KR101503139B1 - Block system for supporting a plurality of solarcell module system and constructing methoth thereof - Google Patents

Abstract

The present invention provides a block system for supporting a plurality of solar cell modules and a method of constructing the same, the method comprising positioning a concrete block having a through hole and an engagement groove in a center of a foundation structure with respect to a support supporting the upper structure, A plurality of echo blocks of the first and second types are arranged on both sides of the echo blocks, and first type fixing plates which are fixed at predetermined positions by a shear key are arranged between the echo blocks, Two types of fixing plates are installed at the outermost sides of the echo blocks arranged in a row, and the post tension bar is inserted through the center of the fixing plate and the outermost fixing plates between the concrete block, the plurality of echo blocks and the echo blocks, The concrete block, the eco-blocks and the fixing plates are integrally joined to each other at the ends of the post tension bar so as to have a tensile stress do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a block system for supporting a plurality of solar cell modules,

The present invention provides a block system for supporting a plurality of solar cell modules having a base structure for supporting an upper structure of a photovoltaic power generation facility comprising a plurality of solar cell modules in a pyramidal structure or a building, and a method of constructing the same.

In recent years, the number of cases in which separate structures, particularly solar power generation facilities, are installed in buildings is increasing. For example, a solar power plant will be installed on the roof of Pylazavian architecture. For this purpose, a number of solar cell modules, which are the main facilities of photovoltaic power generation, are installed by fixing the roof concrete layer and the waterproof layer laid thereon by steel anchoring method or by installing a concrete block which is a new fixing base Because it has a considerable load, damage to an existing building or mounting load becomes heavy, so there is a restriction on the capacity associated with the number of solar cell modules to be installed. Also, according to the conventional method of installing the solar cell module of the photovoltaic power generation facility in the existing building, the problem of the waterproofing has to be solved or the structural limit of minimizing the influence of the weather or the weather has not been escaped.

Further, considering that the use time of the solar cell module is at least 20 years, there has not been considered the fact that the maintenance of the photovoltaic power generation supporting this should be easy.

In view of these points, in order to support a plurality of solar cell modules during the installation of solar power generation facilities, it is necessary to prevent the damage due to the piercing of the concrete layer and the waterproof layer, It can be seen that it is highly desirable to secure the stability of

Depending on the size of the solar power generation facility, the shape, structure and construction method of a structure supporting a plurality of solar cell modules can be easily changed, and correction and rework of the foundation structure due to construction errors should be easy.

It is possible to maintain the service life of more than 20 years of foundation structure supporting many solar cell modules, it is possible to reinforce foundation structure at any time regardless of weather, It is not slippery, especially the quality is uniform, and it should be able to be done by an unskilled worker.

An object of the present invention is to provide a block system for supporting a plurality of solar cell modules having a base structure for supporting an upper structure of a photovoltaic power generation facility composed of a plurality of solar cell modules in a pyramidal structure or a building, I have to.

It is another object of the present invention to provide a solar cell module in which a base structure composed of a precasting eco block (hereinafter referred to as an echo block) supporting a plurality of solar cell modules of a photovoltaic power generation facility and post tension bars is a constriction And a method of constructing the block system for supporting a plurality of solar cell modules, the method being capable of adjusting the load to be less than a design load imposed without damaging the facilities of the solar cell module.

It is still another object of the present invention to provide a solar cell module that can be easily deformed even when the shape, structure, and method of supporting a plurality of solar cell modules are installed and can be corrected and reworked due to construction errors of the foundation structure It is an object of the present invention to provide a block system for supporting a plurality of solar cell modules and a method of constructing the same.

According to the present invention, a block system for supporting a plurality of solar cell modules comprises an upper structure having a support directly supporting a plurality of solar cell modules aligned and fixed to a frame, A concrete block having a first joint hole penetrating through the center thereof, the concrete block being made of a rectangular mold so as to be easily moved with a uniform quality and strength under a pressure corresponding to the load of the upper structure; A pre-cast concrete is manufactured, the concrete block is centered and fixed on both sides and selected as a number having a length corresponding to the value of the moment transmitted by the upper structure, and a second fitting hole penetrating the body is formed A plurality of echo blocks; One or more shear keys disposed between the plurality of echo blocks and protruding downward at positions adjacent to both sides of the lower surface thereof in order to resist the conduction moment applied to the echo block and prevent twisting of the echo block, A fusing plate having a through-hole formed therein; After the concrete block, the plurality of echo blocks and the fixing plates are arranged, a tension bar passing through the first and second coupling holes at the centers thereof, a torsion preventing key is formed at both ends of the tension bar so as to resist the twisting force And post tension bars which are inserted into the anti-twist key to form a concrete block, and a plurality of eccol blocks and fixing plates which are closely coupled to each other.

 The eco-block includes a first type in which a first coupling groove is formed in the center of the first coupling groove and a second groove is formed in the periphery of the second coupling hole, A second type in which first protrusions each having a predetermined size of a square or a straight hexagonal shape are formed and a first groove and a second groove of a square type or a straight hexagonal shape having a predetermined size on the front and rear surfaces around the second fitting hole, And a third type of two echo blocks of first and second types each having a first protrusion.

The fixing plate may be made of steel or the like and is formed of first and second types in which a second groove and a second projection are formed in the shape of either a straight hexagonal shape or a square shape around the center of the third fitting hole, And the second groove and the second protrusions are combined with the echo block and function as a position key installed at the outermost of the echo blocks.

A method of constructing a block system for supporting a plurality of solar cell modules includes placing a concrete block in a center of a foundation structure with respect to a support for supporting the upper structure, arranging a plurality of echo blocks on both sides around the concrete block The fixing plates are arranged between the echo blocks at a predetermined position by means of a shear key. The fixing plates are installed at the outermost positions of the echo blocks on which another fixing plate is arranged. The post tension bar is disposed between the concrete blocks, the echo blocks and the echo blocks And a step of inserting the concrete block, the echo blocks and the fixing plates integrally with each other so as to have a tensile stress by using the anti-torsion key at the end of the post tension bar, through the center of the fixing plate and the outermost fixing plates .

The construction method of a block system for supporting a plurality of solar cell modules additionally makes it possible to construct another echo block above the concrete block.

In addition, in the method of constructing a block system for supporting a plurality of solar cell modules, the echo blocks are longitudinally arranged in the concrete block by holes passing through the center of the concrete blocks, and tension bars are passed through the upper and lower portions of the eco- Holes are formed and a plurality of echo blocks are arranged on both sides thereof, a fusing plate is arranged between the echo blocks, and another fusing plate is assembled by combining another fusing plate with the outermost echo blocks.

Therefore, the present invention eliminates damage caused by waterproofing of preexisting facilities or existing buildings, assures stability by adjusting the weight of the equipments or supporting structures of a plurality of solar cell modules, It is possible to reinforce and modify according to the method, and it is easy to correct and rework due to construction error of foundation work, guarantee the use period (more than 20 years) of fixture and maintenance, It is possible to install the structure, the base of the foundation structure is not conducted or slipped by the wind load, and it is possible to make the quality uniform even by the unskilled worker.

1 is a view showing a state in which an upper structure is installed on a roof,
Fig. 2 is a perspective view showing a practical example in which the upper structure of Fig. 1 is installed on the roof of a plurality of buildings,
3 is a cross-sectional view showing an installation state in which an anchor is inserted into a roof of a building according to a conventional installation method,
FIG. 4 is a cross-sectional view showing a method of installing a conventional wet concrete pouring method by perforating and installing,
5 is a side cross-sectional view of a block system constructed using a concrete block, at least one echo block, at least one fusing plate and a base structure comprising post tension bars according to the present invention,
6 is a perspective view of a fixing plate and a post tension bar for end connection of echo blocks according to the present invention,
Figs. 7, a and b are views showing left and right perspective views of first, second and third types of echo blocks according to the present invention, respectively,
FIGS. 8, a and b are views showing left and right perspective views of first and second types of fixing plates according to the present invention, respectively,
FIG. 9 is a sectional view showing a method of connecting a concrete block and an eco-block using a fixture according to another embodiment of the present invention,
10 is a side cross-sectional view showing a method of constructing a block system as a foundation structure comprising a concrete block, an echo block, a fixture, one or more fixing plates and post tension bars of FIG. 9,
11 is a sectional view showing a method of connecting a concrete block and an eco-block, which are formed on the upper side with coupling grooves other than both sides, according to another embodiment of the present invention by using a fixture,
Fig. 12 is a side view showing a method of constructing a block system as a foundation structure composed of an echo block, a fixture, one or more fixation plates and post tension bars by placing the echo block on the concrete block of Fig. 11 Sectional view,
According to another embodiment of the present invention, in addition to the coupling grooves formed on both sides, a concrete block having separate coupling grooves formed on the upper and lower sides of another side surface, and a concrete block connecting the other eco- Fig.

The present invention provides a solar cell module power plant 10, which is constructed in a number of independent structures, is installed on a concrete floor on the roof of a building or in an existing facility (not shown).

As shown in FIGS. 1 to 3, a single power generation facility 10 is installed on a roof (not shown) of a small building or a plurality of power generation facilities 10 is installed in a large building 19, It is installed on the top or roof of the building.

The solar cell module power generation facility 10 generally comprises a frame 12 for fixing a plurality of solar cell modules 11 to one plane, at least one support column or support 13). The supporting base 13 is provided on the floor surface 14 to be installed on the roof or on the bottom surface 14 so that the fixing base 15 having a somewhat large area is inserted into the concrete layer or the waterproof layer on the floor, have. At this time, damage to the concrete layer or the waterproof layer on the concrete layer can not be avoided.

In order to avoid such damage, a separate support structure (not shown) for holding the solar cell module power generation facility 10 by using a rectangular or rectangular parallelepiped block 18 having a constant load as shown in FIGS. 1 and 4 Can be used.

However, since the structure of the known technology manufactured by such a single block is manufactured with heavy load to cope with the weight of the solar cell module power generation facility 10 as well as the climate, especially the wind, so as to have the support force of the support structure according to the load of the power generation facility, This is a burden on the user, which is detrimental to stability. Also, it is difficult to deform and maintain the shape and structure of the support structure, and it is not easy to change the design due to the construction error.

Meanwhile, the block system 20 according to the present invention is a block system 20 constructed to apply a tensile stress to a foundation structure composed of a precasting eco block, a fixing plate, a post tension bar, etc. using a post tension method A block system for supporting the solar cell module is shown. In the drawings, the same components are denoted by the same reference numerals and the description thereof is omitted.

 As shown in Fig. 5, the block system 20 has a base structure that is built on the floor of a rooftop in a relatively simple structure. This foundation structure comprises an iron box or concrete block (not shown) which fixes the support 13 directly supporting a plurality of solar cell modules 12 aligned and fixed to the frame 11 by means of the base 15 and the anchor 16 (22), and echo blocks (21) arranged in a constant pattern around the concrete block (22). Here, the concrete block 22 is provided with a first engagement hole 26 through which the center of the concrete block 22 passes, so that it passes through the tension bar 23 described later.

The concrete block 22 must be of uniform quality and strength under the load of the upper structure. In order to reduce the cost, the concrete block 22 can be manufactured using a mold in a concrete factory, The distribution of the force can be made into a uniform square.

In this embodiment, the eco-block 21 is made of precast concrete as a material considering environmental pollution, and a first joint hole 26 (see Fig. 5) And are arranged at both sides in the center, and are selected as the number having a load corresponding to a length corresponding to the value of the moment transmitted by the upper structure.

In addition, the block system 20 includes a fusing plate 24 installed between the plurality of echo blocks 21 and made of steel to resist the conductive force applied to the echo blocks 21 to prevent twisting of the echo blocks 21, A post tension bar 30 for integrally fixing and integrally fixing the concrete block 22, the eco block 21 and the fusing plate 24 so as to oppose the conduction moment by the upper structure as described later, Respectively.

Here, the fixing plate 24 is formed in a self-adhesive manner and has a depth not exceeding the waterproof layer, for example, a shear key 25 (FIG. 6) having a height of about 30 to 40 mm protruding from the lower surface adjacent to both sides, It is fixed and counteracts the shear moment. The concrete block 22, the eco-block 21 and the fusing plate 24 are provided with first and second engagement holes 26, 27, 28) are perforated. At both ends of the post tension bar 25, a torsion preventing key 29 is formed as described later.

Therefore, with respect to the support 13 supporting the superstructure, the block system 20 is constituted by the main foundation structures, and as shown in the figure, a plurality of concrete blocks 22 on both sides around the support block 13 vertically supporting the support 13 Echo blocks 21 are arranged. Fixing plates 24 are fixed at predetermined positions by a front end key 25 at a lower portion between the echo blocks 21 and the fixing plate 24 is installed at an outermost position, The concrete block 22, the eco-block 21 and the fusing plate 24 are integrally joined to each other with tensile stress using the anti-torsion key 29 at the end.

6, the fusing plate 24, which is fixed to the outermost periphery as shown in Fig. 6, is engaged with the anti-torsion key 29 of the post tension bar 30 And a coupling hole 31 such as a bolt. The torsion preventing key 29 is formed with a helical portion which is engaged with the coupling hole 31 to resist the torsional force of the tension bar 23.

As shown in left and right perspective views of the structure of the echo block in FIGS. 7A, 7B and 7C, the echo block 21 can be formed into three types according to the installation position. The echo block 21 has a second engaging hole 27 at the center thereof and a second engaging hole 27 formed at the center of the first engaging hole 27 so as to surround the first engaging hole 27, Type echo block. On the other hand, the echo block 21 is a second type echo block having a square or a straight hexagonal first protrusion 33 of a predetermined size on the periphery of the second coupling hole 27. The echo block 21 is made up of two echo blocks. The first echo block 21 has a square shape or a first hexagonal first groove 32 of a predetermined size on the front and back surfaces of the second coupling hole 27, And a second type echo block having a square or rectangular hexagonal first protrusion 33 of a predetermined size on the front and back surfaces of the echo block and the second coupling hole 27, . The three echo blocks 21 facilitate a plurality of assemblies by joining the first recesses 32 and the first protrusions 33 having the same height and size. Here, the first groove 32 and the first projection 33 function as a position key for coupling with each other.

8A and 8B, the fusing plate 24 may be made of steel or the like, as in the case of the eco-block 21, as shown in left and right perspective views of the structure of the fusing plate 24, And a second groove 35 and a second projection 36 are formed in a substantially hexagonal or square shape around the center of the first and second fixing plates. Here, the second groove 35 and the second projection 36 function as a position key which is coupled with the echo block 21 or is installed at the outermost position of the echo block 21. [

According to another embodiment of the present invention, the same components of the block system as shown in Figs. 9 and 10 are denoted by the same reference numerals.

As shown in Fig. 9, the block system 20 may have a configuration in which the concrete block 22 and the echo block 21 are coupled to each other, and may be formed of the same material. For this purpose, the concrete block 22 and the echo block 21 have the same structure for joining together.

First concave grooves 41 are formed on one side of the left and right sides of the concrete block 22 through which the tension bar 23 passes, upper and lower portions of the front and rear side surfaces, and one side of the echo block 21. The first engaging groove 41 is formed by a groove that is narrowed in depth and slightly widened to the outside and one or more key grooves 42 are formed on an inner periphery thereof. A seating groove 47 is formed.

The fixing block 50 for allowing the tension block 23 passing through the concrete block 22 and the echo block 21 to pass therethrough is inserted into and engaged with the first coupling groove 41. The first engaging groove 41 is formed with a guide groove 42 extending from the upper portion to the lower portion around the inner circumference and a fixing groove 47 formed adjacent to the guide groove 42. The fixture 50 has a truncated conical shape in which the body of the fixture 50 is fitted into the first engagement groove 41 and at least one engagement key 45 for moving along the guide groove 42 around the circumference of the lower end is formed, 46 are formed in a size smaller than the body. The fixture 50 is fixed to the echo block 21 because the engaging key 45 is inserted into the first engaging groove 41 and moves along the key groove 42 and inserted into the fixing groove 47 .

As shown in Figure 10, the block system 20 comprises a support 13, a support concrete block 22, and a concrete block (not shown), which support a superstructure comprised of a plurality of solar cell modules, 22 are arranged in a predetermined number of degrees corresponding to shear stress. At this time, the echo block 21 is connected to the concrete block 22 first by the fixture 50, and to the echo block 21 by another echo block 21.

This foundation structure also has a fusing plate 24 provided with a shear key 25. The fusing plate 24 is suitably arranged between the echo blocks 21 or is provided at both ends of the tension bar 23 (31) that engages with the upper portion (29) of the upper structure.

On the other hand, the concrete block 22 against the normal stress of the upper structure may be provided with one or more vertical echo blocks 22 'vertically installed on the upper part thereof.

11, another vertical tension bar 25 ', which is the same as the tension bar 23 horizontally penetrating the concrete block 22, is used, and this vertical tension bar 25' Through the holes formed so as not to intersect with the passing points of the vertical tension bar 25 'and the fixing holes 50 inserted in the first coupling grooves 41 formed on the upper side of both sides of the hole, ). Therefore, a vertical echo block 22 'is formed on the concrete block 22. As the fastener 50 is inserted into the first engaging groove 41, the engaging key 45 moves along the guide groove 42 and the same as the fastening groove 29 of Fig. 9 And is assembled by being positioned on the concrete block 22 and engaging the fastener 50 with the anti-torsion key 29 of the vertical tension bar 25 '.

It is also preferable that the shear stress due to the superstructure is to counteract forces in a conventional manner of the foundation structure as well as to compensate the shear stress in another direction, i.e., in the direction perpendicular to the vertical direction, acting as a force in one direction against the vertical.

As shown in Fig. 13, in addition to forming the first engaging groove 41 at the center of the concrete block 22 on both sides, two first defect grooves 41 ) Are formed on the upper and lower sides and another support concrete block 22 'supporting the shear stress of another side is positioned.

That is, the vertical concrete blocks 22 'on both sides of the concrete block 22 are inserted into the tension bars 23 and the fusing plates 24 are positioned, 31).

Therefore, since a predetermined number of echo blocks 21 are connected to the fixtures 50 in the vertical concrete block 22 'and the fixation plate 24 is arranged in the middle or in the outermost direction, As shown in Fig.

As described above, the arrangement against one or more shear stresses can be achieved by using the echo block 21, the concrete block 22, the fixing plate 24, and the tension bar 23 as the base structures .

20: block system 21, 21 ': echo block 22, 22': concrete block
24: fixing plate 23, 25 ': tension bar 31:
41: first coupling groove 50: fastener

Claims (6)

A block system in which an upper structure having a support for directly supporting a plurality of solar cell modules aligned and fixed to a frame is constituted by foundation structures for fixing the base structure by an anchor,
The base structure,
A concrete block having a first engaging hole penetrating through a center thereof, the engaging hole being made of a rectangular mold so as to be movable under a pressure corresponding to a load of the upper structure and having a uniform quality;
A pre-cast concrete is manufactured, the concrete block is centered and fixed on both sides and selected as a number having a length corresponding to the value of the moment transmitted by the upper structure, and a second fitting hole penetrating the body is formed A plurality of echo blocks;
A plurality of eco-blocks disposed between the plurality of echo blocks, each of the eco-blocks including a plurality of echo blocks, each of the echo blocks having a plurality of echo blocks, A fixing plate for forming a third engaging hole passing through the center of the shear key;
After the concrete block, the plurality of echo blocks and the fixing plates are arranged, a tension bar passing through the first and second coupling holes at the centers thereof, a torsion preventing key is formed at both ends of the tension bar so as to resist the twisting force And a plurality of post tension bars, which are inserted into the anti-twist key to form a concrete block, a plurality of eco-blocks, and coupling members for tightly coupling the eco-blocks to the fixing plates.
The method according to claim 1,
The echo block has a second coupling hole at the center thereof, a first type in which a first groove is formed in the periphery of the second coupling hole, A second type in which a first protrusion of one of a predetermined size of a square or a rectangular parallelepiped is formed on the outer periphery, and a second type in which a first protrusion of a predetermined size is formed on the outer periphery, And a third type comprising two echo blocks of first and second types each having a first groove and a first protrusion, respectively.
The method according to claim 1,
The fixing plate may be made of steel or the like and is formed of first and second types in which a second groove and a second projection are formed in the shape of either a straight hexagonal shape or a square shape around the center of the third fitting hole, Wherein the second groove and the second protrusions are coupled with the echo block and function as a position key disposed at an outermost position of the echo blocks.
A method of constructing a block system for supporting a plurality of solar cell modules,
Placing the concrete block in the center of the foundation structure with respect to the support supporting the superstructure,
Wherein a plurality of echo blocks are arranged on both sides of the concrete block and at the same time a protruding portion is formed between the echo blocks so as to protrude from both sides of the echo blocks so as to oppose shear moments and fixed by the shear key Arranging the plates,
Another fixing plate is installed at the outermost part of the arranged echo blocks,
The post tension bar is inserted into the concrete block, echo blocks and echo blocks through the center of the fixing plate and the outermost fixing plates,
Wherein the concrete block, the eco blocks, and the fixing plates are integrally joined to each other at both ends of the post tension bar so as to have a tensile stress by using a torsion preventing key.
The method of claim 4,
Wherein the plurality of eco-blocks are constructed to be able to construct another eco-block above the concrete block.
The method of claim 4,
In the concrete block, the eco blocks are arranged in the longitudinal direction by the holes passing through the center in the front and rear direction, and the holes through which the tension bar penetrates are formed on the upper and lower portions with respect to the center of the left and right side surfaces. A method of constructing a block system for supporting a plurality of solar cell modules, the method comprising: arranging a fusing plate between blocks and assembling another fusing plate to an outermost echo block and another fusing plate.

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