KR102030147B1 - Footing structure for concrete base of solar photovoltaic structure - Google Patents

Abstract

The present invention relates to a concrete base structure for a photovoltaic structure, capable of being simply assembled in a prefabrication type. According to the present invention, the concrete base structure for a photovoltaic structure comprises: a lateral reinforcement plate (200) coupled to the upper part of a concrete block (100) installed on or under the ground and horizontally protruding from both sides of the concrete block (100); an integrated pillar coupling unit (300) coupled to the upper part of the lateral reinforcement plate (200) and including a horizontal planar support plate (310) and a pair of coupling plates (320); a pillar (400); and a connection clamp (500) coupled to the upper part of the pillar (400) and including a vertical planar coupling plate (510) and a plurality of second coupling holes (511).

Description

FOURTING STRUCTURE FOR CONCRETE BASE OF SOLAR PHOTOVOLTAIC STRUCTURE}

The present invention provides a support base foundation that can be easily and quickly manufactured on the ground of transportation facilities such as solar structures, fences, etc., and can be more firmly coupled to the combination of these struts connected to concrete blocks exposed to landfill or ground in the ground. It relates to a concrete base foundation structure of the solar structure to provide.

Generally, a solar power plant (also called a solar power generation system) is a collection of solar cell modules in which a plurality of solar cell modules are connected in series or in parallel.

Photovoltaic power generation systems are typically installed on land, where the solar cell modules are mounted on module support structures installed on land.

Conventional modular support structures include concrete structures embedded to a certain depth from the ground, reinforced structures provided inside the concrete structures, anchor bolts embedded in the concrete structures to protrude out of the concrete structures, struts coupled to the anchor bolts, anchors And nuts, each of which is fastened to the bolts to secure the strut. The solar cell module is mounted on the upper end of the post. In addition, a grounding structure is provided to prevent damage caused by lightning, and the grounding structure includes a plurality of grounding pins embedded in the ground, and grounding lines connecting the plurality of grounding rods and props.

The method of installing a conventional module support structure is as follows.

First, excavate the area and depth set in the ground, install the formwork in the excavation site, and reinforce the reinforced structure inside the formwork. And anchor anchor bolts are installed in the reinforcing structure and concrete is placed inside the formwork. After curing the poured concrete, the formwork is dismantled and the surroundings of the concrete structure are filled with soil. The struts are coupled to anchor bolts protruding from the concrete structure, and then the nut is fastened to the anchor bolts to fix the struts.

However, the conventional module support structure as described above is to install the formwork on the ground to install the photovoltaic power generation system, install the reinforcing structure and anchor bolts inside the formwork, cast concrete and cure the poured concrete Therefore, there is a disadvantage in that a lot of construction period and a lot of construction cost. In addition, since the access road of the vehicle must be secured in order to pour concrete, construction period and cost are further increased.

1. Republic of Korea Registered Patent No. 10-1879141 2. Republic of Korea Patent No. 10-1681308 (Name of the invention: the support structure of the tilt variable photovoltaic device)

The present invention has an object to solve the technical problem as described above, and can be installed easily assembled, while the concrete base of the solar structure that can more strongly support the rigidity of the support for supporting the photovoltaic device The purpose is to provide a basic structure.

In order to solve the problems described above, the problem is solved through the following embodiments.

The present invention for achieving the above object is a tetrahedron-type concrete block is exposed to the ground or the ground and the upper and lower surfaces are gradually reduced in area as the upper surface and the lower surface is gradually formed and a plurality of first bolt holes are formed on the upper surface,

The horizontal beam is coupled to the upper portion of the concrete block, a horizontal beam protruding horizontally to both sides of the concrete block having a larger width than the vertical width while forming a plurality of second bolt holes corresponding to the number and position of the first bolt hole A steel plate and a horizontal plate-shaped support plate coupled to an upper portion of the horizontal reinforcing plate and having a plurality of third bolt balls corresponding to the number and position of the second bolt holes, and an upper portion located inside the third bolt hole of the support plate. An integral strut coupling unit consisting of a pair of coupling plates each having a pair of first fastening holes formed on one surface facing each other while extending upwardly,

The lower end is seated between the coupling plates of the support coupling unit and is coupled upwardly by the fastening means through the second fastening hole corresponding to the first fastening hole, and the front side is vertically formed at both ends of the vertical plate by forming a vertical plate of a plate shape. One side plate which is connected in the longitudinal direction and is spaced on both sides at the rear side and formed in the left and right symmetry with each other, the horizontal cross section consisting of the bending tabs bent at the end of the side plate is bent at the end of the vertical plate. In this case, the receiving portion is formed between the fastening portion and the fastening portion, and in communication with one surface of the corresponding vertical plate on one surface of each of the two bending tabs of the upper portion of the support while being spaced in the longitudinal direction 1, the whole pillar of the coupling hole is formed,

It is coupled to the upper portion of the strut, and each of the front and rear sides of the vertical plate-shaped fastening plate and a plurality of horizontally spaced apart in the upper and lower portions of each of the fastening plate while forming a plate interconnecting the center between the fastening plate It provides a concrete base foundation structure of a solar structure composed of a connecting clamp is formed a second coupling hole.

On the other hand, the support lower portion of the first fixing sphere formed on the support plate between the coupling plate of the holding coupling unit and the second fixing sphere formed on one surface of the horizontal reinforcement plate corresponding to the first fixing sphere and the upper surface of the concrete block corresponding to the second fixing sphere. It provides a concrete base foundation structure of the solar structure passed through in the third fixture order.

On the other hand, the bolt body to be coupled and fastened in the order of the first bolt ball of the concrete block, the second bolt ball of the horizontal reinforcement plate, and the third bolt ball of the support coupling unit is provided, wherein the inner circumferential surface of the first bolt ball The lower portion of the bolt body is screwed to provide a concrete base foundation structure of the solar structure is fastened with a nut on the upper portion of the bolt body exposed to the upper third bolt hole.

The concrete base foundation structure of the solar structure according to the present invention made as described above is to be fixed to the horizontal reinforcement plate and the concrete block in the coupled state while surrounding the lower support by the support coupling unit for coupling the lower portion of the support, Reinforcing the lower part of the support unit to the support coupling unit, the reinforcing plate and the concrete block reinforces the coupling force of the support coupling unit has the effect of exhibiting a strong coupling force and support force of the support.

Then, the lower end of the support is fixed while accommodating and coupled, so that the fixing of the support is firmly secured and has the effect of improving the use efficiency.

Accordingly, the impact of the structure due to earthquakes and typhoons to reduce the impact and reduce the resistance has the effect of preventing damage or deformation of the shore.

In addition, the material composition, cost and cost of small and large orders are reduced in the field, so it has an economic effect.

1 is a structural diagram installed in a concrete base foundation structure of the solar structure of the present invention.
Figure 2 is a perspective view showing the structure of the concrete base foundation structure of the solar structure of the present invention.
Figure 3 is a separate view showing the coupling structure of the concrete block, transverse reinforcement plate and the strut coupling unit in the concrete base foundation structure of the solar structure of the present invention.
Figure 4 is an exploded view showing the coupling structure of the strut and the strut coupling unit in the concrete base foundation structure of the solar structure of the present invention.
Figure 5 is an exploded view showing the coupling structure of the support and the clamp in the concrete base foundation structure of the photovoltaic structure of the present invention.
Figure 6 is a view showing a cross section of the support (c) and a cross section of the connecting clamp in the concrete base foundation structure of the solar structure of the present invention (b).
Figure 7 is a separate view showing a state in which the support base is coupled to the first fixture of the strut coupling unit, the second fixture of the horizontal reinforcing plate and the third fixture of the concrete block in the concrete base foundation structure of the solar structure of the present invention.
Figure 8 is a perspective view of the first column pressure plate is installed on the support in the concrete base foundation structure of the solar structure of the present invention.
9 is a view showing a cross-sectional view of a state in which the first column pressure plate is coupled to the strut in the concrete base foundation structure of the photovoltaic structure of the present invention (a) and a plane of the first column pressure plate (b).
FIG. 10 is a view showing a structure in which the first column pressure plate and the first column pressure plate are connected to each other by reinforcing rods in the concrete base foundation structure of the solar structure of the present invention. FIG.
11 is a perspective view showing a state in which the second column pressure plate coupled to the support in the concrete base foundation structure of the solar structure of the present invention.
12 is a perspective view showing the structure of the second column pressure plate in the concrete base foundation structure of the solar structure of the present invention.

In order to achieve the above object, the following embodiments will be described in detail with reference to the accompanying drawings.

Concrete base foundation structure 10 of the photovoltaic structure of the present invention is a structure that is installed to fix the struts for fixing the photovoltaic module of the solar installation from the ground, the description of the photovoltaic module applies a known technique Omitted to omit, the concrete base foundation structure 10 of the photovoltaic structure of the present invention is not limited to the photovoltaic equipment, but also reveals that it can be applied to traffic lights, fences and the like for road traffic facilities.

1 to 6 as the upper surface and the lower surface is exposed to the ground or the ground as shown in Figure 1 to 6 while forming a horizontal plane gradually toward the upper area of the slope of the plurality of first bolt hole 101 is formed on the upper surface The body-shaped concrete block 100, coupled to the upper portion of the concrete block 100, a plurality of second bolt holes 201 corresponding to the number and position of the first bolt hole 101 is formed in the vertical width Compared to the horizontal reinforcing plate 200 and the horizontal reinforcing plate 200, the horizontal reinforcing plate 200 has a length greater than the horizontal block having a larger length than the second bolt hole 201 and A horizontal plate-shaped support plate 310 having a plurality of third bolt holes 311 corresponding to positions formed therein and upwardly spaced upwardly spaced upwardly in the third bolt hole 311 of the support plate 310 face each other. A pair of first fastening holes 321 on one side of each The lower end portion is seated between the integrated support coupling unit 300 and the coupling plate 320 of the support coupling unit 300 formed by a pair of coupling plates 320 formed to correspond to the first fastening hole 321. It is coupled by the fastening means through the second fastening hole 401 and is extended upward, and the front side is formed in the vertical plate 410 of the plate-type connected in the vertical length direction of both ends of the vertical plate 410 spaced apart on both sides at the rear side. Positioned side by side symmetric with each other and the side plate 421 is bent at the end of the vertical plate 410, the horizontal section consisting of the bending tab 422 is bent at the end of the side plate 421 is a "b" type fastening portion ( It has an integral structure consisting of 420, wherein the receiving portion 430 is formed between the fastening portion 420 and the fastening portion 420, and on one surface of each of the two side bending tabs 422 While communicating with one surface of the corresponding vertical plate 410 is spaced apart in the vertical direction Of the first coupling ball holding 400 of the integral that is (422-1) it is formed and,

The fastening plate is coupled to an upper portion of the support 400, and forms a diaphragm 520 interconnecting a center between the fastening plate 510 and the fastening plate 510 of a vertical plate type on each of the front and rear sides. 510 is a concrete base foundation structure (10, hereinafter 'base structure') of the solar structure composed of a connecting clamp 500 is formed with a plurality of second coupling holes 511 spaced apart in the horizontal direction on each of the top and bottom Is referred to as.

Basic structure 10 of the present invention is composed of a concrete block 100, horizontal reinforcement plate 200, strut coupling unit 300, strut 400 and the connection clamp 500 as shown in Figure 1 and 2 It has an integral coupling structure.

As shown in FIG. 3, the concrete block 100 is produced by pouring concrete into a molding mold (not shown), and is exposed to the ground or the ground, and the upper and lower surfaces form a horizontal surface, gradually increasing the area toward the top. It becomes smaller and has a structure in which a plurality of spaced first bolt holes 101 are formed on the upper surface.

And, as shown in Figure 3, the horizontal reinforcing plate 200 is seated on the horizontal surface of the upper surface of the concrete block 100, at this time the number and position of the first bolt hole 101 of the concrete block 100 A plurality of second bolt holes 201 corresponding to each other are formed, and the width of the horizontal reinforcing plate 200 is greater than that of the vertical width. It has a horizontal plate-type metal material which can have a large vertical width.

3 and 4, the strut coupling unit 300 is coupled to an upper portion of the horizontal reinforcing plate 200, and has an integral structure composed of a lower support plate 310 and an upper coupling plate 320. The support plate 310 has a plurality of third bolt holes 311 corresponding to the number and position of the second bolt holes 201 of the horizontal reinforcing plate 200, wherein the support plate 310 of the The vertical width is a horizontal plate type having a size proportional to the vertical width of the horizontal reinforcing plate 200, the coupling plate 320 is a predetermined length so as to be spaced apart from the top located inside the third bolt hole 311 of the support plate 310 A pair of first fastening holes 321 communicating with one surface facing each other while extending upwardly to each other are formed.

And, as shown in Figure 4, 5 and 6 (a) the strut 400 is the lower end is bound between the coupling plate 320 and the coupling plate 320 of the strut coupling unit 300 is vertical A fastening means such as a bolt and a nut is used through the second fastening hole 401 having a length extending upward and corresponding to the first fastening hole 321 formed in the coupling plate 320 of the strut coupling unit 300. It is coupled to each other, the front side of the support (400) forms a vertical plate 410 of the plate-like, the vertical plate 410 is connected to both ends in the vertical length direction to be spaced apart on both sides of the rear side and formed in left and right symmetry An integrated structure composed of a “b” shaped fastening part 420 consisting of a side plate 421 bent at the end of the direct plate 420 and a bending tab 422 bent inward from the end of the side plate 421. In this case, the first fastening hole 321 formed in the coupling plate 320 of the support coupling unit 300 The second fastening hole 401 is formed in each of the bending tabs 422 formed on both sides of the rear side of the vertical plate 410 of the support 400, and at this time, the bending tabs 422 and bending formed at both rear sides of the support 400 are formed. The tabs 422 are spaced apart from each other with a predetermined horizontal space width in the vertical length direction, that is, the fastening part 420 has an open shape which is cut in a predetermined width in the vertical length direction of the rear center of the post 400. The receiving space portion 430 is formed between the fastening portion 420 and vertically communicated with one surface of the vertical plate 410 corresponding to one surface of each of the two side bending tabs 422 of the upper portion of the support 400. A plurality of first coupling holes 422-1 are formed to be spaced apart in the longitudinal direction.

5 and 6 (b), the connection clamp 500 is coupled to an upper portion of the support 400, and a vertical plate-type fastening plate 510 and the fastening plate respectively at the front side and the rear side. The upper end of the support 400 is bound to an empty space formed in the lower portion of the plate 520 between the fastening plate 510 by forming a horizontal plate-shaped diaphragm 520 interconnecting the center between the 510, A plurality of second coupling holes 511 are formed in the upper and lower portions of each of the fastening plates 520, respectively, so as to be spaced apart in the horizontal length direction. In this case, a plurality of second coupling holes 511 are formed on the connection clamp 500. When the support (not shown) for supporting another support 400 or a solar module (not shown) into an empty space is coupled to the support clamp 500 to adjust the horizontal or the direction of the support 400 or the solar module when the coupling (500) First coupling hole 422-1 formed in the upper bending tab 422 of the support 400 while moving up and down Any one to communicate with the second coupling hole 511 is fixedly coupled by the fastening means.

In addition, as shown in FIG. 7, a lower portion of the support 400 is formed on the first fixing tool 312 and the first fixing tool 312 formed on the support plate 310 between the coupling plates 320 of the support coupling unit 300. The base structure is passed through the second fixing sphere 202 formed on one surface of the corresponding horizontal reinforcement plate 200 and the third fixing sphere 102 in order to pass through the upper surface of the concrete block 100 corresponding to the second fixing sphere 202 ( 10) to provide.

The first fixture 312 is a shape that penetrates the upper and lower portions on one surface of the support plate 310 between the coupling plate 320 and the coupling plate 320 of the support coupling unit 300, the second fixture 202 Is a shape that penetrates the upper and lower portions on one surface of the horizontal reinforcing plate 200 at a position corresponding to the first fixing tool 312 of the support coupling unit 300, and the third fixing hole 102 of the horizontal reinforcing plate 200 The upper surface of the concrete block 100 at a position corresponding to the second fixing tool 202 has a shape that is through the predetermined length therein.

Thus, by having a structure in which the third fixing sphere 102 of the concrete block 100, the second fixing sphere 202 of the horizontal reinforcing plate 200 and the first fixing sphere 312 of the strut coupling unit 300 communicate with each other. A lower portion of the support 400 is inserted between the coupling plate 320 and the coupling plate 320 of the support coupling unit 300 in order of the first fastener 312, the second fastener 202, and the third fastener 102. The lower end of the support (400) is inserted and seated on the bottom of the third fixture (102).

In addition, as shown in FIG. 3, the first bolt hole 101 of the concrete block 100, the second bolt hole 201 of the horizontal reinforcing plate 200, and the third bolt hole of the strut coupling unit 300 are shown. A bolt body 110 which is bound and fastened in the order is provided, wherein the inner circumferential surface of the first bolt hole 101 and the lower portion of the bolt body 110 are screwed to the upper portion of the third bolt hole 311. It provides a base structure 10 that is screwed with a nut on the top of the exposed bolt body (110).

By using only the bolt body 110 in which the head of the existing bolt is excluded in the first bolt hole 101 of the concrete block 100, the screw thread on the inner circumferential surface of the first bolt hole 101 and the thread on the outer circumferential surface of the bolt body 110. The lower part of the bolt body 110 is coupled and fixed to the first bolt hole 101 by screwing, and the upper part of the bolt body 110 protrudes to a predetermined vertical length to the upper part of the first bolt hole 101, wherein the horizontal reinforcing plate ( A part of the upper part of the bolt body 110 is exposed to the upper part of the third bolt ball 311 through the second bolt ball 201 of the 200 and the third bolt ball 311 of the support coupling unit 300, and the nut 25. By screwing the upper portion of the exposed bolt body (110) using the horizontal reinforcement plate 200 and the holding coupling unit 300 is coupled to the upper portion of the concrete block (100).

In addition, as shown in Figure 8 and 9 installed between the fastening portion 420 and the fastening portion 420 formed on both sides of the rear side of the support 400 is installed in a plurality of spaced apart in the vertical length direction of the support (400) And the close contact portion 610 and the close contact portion 610 forming a space therein by having a shape corresponding to the shape of the receiving space portion 430 while being accommodated in the receiving space portion 430 between the two fastening portions 420. It is radially connected to the close contact portion 610 in the outer peripheral surface of the reference rod 620 based on the cylindrical reference rod 620 formed with a first insertion hole 621 penetrating the upper and lower portions in the inner center of the portion 610. Provided is a foundation structure 10 further includes an integral first column pressure plate 600a forming a plurality of reinforcement bars 630 disposed therein.

The first holding pressure plate 600a is provided in the accommodation space 430 formed between the fastening portion 420 and the fastening portion 420 of the support 400 to reinforce the rigidity of the support 400. Is installed in a plurality of equal intervals in the vertical length direction of the, the close contact portion 610 as the border as shown in Fig. 9 (b) has a shape corresponding to the shape of the receiving space portion 430 of the holding portion 400 receiving space portion 430 is in close contact with the outer peripheral surface of the reference rod 620 while a cylindrical reference rod 620 is formed in the inner center of the close contact portion 610, the first insertion hole 621 is formed to penetrate through the upper and lower parts; The first support inner pressure plate 600a having an integral structure including a reinforcement bar 630 connected to each other on the inner circumferential surface of the close contact part 610 includes a plurality of radially reinforcing bars 430. Is installed on.

In addition, when the first column pressure plate 600a is fixed to the column 400, the vertical plate 410 of the column 400 is closely contacted with the first column pressure plate 600a which is interviewed on the rear surface of the vertical plate 410. Fastening by fastening means using the fastening means to the part 610, and fastening fixed by using fastening means to the close contact portion 610 to be interviewed to the bending tab 422 and the bending tab 422 of the support (400). The first column pressure plate 600a is fixed to the 400.

In addition, as shown in Figure 10 are connected to each other through the first insertion port 621 of the reference rod 620 of the first holding pressure plate 600a formed in a plurality of spaced apart in the receiving space portion 430 of the support (400) The reinforcing rod 700 is further included, and the reinforcing rod 700 is connected to the first insertion hole 621 of the first holding pressure plate 600a disposed in the vertical length direction, and the first holding pressure plate 600a. By connecting between the) is to be installed along the vertical length direction of the support (400).

In addition, as shown in FIG. 11 and FIG. 12, it is installed to reinforce the rigidity of the support 400, and is formed between the ends of the bending tab 422 and the ends of the bending tab 422 formed on both rear sides of the support 400. Reinforcement pipe 640 of the square beam form having a width corresponding to the width and the one side is interviewed to the back of the vertical plate 410 of the support (400) to form a second insertion hole 641 penetrating the upper and lower portions therein And fitting grooves having protruding portions formed on both sides of the reinforcement pipes 640, respectively, and having fitting grooves 651 formed in left and right symmetry so as to fit the bent tabs 422 formed on both rear sides of the support 400, respectively. A second column pressure plate 600b having an integrated structure composed of 650 is included.

Then, when the second holding pressure plate 600b is fastened and fixed to the support 400, the vertical plate 410 of the support 400 and the second holding pressure plate 600b which are interviewed on the rear surface of the vertical plate 410. The reinforcement pipe 640 is fixed using the fastening means or the fastening tab 422 of the support 400 and the fitting piece 650 is fitted to the bent tab 422 is fixed using the fastening means.

In addition, although not shown in the drawings, the second insertion hole 641 of the plurality of spaced apart second column pressure plate 600b coupled to the support 400 is formed in the second insertion hole 641 through the second insertion hole 641. By inserting the reinforcing rod 700 having a corresponding shape to connect the second column pressure plate 600b to each other to increase the binding force of the support (400), and serves to reinforce the rigidity of the support (400).

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art will appreciate that various modifications and changes can be made without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical idea of the present embodiment but to describe the embodiments, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

Foundation Structure 10 Concrete Block 100 First Bolt Ball 101
Third Fixture 102 Bolt Body 110 Horizontal Reinforcement Plate 200
2nd bolt hole 201 2nd fixture 202 Strut coupling unit 300
Support Plate 310 3rd Bolt Ball 311 1st Fixture 312
Joining plate 320 First fastener 321 Shore 400
2nd fastening hole 401 vertical plate 410 fastening part 420
Side plate 421 Bending tab 422 First coupling hole 422-1
Connecting clamp 500 Fastening plate 510 Second engagement hole 511
520 First holding pressure plate 600a Second holding pressure plate 600b
Contact Part 610 Reference Bar 620 Insertion Hole 621
Reinforcement Bar 630 Reinforcement Pipe 640 2nd Insertion Port 641
Fitting 650 Fitting groove 651 Reinforcing rod 700

Claims (6)

A tetrahedral concrete block 100 having an upper surface and a lower surface exposed to the ground or the ground and gradually forming an upper surface and a lower surface thereof and gradually forming a horizontal surface and having a plurality of first bolt holes 101 formed on the upper surface;
It is coupled to the upper portion of the concrete block 100, a plurality of second bolt hole 201 corresponding to the number and position of the first bolt hole 101 is formed while the width is larger than the vertical width Take horizontal reinforcing plate 200 to protrude horizontally on both sides of the concrete block 100; And,
It is coupled to the upper portion of the horizontal reinforcing plate 200, the horizontal plate-like support plate 310 and the support plate is formed a plurality of third bolt hole 311 corresponding to the number and position of the second bolt hole (201) It is composed of a pair of coupling plate 320 formed with a pair of first fastening holes 321 on one surface facing each other while extending upwardly spaced to the upper portion located inside the third bolt hole 311 of 310 (310) Integral strut coupling unit 300; and,
A lower end is seated between the coupling plates 320 of the support coupling unit 300 and is coupled upwardly by a fastening means through a second fastening hole 401 corresponding to the first fastening hole 321, and the front side is plated. Side plate 421 is bent at the end of the vertical plate 410 is formed by forming a vertical plate 410 of the type and connected in the vertical length direction of both ends of the vertical plate 410 and are spaced on both sides at the rear side and formed bilaterally to each other. The horizontal section consisting of the bending tab 422 bent at the end of the side plate 421 has an integral structure consisting of a fastening portion 420 of the "b" type, wherein the fastening portion 420 and the fastening portion ( 420 is formed between the receiving space portion 430, and a plurality of first coupling to be spaced in the vertical direction while communicating with one surface of the vertical plate 410 corresponding to one surface of each of the both sides of the bending tab 422 Integral strut 400 formed with a ball 422-1; and
The fastening plate is coupled to an upper portion of the support 400, and forms a diaphragm 520 interconnecting a center between the fastening plate 510 and the fastening plate 510 of a vertical plate type on each of the front and rear sides. A connection clamp 500 having a plurality of second coupling holes 511 spaced apart from each other in the upper and lower portions in a horizontal direction; And,
Between the fastening portion 420 and the fastening portion 420 formed on both sides of the rear side of the support 400 is installed in a plurality of spaced apart in the vertical length direction of the support (400), between the two fastening portion 420 The upper and lower portions in the inner center of the close contact portion 610 and the close contact portion 610 has a shape corresponding to the shape of the receiving space portion 430 is formed in the receiving space portion 430 and close to the inside A plurality of reinforcement teeth 630 are formed to be radially connected to the close contact portion 610 on the outer circumferential surface of the reference rod 620 based on the cylindrical reference rod 620 having the first insertion hole 621 formed therethrough. A concrete base foundation structure of a solar structure, characterized in that consisting of; first integral column pressure plate (600a). According to claim 1, wherein the support (400) lower portion corresponding to the first fixing sphere 312 and the first fixing sphere formed on the support plate 310 between the coupling plate 320 of the support coupling unit 300 The second fastener 202 formed on one side of the horizontal reinforcing plate 200 and the sun is characterized in that passing through the third fastener 102 in the upper surface of the concrete block 100 corresponding to the second fastener 202 in the order Concrete base foundation structure of light structure. According to claim 1, The first bolt hole 101 of the concrete block 100, the second bolt hole 201 of the horizontal reinforcing plate 200, and the third bolt hole 311 of the strut coupling unit 300 The bolt body 110 which is bound and fastened in order is provided, and at this time, the inner circumferential surface of the first bolt hole 101 and the lower portion of the bolt body 110 are screwed to expose the upper portion of the third bolt hole 311. Concrete base foundation structure of the solar structure, characterized in that the screwed to the upper portion of the bolt body (110). delete According to claim 1, Between the fastening portion 420 and the fastening portion 420 formed on both sides of the rear side of the support 400 so that the first holding pressure plate 600a is not installed to reinforce the rigidity of the support 400 As installed, one side is a rear surface of the vertical plate 410 of the support (400) while having a width corresponding to the width between the end of the bending tab 422 and the end of the bending tab 422 formed on both rear sides of the support (400) Reinforcing pipe 640 and the other side of the reinforcing pipe 640 of the square beam form is formed to be interviewed in the second insertion hole 641 penetrating to the upper and lower inside, respectively, the rear side of the support 400 The second holding pressure plate 600b having an integrated structure further includes a fitting piece 650 formed with fitting grooves 651 formed to be bilaterally symmetric with each other so as to respectively fit the bent tabs 422 formed at both sides. Concrete base foundation structure of a solar structure, characterized in that the. According to claim 1 or 5, wherein the reference rods of the plurality of first column pressure plate 600a formed of a plurality of spaced coupled to the support 400 of the first insertion port 621 or the second column pressure plate 600b First reinforcement pressure plate 600a by inserting a reinforcing rod 700 having a shape corresponding to the first insertion hole 621 and the second insertion hole 641 through the second insertion hole 641 of the reinforcement pipe 640 or The concrete base foundation structure of the solar structure, characterized in that connecting the second column pressure plate (600b) to each other.

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