KR102224927B1 - structure for both-sided solar cell - Google Patents

Abstract

The present invention relates to a double-sided solar module installation structure.
The structure of the present invention, the lower portion is fixed to the ground or the ground, a plurality of post frames 10 that are installed to be spaced apart from each other in the front and rear and left and right; An upper frame 20 connected to an upper portion of the holding frame 10 and on which the double-sided solar module a is installed; A lower vertical member (30) formed in the same direction as the vertical member (22), spaced apart from the lower portion of the upper frame (20), and coupled to the wall surface of each post frame (10); The front and rear end portions 41 forming a square cross-sectional shape, a lower protrusion 42 protruding outward from the front and rear end portions 41 from one lower end of the front and rear end portions 41, and a constant from the lower protrusion 42 Consisting of an intermediate protrusion 43 formed at a position spaced apart from the distance upward, and an upper protrusion 44 protruding outward from the upper end of one side of the front and rear end 41, the lower protrusion ( Between the 42 and the intermediate protrusion 43 is formed a longitudinal member front and rear fitting groove 45 into which both ends of the lower vertical member 30 located at the left and right ends are inserted, and the upper protrusion 44 and the intermediate protrusion ( 43) a front and rear finishing member 40 having a front and rear fitting groove 46 formed therebetween; The left and right closing portions 51 covering the left and right outer edges of the lower vertical members 30 located at both ends of the left and right ends, and the lower vertical member 30 protruding from the lower end of the left and right closing portions 51 toward the lower vertical member 30 A lower protrusion 52 supporting the lower portion of the lower protrusion 52, and is spaced upwardly from the lower protrusion 52 to support the upper side of the lower vertical member 30, and the vertical member side fitting groove between the lower protrusion 52 An intermediate protrusion 54 forming a 53, and an upper protrusion protruding from the upper end of the left and right end 51 toward the lower vertical member 30 to form a fitting groove 55 on the side of the reflector between the intermediate protrusion 54 The left and right closing members 50 composed of (56) and; The front and rear ends are fitted into the front and rear fitting grooves 46 of the reflective plate, the left and right ends are fitted into the side fitting grooves 55 on the reflective plate, and a through hole 61 through which the post frame 10 passes is formed. 60); consists of.
According to the present invention, instead of supporting the reflector using a separate frame other than the post frame that supports the load of the solar module, the post frame can support the load of the reflector together, so that the reflector is directly attached to the solar module. Since it is located at the bottom, it is possible to increase the site utilization rate, and it can be constructed while maintaining the post frame without completely dismantling the existing photovoltaic power generation facilities. Nevertheless, the post frame can be recycled by minimizing the load burden. The installation structure of the panel is relatively simplified, and the existing structure can be utilized by minimizing the load on the post frame by installing the reflector, and a solar installation structure that is easy to assemble and construct is provided.

Description

Structure for both-sided solar cell

The present invention relates to a photovoltaic module installation structure, and more particularly, to a double-sided photovoltaic module installation structure capable of increasing power generation efficiency by simultaneously receiving sunlight on both sides of a photovoltaic module.

Solar power generation is a power generation method that directly converts sunlight into electrical energy using a number of solar modules. It does not have air pollution, noise, heat, vibration, etc., and it is easy to maintain and has a long lifespan. It is in the spotlight as an energy source.

Since such solar power generation devices are capable of small-scale power generation, they were mainly operated by the government or local governments in the past, but individuals and companies are gradually constructing and operating solar power generation devices.

The solar power generation device is basically formed in the form of supporting a plurality of solar cell modules on a frame installed on the ground or on the roof, and the solar cell modules are separated by a certain distance so that the irradiated sunlight is not blocked by other solar cell modules. It must be installed, and accordingly, a large installation area is required.

However, since there is a space limitation for installing the solar power generation device in reality, various attempts to increase power generation efficiency are being conducted rather than increasing the number of solar cell modules.

With such an attempt, there is a growing need for a double-sided light-receiving solar power generation device to increase power generation efficiency by irradiating solar light to the rear as well as the front of the solar cell module.

As a prior art related to this, in the "double-sided solar power generation device" (Korean Patent Publication No. 10-1854451, Patent Document 1), solar cells are installed on the front and rear surfaces of the substrate, and covers before and after the substrate, A photovoltaic module in which a back sheet and glass are installed and a frame is mounted around it is proposed.

In addition, Patent Document 1 discloses a configuration in which a solar module is connected to a support and installed, and reflectors are installed on both left and right sides of the support to reflect sunlight on both sides of the solar module.

In the case of Patent Document 1, since the frame supporting the reflector is installed independently from the frame supporting the solar module, there is an advantage that there is no obstacle in the installation of the reflector supporting frame. There is a problem that the reflector is installed and occupies a large area.

As another technology, the "double-sided light-receiving solar power generation device" (Korean Patent Publication No. 10-1913242, Patent Document 2) proposes a structure in which a reflector is installed under the solar module.

By the way, in the reflector installation structure proposed in Patent Document 2, the reflector is divided into three, and only partially overlaps directly below the solar module, and has a structure protruding from the front and rear of the solar module.

This is because there is a side to increase power generation efficiency, but in the case of a structure in which a reflector is installed under the solar module, it is difficult to install the reflector easily due to the connection part of the frame supporting the solar module.

As in Patent Documents 1 and 2 above, when the reflector has a structure protruding back and forth from the direct underside of the solar module, there is a problem in that it still occupies a large amount of installation area, and thus there is a problem in that the site utilization efficiency is lowered.

In addition, since the structure of Patent Documents 1 or 2 is clearly different from the structure of the existing solar installation structure, it is difficult to recycle the existing structure.

KR 10-1854451 (2018.04.26) KR 10-1913242 (2018.10.24)

The double-sided photovoltaic module installation structure of the present invention is to solve the problems occurring in the prior art as described above, and instead of supporting the reflector using a separate frame other than the post frame supporting the load of the solar module, the post It is intended to enable the frame to support the load of the reflector together, so that the reflector is positioned directly under the solar module to increase the site utilization rate.

In addition, it is possible to construct while maintaining the post frame without completely dismantling the existing photovoltaic power generation facilities. Nevertheless, it is intended to enable the recycling of the post frame by minimizing the load burden.

In addition, the installation structure of the reflector is relatively simplified, so that the load applied to the post frame by the installation of the reflector is minimized, thereby enabling the use of the existing structure and providing a solar installation structure that is easy to assemble and construct.

In order to solve the above problems, the double-sided solar module installation structure of the present invention includes: a plurality of post frames 10, wherein the lower part is fixed to the ground or underground, and spaced apart from each other in front and rear and left and right; An upper frame 20 connected to an upper portion of the holding frame 10 and on which the double-sided solar module a is installed; A lower vertical member (30) formed in the same direction as the vertical member (22), spaced apart from the lower portion of the upper frame (20), and coupled to the wall surface of each post frame (10); The front and rear end portions 41 forming a square cross-sectional shape, a lower protrusion 42 protruding outward from the front and rear end portions 41 from one lower end of the front and rear end portions 41, and a constant from the lower protrusion 42 Consisting of an intermediate protrusion 43 formed at a position spaced apart from the distance upward, and an upper protrusion 44 protruding outward from the upper end of one side of the front and rear end 41, the lower protrusion ( Between the 42 and the intermediate protrusion 43 is formed a longitudinal member front and rear fitting groove 45 into which both ends of the lower vertical member 30 located at the left and right ends are inserted, and the upper protrusion 44 and the intermediate protrusion ( 43) a front and rear finishing member 40 having a front and rear fitting groove 46 formed therebetween; The left and right closing portions 51 covering the left and right outer edges of the lower vertical members 30 located at both ends of the left and right ends, and the lower vertical member 30 protruding from the lower end of the left and right closing portions 51 toward the lower vertical member 30 A lower protrusion 52 supporting the lower portion of the lower protrusion 52, and is spaced upwardly from the lower protrusion 52 to support the upper side of the lower vertical member 30, and the vertical member side fitting groove between the lower protrusion 52 An intermediate protrusion 54 forming a 53, and an upper protrusion protruding from the upper end of the left and right end 51 toward the lower vertical member 30 to form a fitting groove 55 on the side of the reflector between the intermediate protrusion 54 The left and right closing members 50 composed of (56) and; The front and rear ends are fitted into the front and rear fitting grooves 46 of the reflective plate, the left and right ends are fitted into the side fitting grooves 55 on the reflective plate, and a through hole 61 through which the post frame 10 passes is formed. 60); consists of.

In the above configuration, a plurality of the reflective plates 60 are arranged spaced apart from each other, and the intermediate finishing material 70 having the reflecting plate fitting grooves 71 into which both ends of each reflecting plate 60 are fitted is a lower vertical member. It characterized in that it is installed by being bolted to (30).

In addition, the inner wall surface between the lower protrusions 52 and the intermediate protrusions 54 of the left and right finishing members 50 has inner stepped portions 57 formed on both upper and lower sides, so that the central side is installed with a bolt having a smaller width than the upper and lower ends. A space 58 is formed, and the holding frame 10 and the lower vertical member 30 are fastened through a fixing bolt 31, and the end of the fixing bolt 31 is accommodated in the bolt installation space 58. It is characterized by being.

In addition, the lower part is in close contact with the outer side of the upper left and right sides of the post frame 10, and the upper part has two side wall parts 13a that are in close contact with the outer side of both left and right walls of the vertical member 22, and the two side wall parts 13a The rear end is connected to form a frame fitting groove (13c) into which the upper side of the holding frame 10 is fitted together with the two side wall portions (13a), and the upper end is formed to be spaced apart from the upper end of the side wall (13a) to the lower side. The vertical member 22 is composed of a connecting portion 13b configured to pass through, and a plurality of lower bolt fastening holes 13d are formed in the lower portion of the two sidewall portions 13a so that the lower fastening bolts 13e face each other. The beam is coupled to the post frame 10 by penetrating the lower bolt fastening hole 13d of the side wall part 13a and the post frame 10 therebetween, and the upper bolt fastening hole ( 13f) is formed to connect the frame fastened to the vertical member 22 by penetrating the upper bolt fastening hole 13f of the two side wall portions 13a facing the upper fastening bolt 13f and the vertical member 22 therebetween. The member 13 is provided, and the lower contact portion 21a which is in close contact with and fixed to the connecting portion 13b of the frame connecting member 13 installed for each post frame 10 forming a straight line in the horizontal direction, and the lower contact Consisting of a vertical member support portion (21b) that is bent at a certain angle from the portion (21a) and connected to the bottom of the vertical member (22), a transverse connection member (21) for interconnecting each frame connection member (13) is provided. It is characterized by having.

In addition, the vertical member 22 has a cross-sectional shape, two guide portions 22b that are spaced apart from each other to form a fitting space 22a, and are integrally connected to the lower portion of the guide portion 22b and are horizontally A seating portion 22c formed by bending in a direction and on which the lower end of the double-sided solar module a is seated, and a wall portion 22d formed by bending downward while being integrally connected with the seating portion 22c. , Consisting of a bottom part 22e connecting the lower ends of the two wall parts 22d, a fitting part 23a fitted through the fitting space 22a, and connected to the upper part of the fitting part 23a The cover part 23b is formed to be bent toward the outer side to cover the upper outer part of the double-sided solar module a, and the cover part 23b is formed to be bent toward the outer side while being connected to the lower part of the fitting part 23a, and is formed at the bottom of the seating part 22c. An intermediate molding member 23 consisting of a supported engaging portion 23c is connected to the vertical member 22, and a flat plate part 24a abutting against the end of the vertical member 22, and the flat plate part 24a Between the module support (24b) and the two module support (24b) is formed on both sides of the upper end of the module is bent toward the vertical member (22), the end is configured to support the end of the double-sided solar module (a) A spaced groove (24c) formed in the guide part (22b) to be fitted inwardly, and a bolt to the wall part (22d) while being bent at both sides of the flat part (24a) and in close contact with the wall part (22d). It is characterized in that the vertical finishing member 24 consisting of the fixed portion 24d to be coupled is installed at the end of the vertical member 22.

According to the present invention, instead of supporting the reflector using a separate frame other than the post frame that supports the load of the solar module, the post frame can support the load of the reflector together, so that the reflector is directly attached to the solar module. It is located in the lower part so that the utilization rate of the site can be increased.

In addition, it is possible to construct while maintaining the post frame without completely dismantling the existing photovoltaic power generation facilities. Nevertheless, it is possible to recycle the post frame by minimizing the load burden.

In addition, since the installation structure of the reflector is relatively simplified, the load applied to the post frame by the installation of the reflector is minimized, so that the use of the existing structure is possible, and a solar installation structure that is easy to assemble and construct is provided.

1 is a front perspective view showing an example of a double-sided solar module installation structure of the present invention.
Figure 2 is a rear perspective view of Figure 1;
3 and 4 are perspective views showing the installation state of the front and rear finishing members in the present invention.
5 and 6 are perspective views showing the installation state of the left and right finishing members in the present invention.
7 and 8 are perspective and side views showing the installation state of the intermediate finishing member in the present invention.
9 and 10 are perspective views showing a vertical member connection state through a frame connection member in the present invention.
11 is a view showing the installation state of the intermediate molding member and the installation state of the vertical finishing member.

The double-sided solar module installation structure of the present invention includes a post frame 10, an upper frame 20, a lower vertical member 30, a front and rear finishing member 40, a left and right finishing member 50, and a reflective plate 60. Consists of.

Hereinafter, the double-sided solar module installation structure of the present invention will be described in detail through the accompanying drawings.

However, the accompanying drawings are presented for convenience of understanding, and the double-sided photovoltaic module (a) may be formed as one, and may be configured continuously in various numbers in the horizontal and vertical directions.

In addition, the double-sided photovoltaic module (a) is known in advance as described in the background art, and a description of the principle or structure thereof will be omitted.

The pillar frame 10, which is a component of the present invention, has a lower portion fixed to the ground or underground, and is spaced apart from each other in front and rear and left and right to be installed in plural.

In Figures 1 and 2, the post frame 10 is shown in the shape of a square tube, but is not limited thereto, and various metal structural members such as H-beam and Channel may be applied.

It may be made of a basic structure, etc. applied to the general civil engineering and building structures in which the post frame 10 is fixed to the ground or underground.

The upper frame 20, which is a component of the present invention, is connected to the upper part of the holding frame 10, and a double-sided solar module (a) is installed on the upper part.

The configuration of the upper frame 20 for this purpose may be configured by taking a structure in which a horizontal member and a vertical member are connected to each other, or a vertical member or a horizontal member is arranged to be connected to the continuous post frames in left and right or forward and backward directions.

In the present invention, it is more preferable to have the configuration shown in FIGS. 9 and 10.

An example of the drawing is a method of connecting the continuous post frames 10 back and forth, and vertical members 22 are installed in the front and rear directions, and the frame connecting member 13 connects the vertical members 22 and the post frames 10, and , The transverse connection member 21 is a configuration that interconnects each frame connection member (13).

The frame connecting member 13 is composed of two side wall portions 13a and a connecting portion 13b, as shown.

The side wall portion 13a has a lower portion in close contact with the outer side of the upper left and right sides of the holding frame 10, and the upper portion is in close contact with the outer side of both left and right walls of the vertical member 22.

The connection part 13b connects the rear ends of the two side wall parts 13a and forms a frame fitting groove 13c into which the upper side of the post frame 10 is fitted together with the two side wall parts 13a.

The upper end of the connection part 13b is formed to be spaced apart from the upper end of the side wall part 13a downward so that the vertical member 22 penetrates upward.

At this time, a plurality of lower bolt fastening holes 13d are formed in the lower part of the two side wall parts 13a, so that the lower bolt fastening hole 13d of the side wall part 13a facing the lower fastening bolt 13e and therebetween It is coupled to the post frame 10 by penetrating the post frame 10.

In addition, an upper bolt fastening hole 13f is formed on the upper side of the two side wall parts 13a, so that the upper bolt fastening hole 13f of the two side wall parts 13a facing the upper fastening bolt 13f and the vertical between the upper bolt fastening holes 13f are formed. It is fastened to the vertical member 22 by penetrating the member 22.

The transverse connecting member 21 has a lower contact portion 21a that is in close contact with and fixed to the connecting portion 13b of the frame connecting member 13 installed for each post frame 10 forming a straight line in the horizontal direction as shown, and the It is composed of a vertical member support portion (21b) that is bent at a predetermined angle from the lower contact portion (21a) and connected to the bottom of the vertical member (22), and is configured to interconnect each frame connection member (13).

The transverse connection member 21 serves as a horizontal member that connects the vertical members 22 to each other easily.

In addition, when installing the double-sided solar module (a) and the reflector 60 after removing the one-sided solar module from the existing solar installation structure, the reflector 60 and additional components are added to the post frame. The load burden becomes large.

At this time, when the transverse connection member 21 is installed, the upper load applied to the post frames 10 is evenly transmitted to the post frames 10 to provide a reinforcing effect.

In addition, in the case of the existing installation structure, the height of the top of the existing support frame may be changed due to irregular subsidence of the ground. In order to adjust and construct this, a process of equalizing the upper height of the existing support frame is required.

At this time, after separating the connection part between the existing post frame and the upper frame, the upper part of the post frame is partially cut so that the height of the upper end of the existing post frame is the same, and then the frame connecting member 13 on the upper part of each post frame 10 After the installation, if each frame connecting member 13 is connected with the transverse connecting member 21, the installation of the double-sided solar module (a) becomes very easy.

By the way, in the case of construction using the previously installed post frame 10, the weight of the double-sided solar module (a) is heavier than the weight of the existing one-sided solar module (a), and there is a reflector 60 and additional components. Since it is added, even if the transverse connection member 21 is installed and reinforced, there is a problem in that the load burden increases.

Accordingly, efforts to minimize the upper load are required.

To this end, the structure of the upper frame 20 may be configured in a structure that is easier to reduce weight as shown in FIG. 11.

In the illustrated form, the vertical member 22 has a cross-sectional shape of two guide portions 22b that are spaced apart from each other to form a fitting space 22a, and are integrally connected to the lower portion of the guide portion 22b. A seating portion 22c formed by bending in a horizontal direction and on which the lower end of the double-sided solar module a is seated, and a wall portion 22d formed by bending downward while being integrally connected with the seating portion 22c. And, it consists of a bottom portion (22e) connecting the lower end of the two wall portions (22d).

In addition, a fitting portion 23a fitted through the fitting space 22a, and a cover portion connected to the upper portion of the fitting portion 23a and bent toward the outer side to cover the upper outer periphery of the double-sided solar module a The vertical member (23) is formed of an intermediate molding member (23b) consisting of a locking part (23c) which is connected to the lower part of the fitting part (23a) and bent to the outer side and supported at the bottom part of the seating part (22c). 22).

In this case, the intermediate molding member 23 may be divided in half with respect to the center of the fitting portion 23a, if necessary.

In addition, a vertical end finishing material 24 is installed at an end of the vertical member 22.

The vertical end finishing material 24 is formed on both sides of a flat plate portion 24a abutting the end portion of the vertical member 22 and an upper end of the flat plate portion 24a, and is bent toward the vertical member 22, and has an end portion. A module support part 24b configured to support the end of the double-sided solar module a is provided.

In addition, a spacing groove (24c) formed between the two module support portions (24b) so that the guide portion (22b) is fitted inward is formed, and the wall portion (22d) is bent at both sides of the flat plate portion (24a). ) Is provided with a fixing portion (24d) that is bolted to the wall portion (22d) in close contact.

In the above configuration, the vertical end finishing material 24 can securely support the double-sided photovoltaic module (a) while closing the end of the vertical member 22 to eliminate the horizontal member, thereby reducing the load of the upper frame 20. You will be able to reduce it.

The lower vertical member 30, which is a component of the present invention, is configured to install the reflective plate 60 under the upper frame 20, and as shown in FIGS. 1 and 2, the vertical member 22 It forms the same direction as and is installed to be spaced apart from the lower portion of the upper frame (20).

This lower vertical member 30 may be fastened to the wall surface of one side wall of the post frame 10 through the fixing bolt 31 shown in FIG. 5.

The front and rear finishing members 40, which are components of the present invention, are connected to both ends of the lower vertical member 30, and serve to fix the periphery of one side of the reflective plate 60.

3 and 4 illustrate specific examples of the front and rear finishing members 40.

The front and rear finishing members 40 in the drawing are composed of a front and rear closing portion 41, a lower protruding portion 42, an intermediate protruding portion 43, and an upper protruding portion 44.

First, the front and rear end portions 41 have a rectangular cross-sectional shape as shown.

As shown, the lower protrusion 42 is formed to protrude from the lower end of one side of the front and rear finishing portions 41 in an outward direction of the front and rear closing portions 41.

This lower protrusion 42 supports the bottom of the lower vertical member 30 as shown.

The intermediate protrusion 43 is also formed to protrude in parallel with the lower protrusion 42 in an outward direction from an intermediate point on one side of the front and rear finishing part 41, that is, a position spaced upward by a predetermined distance from the lower protrusion 42.

The vertical member front and rear fitting grooves 45 are formed between the lower protrusion 42 and the intermediate protrusion 43 so that both front and rear ends of the lower vertical members 30 located at the left and right ends when viewed from the entire installation structure are fitted.

A bolt fastening hole may be formed in the lower protrusion 42 to be fastened to the lower vertical member 30 by using a bolt as shown in FIG. 4.

The upper protrusion 44 protrudes from an upper end of one side of the front and rear finishing portion 41 in the outer direction of the closing portion 41.

A reflective plate front and rear fitting groove 46 is formed between the upper protrusion 44 and the intermediate protrusion 43 so that the reflector 60 is fitted.

That is, the front and rear finishing members 40 finish the front and rear ends of the lower vertical members 30 that are spaced apart from each other in the structure of the present invention in which the reflection plate 60 is installed, and the front and rear ends of the reflection plate 60 are fitted. It is combined.

The front and rear finishing members 40 configured as described above can be easily manufactured by extrusion of aluminum.

The left and right finishing members 50, which are components of the present invention, allow the reflector 60 to be easily installed and fixed while neatly finishing the exterior of the lower vertical members 30 located at both left and right ends of the entire installation structure.

To this end, in FIGS. 5 and 6, the left and right closing members 50 include left and right closing portions 51, lower protruding portions 52, intermediate protruding portions 54, and upper protruding portions 56.

As shown, the left and right closing portions 51 have an outer wall in the form of a flat plate to cover the left and right outer edges of the lower vertical members 30 located at the left and right ends of the structure.

The lower protrusion 52 is configured to protrude toward the lower vertical member 30 from the lower end of the left and right end portions 51 to support the lower portion of the lower vertical member 30.

In addition, the intermediate protrusion 54 is spaced upward from the lower protrusion 52 by a predetermined distance to support the upper side of the lower vertical member 30, and the lower vertical member 30 between the lower protrusion 52 To form a fitting groove 53 on the side of the vertical member to be fitted.

In addition, the upper protrusion 56 protrudes from the upper end of the left and right end portions 51 toward the lower vertical member 30 so that the left and right circumferences of the reflector 60 are inserted between the intermediate protrusions 54 and the reflective plate side fitting groove 55 ) To form.

The left and right closing members 50 have the same main configuration as the front and rear closing members 40 described above.

However, as described above, since the fixing bolt 31 connects the holding frame 10 and the lower vertical member 30, when the left and right finishing parts 51 form the same square cross-sectional structure as the front and rear finishing members 40, the fixing bolts Interview contact becomes difficult by (31).

Accordingly, the inner structure of the left and right end portions 51 is formed with inner stepped portions 57 on both upper and lower sides of the inner wall surface between the lower protruding portion 52 and the intermediate protruding portion 54 as shown in the drawing, so that the center side is compared with the upper and lower end sides. It is preferable that the bolt installation space 58 having a small width is formed.

That is, in the state in which the left and right closing members 50 are installed, the wall surface of the inner stepped portion 57 is in close contact with the lower vertical member 30 as shown in FIG. And, the bolt head protruding from the end of the fixing bolt 31 is configured to be accommodated in the bolt installation space (58).

On the other hand, the edge portion where the left and right finishing members 50 and the front and rear finishing members 40 meet will be finished by fitting the corner molding material 80, which is fitted on both sides, into the rectangular hole formed respectively, as shown in FIG. 2. I can.

The reflector 60, which is a component of the present invention, avoids the transmitted sunlight passing through the double-sided solar module (a) or the solar module (a), and directly or indirectly, the solar module (a). The front and rear ends of the reflector are reflected to the bottom side of the panel so that smooth power generation can be achieved.

In addition, for a portion where interference occurs by the post frame 10, a through hole 61 through which the post frame 10 passes is formed in the reflective plate 60.

The reflective plate 60 may be configured to be integrally formed on the installation structure, but this may cause a problem in that the reflective plate 60 is deformed by heat and the reflection efficiency decreases, as shown in FIG. 1. It is preferable that a plurality of pieces are arranged so as to be spaced apart from each other, and each reflector 60 is connected to each other.

At this time, as shown in FIGS. 7 and 8, it is preferable that the intermediate finishing material 70 provided with the reflecting plate fitting grooves 71 into which both ends of each reflecting plate 60 are fitted is bolted to the lower vertical member 30 to be installed. Do.

According to this configuration, in a state in which the reflecting plates 60 are arranged in a checkerboard pattern in a front and rear, left and right sides, the reflecting plates 60 are located in the front and rear fitting grooves 46, the reflector side fitting grooves 55, and the reflecting plate fitting grooves 71 according to their position. It is inserted and fixed.

At this time, it is preferable that the length between the two grooves facing each other is formed to be 1 to 10 mm longer than the length of the reflecting plate inserted into the groove to accommodate the contraction and expansion of the reflecting plate 60 due to heat.

In addition, in the case where the reflective plates 60 are divided into a plurality in this way, since the through holes 61 for passing the pillar frames 10 can be formed by cutting from the end of the individual reflecting plates 60, processing is easy and the site It can be easily cut and assembled according to conditions.

The double-sided photovoltaic module installation structure of the present invention configured as described above does not support the reflector using a separate frame in addition to the post frame 10 supporting the load of the photovoltaic module, but the post frame 10 is the reflector 60 It is characterized in that it can support the load of) together.

Therefore, it is possible to maximize the utilization of the site by not requiring a separate additional area for installing the reflector.

In addition, it is possible to construct while maintaining the post frame without completely dismantling the existing photovoltaic power generation facility. Nevertheless, the post frame can be recycled by minimizing the load burden.

In addition, the installation structure of the reflector 60 is relatively simplified, and the load on the post frame 10 by the installation of the reflector 60 can be minimized. Can be shortened.

10: post frame 13: frame connecting member
13a: side wall portion 13b: connection portion
13c: frame fitting groove 13d: bolt fastening
13e: lower fastening bolt 13f: upper bolt fastening
13g: upper fastening bolt 20: upper frame
21: transverse connection member 21a: lower contact portion
21b: vertical member support portion 22: vertical member
22a: fitting space 22b: guide part
22c: finishing part 22d: wall part
22e: bottom portion 23: intermediate molding member
23a: fitting portion 23b: cover portion
23c: locking part 24: vertical end finishing material
24a: flat plate 24b: module support
24c: separation groove 24d: fixed part
30: lower vertical member 40: front and rear finishing members
41: front and rear end 42: lower protrusion
43: intermediate protrusion 44: upper protrusion
45: vertical member front and rear fitting groove 46: reflector front and rear fitting groove
50: left and right closing members 51: left and right closing portions
52: lower protrusion 53: vertical member side fitting groove
54: intermediate protrusion 55: reflector side fitting groove
56: upper protrusion 57: inner stepped portion
58: bolt installation space 60: reflector
70: intermediate finishing material 71: reflector fitting groove
80: corner molding material

Claims (5)

In the double-sided solar module installation structure,
A plurality of post frames 10 having a lower portion fixed to the ground or underground and spaced apart from each other in front and rear and left and right;
The upper frame is connected to the upper portion of the holding frame 10, the double-sided solar module (a) is installed on the upper portion, and the upper frame consisting of a vertical member (22) connected to the continuous support frame (10) in the front and rear direction (20) and;
A lower vertical member (30) formed in the same direction as the vertical member (22), spaced apart from the lower portion of the upper frame (20), and coupled to the wall surface of each post frame (10);
The front and rear end portions 41 forming a square cross-sectional shape, a lower protrusion 42 protruding outward from the front and rear end portions 41 from one lower end of the front and rear end portions 41, and a constant from the lower protrusion 42 Consisting of an intermediate protrusion 43 formed at a position spaced apart from the distance upward, and an upper protrusion 44 protruding outward from the upper end of one side of the front and rear end 41, the lower protrusion ( Between the 42 and the intermediate protrusion 43 is formed a longitudinal member front and rear fitting groove 45 into which both ends of the lower vertical member 30 located at the left and right ends are inserted, and the upper protrusion 44 and the intermediate protrusion ( 43) a front and rear finishing member 40 having a front and rear fitting groove 46 formed therebetween;
The left and right closing portions 51 covering the left and right outer edges of the lower vertical members 30 located at both ends of the left and right ends, and the lower vertical member 30 protruding from the lower end of the left and right closing portions 51 toward the lower vertical member 30 A lower protrusion 52 supporting the lower portion of the lower protrusion 52, and is spaced upwardly from the lower protrusion 52 to support the upper side of the lower vertical member 30, and the vertical member side fitting groove between the lower protrusion 52 An intermediate protrusion 54 forming a 53, and an upper protrusion protruding from the upper end of the left and right end 51 toward the lower vertical member 30 to form a fitting groove 55 on the side of the reflector between the intermediate protrusion 54 The left and right closing members 50 composed of (56) and;
The front and rear ends are fitted into the front and rear fitting grooves 46 of the reflective plate, the left and right ends are fitted into the side fitting grooves 55 on the reflective plate, and a through hole 61 through which the post frame 10 passes is formed. 60); consisting of, including,
Double-sided solar module installation structure.
The method of claim 1,
A plurality of the reflective plates 60 are arranged spaced apart from each other, and an intermediate finishing material 70 provided with reflective plate fitting grooves 71 into which both ends of each reflector 60 are fitted is bolted to the lower vertical member 30 Characterized in that it is installed and installed,
Double-sided solar module installation structure.
The method of claim 2,
The inner wall surface between the lower protrusions 52 and the intermediate protrusions 54 of the left and right finish members 50 has inner stepped portions 57 formed on both upper and lower sides, so that the central side is a bolt installation space having a smaller width than the upper and lower end sides ( 58) is formed,
The post frame 10 and the lower vertical member 30 are fastened through a fixing bolt 31, wherein the end of the fixing bolt 31 is accommodated in the bolt installation space 58,
Double-sided solar module installation structure.
The method of claim 3,
The lower part is in close contact with the outer side of the upper left and right sides of the holding frame 10, and the upper part has two side wall parts 13a that are in close contact with the outer side of both left and right walls of the vertical member 22, and the rear end of the two side wall parts 13a And forming a frame fitting groove (13c) into which the upper side of the holding frame 10 is fitted together with the two side wall portions (13a), and the upper end is formed to be spaced apart from the upper side of the side wall portion (13a) to the upper side. Consisting of a connecting portion 13b configured to penetrate the vertical member 22, a plurality of lower bolt fastening holes 13d are formed in the lower portion of the two sidewall portions 13a so that the lower fastening bolt 13e faces each other. It is coupled to the post frame 10 by penetrating the lower bolt fastening hole 13d of the side wall part 13a and the post frame 10 therebetween, and the upper bolt fastening hole 13f is at the upper side of the two side wall parts 13a. ) Is formed to pass through the upper bolt fastening hole (13f) of the two side wall portions (13a) facing the upper fastening bolt (13f) and the vertical member (22) between the frame connection member that is fastened to the vertical member (22) (13) are equipped,
The lower contact portion 21a that is in close contact with and fixed to the connecting portion 13b of the frame connecting member 13 installed for each post frame 10 forming a straight line in the horizontal direction, and the lower contact portion 21a bent at a certain angle. It is characterized in that it comprises a vertical member support portion (21b) connected to the bottom of the vertical member (22), characterized in that the transverse connection member (21) for interconnecting each frame connection member (13) is provided,
Double-sided solar module installation structure.
The method of claim 4,
The vertical member 22 has a cross-sectional shape of two guide portions 22b that are spaced apart from each other to form a fitting space 22a, and are integrally connected to the lower portion of the guide portion 22b in a horizontal direction. A seating portion 22c formed by bending and on which the lower end of the double-sided photovoltaic module (a) is seated on an upper portion, and a wall portion 22d formed by being bent downward while being integrally connected with the seating portion 22c, and the It consists of a bottom portion (22e) connecting the lower end of the two wall portions (22d),
The fitting portion 23a fitted through the fitting space 22a, and a cover portion 23b formed by bending toward the outer side while being connected to the upper portion of the fitting portion 23a to cover the upper outer periphery of the double-sided photovoltaic module (a) ), and an intermediate molding member (23) consisting of a locking portion (23c) supported at the bottom of the seating portion (22c) and formed to be bent to the outer side while being connected to the lower portion of the fitting portion (23a), the vertical member (22) Is connected to,
A flat plate part 24a abutting against the end of the vertical member 22 and formed on both sides of the upper end of the flat plate part 24a and bent toward the vertical member 22, the end of which is the double-sided photovoltaic module (a) ), a module support portion 24b configured to support the end of the module, a separation groove 24c formed between the two module support portions 24b so that the guide portion 22b is fitted inward, and the flat plate portion 24a ) Is bent at both sides of the wall portion (22d) and bolted to the wall portion (22d) while being in close contact with the vertical finishing member (24) consisting of a fixing portion (24d) is installed at the end of the vertical member (22) Characterized in that there is,
Double-sided solar module installation structure.

Images