53, the adjustment bolt 44 is formed with an adjustment knob 45 to facilitate rotation. At this time, the adjustment knob is formed in the nut that is fastened together so that the nut can be easily rotated and detached.

The angle adjusting device 60 is fixed to one side of the square bar 100 with a bracket (61-2) on the top of the angle bar 61 of the rectangular bar shape, a plurality of grooves 61 in the angle adjusting bar 61 -1) are formed at regular intervals.

A locking rod inserted into the groove portion 61-1 is fixed between a pair of L-shaped angles 62 fixed to the pivoting plate 30 of the central post 11, and one end of the L-shaped angle 62 is pivoting. The bolt is fixed to the long hole formed on both sides of the lower hinge bracket 40 of (30).

Both ends of the U-shaped adjuster 63 are fixed to the other end of the L-shaped angle 62 to surround the angle adjusting bar 61, and the adjusting bolt 64 is fastened to the center of the adjuster 63 to adjust the adjustment. The end of the bolt 64 is configured to push the angle adjustment bar 61 so that the locking rod is inserted into the groove portion 61-1.

As shown in FIG. 4, when the solar panel 9 is fixedly installed on the slope, the upper foundation concrete 80 is buried in the upper portion of each unit in order to prevent the phenomenon that the solar panel 9 is pulled downward of the slope by its own load. The wire fixing part 13 and the upper foundation concrete 80 formed on the upper side of the upper foundation concrete 80 and the adjacent post 12 are fixed to the wire 70.

In order to prevent such a phenomenon that occurs when installing the photovoltaic device on the slope, the wire fixing portion 13 is formed in the diagonal direction at the upper and lower ends of the post 10, respectively, the wire 70 in the adjacent post 10 Are fixed to each other. That is, the wire fixing part 13 of the top of the post 10 under the inclined slope and the bottom of the post 10 on the inclined slope are connected to each other, and the wire fixing portion formed on the top of the post 10 in the upper portion of the inclined slope for each unit ( 13) is connected to the upper foundation concrete 80 is configured to prevent the phenomenon of the entire photovoltaic device.

1 is a schematic view showing a slope in which a photovoltaic device is conventionally installed.

Figure 2 is a view showing a flattening operation so that the conventional photovoltaic device is installed.

Figure 3 is a schematic diagram showing a state in which the secondary stepped flat screen is formed so that the conventional photovoltaic device is installed.

Figure 4 is a front view showing a state in which the fixed variable photovoltaic device for installing slopes of the present invention is installed.

Figure 5 is a perspective view showing a fixed variable type photovoltaic device for installing slopes of the present invention.

Figure 6 is an exploded perspective view showing a central post portion in the fixed variable type photovoltaic device for installing slopes of the present invention.

Figure 7 is a perspective view showing a fixed variable type photovoltaic device for installing slopes of the present invention from the bottom.

Figure 8 is an exploded perspective view showing the outer post portion in the fixed variable type photovoltaic device for installing slopes of the present invention.

Figure 9 is a cross-sectional view of the main part of the fixed variable type photovoltaic device for installing slopes of the present invention.

 BRIEF DESCRIPTION OF THE DRAWINGS FIG.

1 slope 2 cut portion

3: fill section 4: mounting surface

5: horizontal plane 6: actual flat screen

7: water sale 8: terraced flat screen

9: solar panel 10: post

11: outer post 12: center post

13: wire fixing 14: base plate

15: foundation concrete 20: upper fixing plate

21: plate 22: hinge portion

22-1: Hinge hole 22-2: Reinforcement rib

23: long hole 24: adjusting bolt

24-1: head 24-2: support sphere

25 nut 30 rotating plate

31: plate 32: hinge portion

32-1: hinge hole 33: fixed support

33-1: hemispherical groove 40: lower hinge bracket

41: vertical plate portion 42: hinge hole

43: angle fixing hole 44: adjustment bolt

45: adjusting handle 50: upper hinge bracket

51: vertical plate portion 52: hinge hole

53: angle fixing hole 60: angle adjusting device

61: angle adjustment bar 61-1: groove

61-2: Bracket 62: L-shaped angle

63: fixing hardware 64: adjusting screw

70: wire 80: upper foundation concrete

100: square bar 101: C channel

Claims (3)

delete A plurality of posts 10 installed along the inclined surface is formed of an outer post 12 installed at a predetermined interval with the central post 11 and a hinge portion of the upper fixing plate 20 fixed to the upper end of the post 10. 22 is rotatably fixed to the hinge portion 32 of the rotating plate 30, the long hole 23 is formed on both sides of the hinge portion 22, the adjustment bolt 24 is fixed while the bottom surface of the rotating plate 30 The angle bar is fixed and maintained, and the square bar 100 is rotated by the lower hinge bracket 40 and the upper hinge bracket 50 on the pivoting plate 30 at the center post 11 and the outer post 12. Fixed in such a way that the angle adjustment device 60 is fixed between the rotational plate 30 of both the center plate 11 and the square bar 100 of the rotational plate 30 of the central post (11). In the generator, The hinge portion 32 protrudes from the bottom of the rotating plate 30 to be rotatably fixed to the hinge portion 22 protruding from the upper surface of the upper fixing plate 20, and the bottom surface of the plate body 31 of the rotating plate 30. Fixed support part 33 having hemispherical grooves 33-1 on both sides is formed, and the support sphere part 24-2 of the upper end of the adjustment bolt 24 fixed to the upper fixing plate 20 is inserted and fixed to be rotatable. In the center post 11 and the outer post 12, the lower hinge bracket 40 is fixed to the center and the outer end of the upper surface of the rotating plate 30, respectively, and the upper hinge bracket rotatably fixed to the lower hinge bracket 40. The bracket 50 is fixed to the bottom of the square bar 100, and a plurality of angle fixing holes 53 are respectively provided in the vertical plate portions 41 and 51 of the lower hinge bracket 40 and the upper hinge bracket 50, respectively. It is formed to match each other according to the rotation angle, the adjustment bolt 44 is fixed to the angle adjusted by the angle adjusting device 60 through the angle fixing hole 53, Wire fixing parts 13 are formed in diagonal directions at upper and lower ends of the posts 10, respectively, and the wires 70 are fixed to each other in the adjacent posts 10, and formed at the top of the posts 10 on the inclined tops. Wire fixing part 13 is connected to the upper base concrete 80 and the wire 70 is fixed variable type photovoltaic device for slope installation, characterized in that the photovoltaic device is configured to prevent the phenomenon that the solar cell is directed toward the downward slope. The method of claim 2, The angle adjusting device 60 is fixed to one side of the square bar 100 by a bracket 61-2 at the top of the angle bar 61 of the rectangular bar shape, and a plurality of grooves 61- on the angle adjusting bar 61. 1) is formed at regular intervals, the engaging rod inserted into the groove portion 61-1 is fixed between the pair of L-shaped angle 62 fixed to the rotating plate 30, the end of the L-shaped angle 62 Both ends of the c-shaped adjuster 63 surrounding the angle adjusting bar 61 are fixed, and the adjusting bolt 64 is fastened to the center of the adjusting body 63 so that the end of the adjusting bolt 64 is the angle adjusting bar. Fixed variable type photovoltaic device for installing slopes, characterized in that the locking rod is pushed (61) is inserted into the groove (61-1).

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