KR102029600B1 - Apparatus for supporting solar cell panel - Google Patents

Abstract

According to one embodiment of the present invention, an apparatus for supporting a solar panel, which installs a solar panel on an inclined surface, includes: a support part arranged in parallel with the inclined surface and supporting the solar panel; a spiral part mounted on the inclined surface by applied rotating force; a post part which has a hollow into which at least a part of the spiral part is inserted, in which a lower portion side is connected to the spiral part, and in which an upper portion side is connected to the support part; and a coupler part connecting the spiral part and the post part and allowing a length change of the post part with respect to the spiral part to be limited.

Description

Solar panel support device {Apparatus for supporting solar cell panel}

The present invention relates to a solar panel support apparatus, and more particularly, to a solar panel support apparatus for installing a solar panel on an inclined surface.

The solar power generation method uses infinite clean energy and does not require any energy or driving source. It is easy to install small to large scale systems and is not affected by installation restrictions due to environmental problems. This is infinite.

For the photovoltaic facility, a module support frame for installing a photovoltaic module and a support for supporting the module support frame on the ground are essential.

In general, such a photovoltaic facility is installed by fixing a plurality of struts to the ground, then installing a module support frame on the top of the strut, and mounting the photovoltaic module on the module support frame.

Conventional struts have a certain length so as to position the photovoltaic module at a height spaced from the ground and partially embedded in the ground. The support frame may be dug up the site where the photovoltaic module is to be installed, insert a lower part of the support, and cast concrete to support the ground, or separately attach the concrete installation to the bottom of the support in advance and bury it immediately. .

In addition, after forming the foundation base made of concrete in advance in the installation site may be fixed to the support using an anchor or the like on the foundation base.

As described above, the method of supporting the support by pouring concrete has the disadvantage that the work is cumbersome, such as digging, concrete mortar casting and curing, and the construction period is long. 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 the strut to the upper portion of the foundation pile after the foundation pile is buried in the ground has been studied.

Korea Patent Registration No. 10-1864441

An object of the present invention is to provide a solar panel support apparatus for installing a solar panel on an inclined surface.

A solar panel support apparatus according to an embodiment of the present invention, in the solar panel support device for installing the solar panel on the inclined surface, the support portion for supporting the solar panel while being disposed parallel to the inclined surface, The spiral part is fixed to the inclined surface by the applied rotational force, the hollow is inserted into at least a portion of the spiral portion, the lower side is connected to the spiral portion, the upper side is connected to the support portion and the spiral portion and the spiral A coupler portion for connecting a post portion to limit a change in the length of the post portion relative to the spiral portion, wherein the spiral portion is formed on the spiral piece inserted into the inclined surface and the upper side of the spiral piece, and is inserted into the post portion. And an insertion piece to be inserted into the post portion, wherein the insertion piece is inserted. A cylindrical portion for providing a ball and an inclined portion fastened to the support portion while being formed on an upper side of the cylindrical portion, wherein the coupler portion includes a first coupler piece and a second coupler surrounding a connecting portion of the spiral portion and the post portion; The first coupler piece and the second coupler piece may be arranged to overlap each other with a connecting portion of the spiral part and the post part interposed therebetween, such that the spiral part and the post part are fixed to each other.

The first coupler piece of the solar panel support device according to an embodiment of the present invention, the first insertion space portion and the first insertion space portion and providing a space for insertion of at least a portion of the spiral portion and the post portion; A second fastening space portion having a plurality of through holes formed therein, the second coupler piece having a second insertion space portion and a second insertion portion for providing a space for inserting at least a portion of the spiral portion and the post portion; The second fastening space part having a plurality of through holes may be provided while being connected to the space part.

The coupler portion of the solar panel support apparatus according to an embodiment of the present invention, when the first coupler piece and the second coupler piece overlap, the first fastening space portion and the second fastening space portion at the same time Inserted, the first coupler piece and the second coupler piece may be further provided with a fixing portion to be fixed to each other.

The first insertion space portion of the solar panel support apparatus according to an embodiment of the present invention, the first-first space providing portion surrounding a portion of the outer surface of the cylindrical portion, the first portion surrounding the portion of the insertion piece outer surface And a first connection space portion connecting the 1-2 space providing portion and the first-first space providing portion and the 1-2 space providing portion, wherein the first connection space portion is formed from the first-first space providing portion. The size of the space is gradually reduced to be connected to the first-second space providing portion, and the second insertion space portion is a second-first space providing portion surrounding a portion of the outer surface of the cylindrical portion, and the insertion piece outer surface. And a second connection space portion that surrounds a portion of the second space providing portion and the second connection space portion connecting the second space providing portion and the second space providing portion, wherein the second connection space portion includes the second space. The size of the space is gradually reduced from the space-providing unit -1 to the second hole. The study and can be connected.

The spiral piece of the solar panel support apparatus according to an embodiment of the present invention is inserted into the inclined surface by the applied rotational force, formed of a spiral rotating plate, the insertion piece is a cylindrical formed smaller than the cross-sectional area of the cylindrical portion While being formed, the size of the region which is inserted into the hollow and exposed to the outside becomes different according to the degree of insertion into the hollow, and the cylindrical portion has a first through hole penetrating along the longitudinal direction and communicating the outside with the inside of the hollow. The insertion piece has a second through hole penetrating along the longitudinal direction and communicating with the outside and the inner space, and the first through hole has a passage through which the grout material introduced into the hollow flows out. It is provided so that the airtightness and watertightness of the hollow interior is maintained by the grout material, the second through hole, the inner space of the insertion piece Providing a passage that exits the grout material inlet to the outside as to, it is possible to ensure confidentiality and watertightness is maintained in the inner space by inserting convenience grout material.

The first-first space providing portion of the solar panel support apparatus according to an embodiment of the present invention, the first-first through-corresponding hole formed through the longitudinal direction is formed, the first-second space providing portion, the length A first through-through counter hole formed through and formed along a direction is formed, and the first through-through counter hole is disposed to overlap with the first through hole, and the second through-through hole corresponds to the second through hole. May be placed overlapping.

In the spiral piece of the solar panel support device according to an embodiment of the present invention, a third through hole penetrated along the lower side in the vertical direction from the center of the circle for determining the longitudinal area of the insertion piece is formed, the third through hole Silver may provide a passage through which the grout material moved from the insertion piece is moved in the downward direction of the spiral piece.

When the length setting of the post portion with respect to the spiral portion of the solar panel support apparatus according to an embodiment of the present invention is completed, the position fixing part inserted into the first through hole and the second through hole arranged to overlap The position fixing part may further include a length setting of the post part with respect to the spiral part before fixing the spiral part and the post part by the coupler part.

The position fixing part of the solar panel support apparatus according to an embodiment of the present invention, when the first coupler piece and the second coupler piece is fixed by the fixing portion, the first through hole and the second through hole Can be disengaged from.

The support portion of the solar panel support device according to an embodiment of the present invention, a plurality of fastening holes are formed to be formed through, the inclined portion is formed through, a sliding hole formed continuously along the longitudinal direction is formed The position of the inclined portion with respect to the support portion may be determined by a fastening portion which is simultaneously inserted into one of the plurality of fastening holes and the sliding hole.

The insertion piece of the solar panel support device according to an embodiment of the present invention, a color display portion for separating the length from one side end to the other end in the longitudinal direction is formed, the color display portion is inserted into the post portion The degree of insertion of the spiral part may be displayed in a separate color.

According to the present invention, even when the inclined surface on which the solar panel is installed is not flat according to the surrounding environment and the formulated method, and even when the inclined surface is not flattened, the inclined surface of the solar panel is being installed according to the ground condition of the inclined surface. Even if it is not easy to adjust the desired inclination, the height can be easily adjusted to be fixed to the inclined surface, so that the solar panel can be maintained at a predetermined inclination.

1 is a schematic perspective view showing a solar panel installed as a solar panel support device according to an embodiment of the present invention.
Figure 2 is a schematic perspective view showing a solar panel support device according to an embodiment of the present invention.
Figure 3 is a schematic diagram for explaining the connection structure of the support portion and the post portion of the solar panel support device according to an embodiment of the present invention.
Figure 4 is a schematic diagram for explaining the connection structure of the post portion and the spiral portion of the solar panel support device according to an embodiment of the present invention.
Figure 5 is a schematic diagram for explaining the spiral portion of the solar panel support device according to an embodiment of the present invention.
6 to 8 are schematic views for explaining the post portion, the spiral portion and the coupler portion of the solar panel support device according to an embodiment of the present invention.
Figure 9 is a schematic diagram for explaining the support of the solar panel support device according to an embodiment of the present invention.
10 is a schematic view for explaining the position fixing of the solar panel support device according to an embodiment of the present invention.
11 is a schematic view for explaining a color display unit of the solar panel support device according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described in detail a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention may deteriorate other inventions or the present invention by adding, modifying, or deleting other elements within the scope of the same idea. Other embodiments that fall within the scope of the inventive concept may be readily proposed, but they will also be included within the scope of the inventive concept.

In addition, the components with the same functions within the scope of the same idea shown in the drawings of each embodiment will be described using the same reference numerals.

1 is a schematic perspective view showing a solar panel installed as a solar panel support device according to an embodiment of the present invention, Figure 2 is a schematic perspective view showing a solar panel support device according to an embodiment of the present invention. .

In addition, Figure 3 is a schematic diagram for explaining the connection structure of the support portion and the post portion of the solar panel support device according to an embodiment of the present invention, Figure 4 is a post of the solar panel support device according to an embodiment of the present invention It is a schematic diagram for demonstrating the connection structure of a part and a spiral part.

5 is a schematic view for explaining a spiral portion of the solar panel support apparatus according to an embodiment of the present invention, Figures 6 and 7 are for explaining a coupler portion of the solar panel support device according to an embodiment of the present invention Schematic diagram.

1 to 7, the solar panel support apparatus 1 according to an embodiment of the present invention may be a device for supporting the solar panel P installed on the inclined surface G of the roadside. .

Here, the inclined surface G on which the solar panel P is installed may not be flat depending on the surrounding environment and the formulated manner, and even if the inclined surface G is planarized, the inclined surface G may not be flat. Depending on the ground situation, it is not easy to match the desired inclination during the installation of the solar panel P.

The solar panel support device 1 of the present invention is a support device for easily adjusting the height fixed to the inclined surface G so that the solar panel P is maintained at a predetermined inclination.

The solar panel support apparatus 1 of the present invention may include a support 10, a spiral 20, a post 30, and a coupler 40.

The support part 10 may support the solar panel P while being disposed in parallel with the inclined surface G. The support part 10 is formed in a bar shape, and the number of the support parts 10 arranged according to the size and number of the solar panels P may be different.

The spiral part 20 may be fixed to the inclined surface G by an applied rotational force.

Specifically, the spiral portion 20 is formed on the upper side of the spiral piece 21 and the spiral piece 21 to be inserted into the inclined surface (G), the insertion piece (inserted into the post portion 30 ( 23).

Here, the applied rotational force means a rotational force applied along the spiral direction formed in the downward direction from the upper side of the spiral piece 21, and thus inserting and fixing the spiral piece 21 to the inclined surface G. This can be easy.

The post portion 30 may be connected to the spiral portion 20 and the lower side may be connected to the support portion 10 while a hollow in which at least a portion of the spiral portion 20 is inserted is formed.

Specifically, the post portion 30 is fastened to the support portion 10 while being formed at the upper side of the cylindrical portion 33 and the cylindrical portion 33 providing a hollow into which the insertion piece 23 is inserted. The inclined portion 31 can be provided.

The cylindrical portion 33 may be formed in a larger shape than the longitudinal area of the insertion piece 23, and may have a pipe shape in which a hollow into which the insertion piece 23 is inserted is formed.

The coupler portion 40 may connect the spiral portion 20 and the post portion 30 to limit the change in length of the post portion 30 relative to the spiral portion 20.

Specifically, the coupler portion 40 may be composed of a first coupler piece 41 and a second coupler piece 42 surrounding the connecting portion of the spiral part 20 and the post part 30. .

The first coupler piece 41 and the second coupler piece 42 are disposed so as to overlap each other with a connecting portion of the spiral part 20 and the post part 30 interposed therebetween, so as to overlap the spiral part 20. And the post part 30 may be fixed to each other.

Hereinafter, with reference to the drawings showing each component of the solar panel support device 1 of the present invention, each component will be described in detail.

The first coupler piece 41 of the solar panel support device 1 according to the embodiment of the present invention is provided with a space for inserting at least a portion of the spiral portion 20 and the post portion 30 A first fastening space 411 having a plurality of through holes may be provided while being connected to the first insertion space 412 and the first insertion space 412.

In addition, the second coupler piece 42 includes a second insertion space portion 422 and a second insertion space portion that provide space for insertion of at least a portion of the spiral portion 20 and the post portion 30. The second fastening space portion 421 having a plurality of through holes may be provided while being connected to the 422.

The first coupler piece 41 and the second coupler piece 42 may be spaced apart or overlapped while being formed in a mirror image, and when overlapped, the first insertion space part 412 and the second insertion space part. The space formed by 422 may cover a connection portion between the spiral portion 20 and the post portion 30.

Specifically, the first insertion space 412 covers half of the connecting portion between the spiral portion 20 and the post portion 30, and the second insertion space portion 422 is the spiral portion ( 20) and the other half of the connecting portion of the post portion 30 may be covered.

In addition, when the first coupler piece 41 and the second coupler piece 42 overlap, the first fastening space portion 411 and the second fastening space portion 421 may be adjacent to or in contact with each other. .

In addition, when the first coupler piece 41 and the second coupler piece 42 are disposed to overlap each other, the coupler part 40 includes the first fastening space part 411 and the second fastening space part. It may be further provided with a fixing portion 43 is inserted into the 421, the first coupler piece 41 and the second coupler piece 42 to be fixed to each other.

The first insertion space portion 412 includes a first-first space providing portion 412a surrounding a portion of the outer surface of the cylindrical portion 33, and a first portion surrounding a portion of the outer surface of the insertion piece 23. The second space providing unit 412b and the first-first space providing unit 412a and the first-second space providing unit 412b may be configured to connect each other.

The first connection space 412c may be connected to the first-second space providing unit 412b by gradually decreasing the size of the space from the first-first space providing unit 412a.

Specifically, since the first-first space providing portion 412a surrounds the outer surface of the cylindrical portion 33, the first-second space providing portion 412b surrounding the outer surface of the insertion piece 23. May be larger than). This is because the size of the insertion piece 23 inserted into the cylindrical portion 33 is smaller than the size of the cylindrical portion 33.

The first connection space portion 412c may be filled with the same material as the material constituting the coupler portion 40, but may be formed as an empty space. When the first connection space portion 412c is formed as an empty space, it may be filled by the grout material inserted into the hollow.

In addition, the second insertion space part 422 surrounds a part of the outer surface of the insertion piece 23 and the second-first space providing part 422a which surrounds a part of the outer surface of the cylindrical part 33. 2-2 space providing unit 422b and the second connection space unit 422c connecting the 2-1 space providing unit 422a and the 2-2 space providing unit 422b. .

The second connection space portion 422c may be connected to the second-2 space providing portion 422b by gradually decreasing the size of the space from the second-first space providing portion 422a.

Specifically, since the 2-1 space providing portion 422a surrounds the outer surface of the cylindrical portion 33, the 2-2 space providing portion 422b surrounding the outer surface of the insertion piece 23. May be larger than). This is because the size of the insertion piece 23 inserted into the cylindrical portion 33 is smaller than the size of the cylindrical portion 33.

The second connection space portion 422c may be filled with the same material as the material constituting the coupler portion 40, but may be formed as an empty space. When the second connection space portion 422c is formed as an empty space, it may be filled by the grout material inserted into the hollow.

The spiral piece 21 of the solar panel support device 1 according to an embodiment of the present invention may be inserted into the inclined surface G by an applied rotational force while being formed of a spiral rotating plate.

The insertion piece 23 is formed into a cylindrical shape formed smaller than the cross-sectional area of the cylindrical portion 33, and is inserted into the hollow, the size of the region exposed to the outside may be different depending on the degree of insertion into the hollow. .

The cylindrical portion 33 may be formed in the first through hole 331 penetrating along the longitudinal direction to communicate the outside and the inside of the hollow.

The first through hole 331 may provide a passage through which the grout material introduced into the hollow flows out, so that the airtightness and watertightness of the hollow interior may be maintained by the grout material.

Specifically, the cylindrical portion 33 has a hollow pipe shape, and when the foreign substance is introduced into the cylindrical portion 33 or water is introduced thereafter, the aging of the cylindrical portion 33 may be promoted. By filling the empty space with the grout material and filling the equipment gap, the aging of the member can be delayed.

The first through hole 331 may be a movement path of the grout material for filling a gap communicating the inside, the inside, and the outside of the cylindrical portion 33.

In addition, the insertion piece 23 may be formed with a second through hole 231 penetrating along a length direction and communicating an external space with an internal space.

The second through hole 231 provides a passage through which the grout material introduced into the internal space of the insertion piece 23 flows out to the outside, and the airtightness of the internal space of the insertion piece 23 is prevented by the grout material. Watertightness can be maintained.

Specifically, the insertion piece 23 has a hollow pipe shape, and when the foreign material is introduced into the insertion piece 23 or moisture is introduced after the installation, the aging of the insertion piece 23 may be promoted. By filling the empty space with the grout material and filling the equipment gap, the aging of the member can be delayed.

The second through hole 231 may be a movement path of the grout material for filling a gap communicating the inside, the inside, and the outside of the insertion piece 23.

The first-first space providing portion 412a of the cylindrical portion 33 may have a first-first through-corresponding hole 415 formed through the lengthwise direction.

The first-first through hole 415 may provide a passage through which the grout material discharged through the first through hole 331 is moved while being disposed to overlap with the first through hole 331. . In addition, the grout material discharged through the first-first through counter hole 415 may maintain airtightness and watertightness between the cylindrical portion 33 and the coupler portion 40.

The grout material discharged through the first-first through counter hole 415 may maintain airtightness and watertight between the cylindrical portion 33 and the coupler portion 40.

In addition, the first-second space providing part 412b of the cylindrical part 33 may have a first-second through-corresponding hole 416 formed through the longitudinal direction.

The 1-2 through-through hole 416 may provide a passage through which the grout material discharged through the second through-hole 231 moves while being disposed to overlap with the second through-hole 231. . In addition, the grout material discharged through the first-second through-response hole 416 may maintain the airtightness and watertight between the cylindrical portion 33 and the coupler portion 40.

The grout material discharged through the 1-2 through counter hole 416 may maintain airtightness and watertight between the insertion piece 23 and the coupler portion 40.

On the other hand, the spiral piece 21 may be formed with a third through hole 211 penetrated along the lower side in the vertical direction from the center of the circle to determine the longitudinal area of the insertion piece (23).

The third through hole 211 may provide a passage through which the grout material moved from the insertion piece 23 moves in the downward direction of the spiral piece 21.

In detail, the third through hole 211 may be easily moved downward while the grout member moved along the inside of the insertion piece 23 is moved along the outer surface of the spiral piece 21. By providing a passage for the grout material can be moved to the lower end of the spiral piece (21).

The grout material moved through the third through hole 211 is fixed while being filled between the ground forming the inclined surface G and the spaced space between the spiral pieces 21 so that the spiral piece 21 is inclined. It can be settled firmly on the ground which forms (G).

9 is a schematic view for explaining the support of the solar panel support device according to an embodiment of the present invention.

9, the support 10 of the solar panel support device 1 according to an embodiment of the present invention may have a plurality of fastening holes 11 formed therethrough. The support part 10 has a length in which the plurality of fastening holes 11 are arranged longer than a length of the sliding hole 311, and an area in which the plurality of fastening holes 11 is arranged is the sliding hole ( It is possible to define the movement path of 311).

The inclined portion 31 may be formed through the sliding hole 311 continuously formed in the longitudinal direction. In addition, the inclined portion 31 may include a first inclined piece and a second inclined piece that are spaced apart from each other. The support part 10 may be disposed in a space between the first inclined piece and the second inclined piece. The first inclined piece may be formed through the first inclined piece, the first sliding hole continuously formed in the longitudinal direction. The second inclined piece may be formed to penetrate, and may have a second sliding hole continuously formed in the longitudinal direction.

The position of the inclined portion 31 with respect to the support 10 may be determined by the fastening portion 12 simultaneously inserted into any one of the plurality of fastening holes 11 and the sliding hole 311. Can be. The fastening part 12 may be simultaneously inserted into one of the fastening holes and the second sliding hole of the first sliding hole and the plurality of fastening holes 11.

Specifically, the plurality of fastening holes 11 formed in the support part 10 are formed along the longitudinal direction of the support part 10, and the support position of the post part 30 supporting the support part 10 is an installation environment. And depending on the ground situation. In this case, when one of the plurality of fastening holes 11 and the sliding hole 311 is arranged to overlap, and fastened by the fastening portion 12, the post portion 30 to the support portion 10 ) Position can be changed.

Here, the sliding hole 311 is necessary when the position adjustment is smaller than the separation distance of the plurality of fastening holes (11). Specifically, in the state in which the plurality of fastening holes 11 and the sliding holes overlap, the fastening part 12 is fastened while the sliding hole 311 is positioned. In addition, the size of any one of the plurality of fastening holes 11 is formed to have a size corresponding to the longitudinal area of the fastening portion 12, the fastening portion 12 of the plurality of fastening holes (11) When simultaneously inserted into any one of the sliding hole 311, the positional movement of the inclined portion 31 with respect to the support portion 10 can be limited.

10 is a schematic view for explaining a position fixing part of the solar panel support device according to an embodiment of the present invention.

Referring to FIG. 10, the solar panel support apparatus 1 according to the exemplary embodiment of the present invention may be configured to overlap when the length setting of the post part 30 with respect to the spiral part 20 is completed. A position fixing part 60 inserted into the first through hole 331 and the second through hole 231 may be further included.

The position fixing part 60 is configured to set the length of the post part 30 with respect to the spiral part 20 before the spiral part 20 and the post part 30 are mutually fixed by the coupler part. Can be maintained.

In addition, the position fixing part 60, when the first coupler piece 41 and the second coupler piece 42 are fixed by the fixing portion 43, the first through hole 331 and It may be released from the second through hole 231.

Specifically, the position fixing part 60, which is used for fixing the position between the post portion 30 and the spiral portion 20, mutually between the post portion 30 and the spiral portion 20 The fixing is implemented by the above-described coupler portion, but the mutual fixing of the post portion 30 and the spiral portion 20 by the coupler portion is the fixing portion 43 of the first Kepler piece and the second Kepler piece. In the case of fastening by), the position of the post part 30 and the spiral part 20 may be changed during the fastening waiting time by the fixing part 43.

The position fixing part 60 is a means for maintaining the mutual position of the post part 30 and the spiral part 20 during the fastening waiting time by the fixing part 43.

11 is a schematic diagram illustrating a color display unit of a solar panel support apparatus according to an embodiment of the present invention.

Referring to FIG. 11, the insertion piece 23 of the solar panel support apparatus 1 according to an embodiment of the present invention has a color display unit 50 for dividing the length from one end to the other end along the longitudinal direction. ) May be formed.

The color display unit 50 may display the degree of insertion of the spiral portion 20 inserted into the post portion 30 in a separate color.

Specifically, the color display section 50 is partitioned and displayed in a different color according to the length of the insertion piece 23, the degree of insertion of the insertion piece 23 inserted into the cylindrical portion 33. Can be represented.

The operator can easily check the insertion degree of each insertion piece 23 for supporting the solar panel P with the naked eye through the color display part 50 to implement the support part 10 material having a constant length, or By varying the size of the support 10 material can be varied.

In the present invention, although the color display unit 50 is represented as shown in FIG. 11 only, the color display unit 50 is also implemented in the portion of the insertion piece 23 shown in FIGS. 1 to 10.

This is to avoid the case where the shape of the member other than the insertion piece 23 and the insertion piece 23 is not confirmed by the color display part 50 of the insertion piece 23 clearly.

In the above description of the configuration and features of the present invention based on the embodiment according to the present invention, the present invention is not limited thereto, and various changes or modifications can be made within the spirit and scope of the present invention. It will be apparent to those skilled in the art that such changes or modifications fall within the scope of the appended claims.

1: solar panel support
10: support
20: Spiral part
30: post part
40: coupler part
50: color display unit
60: location

Claims (10)

In the solar panel support device for installing the solar panel on the inclined surface,
A support part supporting the solar panel while being disposed parallel to the inclined surface;
A spiral part fixed to the inclined surface by an applied rotational force;
A post part connected to the spiral part and a top part connected to the support part while a hollow is formed in which at least a part of the spiral part is inserted; And
And a coupler portion connecting the spiral portion and the post portion to limit a change in the length of the post portion relative to the spiral portion.
The spiral portion,
A spiral piece inserted into the inclined surface and an insertion piece inserted into the post portion while being formed on an upper side of the spiral piece,
The post portion,
A cylindrical portion for providing a hollow into which the insertion piece is inserted and an inclined portion fastened to the support portion while being formed on an upper side of the cylindrical portion,
The coupler unit,
It consists of a 1st coupler piece and a 2nd coupler piece which surround the connection part of the said spiral part and the said post part,
The first coupler piece and the second coupler piece are disposed so as to overlap each other with a connecting portion of the spiral part and the post part interposed therebetween, so that the spiral part and the post part are fixed to each other.
The first coupler piece,
A first insertion space portion providing a space for inserting at least a portion of the spiral portion and the post portion, and a first coupling space portion having a plurality of through holes formed therein, the first insertion space portion being connected to the first insertion space portion;
The second coupler piece,
A second insertion space portion providing a space for inserting at least a portion of the spiral portion and the post portion, and a second coupling space portion having a plurality of through holes formed therein while being connected to the second insertion space portion;
The coupler unit,
When the first coupler piece and the second coupler piece are disposed to overlap each other, the first coupler piece and the second coupler piece are simultaneously inserted to allow the first coupler piece and the second coupler piece to be fixed to each other. Further provided with a fixing part,
The first insertion space portion,
A 1-1 space providing portion surrounding a portion of the outer surface of the cylindrical portion, a 1-2 space providing portion surrounding the portion of the outer surface of the insertion piece, and a 1-1 space providing portion and the 1-2 Consists of the first connection space for connecting the space providing unit,
The first connection space portion, the size of the space is gradually reduced from the 1-1 space providing portion is connected to the 1-2 space providing portion,
The second insertion space portion,
A 2-1 space providing portion enclosing a portion of the outer surface of the cylindrical portion, a 2-2 space providing portion enclosing a portion of the outer surface of the insertion piece, and the 2-1 space providing portion and the second-2. Consists of a second connection space for connecting the space providing unit,
The second connection space portion, the size of the space is gradually reduced from the 2-1 space providing portion is connected to the 2-2 space providing portion,
The spiral piece is inserted into the inclined surface by an applied rotational force while being formed of a spiral rotating plate,
The insertion piece is formed into a cylindrical shape formed smaller than the cross-sectional area of the cylindrical portion, is inserted into the hollow, the size of the region exposed to the outside is different depending on the degree of insertion into the hollow,
The cylindrical portion has a first through hole penetrating along a longitudinal direction and communicating an outside with the hollow inside,
The insertion piece has a second through hole penetrating along the longitudinal direction and communicating an external space with an internal space,
The first through hole provides a passage through which the grout material introduced into the hollow flows out to maintain the airtightness and watertightness of the hollow inside by the grout material.
The second through hole provides a passage through which the grout material introduced into the inner space of the insertion piece flows out to maintain the airtightness and watertightness of the inner space of the insertion piece by the grout material.
The support portion is formed with a plurality of fastening holes are formed through,
The inclined portion is formed through the sliding hole is formed continuously along the longitudinal direction,
The support portion,
The length in which the plurality of fastening holes are arranged is formed to be longer than the length of formation of the sliding hole, and the region in which the plurality of fastening holes is arranged defines the movement path of the sliding hole,
The position of the inclined portion relative to the support portion is determined by a fastening portion which is simultaneously inserted into any one of the plurality of fastening holes and the sliding hole,
The size of any one of the plurality of fastening holes is formed in a size corresponding to the longitudinal area of the fastening part, and when the fastening part is inserted into any one of the plurality of fastening holes and the sliding hole simultaneously, the support part of the inclined part Restrict location movement for,
The inclined portion includes a first inclined piece and a second inclined piece that are spaced apart from each other,
The support portion is disposed in the space between the first inclined piece and the second inclined piece,
The first inclined piece is formed through the first sliding hole is formed continuously along the longitudinal direction,
The second inclined piece is formed through the second sliding hole is formed continuously along the longitudinal direction,
The fastening part is inserted into one of the fastening holes of the first sliding hole and the plurality of fastening holes and the second sliding hole at the same time,
The spiral piece,
A third through hole penetrated along the lower side in the vertical direction is formed from the center of the circle for determining the longitudinal area of the insertion piece,
The third through hole provides a passage through which the grout material moved from the insertion piece is moved downward in the spiral piece,
The grout material moved from the insertion piece is fixed along the outer surface of the spiral piece to be filled between the ground to form the inclined surface and the spaced space of the spiral piece so that the spiral piece is fixed to the ground to form the inclined surface. ,
The first-first space providing part is formed with a first-first through-corresponding hole formed through the longitudinal direction,
The 1-2 second space providing part is formed with a 1-2 penetration through hole formed through the longitudinal direction,
The first-first through-corresponding hole is disposed to overlap the first through-hole, and provides a passage through which the grout material discharged through the first through-hole moves.
The grout material discharged through the first-first through counter hole is to maintain the airtightness and watertight between the cylindrical portion and the coupler portion,
The 1-2 through-through counter hole is disposed to overlap with the second through hole to provide a passage through which the grout material discharged through the second through hole is moved.
The grout material discharged through the 1-2 through-corresponding hole is to maintain the airtightness and watertight between the cylindrical portion and the coupler portion.
delete delete delete delete delete The method of claim 1,
When setting the length of the post portion for the spiral portion is completed, the position fixing portion is inserted into the first through hole and the second through hole disposed to overlap;
The position fixing part,
And the length setting of the post portion with respect to the spiral portion is maintained before the spiral portion and the post portion are mutually fixed by the coupler portion.
The method of claim 7, wherein
And the position fixing part is released from the first through hole and the second through hole when the first coupler piece and the second coupler piece are fixed by the fixing part.
delete The method of claim 1,
The insertion piece is formed with a color display unit for distinguishing the length from one end to the other end along the longitudinal direction,
The color display unit, the solar panel support device, characterized in that for displaying the insertion degree of the spiral portion inserted into the post portion in a different color.

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