KR102017846B1 - Post base structure of photovoltaic module - Google Patents

Abstract

The present invention is to secure the support (10a) for supporting the solar module while the base plate (110) fixed to the bottom surface to improve the holding force and stability of the support (10a) fixed to the base 100 and the top plate 110 and Regarding the base structure of the photovoltaic module that is easily manufactured while being composed of the overlapping structure of the lower plate part 120, a first coupling hole 111 penetrated up and down is formed in the upper center of the horizontal plate shape, and the first coupling The upper plate portion 110 is formed with a first support plate 112 formed with a pair of first coupling holes 113 spaced apart from the one side of the hole 111, the number facing the lower portion of the upper plate portion 110 A second coupling hole 121 is formed to correspond to the position of the first coupling hole 111 of the upper plate portion 110 in the upper center of the flat plate shape, and to be symmetrically aligned with the position of the first support plate 112 of the upper plate portion 110. The first coupling hole 113 of the first support plate 112 while protruding upward from the other side of the second coupling hole 121. And a lower plate part 120 on which a second support plate 122 having a pair of spaced second coupling holes 123 formed therein is formed, wherein the second support plate 122 of the lower plate part 120 is formed. As the upper portion of the lower plate portion 120 is brought into close contact with the lower portion of the upper plate portion 110 while being introduced into the first coupling hole 111 of the upper plate portion 110, the second support plate 122 of the lower plate portion 120 is formed of the upper plate portion 110. The first support plate 112 and the second support plate 122 are disposed to face the first coupling hole 111 so that the first support plate 112 and the second support plate 122 are spaced apart from each other. And the first support plate 112 and the lower plate portion of the upper plate portion 120 located above the first coupling hole 111 of the upper plate portion 110 while forming the base 100 of the support 10a by the combination of the lower plate portion 120. Characterized in that the strut 10a is coupled between the second support plate 122 of the 120.

Description

Post base structure of photovoltaic module

The present invention relates to a strut base structure of a photovoltaic module, and more particularly, to improve a holding force and stability of a strut fixed to the base with a base fixed to the bottom surface of the base while fixing the strut supporting the photovoltaic module. It is related to the strut base structure of the photovoltaic module that is easily manufactured while being composed of the overlapping structure of the upper plate and the lower plate.

The advantages of photovoltaic power generation are that there is no pollution, it can generate as much as necessary where it is needed, and it is easy to maintain.

On the other hand, the power output is dependent on the amount of sunshine, the installation site is limited, the initial investment cost and the high cost of power generation.

In general, the photovoltaic device is a structure in which a plurality of solar panels are fixed to the top of the support, the bottom of the support is supported by the foundation concrete. In this structure, the wind pressure received by the solar panels and the loads of the pillars and the solar panels must be firmly supported by the foundation concrete.

Wind pressure refers to the pressure that an object receives from the wind. It is proportional to the air density, the square of the wind speed, and the area of the plate perpendicular to the wind. Therefore, the wind pressure that a wide solar panel receives is very large, and receives the largest wind pressure before and after the direction of the solar panel. do.

To this end, a reinforcing plate is formed at the bottom of the support so that it can be configured to withstand wind pressure, and a large load of steel frame material is designed to withstand the wind pressure of the support.

This is because the steel frame material that can withstand the wind strength of the same strength in all directions, there is an inefficient problem, until now, efforts to solve such problems have been lacking.

1. Republic of Korea Registered Patent No. 10-1540266 (Invention name: Shoring base embedded solar module structure) 2. Republic of Korea Patent No. 10-1414258 (Invention: Photovoltaic Shore)

Therefore, the present invention is to reinforce the base for fixing the lower part of the support only in the front and rear direction of the photovoltaic module receiving a lot of wind pressure in order to solve the above problems, the strut of the solar module configured to effectively resist the wind pressure with only a small amount of material It is intended to provide a base structure.

In addition, the present invention is to provide a strut base structure of a solar module having a base structure for fixing the struts is formed of a double structure of the upper and lower overlapping exerting a strong bearing force on the ground while the upper plate portion and the lower plate portion is easy to manufacture as a symmetric structure do.

In addition, by forming a notching portion and a coining portion in the upper plate and lower plate constituting the base of the present invention to provide a strut base structure of the solar module to improve the stronger holding force and rigidity when combined with the strut.

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 formed with a first coupling hole penetrating up and down in the upper center of the horizontal plate-like, the first support plate formed with a pair of first coupling holes spaced apart while protruding upward from one side of the first coupling hole The upper plate portion is formed,

A second coupling hole is formed at an upper center of the horizontal plate shape facing the lower portion of the upper plate portion so as to correspond to the position of the first coupling hole of the upper plate portion, and on the other side of the second coupling hole so as to be symmetrical to the position of the first support plate of the upper plate portion. And a lower plate portion on which a second support plate is formed, the second support plate having a pair of spaced second coupling holes spaced in correspondence with the first coupling hole of the first support plate, wherein the second support plate of the lower plate portion is introduced into the second coupling hole of the upper plate portion. While the upper portion of the lower plate portion is in close contact with the lower portion of the upper plate portion, the second support plate of the lower plate portion is introduced into the second coupling hole of the upper plate portion is disposed so as to face the first support plate and the second support plate spaced apart from each other,

The base plate has a support base structure of the solar module having a structure in which the support is coupled between the first support plate of the upper plate portion and the second support plate of the lower plate located above the first coupling hole of the upper plate portion by forming the base of the support by combining the upper plate portion and the lower plate portion.

On the other hand, in each of the first coupling hole of the upper plate and the second coupling hole of the lower plate portion is formed a first coupling hole and the second coupling hole passing through the end corresponding to the position where the first support plate and the second support plate is connected to the upper plate portion It provides a strut base structure of the photovoltaic module to form the base of the strut coupled to the upper and lower overlapping structure in a structure in which the lower plate and the left and right symmetrical structure.

On the other hand, the prop of the solar module is formed a plurality of coining parts spaced apart from each of the outer side of the lower side of the first support plate connected to one side of the first coupling hole of the upper plate and the outer side of the second support plate connected to the other side of the second coupling hole of the lower plate Provide a base structure.

On the other hand, there is provided a strut base structure of the solar module is formed notching portion bent outward in the vertical length direction of each of the upper side of both the first support plate and the lower side of the second support plate of the upper plate.

As described above, according to the strut base structure of the solar module of the present invention, by reinforcing the base for fixing the lower portion of the strut only in the front and rear direction of the photovoltaic module subjected to a lot of wind pressure, it can effectively resist the wind pressure with only a small amount of material In addition, the structure of the base for fixing the struts is formed in a double structure of the upper and lower overlapping, exerting a strong bearing force on the ground, and having the upper plate and the lower plate having a symmetrical structure and the ease of manufacturing, and forming the base of the present invention. By forming the notching portion and coining portion there is an effect of improving the stronger holding force and rigidity when combined with the support.

1 is a perspective view showing the strut base structure of the solar module of the present invention.
Figure 2 is an exploded view showing the combination of the upper plate and lower plate in the strut base structure of the solar module of the present invention.
3 is a perspective view showing a structure in which the first coupling hole of the upper plate portion and the second coupling hole of the lower plate portion are coupled to the support while having the end pass type in the support base structure of the solar module of the present invention.
4 is a top plate portion having a first and a second support plate formed with a notching portion and a coining portion while the first coupling hole of the upper plate portion and the second coupling hole of the lower plate portion have an end passing type in the strut base structure of the solar module of the present invention. Separate drawing showing the joining of the bottom plate.
Figure 5 is a perspective view showing a structure in which the reinforcing support is coupled to the base in the strut base structure of the solar module of the present invention.
Figure 6 is an exploded view showing a structure in which the reinforcing support is coupled to the base in the strut base structure of the solar module of the present invention.
Figure 7 is a perspective view showing a structure in which the reinforcing coupling portion is coupled to the base to which the reinforcing support portion is coupled in the strut base structure of the solar module of the present invention.
8 is a separation view showing a structure in which the reinforcing coupling portion is coupled to the base to which the reinforcing support portion is coupled in the strut base structure of the solar module of the present invention.
9 is an exploded view showing a structure in which the base reinforcing portion and the support are coupled to the upper plate in the support base structure of the solar module of the present invention.
10 is a cross-sectional view showing a structure in which the upper plate is installed inside the base reinforcement in the strut base structure of the solar module of the present invention.
Figure 11 is a front view showing a structure in which the base reinforcing portion and the strut coupled to the upper plate in the strut base structure of the solar module 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.

The strut base structure of the photovoltaic module of the present invention is characterized in that the coupling structure of the strut and the base in the photovoltaic device consisting of the photovoltaic module, the strut and the base, the description of the solar module is known technology Omitted by application.

As shown in Figure 1 and 2, the overall structure of the present invention is formed with a first coupling hole 111 penetrated up and down in the upper center of the horizontal plate-shaped, the upper side from one side of the first coupling hole 111 An upper plate portion 110 having a first support plate 112 having a pair of first coupling holes 113 spaced apart from each other from being protruded, and an upper plate portion at an upper center of a horizontal plate shape facing the lower portion of the upper plate portion 110. The second coupling hole 121 is formed to correspond to the position of the first coupling hole 111 of the 110, and the second coupling hole 121 is symmetrically positioned to the position of the first support plate 112 of the upper plate 110. A lower plate part having a second support plate 122 having a pair of spaced apart second coupling holes 123 corresponding to the first coupling hole 113 of the first support plate 112 and protruding upward from the other side of the bottom plate ( 120, but the second support plate 122 of the lower plate portion 120 is introduced into the first coupling hole 111 of the upper plate portion 110 of the lower plate portion 120 of the lower portion of the upper plate portion 110 As the upper part is in close contact, the second support plate 122 of the lower plate part 120 is introduced into the first coupling hole 111 of the upper plate part 110, so that the first support plate 112 is disposed in the first coupling hole 111 of the upper plate part 110. ) And the second support plate 122 are disposed to face each other to be spaced apart from each other, the first plate of the upper plate portion 110 by forming the base 100 of the support (10a) by the coupling of the upper plate portion 110 and the lower plate portion 120 The strut base structure of the solar module having a structure in which the strut 10a is coupled between the first support plate 112 of the upper plate portion 120 located above the coupling hole 111 and the second support plate 122 of the lower plate portion 120. Have

First, the strut base structure of the solar module according to the first embodiment of the present invention is composed of the upper plate portion 110, the lower plate portion 120 and the column (10a), wherein the upper plate portion 110 and the lower plate portion 120 of The upper part has a bilaterally symmetrical structure.

First, as shown in FIG. 2, the upper plate part 110 is connected to one side of the first coupling hole 111 and extends upward while protruding from the top of the first coupling hole 111. The first support plate 112 of the vertical plate type is formed integrally.

As shown in FIG. 2, the lower plate part 120 is positioned below the upper plate part 110, and the upper surface of the lower plate part 120 is in close contact with the lower surface of the upper plate part 110 when the upper plate part 110 is coupled to each other. To form a lower plate portion 120 of the form corresponding to the shape of.

A second coupling hole 121 penetrates up and down in the center of the lower plate part 120 and is connected to each other at a position corresponding to the first coupling hole 111 of the upper plate part 110 when combined with the upper plate part 110. It has a structure, the second support plate 122 of the vertical plate-type that is connected to the other side of the second coupling hole 121 is extended upward protruding is formed integrally, at this time the first side of the upper plate 110 If the first support plate 112 is formed, the second support plate 122 is formed on the other side of the lower plate portion 120 of the left and right symmetrical position of the first support plate 112 is disposed in a position that is mutually symmetric with each other when combined.

1 and 2, when the upper plate 110 and the lower plate 120 are coupled to each other, the upper portion of the lower plate 120 is brought into close contact with the lower portion of the upper plate 110 so that the first portion of the upper plate 110 is closed. After the coupling hole 111 and the second coupling hole 121 of the lower plate part 120 are positioned in communication with each other, the second support plate 122 of the lower plate part 120 is the first coupling hole 111 of the upper plate part 110. The first support plate 112 of the upper plate portion 110 and the second support plate 122 of the lower plate portion 120 are spaced apart from each other while protruding upward toward the upper portion of the upper plate portion 110.

In this case, the inner area of the first coupling hole 111 and the inner area of the second coupling hole 121 are the same or the width of the first coupling hole 111 is larger than the width of the second coupling hole 121. When the upper plate portion 110 and the lower plate portion 120 is stacked up and down to combine in an overlapping structure, the second support plate 122 of the lower plate portion 120 is naturally transferred into the first coupling hole 111 of the upper plate portion 110. It can be done.

In addition, when the first coupling hole 111 and the first support plate 112 of the upper plate 110 to have a form corresponding to each other, the upper plate 110 when the first coupling hole 111 is formed on the upper plate 110 The first coupling hole 111 is formed on the inner side of the first support plate 112 while forming the vertical first support plate 112 by bending the connection portion connected to one side of the first support plate 112 that is cut after cutting the other side of the first side. And the first support plate 112 and the first coupling of the upper plate part 110 so as to have a shape in which the second coupling hole 121 and the second support plate 122 of the lower plate part 120 correspond to each other. The second coupling hole 121 and the second support plate 122 of the lower plate portion 120 are formed in the same manner as forming the hole 111.

Therefore, the upper plate 110 and the lower plate 120 are coupled to each other in an overlapping structure up and down, and then the support 10a between the first support plate 112 and the second support plate 122 protruding to the upper portion of the upper plate 110. Posts arranged to communicate with the first coupling hole 113 of the first support plate 112 and the second coupling hole 123 of the second support plate 122 and the first and second coupling holes 113 and 123. The pillar 10a is fastened and fixed between the first support plate 112 and the second support plate 122 by using the fastening means of the bolt and the nut through the third coupling hole 11 of 10a, wherein the base concrete A plurality of upper plate 110 and the lower plate 120 is in communication with each other around the upper portion of the upper plate 110 and the lower plate 120 to fix the base 100 coupled to the bottom of the base portion (not shown) The first fastening holes 101 are formed to be fixed to the bottom surface of the base through the fastening means.

3 and 4, the first support plate 112 and the second support plate in each of the first coupling hole 111 of the upper plate 110 and the second coupling hole 121 of the lower plate 120. The first coupling hole 111 and the second coupling hole 121 are formed to pass through the end at a position corresponding to the position where the 122 is connected, so that the upper plate 110 and the lower plate 120 are symmetrical to each other. It has a structure that is combined in the upper and lower overlapping structure.

That is, the first coupling hole 111 and the second coupling hole 121 penetrates to the ends of the upper plate portion 110 and the lower plate portion 120 to be exposed to the outside, that is, the form of the penetrating side portion is open The first coupling hole 111 and the second coupling hole 121 are formed, but the open side portions are formed to be symmetrical with each other.

That is, the first coupling hole 111 and the second coupling hole 121 has a form that is open to one side, the upper plate portion 110 and the lower plate portion of the upper and lower symmetrical type overlapping each other up and down when the upper plate portion 110 The first support plate 112 is moved by moving the upper plate 110 or the lower plate 120 from side to side so that the width between the first support plate 112 and the second support plate 122 protruding upward corresponds to the width of the support 10a. ) And the support 10a is tightly and firmly coupled by adjusting the width between the second support plate 122 and the second support plate 122.

In addition, as shown in FIG. 3 and FIG. 4, the second coupling hole 121 of the lower outer side portion and the lower plate portion 120 of the first support plate 112 connected to one side of the first coupling hole 111 of the upper plate portion 110. A plurality of coining parts 130 spaced apart from each other on the outer side of the second support plate 122 connected to the other side is formed.

Referring to the coining part 130 formed at the bottom of the first support plate 112 of the upper plate 110 as an example, the coining unit 130 at one side of the first coupling hole 111 of the upper plate 110 A bent portion 112-1 formed at a lower end of the first support plate 112 is formed in the first support plate 112 that is bent and vertically extended, and an inner portion of the bent portion 112-1 is formed. The outer part is located in the one coupling hole 111 and the outer part is a position corresponding to the inner part. At this time, the inner part of the bent part 112-1 is punched from one side to the outer part so that one side of the inner part is concave and the other side corresponding to the one side of the inner side. A coining part 130 having a convex shape is formed on one surface thereof, and the horizontal support force of the lower bent part 112-1 of the first support plate 112 is strengthened by the coining part 130. 1 The bending and compressive strength of the support plate 112 is increased.

In addition, as shown in FIGS. 3 and 4 are bent outwardly in the vertical length direction of each of both ends of the first support plate 112 of the upper plate 110 and both sides of the second support plate 122 of the lower plate 120. The notching part 140 is formed.

The notching part 140 is bent to a predetermined length outward in the vertical direction of each of both end portions of the first support plate 112 and both end portions of the second support plate 122 of the lower plate portion 120. The vertical strength of each of the first support plate 112 and the second support plate 122 is enhanced to exert a vertical support force while preventing deformation or warpage, thereby having a firm restraint force and a support force after the coupling of the support 10a.

In addition, as shown in Figure 5 and 6, the upper plate portion 110 and the lower plate portion 120 to support the reinforcement of the other side in the state in which both sides of the support 10a combined to increase the bonding force of the support as follows: 200 is further included.

The first support plate 112 of the upper plate portion 110 and the second support plate 122 of the lower plate portion 120 are respectively installed in a symmetrical structure on one side and the other side except for the side of the support (10a) to be interviewed, respectively The first supporting plate 112 and the first supporting plate 112 and the first reinforcing plate 210 and the first reinforcing plate 210 of the vertical plate-type interviewed on one side or the other side of the support (112), respectively At the lower end of the first fastening plate 220 and the first reinforcing plate 210 formed with the fourth coupling hole 221 corresponding to the first and second coupling holes 113 and 123 of the second support plate 122, respectively. The second fastening plate 230 having a second fastening hole 231 corresponding to the first fastening hole 101 of the upper plate part 110 is formed on one side of each end while the center of one side end is further bent and connected to both sides. An integral reinforcement support part 200 is further included.

The reinforcement support part 200 has an integrated structure consisting of a first reinforcing plate 210, a first fastening plate 220 and a second fastening plate 230, one side and the other side of the support (10a) Are coupled to each other in a symmetrical structure, wherein each of the first support plate 112 of the upper plate 110 and the second support plate 122 of the lower plate 120 is different from each other except for both sides of the strut 10a facing each other. Reinforcement support 200 is installed and coupled to one side and the other side of the support (10a).

The first reinforcing plate 210 is formed in a vertical plate shape having a predetermined length in close contact with one side or the other side of the support (10a).

In addition, the first fastening plate 220 is bent and connected to both upper ends of the first reinforcing plate 210, respectively, the first support plate 112 and the lower plate portion 120 of the upper plate portion 110 coupled to the support (10a) The second support plate 122 of the interview, but the first reinforcing plate 210 of the pair of first and second coupling holes 113, 123 formed in the first and second support plates 112 and 122, respectively The fourth coupling hole 221 at a position corresponding to the adjacent first and second coupling holes 113 and 123 is formed, and thus, the first supporting plate 112, the support 10a, and the lower plate of the upper plate part 110 through the fastening means. The second support plate 122 of the part 120 is fastened and fixed.

In addition, the second fastening plate 230 is connected to the lower end of the first reinforcing plate 210, the center of one end of the second fastening plate 230 has a length extending to a predetermined length to both sides of the second fastening A second fastening hole 231 corresponding to the first fastening hole 101 of the upper plate part 110 is formed on one surface of each end of the plate 230, and is fastened and fixed to the bottom surface of the base by using a fastening means.

In addition, as shown in FIGS. 7 and 8, the reinforcing coupling part 300 is further included to be coupled to the outside of each of the reinforcing support parts 200 so as to exert a stronger bearing force on both sides of the support 10a.

The second reinforcing plate 310 and the second reinforcing plate 310 are installed to be coupled to the first reinforcing plate 210 of each of the reinforcing support parts 200 and face one surface while facing the first reinforcing plate 210. The other side is inclined while one side is connected to the vertical length of the center of the other side of the fitting portion 320 and the second reinforcing plate 310, the coupling groove 321 is formed on both sides while the both sides and the lower side are opened while being connected to the top of the The integral reinforcing coupling part 300 formed of a reinforcing tab 330 formed at a lower end of the upper plate part 110 to be in close contact with the upper surface 110 is installed.

The reinforcing coupling portion 300 is coupled to each of the reinforcing support portion 200 coupled to both sides of the support (10a), integrally composed of the second reinforcing plate 310, the fitting portion 320 and the reinforcing tab 330 The second reinforcing plate 310 has a structure in which one surface of the second reinforcing plate 310 is in close contact with the first reinforcing plate 210 of the reinforcing support part 200.

In addition, the fitting portion 320 is connected to the upper end of the second reinforcing plate 310 is open in both sides and the lower side is formed in the cross-section that the coupling groove 321 is formed in the inner "┌┐" shape, the fitting The upper end of the first reinforcing plate 210 of the reinforcement support part 200 is fitted into the coupling groove 321 of the part 320.

In addition, the reinforcing tab 330 is a rectangular plate shape, one side of the right angle is connected to the center of the second reinforcing plate 310 while the other side is formed to be inclined at a predetermined angle, wherein the reinforcing tab 330 The lower end is in close contact with one upper surface of the upper plate 110.

In addition, the second reinforcing plate 310 of the reinforcing coupling portion 300 coupled to both sides of the support (10a) and the first reinforcing plate 210 of the reinforcing support portion 200 together with the support (10a) bolts and nuts Fastening can be fixed using the fastening means.

In addition, as shown in FIGS. 9 to 11, the upper plate 110 or the lower plate 120 is installed in a single shape, and the guide plate 410 is interviewed on the lower portion of the upper plate 110 or the lower plate 120. And a reinforcement support plate 420 extending in a form inclined from left to right at both ends of the guide plate 410 and a third fastening plate 430 vertically extending from an end of the reinforcement support plate 420. The reinforcing part 400 is further included, and the notching part 140 bent inward in the vertical length direction of each of both side ends of the first support plate 122 of the upper plate part 110, the first support plate 112, or the lower plate part 120. ) Is formed and the upper end of the first support plate 112 of the upper plate 110 or the second support plate 122 of the lower plate 120 is projected to the upper portion of the third fastening plate 430 of the base reinforcement unit 400, Vertically coupled to the third fastening plate 430 while tightly binding the second support plate 122 of the upper plate 110 or the first support plate 112 or the lower plate 120. Remodeling include coupling plate 12 and the coupling plate 12 are coupled in the vertical longitudinal direction of the two side ends of the integral holding (10b) consisting of a support piece 13 which is horizontally extended to a predetermined length.

Any one selected from the upper plate 110, the first support plate 112, and the second support plate 122 of the lower plate 120 is installed inside the base 100, and the upper plate 110 and the first support plate 112 are provided. Or a second reinforcing plate 122 of the lower plate portion 120 is disposed on the outside so as to be disposed inside.

As shown in FIG. 9, the basic reinforcement part 400 has an integrated structure consisting of a guide plate 410, a reinforcement support plate 420, and a third fastening plate 430, and the guide plate 410 may be a male body. The flat plate has a larger area than the area of the upper plate 110 or the lower plate 120, wherein the horizontal length of the guide plate 410 corresponds to the horizontal length of the upper plate 110 or the lower plate 120. Have

In addition, the notching part 140 bent inward in the vertical direction of each of both side ends of the upper support part 110, the first support plate 112, or the second support plate 122 of the lower plate part 120 is formed. The forming portion 140 is positioned such that the upper plate portion 110 faces the first coupling hole 111 or the lower plate portion 120 to the second coupling hole 121.

The reinforcing support plate 420 is bent at both ends of the guide plate 410, that is, at both ends of the guide plate 410 corresponding to the horizontal length of the upper plate 110 or the lower plate 120, and extends upward to a predetermined length. While being formed bilaterally symmetric with each other, the reinforcing support plate 420 is formed to be inclined at a predetermined angle in the inner direction of the guide plate 410.

In addition, the third fastening plate 430 is bent at each end of the reinforcing support plate 420, the plurality of first bolt hole 431 is formed on one surface so as to communicate with each other while extending vertically to a predetermined length, wherein The three fastening plates 430 and the third fastening plates 430 are formed to be spaced apart at a predetermined interval.

In addition, if the above-described post 10b is in the form of a square beam, the post 10b installed in the base 100 having a coupling structure of the upper plate 110 or the lower plate 120 coupled to the basic reinforcement 400 is provided. ) Is C-shaped steel is installed.

The strut 10b has an integral structure composed of a vertical plate-shaped coupling plate 12 and a support piece 13 extending horizontally to a predetermined length, respectively, connected in the vertical length direction of both side ends of the coupling plate 12. The support 10b is introduced between both sides of the third fastening plate 430 of the base reinforcement part 400, and the upper plate part 110, the first support plate 112, or the lower plate part 120 inside the coupling plate 12. The outer side of the second support plate 122 is in close contact, and the second support plate 122 of the upper plate 110, the first support plate 112, or the lower plate 120 is disposed inside the support 10b.

As shown in FIG. 9, the support 10b is disposed to bind the upper support part 110, the first support plate 112, or the second support plate 122 of the lower plate part 120, and thus, the base reinforcement part 400 may be formed. The second bolt hole 12-1 is formed on one surface of the coupling plate 12 at a position corresponding to the first bolt hole 431 formed on the three fastening plate 430, so that the bolt and nut can be fixed using the fastening means of the bolt and the nut. At this time, the both side notching portion 140 formed on the second support plate 122 of the upper plate 110, the first support plate 112 or the lower plate 120 located between both sides of the reinforcement support plate 420 of the base reinforcement unit 400. While the third bolt hole 141 is formed in the fourth bolt hole (13-1) is formed to communicate with each other on both sides of the support piece 13 of the support (10b) of the position corresponding to the third bolt hole 141 is formed The support 10b and the upper plate 110 or the lower plate 120 are coupled to each other by using the fastening means of the bolt and the nut.

In addition, when the base 100 coupled to the upper plate 110 or lower plate 120 disposed inside the base reinforcement portion 400 is fixed to the bottom surface of the base portion 110 or the lower plate 120 A fastening hole is formed in the guide plate 410 of the base reinforcement part 400 at a position corresponding to the first fastening hole 101, and is fixed to the bottom surface of the base part by using a fastening means. The reinforcing support plate 420 is formed in the open state while being fixed to the bottom surface of the base portion is to be fixed to the support 10b by narrowing the reinforcement support plate 420 inwardly.

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.

Shoring 10a, 10b First coupling hole 11 Bonding plate 12
Support piece 13 Base 100 First fastener 101
Upper plate 110 First coupling hole 111 First support plate 112
First coupling hole 113 Lower plate portion 120 Second coupling hole 121
Second support plate 122 Second engagement hole 123 Coining part 130
Notching part 140 3rd bolt hole 141 Reinforcing support part 200
First reinforcing plate 210 First fastening plate 220 Fourth coupling hole 221
2nd fastening plate 230 2nd fastening hole 231 Reinforcing coupling part 300
Second reinforcing plate 310 fitting part 320 coupling groove 321
Reinforcement tab 330 Foundation reinforcement part 400 Guide plate 410
Reinforcement support plate 420 Third fastening plate 430 First bolt hole 431

Claims (7)

delete delete delete delete delete delete A first coupling hole 111 penetrated up and down is formed in the upper center of the horizontal plate type, and a pair of first coupling holes 113 spaced apart from each other while protruding upward from one side of the first coupling hole 111 is formed. The second coupling to correspond to the position of the first coupling hole 111 of the upper plate portion 110 in the upper center of the upper plate portion 110 or the horizontal plate shape facing the lower portion of the upper plate portion 110, the first support plate 112 is formed A hole 121 is formed and protrudes upward from the other side of the second coupling hole 121 so as to be symmetrical with the position of the first support plate 112 of the upper plate part 110, and the first coupling hole of the first support plate 112. The lower plate portion 120 in which the second support plate 122 is formed in which a pair of spaced second coupling holes 123 are formed corresponding to the 113 is provided in a single form,
Reinforcing support plate 420 and the reinforcement guide plate 410 and the reinforcing symmetrically extending from both ends of the guide plate 410 and the guide plate 410 to be interviewed in the lower portion of the upper plate 110 or lower plate 120 Base reinforcement portion 400 is composed of a third fastening plate 430 extending vertically from the end of the support plate 420,
The upper plate part 110 and the first support plate 112 or the lower plate part 120 are formed with a notching part 140 bent inward in the vertical direction of each of both side ends of the first support plate 122. An upper end of the second support plate 122 of the support plate 112 or the lower plate portion 120 protrudes to the upper portion of the third fastening plate 430 of the basic reinforcement portion 400,
The vertical plate-type coupling plate 12 and the coupling plate to be coupled to the third fastening plate 430 while tightly binding the second support plate 122 of the upper plate 110 or the first support plate 112 or the lower plate 120. (12) A strut base structure of a solar module, characterized in that it comprises an integral strut (10b) consisting of a support piece (13) extending horizontally to a predetermined length, respectively connected in the vertical longitudinal direction of both ends.

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