KR101870374B1 - Installation module of photovoltaic power plant for agriculture - Google Patents

Abstract

The present invention relates to an installation module of a photovoltaic power plant for agriculture capable of greatly improving convenience of construction such as assembly and installation. The installation module comprises: a first unit including a support erected and fixed on an arable land; a second unit including a both up and down ends penetrating pipe penetrating and inserting into the support from the top of the support and fixed at a predetermined height of the support and a plurality of brace bars connected to the pipe to rotate and opened or folded; and a third unit including an upper frame supported by an upper end of each of the brace bars and a rotating bar connected to photovoltaic panels arranged in a plurality of rows and columns in the upper frame and rotating the photovoltaic panel.

Description

[0001] 1. Field of the Invention [0002] The present invention relates to an installation module for a photovoltaic power generation facility,

The present invention relates to a module for installing an agricultural solar power generation facility, and more particularly, to a module for installing a solar power generation facility capable of simultaneously performing rice growing and photovoltaic power generation, To a module for installation of a photovoltaic power generation facility.

The farming solar power plant is installed to perform solar power generation and rice cultivation at the same time.

In order to carry out the rice farming in the cultivated area, the solar panel should be arranged higher than the solar power plant installed in the same place as the parking lot for the entrance of the farm equipment, and the interval between the panels for securing the sunshine of the crops should be secured sufficiently.

Because of these conditions, farming solar power plants should be accompanied by many complaints on the installation site unlike the existing solar power plants.

A solar photovoltaic device (hereinafter referred to as "prior art") disclosed in Japanese Patent Application Laid-Open No. 2015-216766 can be enumerated from the above viewpoint.

The prior art includes a plurality of tubing and joints supporting a plurality of solar modules.

However, the prior art has a problem that the structure of the joint for connecting a plurality of pipes is very complicated, requiring a lot of time and skill in fastening and assembling the joints.

Japanese Patent Application Laid-Open No. 2015-216766

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a module for installing an agricultural solar power generation facility, which can greatly improve convenience in construction such as assembly and installation.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, A second unit including a plurality of brace bars pierced and folded to be pivotally connected to the respective pipes, the first unit being inserted through the upper end of the support unit and being fixed at a predetermined height of the support unit; And an upper frame frame supported by the upper end of each of the plurality of brace bars, and a pivoting rod connected to the solar panel arranged in a plurality of rows and columns on the upper frame frame to rotate the solar panel And a third unit for installing the solar power generation facility.

The first unit may include a stationary rod extending from a lower end of the support and embedded in the cultivated land so as to fix the support to the stationary rod, and a guide rod disposed between the upper end of the stationary rod and the lower end of the support, Thereby restricting the downward movement.

At this time, the plurality of brace bars include a first support bracket including a first lower end rotatably coupled to a first one of four sides of the respective tubes, and a first support piece supporting and supporting the upper frame frame A second support bracket including a first bottom portion including a first upper end portion, a second lower end portion rotatably coupled to a second one of four sides of the respective tubes, and a second support piece supporting and supporting the upper frame frame A third lower bracket rotatably coupled to a third one of four sides of each of the tubes, and a third support bracket including a third support piece for supporting the upper frame frame, And a fourth support member including a fourth lower end portion rotatably coupled to a fourth surface of the four sides of each of the tubes and a fourth support piece supporting and supporting the upper frame frame, And a fourth bar including a fourth upper end on which the racket is mounted, the first surface facing the second surface, and the third surface facing the fourth surface.

The first and second support pieces, the second support piece, the third support piece, and the fourth support piece may be formed so that the first bar, the second bar, the third bar, Are orthogonal to the four sides of each of the above-mentioned pipes.

The first and second support pieces may be mounted on the lower side of the first bar, the second bar, the third bar, and the fourth bar, respectively. The first support piece, the second support piece, the third support piece, And an overturning restricting portion that maintains an angle at which the first bar, the second bar, the third bar, and the fourth bar are extended with respect to the respective tubes perpendicularly to the four sides of the respective tubes.

According to the present invention having the above-described configuration, the following effects can be achieved.

First of all, the present invention relates to a method of manufacturing a cement mortar, comprising: a first unit comprising a support stand erected on a cultivating land; A second unit including a plurality of brace bars pierced and folded to be pivotally connected to the respective pipes, the first unit being inserted through the upper end of the support unit and being fixed at a predetermined height of the support unit; And an upper frame frame supported by the upper end of each of the plurality of brace bars, and a pivoting rod connected to the solar panel arranged in a plurality of rows and columns on the upper frame frame to rotate the solar panel And a third unit for performing a high-altitude operation. Thus, it is possible to reduce the number of high-altitude works and greatly improve the installation and construction convenience.

Particularly, since the first unit, the second unit, and the third unit are manufactured in a module form and are provided in a form in which they can be pre-worked, the modules can be installed only by simple assembling work in the field, And the time and cost of construction will be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing the overall structure of an installation module of an agricultural solar power generation facility according to an embodiment of the present invention;
2 is a perspective view showing the overall structure of a first unit which is a main part of an installation module of an agricultural solar power generation facility according to an embodiment of the present invention.
FIG. 3 and FIG. 4 are perspective views showing the unfolded state and the folded state of the second unit, which is the main part of the installation module of the agricultural solar power generation facility according to the embodiment of the present invention,
FIG. 5 is a partial cross-sectional view illustrating an operation process of the overturning regulation unit provided in the second unit, which is a major part of the installation module of the farming solar power generation facility according to another embodiment of the present invention.
6 is a perspective view showing an example of construction of an installation module of an agricultural solar power generation facility according to another embodiment of the present invention.
7 is a side conceptual view showing an example of construction of an installation module of an agricultural solar power generation facility according to another embodiment of the present invention

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings.

However, the present invention is not limited to the embodiments described below, but may be embodied in various other forms.

The present embodiments are provided so that the disclosure of the present invention is thoroughly disclosed and that those skilled in the art will fully understand the scope of the present invention.

And the present invention is only defined by the scope of the claims.

Thus, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

In addition, throughout the specification, like reference numerals refer to like elements, and the terms (mentioned) used herein are intended to illustrate the embodiments and not to limit the invention.

In this specification, the singular forms include plural forms unless the context clearly dictates otherwise, and the constituents and acts referred to as " comprising (or having) " do not exclude the presence or addition of one or more other constituents and actions .

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs.

Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

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

1 is a perspective view illustrating the overall structure of an installation module of an agricultural solar power generation facility according to an embodiment of the present invention.

2 is a perspective view showing the overall structure of the first unit 100, which is a major part of an installation module of an agricultural solar power generation facility according to an embodiment of the present invention.

3 and 4 are perspective views showing an unfolded state and a folded state of the second unit 200, which is a main part of a module for installing an agricultural solar power generation facility according to an embodiment of the present invention.

5 is a partial cross-sectional conceptual diagram illustrating an operation process of the overfitting restriction unit 600 provided in the second unit 200, which is a main part of the installation module of the farming solar power generation facility according to another embodiment of the present invention. to be.

6 is a perspective view showing an example of a construction of a module for installing an agricultural solar power generation facility according to another embodiment of the present invention.

FIG. 7 is a conceptual side view showing a construction example of a module for installing an agricultural solar power generation facility according to another embodiment of the present invention.

It can be understood that the present invention is a structure including the first unit 100, the second unit 200, and the third unit 300 as shown in the figure.

First, the first unit 100 includes a supporting stand 110 fixed upright on the cultivating area 400.

The second unit 200 includes an upper pipe 210 and a lower pipe 210 which are inserted through the upper end of the support 110 and are fixed to a predetermined height of the support 110 and pivotally connected to the pipes 210, And a plurality of brace bars 220 folded or folded.

The third unit 300 includes an upper frame frame 310 supported by the upper end of each of the plurality of brace bars 220 and a lower frame frame 310 having a plurality of rows and columns arranged in the upper frame frame 310, And a rotating rod 320 connected to the panel 500 to rotate the solar panel 500.

The present invention can be applied to the embodiment described above and it is also possible to apply the following embodiments.

The first unit 100 includes a fixed rod 120 extending from a lower end of the supporting rod 110 and fixed in the cultivating ground 400 to fix the supporting rod 110 to the upper end of the fixed rod 120, And a seat piece 130 disposed between the lower ends of the support rods 110 so as to restrict the falling of the roots 210 from the lower end of the support rods 110.

The seat member 130 is in contact with or embedded on the surface of the cultivating area 400 so that the loads of the second unit 200, the third unit 300 and the solar panel 500, which will be described later, It also carries out its role.

The first unit 100 is configured such that the upper end of each tube 210 descends through the upper end of the support base 110 or the upper end of each tube 210 is lowered in alignment with the upper end of the support base 110, And a plurality of fasteners 140 for fastening the lower end of the base 210 to the support base 110.

3 and 4, the brace bar 220 includes a first lower end portion 221d rotatably coupled to the first surface 211 of the four sides of the tube 210, And a first bar 221 including a first upper end portion 221u on which a first support bracket 230 including a first support piece 231 supporting and supporting the first support bracket 230 is mounted.

The brace bar 220 includes a second lower end portion 222d rotatably coupled to the second surface 212 of the four sides of the tube 210 and a second lower end portion 222d rotatably coupled to the second surface 212b of the second frame 212, And a second bar 222 including a second upper end 222u on which a second support bracket 240 including a flap 241 is mounted.

The brace bar 220 includes a third lower end portion 223d rotatably coupled to the third surface 213 of the four sides of the tube 210, And a third bar 223 including a third upper end portion 223u on which the third support bracket 250 including the flap 251 is mounted.

The brace bar 220 includes a fourth lower end portion 224d that is rotatably coupled to the fourth surface 214 of the four sides of the tube 210 and a fourth lower end portion 224d that rotatably supports the upper frame frame 310, And a fourth bar 224 including a fourth upper end portion 224u on which a fourth support bracket 260 including a piece 261 is mounted.

Here, the first surface 211 faces the second surface 212, and the third surface 213 faces the fourth surface 214.

The first support bracket 230 includes first reinforcing bending pieces 232 and 233 which extend from left and right side edges of the first support piece 231 and are bent downward and facing each other.

The first support bracket 230 forms both side edges adjacent to the rear side edges of each of the pair of first reinforcing bends 232 and 233 and extends from the first support piece 231 to form a downwardly bent And a first connecting bending piece 234 (see FIG. 4).

The first support brackets 230 extend from the opposite side edges of the first connection bending piece 234 and face each other and have upper ends extending higher than the first support pieces 231. The upper support frame 230 (235, 236) for restricting the disengagement of the first partition wall (235, 236).

At both sides of the upper end of the first bar 221 are fixed at least two positions on opposite sides of the pair of first barrier ribs 235 and 236, Is inclined at a certain angle (?) With respect to the support piece (231).

The first bar 221 is connected to each tube 210 so that the first bar 221 supports the upper frame frame 310 with respect to the tube 210 at a predetermined angle? (? -? / 2).

On the other hand, the second support bracket 240 includes second reinforcing bending pieces 242 and 243 which are respectively bent downward and facing each other from opposite left and right side edges of the second support piece 241.

The second support bracket 240 forms both side edges adjacent to the rear side edges of each of the pair of second reinforcing bent pieces 242 and 243 and extends from the second support piece 241 to form a downwardly bent (See the structure of the first connecting bending piece 234 in FIG. 4, hereinafter).

The second support brackets 240 extend from the opposite side edges of the second connection bending piece 244 and face each other and have upper ends extending higher than the second support pieces 241, And the second barrier ribs 245 and 246 for regulating the release of the barrier ribs 245 and 246.

Both side surfaces of the upper end of the second bar 222 are fixed on the opposite surfaces of the pair of second partitioning pieces 245 and 246 (at least two or more), and both side surfaces of the upper end of the second bar 222 are fixed Is inclined at a certain angle (?) With respect to the second support piece (241).

The second bar 222 is connected to each tube 210 in order to couple the upper frame frame 310 to the second bar 222 so as to support the upper frame frame 310 with respect to each tube 210. In this case, (? -? / 2).

The third support bracket 250 includes third reinforcing bending pieces 252 and 253 which extend from the left and right side edges of the third support piece 251 and are bent downward and facing each other.

The third support bracket 250 forms both side edges adjacent to the rear side edge of each of the pair of third reinforcing bent pieces 252 and 253 and extends from the third support piece 251 to the downwardly bent And a third connecting bending piece 254 (refer to a fourth connecting bending piece 264 structure described later in FIG. 4).

The third support bracket 250 has upper ends extending from both side edges of the third connection bending piece 254 and facing each other and extending higher than the third support piece 251, (255, 256) for restricting the disengagement of the first partition wall (255, 256).

At this time, both side surfaces of the upper end of the third bar 223 are fixed to at least two positions on the opposite surfaces of the pair of third partition wall pieces 255, 256, And is inclined at a predetermined angle? With respect to the support piece 251.

The third bar 223 is connected to each tube 210 so that the third bar 223 supports the upper frame frame 310 with respect to the tube 210 at a predetermined angle? (? -? / 2).

The fourth support bracket 260 includes fourth reinforcing bending members 262 and 263 which extend from the left and right side edges of the fourth support piece 261 and are bent downward and facing each other.

The fourth support bracket 260 forms both side edges adjacent to the rear edges of each of the pair of fourth reinforcing bends 262 and 263 and extends from the fourth support piece 261 to form a downwardly bent And a fourth connecting bending piece 264 (see FIG. 4).

The fourth support brackets 260 extend from the opposite side edges of the fourth connection bending piece 264 and face each other and have an upper end extending higher than the fourth support piece 261. The upper support frame 260 And fourth barrier ribs 265 and 266 for regulating the release of the first barrier ribs 265 and 266.

The upper and lower surfaces of the fourth bar 224 are fixed to the opposite surfaces of the pair of fourth barrier ribs 265 and 266 (at least two or more, respectively) And is inclined at a predetermined angle? With respect to the fourth support piece 261.

At this time, the fourth angle? Is set such that the fourth bar 224 is inclined relative to the tube 210 so that the fourth frame 224 supports the upper frame frame 310 with respect to the tube 210 (? -? / 2).

The first support piece 231 and the second support piece 241 and the third support piece 251 and the fourth support piece 261 are connected to the first pipe 221 and the second pipe 221, When the bar 222, the third bar 223 and the fourth bar 224 are unfolded, it can be understood that they are all orthogonal to the four sides of the tube 210.

1, the upper frame frame 310 includes an outer frame 311 that forms a rectangular frame and an intermediate frame 312 that crosses the outer frame 311. The upper frame frame 310 includes a plurality of pivot bars 320 are installed orthogonally to the outer frame 311 and the intermediate frame 312 and are mounted on the left and right sides of the rotating rod 320 with respect to the intermediate frame 312 so that the solar panel 500 is rotatably mounted .

5, the overturning restricting part 600 is mounted on the lower side of the first bar 221, the second bar 222, the third bar 223 and the fourth bar 224, As shown in FIG.

And the rotation restricting portion 600 are formed such that the first support piece 231 and the second support piece 241 and the third support piece 251 and the fourth support piece 261 are both orthogonal to the four sides of the tube 210 The angle of the first bar 221, the second bar 222, the third bar 223, and the fourth bar 224 are respectively maintained at angles (hereinafter referred to as installation angles) with respect to the respective pipes 210.

The first and second bars 223 and 224 and the fourth bar 224 are excessively rotated with respect to the respective pipes 210 so that the upper and lower frames 221 310 are supported so as to be supported and assembled.

Here, the installation angle may be θ-π / 2, which is the angle at which the first to fourth bars 224 are spread with respect to the respective pipes 210.

The present invention may further include a restricting portion supporting piece 270 mounted on each of four sides of each tube 210 and orthogonal to four sides thereof to provide an area where a part of the overrunning restricting portion 600 is seated have.

The first bar 221, the second bar 222 and the third bar 223 extend from the left and right edges of the restricting portion supporting piece 270 and are bent upward and are opposed to each other. 280 and 280 to which both side surfaces of the lower ends of the fourth bars 224 are rotatably mounted.

The present invention is characterized in that both sides of the lower end of each of the first bar 221 and the second bar 222 and the third bar 223 and the fourth bar 224 and the pair of bar turning support pieces 280, And a pivot pin 290 that interconnects the pivot pin 290 and the pivot pin 290.

Therefore, it can be understood that the installation angle is maintained by the part of the over-rotation restricting part 600 which is seated on the restricting part supporting piece 270.

When the first bar 221, the second bar 222, the third bar 223 and the fourth bar 224 are extended from the respective pipes 210, And a strut 610 that is seated on the upper surface of the support piece 270.

The first and second bars 221 and 222 and the third bars 223 and 223 and the second and third bars 223 and 223 are bent at an installation angle and extended from the ends of the support pieces 610, And an angle maintaining elongated piece 620 inserted and received from the lower end of each of the fourth bars 224.

The first and second bars 222 and 223 and the fourth bar 224 extend from the end of the angle maintaining extension piece 620. The first bar 221 and the second bar 222 are connected to the first bar 221, And an anti-shake extension piece 630 bent toward each first inner side surface 220a.

At this time, the inner side surface of the angle maintaining extension piece 620 faces the outer peripheral surface of the pivot pin 290, and the outer side surface of the angle maintaining extension piece 620 is in contact with the first inner side surface 220a, (220b). ≪ / RTI >

The inner side surface of the angle maintaining extension piece 620 faces the outer peripheral surface of the pivot pin 290 and the outer side surface of the angle maintaining extension piece 620 faces the first inner side surface 220a, And the swing preventing extension piece 630 is extended toward the first inner side surface 220a so that the swinging restricting portion 600 is positioned on the four sides of each tube 210, The second bar 222, the third bar 223, and the fourth bar 224 are separated from each other when they are unfolded or folded.

When the first bar 221, the second bar 222, the third bar 223 and the fourth bar 224 are extended from the respective pipes 210, and a retaining piece 640 bent from the end of the strut 610 and fixed to an outer end edge of the restricting part supporting piece 270 as shown in FIG.

6 and 7, the outer frame 311 may be arranged in a plurality of rows and columns.

Here, the connecting rod 330 interconnects the outer frame 311 (hereinafter referred to as the second outer frame 311), which is disposed adjacent to the outer frame 311 (hereinafter referred to as the first outer frame 311).

The connecting rod 330 connects the ends of each of the plurality of turning rods 320 provided on the first outer frame 311 and the end of each of the plurality of turning rods 320 provided on the second outer frame 311 .

At this time, an interlocking rod 340 is arranged in parallel on the lower side of the first outer frame 311 and the second outer frame 311 to be orthogonal to each of the plurality of connecting rods 330.

Both ends of the link rod 350 are rotatably mounted on each of the plurality of link rods 330 and the link rod 340.

The connecting rod 330 and the connecting rod 340 are rotatably connected to both ends of the connecting rod 350 and the connecting rod 360 so that the connecting rod 360 is rotatably connected to the connecting rod 350 from the lower end of one of the connecting rods 350 And may further include a control rod 370 that extends in a gripable manner.

2 is fixed to the cropland 400 by using the fixing rod 120 and the tube 210 is inserted from the upper end of the supporting table 110 to the seating piece 130 Down.

When the first, second, third, and fourth bars 221, 222, 223, and 224 are unfolded from the respective pipes 210, the operator can maintain the overfitting restriction portion 600 at the installation angle.

Next, the operator moves the third unit 300 including the outer frame 311 to the first, second, third, and fourth bases provided in the first, second, third, and fourth bars 221, 222, 223, Is installed in each of the brackets (230, 240, 250, 260).

Next, the user completes the installation by lifting each tube 210 up to a certain height and fixing it with the fastening tool 140.

Hereinafter, the operation and effect of the installation module of the farming solar power generation facility according to the preferred embodiment of the present invention will be described.

First, the present invention comprises a first unit 100 including a support 110 erected and fixed on a cultivated land 400; A plurality of braces that are pivotally connected to the respective pipes 210 so as to be pivotally opened or folded and are connected to the upper and lower ends of the support pipe 110, A second unit 200 including a bar 220; An upper frame frame 310 supported by the upper ends of the plurality of brace bars 220 and a solar panel 500 arranged in a plurality of rows and columns on the upper frame frame 310, And a third unit 300 including a rotating rod 320 that rotates the optical panel 500. This arrangement can reduce the number of high-altitude work and greatly improve the installation and construction convenience.

Particularly, since the first unit 100, the second unit 200, and the third unit 300 are manufactured in a module form and are provided in a form in which they can be pre-worked, the modules can be easily assembled It is possible to greatly reduce the number of work hours and to save time and cost due to construction.

As described above, it is understood that the present invention is based on a technical idea to provide a module for installing an agricultural solar power generation facility that can significantly improve the convenience of construction such as assembly and installation.

It will be apparent to those skilled in the art that many other modifications and applications are possible within the scope of the basic technical idea of the present invention.

100 ... first unit
110 ... support
120 ... fixed rods
130 ... seat
140 ... fastener
200 ... second unit
210 ... each pipe
211 ... first side
212 ... second side
213 ... 3rd side
214 ... fourth side
220 ... Brace Bar
220a ... first inner side
220b ... second inner side
221 ... 1st bar
221d ... first lower end
221u ... first upper portion
222 ... 2nd bar
222d ... second lower end
222u ... second upper end
223 ... third bar
223d ... third lower end
223u ... second upper portion
224 ... fourth bar
224d ... fourth lower end
224u ... fourth upper end
230 ... first bracket
231 ... first base piece
232, 233 ... first reinforcing bending piece
234 ... first connecting bending piece
235, 236, ...,
240 ... second base bracket
241 ... second base piece
242, 243 ... second reinforcing bending piece
244 ... second connecting bending piece
245, 246, ...,
250 ... third base bracket
251 ... third base piece
252, 253 ... third reinforcing bending piece
254 ... third connecting bending piece
255, 256 ... Third partition wall
260 ... fourth base bracket
261 ... fourth base piece
262, 263 ... Fourth reinforcement bending piece
264 ... fourth connecting bending piece
265, 266 ... Fourth partition wall portion
270 ... regulating part supporting piece
280, 280 ... bar rotation supporting piece
290 ... pivot pin
300 ... third unit
310 ... upper frame frame
311 ... outer frame
312 ... intermediate frame
320 ...
330 ... connecting rod
340 ... interlocking rods
350 ... Link rod
360 ... Pivot joint
370 ... operation rod
400 ... cultivated land
500 ... solar panel
600 ... and a rotation restricting portion
610.
620 ... angle maintaining extension piece
630 ... Pivot prevention extension
640 ... engaging piece

Claims (5)

A first unit including a support stand erected on an arable land;
An upper and a lower end of which are inserted through the upper end of the support so as to be fixed to a predetermined height of the support, And a first upper end portion on which a first support bracket including a first lower end portion to be coupled and a first support piece for supporting and supporting the upper frame frame is mounted, And a second upper end portion on which a second support bracket including a second lower end portion that supports the upper frame frame and a second support piece that supports the upper frame frame is mounted, And a third upper end portion on which a third support bracket including a third lower end portion of the upper support frame and a third support piece supporting and supporting the upper frame frame is mounted, And a fourth bar having a fourth upper end mounted with a fourth support bracket including a fourth lower end portion rotatably coupled to a fourth surface of the tube and a fourth support piece supporting and supporting the upper frame frame, A brace bar having a plurality of braces, a plurality of brace bars mounted on four sides of each of the tubes, orthogonal to the four sides and providing an area in which a portion of the overturning restricting part is seated, A bar turning support piece extending from both side edges and being bent upward and facing each other, and both side surfaces of the lower ends of the first bar, the second bar, the third bar and the fourth bar are rotatably mounted; A second unit including a pair of opposite side surfaces of the lower end of each of the second bar, the third bar and the fourth bar, and a pivot pin connecting the pair of bar pivotal support pieces to each other;
An upper frame frame supported by an upper end of each of the plurality of brace bars; and a pivoting rod connected to the solar panel arranged in a plurality of rows and columns on the upper frame frame to rotate the solar panel A third unit; And
The first and second support pieces, the third support piece, and the fourth support piece are mounted on the lower side of the first bar, the second bar, the third bar, and the fourth bar, And an overturning restricting portion that maintains an angle (hereinafter referred to as an installation angle) that the first bar, the second bar, the third bar, and the fourth bar are extended with respect to the respective pipes,
The overturning restricting portion
A supporting piece resting on the upper surface of the restricting portion support piece when the first bar, the second bar, the third bar and the fourth bar are extended from the respective pipes,
An angle maintaining extension piece extending from the end portion of the supporting piece and bent at the installation angle and inserted and received from the lower end portions of the first bar, the second bar, the third bar and the fourth bar hollow,
And an anti-shake extension extending from an end of the angle maintaining extension piece and bent toward the first inner side of each of the first bar, the second bar, the third bar and the fourth bar,
The first surface facing the second surface, the third surface facing the fourth surface,
Wherein the first and second support pieces, the second support piece, the third support piece and the fourth support piece are arranged such that when the first bar, the second bar and the third bar and the fourth bar are unfolded with respect to the respective pipes, All of which are orthogonal to the four sides of the above-
Wherein the installation angle is held by a part of the overturning restricting portion which is seated on the restricting portion supporting piece,
Wherein the inner side surface of the angle holding extension piece is opposed to the outer circumferential surface of the pivot pin and the outer side surface of the angle holding extension piece is opposed to the second inside surface opposite to the first inside surface. Module for installation of the facility.
The method according to claim 1,
The first unit includes:
A fixed bar extending from a lower end of the support and embedded in the cultivated land to fix the support,
Further comprising: a seat disposed between the upper end of the fixing rod and the lower end of the support so as to restrict the falling of the tube from the lower end of the support to the lower end of the support.
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