KR101362434B1 - Solar power generating apparatus - Google Patents

Abstract

The present invention relates to a solar power generating device for preventing poor ground subsidence. The solar power generating device for preventing poor ground subsidence comprises; a solar cell module in which a solar cell is arranged; a supporting frame in which the solar cell module is mounted; and multiple column files in which the lower side is inserted into the underground and is extended on the ground to separate and support the supporting frame. The solar power generating device for preventing poor ground subsidence comprises a height control unit which is combined between the supporting frame and the column file to support the supporting frame to the column files. The height of the height control unit from the column file can be controlled to control a separation supporting height from the column file to the supporting frame when the subsidence is generated according to the passage of time of the column file. The solar power generating device for preventing poor ground subsidence provides an advantage capable of increasing durability by controlling the height for supporting the supporting frame between columns in response to column subsidence without the application of changing force to the supporting frame. The solar power generating device for preventing poor ground subsidence prevents economic loss and a risk of operation management in the long term by preventing the structure transformation by the supporting frame transformation and preventing the micro crack generation of a solar power module.

Description

Soft ground subsidence-type photovoltaic device

The present invention relates to a soft ground subsidence-type photovoltaic device, in particular, soft ground subsidence response that can adjust the height of the shore in response to the settlement of the shore over time supporting the photovoltaic module spaced from the ground It relates to a type photovoltaic device.

Recently, solar power generation among environmentally friendly power generation facilities refers to a facility that generates power from the sun by installing a solar cell module on a supporting structure.

As the solar tube power generation facility is disclosed in Korean Laid-Open Patent Publication No. 10-2011-0050799, a structure in which a solar module is installed in a supporting frame installed to be spaced apart from the ground through a plurality of struts is applied.

While such solar power generation has eco-friendly advantages, it requires installation space corresponding to the size of the solar panel to be applied, and thus it is a soft ground such as riverbeds, reservoirs, paddy fields, and reservoirs where inefficient space or economy is relatively low. It may be economically beneficial to utilize the land formed.

However, in order to utilize the space above the surface of the water, lands, reservoirs, paddy fields, reservoirs installed in the soft ground such as reservoir may be settled over time due to the relatively soft ground. In this case, the deformation depth acts on the support frame as the settlement depth between the pillars is changed, and as a result, a micro crack of each solar module is generated due to the deformation of the structure. Due to the micro-crack of the photovoltaic module, the solar power generation efficiency is reduced, and the structure and the photovoltaic module are required to be replaced or repaired, resulting in economic loss and operational management problems in the long term.

The present invention was devised to improve the above problems, the soft ground subsidence response that can adjust the height of the support frame to support the solar panel support frame between each support so that the deformation force can be suppressed in the support frame Its purpose is to provide a photovoltaic device.

In order to achieve the above object, the soft ground subsidence-type photovoltaic device according to the present invention comprises: a solar cell module in which solar cells are arrayed; A support frame on which the solar cell module is mounted; A plurality of strut piles installed to extend to the ground by inserting a lower portion into the ground to support the support frame spaced apart from each other; The support frame is coupled between the support frame and the support pile so as to support the support frame to the support piles, and to support the support frame to adjust the spaced support height from the support pile to the support frame when settlement occurs according to time of the support pile. And a height adjustment unit formed to allow height adjustment from the pile.

Preferably, the height adjustment unit is formed to be inserted downward from the top of the support pile so as to be able to move up and down while surrounding the support pile from the outside of the support pile, the upper surface to be coupled to the support frame inclined. Inclined oblique passage; One end is coupled to the upper surface of the support pile and has a support bracket which is raised and lowered by the rotation of the elevating adjustment screw, and the support bracket is an elevating jockey coupled with the inclined outer cylinder.

In addition, the inclined outer cylinder is formed in a semi-cylindrical body that is divided into two vertical cylinders to wrap the outside of the holding pile, the side edges of the first coupling ribs are formed in the direction in which the outer diameter is expanded, the semi-cylindrical body top It includes a main body having an inclined disc extended than the semi-cylindrical body; And a semi-cylindrical cap which is formed in a semi-cylindrical shape to surround the holding pile together with the main body, and is coupled through the first coupling rib of the main body, wherein the semi-cylindrical cap is perpendicular to the side region of the main body. A first semi-cylindrical cap coupled to a lower region of the side regions of the main body to support the split pile in a circumferential direction so as to cover the divided portion in a direction; and the lower region and the main of the main body. It is preferably formed of a second semi-cylindrical cap which engages the upper region between the upper ends of the body.

According to an aspect of the invention, the lifting jockey and the base frame is coupled to the upper surface of the holding pile; A first link having one end rotatably coupled to the base frame; A second link having one end rotatably coupled to the support bracket; A first main hinge rotatably coupled to the other end of the first link and the other end of the second link; A third link having one end rotatably coupled to the base frame; A fourth link having one end rotatably coupled to the support bracket; A second main hinge rotatably coupled to the other end of the third link and the other end of the fourth link; And a screw coupled through the first main hinge and the second main hinge such that a separation distance between the first main hinge and the second main hinge is changed by rotation.

According to the soft ground subsidence-type photovoltaic device according to the present invention, the height of supporting the support frame between the support pillars can be adjusted so as not to apply the deformation force to the support frame in response to the settlement of the support can not only increase the durability It is possible to prevent structural deformation and microcracks of each solar module due to deformation of the support frame, thereby preventing long-term economic loss and risk of operational management.

1 is a perspective view showing a soft ground subsidence-type photovoltaic device according to the present invention,
Figure 2 is a side view of the soft ground subsidence-type photovoltaic device of Figure 1,
3 is a cross-sectional view of the height adjustment unit mounted between the support pile and the support frame of FIG.
4 is an exploded perspective view illustrating the inclined outer cylinder of FIG. 3 separately.

Hereinafter, the soft ground subsidence-type photovoltaic device according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in more detail.

1 is a perspective view showing a soft ground subsidence-type photovoltaic device according to the present invention, Figure 2 is a side view of the soft ground subsidence-type photovoltaic device of Figure 1, Figure 3 is a holding pile of FIG. Sectional view of the height adjustment unit mounted between the support frame, Figure 4 is an exploded perspective view showing the inclined outer cylinder of Figure 3 separated.

1 to 4, the soft ground subsidence-type photovoltaic device 100 according to the present invention includes a solar cell module 110, a support frame 130, a support pile 150, and a height adjustment unit 170. ).

The solar cell module 110 has a plurality of solar cells 112 are arranged in the form of a square panel.

The support frame 130 supports the solar cell module 110 and is coupled to the height adjusting unit 170 to be described later so as to be supported through the support pile 150.

The support frame 130 is a first type frame 131 coupled to the height adjustment unit 170, and in a direction orthogonal to the longitudinal direction of the first type frame 131 on the first type frame 131 Two horizontal frames 132 extending and spaced apart from each other, extending in parallel with the first type frame 131 on the horizontal frame 132 and spaced apart from each other along the longitudinal direction of the horizontal frame 132. The second type frame 133 is installed and the solar cell module 130 is coupled thereon.

Here, the first type frame 131 is applied to the 'H' section steel, the horizontal frame 132 and the second type frame 133 is applied to the "C" section formed in the 'c' shape, the example shown Of course, the support frame 130 may be applied in a different form.

The holding pile 150 is installed to extend to the ground by inserting a lower portion in the ground so as to support the support frame 130 spaced apart from each other through the height adjustment unit 170.

The pillar pile 150 is formed of a cylindrical material in a cylindrical shape was applied.

The height adjustment unit 170 is coupled between the support frame 130 and the support pile 150 to support the support frame 130 to the support pile 150, and when settlement occurs according to the time of each of the support pile 150 The height from the support pile 150 is formed to adjust the height of the spaced support from the support pile 150 to the support frame 130 to suppress the bending deformation of the support frame 130.

The height adjusting unit 170 is provided with an inclined outer cylinder 171, the elevating jockey 180.

The inclined outer cylinder 171 may be inserted into the support pile 150 from the top of the support pile 150 to be able to move up and down with respect to the top of the support pile 150 while wrapping the support pile 150 outside the support pile 150. Is formed so that the upper surface is inclined structure to be coupled to the support frame 130 inclined.

The inclined outer cylinder 171 includes a main body 172 and first and second semi-cylindrical caps 177 and 179 to accommodate the elevating jockey 180 to be described later in the inner space and open the inner space if necessary. It is.

The main body 172 is a semi-cylindrical body 172a, which divides the cylinder vertically, and is formed to cover an area corresponding to a semicircle of the outer surface of the holding pile 150, and has a first coupling rib 173 at the side edge thereof. ) Is formed in the direction in which the outer diameter is expanded, and the upper end of the semi-cylindrical body 172a has a structure having an inclined disc 174 extended than the semi-cylindrical body 172a.

Here, the length of the main body 172 is accommodated inside the lifting jockey 180 to be described later, it may be applied to a degree that can wrap a certain length downward from the top of the holding pile 150.

In addition, the inclined disc 174 may cover the inner space by covering from the top to the first and second semi-cylindrical caps 177 and 179 coupled through the semi-cylindrical body 172a of the main body 172. It may be formed in an annular shape having an outer diameter larger than the holding pile 150.

The inclination angle of the inclined disc 174 may be appropriately applied within a range of 10 ° to 40 ° in consideration of the installation angle of the solar cell module 110 in consideration of the installation place.

The inclined disc 174 is formed with a through hole for engaging the support frame 130 and the elevating jockey 180 and a coupling member such as a bolt and a nut.

The first and second semi-cylindrical caps 177 and 179 are formed in a semi-cylindrical shape to surround the holding pile 150 together with the main body 172 through the first coupling rib 173 of the main body 172. Combined.

The first semi-cylindrical cap 177 is formed in a semi-cylindrical shape, the second coupling rib 177a which can be coupled to the first coupling rib 173 at both ends is formed in the direction in which the outer diameter is extended, the main body The side area 172 is divided and covered along the vertical direction, but is coupled to the lower area of the side area of the main body 172 so as to support the support pile 150 to be closed along the circumferential direction.

 The first semi-cylindrical cap 177 is applied to the length enough to wrap the holding pile 150 with the main body 150 in a predetermined length within the lifting height adjustment range of the lifting jockey 180.

 The second semi-cylindrical cap 179 is formed in a semi-cylindrical shape so as to cover the upper region between the lower region of the main body 172 and the upper end of the main body 172 to be combined with the main body 172 and to the edge A third coupling rib 179a that may be coupled to the first coupling rib 173 is formed in a direction in which an outer diameter thereof is extended.

Here, the second semi-cylindrical cap 179 is for allowing the internal space of the inclined outer cylinder 171 to be partially opened when attempting to operate the elevating jockey 180.

The first and second semi-cylindrical caps 179 are coupled to the main body through through holes formed in the first to third coupling ribs 173, 177a and 179a by bolts and nuts.

The elevating jockey 180 has one end coupled to the upper surface of the support pile 150 and has a support bracket 186 which is lifted and lowered by the rotation of the elevating adjustment screw 188. The support bracket 186 is an inclined outer cylinder ( 171 is coupled to the top.

The lifting and lowering jockey 180 is divided into a base frame 181, first to fourth links 182 to 185, first and second main hinges 189 and 190, and a screw 188.

The base frame 181 may provide an area where the first and third links 182 and 184, which will be described later, are hinged and coupled to the upper surface of the support pile 150.

One end of the first link 182 is rotatably coupled to the base frame 181 and the other end is rotatably coupled to the first main hinge 189.

One end of the second link 183 is rotatably coupled to the support bracket 186 positioned to face the base frame 181, and the other end of the second link 183 is pivotally coupled to the first main hinge 189.

One end of the third link 184 is rotatably coupled to the base frame 181 spaced apart from the first link 182, and the other end of the third link 184 is rotatably coupled to the second main hinge 190.

The fourth link 185 is rotatably coupled to the support bracket 186 at a position spaced apart from the third link 183, and the other end is rotatably coupled to the second main hinge 190.

The first to fourth links 182 to 185 are coupled in a rhombus shape between the base frame 181 and the support bracket 186 to support the bracket with respect to the base frame 181 by the rotation of the screw 188 described below. 186 may be raised or lowered.

The screw 188 is coupled to penetrate through the first main hinge 189 and the second main hinge 190 so that the separation distance between the first main hinge 189 and the second main hinge 190 is variable by rotation. have.

Here, the screw 190 is coupled to the first main hinge 189 by a screw thread formed on the outer circumferential surface and the thread line formed in the through hole penetrating freely in the rotational direction and passing through the second main hinge 190 As a result, the separation distance between the first main hinge 189 and the second main hinge 190 is adjusted.

On the other hand, unlike the illustrated example, the support bracket 186 may be combined with the side of the inclined outer cylinder, of course.

The soft ground subsidence-type photovoltaic device 100 is a soft ground, or the holding pile 150 to be spaced apart from each other in the water and then the base frame 181 of the elevating jockey 180 of the holding pile 150 Fixing to the upper surface, fixing the main body 172 of the inclined outer cylinder 171 with the support bracket 186 and then coupling the first semi-cylindrical cap 177 to the main body 172, and then the holding frame 130 To fix the inclined disc 174 of the inclined outer cylinder 171, and then install the solar cell panel 110 to the support frame 130.

In addition, at the time of initial installation, the fine height difference of each support pile 150 may be adjusted to be in parallel with the extension direction of the support frame 130 through the operation of the elevating jockey 180, and then the second semi-cylindrical cap 179 ) May be coupled to the main body 172.

In addition, during partial settlement of the holding pile 150 over time, the second semi-cylindrical cap 179 may be separated from the main body 172, and then the height may be adjusted through the lifting and lowering jockey 180.

110: solar cell module 130: support frame
150: holding pile 170: height adjustment unit

Claims (4)

delete A solar cell module arrayed with solar cells;
A support frame on which the solar cell module is mounted;
A plurality of strut piles installed to extend to the ground by inserting a lower portion into the ground to support the support frame spaced apart from each other;
The support frame is coupled between the support frame and the support pile so as to support the support frame to the support piles, and to support the support frame to adjust the spaced support height from the support pile to the support frame when settlement occurs according to time of the support pile. And a height adjustment unit formed to allow height adjustment from the pile.
The height adjustment unit
An inclined outer tube which is formed to be inserted downward from the top of the support file so as to be moved up and down while wrapping the support file outside of the support file, the upper surface of which is inclined to couple the support frame in an inclined manner;
One end is coupled to the upper surface of the holding pile and has a support bracket which is raised and lowered by the rotation of the elevating adjustment screw, the support bracket is a soft ground subsidence characterized in that it comprises; Responsive solar power unit. According to claim 2, wherein the inclined outer cylinder
The semi-cylindrical body which splits the cylinder vertically is formed so as to surround the outside of the support pile, and the side edge has a first coupling rib formed in the direction in which the outer diameter extends, and the semi-cylindrical body has an upper end than A main body having an extended inclined disc;
And a semi-cylindrical cap formed in a semi-cylindrical shape to surround the holding pile together with the main body and coupled through the first coupling rib of the main body.
The semi-cylindrical cap
A first semi-cylindrical cap coupled to a lower region of the side regions of the main body to cover the side region of the main body in a vertical direction and to close the support pile in a circumferential direction; And a second semi-cylindrical cap coupled to an upper region between the lower region of the body and the upper region of the main body. The method of claim 2, wherein the elevating jockey is
A base frame coupled to an upper surface of the support pile;
A first link having one end rotatably coupled to the base frame;
A second link having one end rotatably coupled to the support bracket;
A first main hinge rotatably coupled to the other end of the first link and the other end of the second link;
A third link having one end rotatably coupled to the base frame;
A fourth link having one end rotatably coupled to the support bracket;
A second main hinge rotatably coupled to the other end of the third link and the other end of the fourth link;
And a screw coupled through the first main hinge and the second main hinge such that a separation distance between the first main hinge and the second main hinge is varied by rotation. Type solar power device.

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