KR102138744B1 - Vertical type solar power plant having double faces type solar module - Google Patents

Abstract

The present invention relates to a vertical solar facility equipped with a double-sided module and, more particurly, to a vertical solar facility equipped with a double-sided module in which a solar panel is arranged vertically with the ground to minimize the interference caused by solar power facilities in crop cultivation, aquaculture, fish farming, etc., to maintain land utilization wherein the vertical solar facility can be used as sound insulation means for roads that cause noise. According to the present invention, the vertical solar facility equipped with a double-sided module includes a vertical support frame (100) that is fastened to a base material (110) embedded in the ground and provided to be vertically fixed to the ground; a horizontal support frame (200) fastened to the vertical frame (100) and provided to have a longitudinal direction parallel to the ground; a solar panel (300) in which a plurality of double-sided solar cells (310) are disposed pairwise perpendicular to the ground to form a square plate shape through the vertical support frame (100) and the horizontal support frame (200); a bidirectional coupling member (400) supported by the vertical support frame (100) or the horizontal support frame (200) and provided to fasten the solar panel (300) in both directions; and a unidirectional coupling member (500) supported by the vertical support frame (100) or the horizontal support frame (200) and provided to fasten the solar panel (300) in one direction.

Description

Vertical solar equipment equipped with double-sided modules {VERTICAL TYPE SOLAR POWER PLANT HAVING DOUBLE FACES TYPE SOLAR MODULE}

The present invention relates to a vertical solar system equipped with a double-sided module, more specifically, by placing the solar panel perpendicular to the ground, to minimize the interference caused by the solar facility on crop cultivation, farming, fish farming, etc. To maintain, and to be used as a sound-insulating means of the road where noise is generated, a vertical photovoltaic facility equipped with a double-sided module including a vertical support frame, a horizontal support frame, a solar panel, a bidirectional coupling member and a unidirectional coupling member It's about providing.

Photovoltaic power generation is environmentally friendly without the use of additional energy or driving equipment, and is very advantageous in that power generation can be performed only as needed in a required place.

However, such photovoltaic power generation has a disadvantage in that the amount of electricity produced depends on the amount of sunshine, the installation location is limited, and the initial investment cost and the generation cost are high, and a large space is required to supply the required amount of electricity production.

Therefore, in order to install a more effective photovoltaic device, there is a need for a structure for securing a space for installing a photovoltaic panel, an appropriate shape for the space, and an efficient photovoltaic panel installation structure.

In addition, the altitude of the sun varies depending on the season. Since the solar panel of the existing power generation facility is always inclined at a certain angle, it is difficult to increase solar power generation efficiency.

Therefore, in the management of a conventional photovoltaic power generation facility, work is being performed to change the inclination angle of the photovoltaic panel according to the season.

However, the conventional photovoltaic power generation facility had a difficulty in inputting a large number of manpower and time to adjust the inclination of the photovoltaic panel.

In order to solve this problem, as shown in FIG. 21, in Korean Patent Publication No. 2013-0097043, a support structure of a solar panel has been proposed, but in the case of the above technology, only the inclined solar panel facility was used. The problems have not been completely solved.

In addition, a plurality of leaflet frames vertically mounted on the roof surface of the building and a plurality of rear end support frames and lengths longer than the leaflet frames and vertically mounted on the roof surface of the building spaced apart from the leaflet frames A plurality of vertical frames connecting the plurality of leaflet frames and the plurality of rear end supporting frames, and a plurality of horizontal frames and the plurality of horizontal frames that are mounted to be spaced apart from each other to vertically cross each of the plurality of vertical frames. The sun can be easily fixed to a plurality of horizontal frames without damaging the photovoltaic panel by the horizontal frame, and the clamping means for fixing the solar panel to the top of the plurality of horizontal frames has a variable structure capable of height adjustment. Although it is configured to be used regardless of the thickness of the optical panel, it is difficult to increase the efficiency of photovoltaic power generation because it is inclined at a certain angle, and there is still a need to invest a lot of manpower and time.

In addition, there is a demand to grow crops by using farmland at the same time even if solar facilities are installed on the farmland, and demand for solar power generation at the same time as sound insulation using a sound barrier on the road or railroad is emerging. It is not possible to provide a suitable technique to cope with it.

Korean Patent Publication No. 10-2013-0097043 (released on September 02, 2013)

The technical problem to be achieved by the present invention is to solve the above-mentioned problems or necessities, and it is possible to maintain land utilization by minimizing solar energy loss by vertically arranging photovoltaic panels through the frame and the coupling member to the ground. It is intended to provide a vertical solar system equipped with a double-sided module.

Another object of the present invention is fastened to the base material 110 embedded in the ground and vertically supported frame 100 provided to be vertically fixed to the ground and fastened to the vertical frame 100, the length running direction parallel to the ground It is intended to provide a vertical solar installation equipped with a double-sided module to be fixed in the vertical direction from the ground with a horizontal support frame 200 provided to have a.

Another object of the present invention, a plurality of double-sided photovoltaic cells 310 are formed in a sun-shape to form a square plate shape through the vertical support frame 100 and the horizontal support frame 200 to be disposed perpendicular to the ground The bidirectional coupling member 400 and the vertical support frame which are supported by the optical panel 300 and the vertical support frame 100 or the horizontal support frame 200 and are provided to fasten the solar panel 300 in both directions. The frame and the photovoltaic panel are easily combined with a unidirectional coupling member 500 that is supported on the horizontal support frame 200 or provided to fasten the photovoltaic panel 300 in one direction, and the sunrise of the sun And to provide a vertical solar installation equipped with a double-sided module that enables solar energy to be collected during sunset time.

Another object of the present invention, the vertical support frame 100 or the horizontal support frame 200 by pressing and fixing the vicinity of the rim of the solar panel 300 on the upper and lower or left and right sides of the bidirectional coupling member 400. In order to be fastened to the first fixing space 410 and the second fixing space 420, the first cover surface 430 and the first cover surface 430 are formed to be symmetrically formed vertically or horizontally. A cover surface 440 is disposed, and a through hole 480 is formed at a center position of the first cover surface 430 and the second cover surface 440, and the first side is formed on both sides of the through hole 480. The movement limiting wing 450 and the second movement limiting wing 460 are perpendicular to the lengthwise direction of the bidirectional coupling member 400 in the inner direction of the first cover surface 430 and the second cover surface 440. It is intended to provide a vertical type solar facility equipped with a double-sided module that is formed to easily control the combined position of the frame and the solar panel.

Another object of the present invention, inside the first fixing space 410, the first left elastic material 411 and the first left elastic material 411 in a shape facing each other first right elastic material 412 Is disposed along the lengthwise direction of the bidirectional coupling member 400, and the second left elastic material 421 and the second left elastic material 421 are facing each other inside the second fixing space 420. In a shape, a second urethane material 422 is disposed along the lengthwise direction of the bidirectional coupling member 400, and using the through hole 480, the first cover surface 430 and the second cover surface ( 440) is pressed from both sides to compress the first left elastic material 411, the first right elastic material 412, the second left elastic material 421 and the second right elastic material 422 to press the compression fixing material ( 470) is provided, the lower end of the horizontal support frame 200, the horizontal support frame 200 along the length progression direction of the horizontal support frame 200 is attached to the fastening or irrigation means 210 is further provided It is intended to provide a vertical solar installation equipped with a double-sided module to prevent physical damage to the frame and the solar panel generated by the coupling member.

Another object of the present invention is provided with a bolt 471 and a nut 472 to press the outer surface of the first cover surface 430 and the outer surface of the second cover surface 440, the first The outer peripheral spring 473 is disposed on the outer periphery where the thread of the bolt 471 is located so as to elastically repel the inner surface of the cover surface 430 and the inner surface of the second cover surface 440, so that the coupling member is easily It is intended to provide a vertical solar system equipped with a double-sided module to be fixed.

Another object of the present invention, the first left elastic material 411 and the first right elastic material 412 has a first left and the first unevenness (411a) and the first unevenness (412a) in a shape facing each other. The second left elastic material 421 and the second right elastic material 422 are formed to be parallel to the length direction of the first cover surface 430, and the second left elastic recess 421a is shaped to face each other. And a second solar module having a double-sided module to increase the coupling force between the frame and the solar panel by forming the second irregularities 422a parallel to the length direction of the first cover surface 430. Is to provide.

Another object of the present invention, the first movement limit bending jaw vertically bent in the direction of the through hole 480 at the end where the second cover surface 440 is located on the inner surface of the first cover surface 430 451 is formed, and vertically bent in a direction opposite to the first movement limit bending jaw 451 at the end of the second movement limit wing 460 so as to be caught by the first movement limit bending jaw 451 It is intended to provide a vertical solar installation equipped with a double-sided module capable of preventing the coupling member from being opened over a predetermined interval through the second movement limiting bent jaw 461.

Another object of the present invention, the first cover surface 430 and the inner surface of the second cover surface 440 facing each other in a shape facing each other outside the first cover surface 430 and the second cover surface ( 440) is recessed in the outward direction, the first cover surface 430 and the second cover surface 440 is provided with an elastic re-engagement space 431 parallel to the longitudinal direction of travel, the elastic re-engagement space 431 is It is provided with a basic space (431a) for receiving the elastic material and a narrow space (431b) provided to be caught in the elastic material, the elastic material is provided with an elastic engaging portion (431c) in a shape conforming to the elastic material hanging space (431) However, the volume of the elastic catching portion 431c is larger than the volume of the elastic catching space 431 to provide a vertical solar installation equipped with a double-sided module that is easily coupled through the elastic force of the elastic material. .

On the other hand, the technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned are clearly understood by those skilled in the art from the following description. Will be understandable.

A vertical solar panel equipped with a double-sided module related to an example of the present invention for realizing the above-described problem is firstly fastened to the base material 110 embedded in the ground and vertically supported and provided to be vertically fixed to the ground. (100); may include.

Here, the horizontal support frame 200 is fastened to the vertical frame 100 and provided to have a lengthwise direction parallel to the ground.

In addition, a plurality of double-sided photovoltaic cells 310 are formed to form a square plate shape through the vertical support frame 100 and the horizontal support frame 200 to be disposed perpendicular to the ground; It may include.

At this time, the vertical support frame 100 or the horizontal support frame 200 is supported by the bi-directional coupling member 400 and the vertical support frame 100 or provided to fasten the solar panel 300 in both directions or It may include a; one-way coupling member 500 is supported on the horizontal support frame 200 and provided to fasten the solar panel 300 in one direction.

In addition, the bidirectional coupling member 400 is fixed to the vertical support frame 100 or the horizontal support frame 200 by pressing and fixing the vicinity of the rim of the photovoltaic panel 300 on both the upper and lower sides or the left and right sides. The second cover surface 440 is positioned at a position facing the first cover surface 430 and the first cover surface 430 so that the fixed space 410 and the second fixed space 420 are symmetrically formed vertically or horizontally. Arranged, a through hole 480 is formed at a center position of the first cover surface 430 and the second cover surface 440, and the first movement limiting blades 450 are located at both sides of the through hole 480. And the second movement limiting wing 460 are formed perpendicular to the lengthwise direction of the bidirectional coupling member 400 in the inner direction of the first cover surface 430 and the second cover surface 440, and the first Inside the fixed space 410, the first left elastic material 411 and the first left elastic material 411 in a shape facing each other, the first left elastic material 412 progresses the length of the bidirectional coupling member 400 A second right elastic material 422 is disposed along the direction, and a second left elastic material 421 and a second left elastic material 421 are formed inside the second fixed space 420 to face each other. The bidirectional coupling member 400 is disposed along a length direction of travel, and the first left side is pressed by pressing the first cover surface 430 and the second cover surface 440 from both sides using the through hole 480. An elastic material 411, the first right elastic material 412, the second left elastic material 421, and the second fixing material 422 is provided with a compression fixing member 470, and the horizontal support frame ( At the bottom of the 200) may be characterized in that it is further provided with an irrigation means 210 attached to or fastened to the horizontal support frame 200 along the longitudinal direction of the horizontal support frame 200.

Here, the pressing fixing material 470 is provided with a bolt 471 and a nut 472 to press the outer surface of the first cover surface 430 and the outer surface of the second cover surface 440, and the An outer peripheral spring 473 is provided to be disposed on an outer circumference where the thread of the bolt 471 is positioned to elastically repel the inner surface of the first cover surface 430 and the inner surface of the second cover surface 440. Can.

In addition, the first left elastic material 411 and the first right elastic material 412 are facing each other in a shape such that the first left engaging groove 411a and the first left engaging groove 412a are the first cover surface ( 430), the second left elastic material 421 and the second right elastic material 422 are formed in parallel with the length direction of the second direction, and the second left and right uneven surfaces 421a and the second right and left uneven surfaces are formed to face each other. It may be characterized in that (422a) is formed in parallel with the longitudinal direction of the first cover surface 430.

At this time, the first movement limiting blade 450 is a first bent vertically in the direction of the through hole 480 at the end where the second cover surface 440 is located on the inner surface of the first cover surface 430 A movement limit bending chin 451 is formed, and opposite to the first movement limit bending chin 451 at an end of the second movement limiting wing 460 so as to be caught by the first movement limit bending chin 451. A second movement limit bending jaw 461 vertically bent in the direction may be provided.

Meanwhile, the inner surfaces of the first cover surface 430 and the second cover surface 440 face each other in an outer shape of the first cover surface 430 and outward directions of the second cover surface 440. It is recessed and is provided with an elastic re-engagement space 431 parallel to the length progressing direction of the first cover surface 430 and the second cover surface 440, wherein the elastic re-engagement space 431 is a base for accommodating an elastic material. It is provided with a space 431a and a narrow space 431b that is provided so that the elastic material is caught, and the elastic material is provided with an elastic catching part 431c in a shape conforming to the elastic catching space 431, and the elastic catching part is provided. The volume of the (431c) may be characterized in that it is provided larger than the volume of the elastic re-engagement space (431).

In addition, the solar panel 300 is moved up and down along the lengthwise direction of the vertical support frame 100 and is fixed by the bidirectional coupling member 400 or the unidirectional coupling member 500 and the horizontal support frame ( Hose through the irrigation means 210, which is moved left and right along the lengthwise direction of the 200 and is fixed to the bidirectional coupling member 400 or the unidirectional coupling member 500 and fastened to the horizontal support frame 200. It may be characterized in that the horizontal support frame 200 is connected to a hose for irrigation in the lengthwise direction of the horizontal support frame 200 to be provided to allow cooling water, irrigation or chemical spraying in the ground direction.

Accordingly, the present invention provides a vertical solar system equipped with a double-sided module,

First, high-yield solar energy is collected through a vertical solar system equipped with a double-sided module capable of maintaining land utilization by minimizing solar energy loss by placing the double-sided solar panel perpendicular to the ground through a frame and a coupling member. It can increase the efficiency of land use and preserve the ecological environment.

Second, the vertical support frame 100 that is fastened to the base material 110 that is buried in the ground and is provided to be vertically fixed to the ground and horizontally provided to have a lengthwise running direction parallel to the ground by being fastened to the vertical frame 100 The support frame 200 has an effect of being fixed in the vertical direction from the ground.

Third, a plurality of double-sided photovoltaic cells 310 are formed to form a square plate shape through the vertical support frame 100 and the horizontal support frame 200, and the solar panel 300 is disposed perpendicular to the ground. A bidirectional coupling member 400 and the vertical support frame 100 or the horizontal support member 100 supported by the vertical support frame 100 or the horizontal support frame 200 and provided to fasten the solar panel 300 in both directions. A frame and a photovoltaic panel are easily combined with a unidirectional coupling member 500 supported by a support frame 200 and provided to fasten the photovoltaic panel 300 in one direction to collect solar energy during peak times twice a day There is an effect that can be done.

Fourth, to fasten and fix the vicinity of the rim of the solar panel 300 to the vertical support frame 100 or the horizontal support frame 200 on the top, bottom, left and right sides of the bidirectional coupling member 400, the first The second cover surface 440 is positioned at a position facing the first cover surface 430 and the first cover surface 430 so that the fixed space 410 and the second fixed space 420 are symmetrically formed vertically or horizontally. Arranged, a through hole 480 is formed at a center position of the first cover surface 430 and the second cover surface 440, and the first movement limiting blades 450 are located at both sides of the through hole 480. And the second movement limiting wing 460 are formed perpendicularly to the lengthwise direction of the bidirectional coupling member 400 in the inner direction of the first cover surface 430 and the second cover surface 440, so that the frame and sunlight There is an effect that can easily adjust the bonding position of the panel.

Fifth, inside the first fixed space 410, the first left elastic material 411 and the first left elastic material 411 in a shape facing each other, the first right elastic material 412 is the bidirectional coupling member ( 400) is disposed along the length of the traveling direction, inside the second fixing space 420, the second left elastic material 421 and the second left elastic material 421 in a shape facing each other second right elastic material 422 is disposed along the lengthwise direction of the bidirectional coupling member 400, and presses the first cover surface 430 and the second cover surface 440 from both sides using the through hole 480. In order to press the first left elastic material 411, the first right elastic material 412, the second left elastic material 421 and the second right elastic material 422 is provided with a compression fixing material 470, The lower end of the horizontal support frame 200 is further provided with an irrigation catching means 210 that is attached to or fastened to the horizontal support frame 200 along the lengthwise direction of the horizontal support frame 200, and is generated by a coupling member. It has the effect of preventing damage to the frame and the solar panel.

Sixth, it is provided with a bolt 471 and a nut 472 to press the outer surface of the first cover surface 430 and the outer surface of the second cover surface 440, and of the first cover surface 430 The outer circumferential spring 473 is disposed on the outer circumference where the thread of the bolt 471 is positioned so as to elastically repel the inner surface and the inner surface of the second cover surface 440 so that the space of the coupling member is easily adjusted and fixed. It has the effect.

Seventh, the first left elastic material 411 and the first right elastic material 412 are facing each other, such that the first left and right uneven surfaces 411a and the first right and left uneven surfaces 412a are the first cover surface ( 430), the second left elastic material 421 and the second right elastic material 422 are formed in parallel with the length direction of the second direction, and the second left and right uneven surfaces 421a and the second right and left uneven surfaces are formed to face each other. The (422a) may be formed parallel to the length direction of the first cover surface 430 to enhance the bonding force between the frame and the solar panel.

Eighth, the first movement limit bending jaw 451 is formed vertically bent in the direction of the through hole 480 at the end where the second cover surface 440 is located on the inner surface of the first cover surface 430, , A second movement limit bending that is vertically bent in a direction opposite to the first movement limit bending jaw 451 so as to be caught by the first movement limit bending jaw 451 Through the jaw 461, it is possible to prevent the coupling member from opening over a predetermined interval.

Ninth, the inner surfaces of the first cover surface 430 and the second cover surface 440 face each other in an outer shape of the first cover surface 430 and outward directions of the second cover surface 440. It is recessed and is provided with an elastic re-engagement space 431 parallel to the length progressing direction of the first cover surface 430 and the second cover surface 440, wherein the elastic re-engagement space 431 is a base for accommodating an elastic material. It is provided with a space 431a and a narrow space 431b that is provided so that the elastic material is caught, and the elastic material is provided with an elastic catching part 431c in a shape conforming to the elastic catching space 431, and the elastic catching part is provided. The volume of the (431c) is larger than the volume of the elastic re-engagement space 431 can be easily coupled to the elastic re-engagement space through the elastic force of the elastic material.

On the other hand, the effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the following description. Will be able to.

The following drawings attached to this specification are intended to illustrate one preferred embodiment of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is limited to those described in those drawings. It should not be interpreted as limited.
1 and 2 are graphs for comparing the energy efficiency of a vertical solar installation equipped with a double-sided module according to a preferred embodiment of the present invention with a conventional solar installation.
3 is a 3D view for explaining the overall shape of a vertical solar installation equipped with a double-sided module according to an embodiment of the present invention.
4 is a 3D view for explaining that the frame and the photovoltaic panel of a vertical solar installation equipped with a double-sided module according to an exemplary embodiment of the present invention are coupled through a coupling member.
FIG. 5 is a 3D view for explaining irrigation means of a vertical solar system equipped with a double-sided module according to an exemplary embodiment of the present invention.
6 is a 3D diagram for explaining a frame of a vertical solar installation equipped with a double-sided module according to an exemplary embodiment of the present invention.
7 is a 3D view for explaining a photovoltaic cell of a vertical solar installation equipped with a double-sided module according to a preferred embodiment of the present invention.
8 to 12 is a 3D view for explaining a bi-directional coupling member of a vertical solar installation equipped with a double-sided module according to an embodiment of the present invention.
13 is a 3D view for explaining a through-hole of a vertical solar installation equipped with a double-sided module according to an exemplary embodiment of the present invention.
14 is a 3D view for explaining a compression fixing material of a vertical solar installation equipped with a double-sided module according to an exemplary embodiment of the present invention.
15 is a 3D view for explaining a bolt, a nut, and an outer circumferential spring of a vertical solar system equipped with a double-sided module according to an exemplary embodiment of the present invention.
FIG. 16 is a 3D view for explaining an elastic re-engaging space of a vertical solar installation equipped with a double-sided module according to an exemplary embodiment of the present invention.
17 to 19 are 3D views for explaining a unidirectional coupling member of a vertical solar installation equipped with a double-sided module according to an exemplary embodiment of the present invention.
FIG. 20 is a 3D diagram for explaining that agricultural machinery can be used in a space secured through inter-line spacing of a vertical solar installation equipped with a double-sided module according to a preferred embodiment of the present invention.
21 is an excerpt of a prior application document for comparing a pineapple cutting device of a prior application document with a vertical solar system equipped with a double-sided module according to a preferred embodiment of the present invention.

Specific structural or functional descriptions of the embodiments according to the concept of the present invention disclosed in this specification are exemplified only for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention It can be implemented in various forms and is not limited to the embodiments described herein.

Embodiments according to the concept of the present invention can be applied to various changes and can have various forms, so the embodiments will be illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments according to the concept of the present invention to specific disclosure forms, and includes all modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

1 and 2 is a graph for comparing the energy efficiency of a vertical solar installation equipped with a double-sided module according to a preferred embodiment of the present invention with a conventional solar installation, Figure 3 is a preferred embodiment of the present invention It is a 3D drawing for explaining the overall shape of a vertical solar installation equipped with a double-sided module according to,

Figure 4 is a 3D view for explaining that the frame and the photovoltaic panel of the vertical solar installation equipped with a double-sided module according to a preferred embodiment of the present invention is coupled through a coupling member, Figure 5 is the present invention It is a 3D drawing for explaining the irrigation hanging means of a vertical solar installation equipped with a double-sided module according to a preferred embodiment, and FIG. 6 is a vertical solar installation equipped with a double-sided module according to a preferred embodiment of the present invention 3D drawing for explaining a frame of the present invention, FIG. 7 is a 3D drawing for explaining a photovoltaic cell of a vertical solar installation equipped with a double-sided module according to a preferred embodiment of the present invention, and FIGS. 8 to 12 are invention 3D view for explaining a bidirectional coupling member of a vertical solar installation equipped with a double-sided module according to a preferred embodiment of the present invention, and FIG. 13 is a vertical solar provided with a double-sided module according to an exemplary embodiment 3D is a 3D view for explaining a through hole of a facility, and FIG. 14 is a 3D view for explaining a compression fixing material for a vertical solar facility equipped with a double-sided module according to an exemplary embodiment of the present invention, and FIG. 15 is a present invention 3D drawing for explaining a bolt, a nut, and an outer circumferential spring of a vertical solar installation equipped with a double-sided module according to an exemplary embodiment of the present invention, and FIG. 16 is a vertically provided double-sided module according to an exemplary embodiment of the present invention It is a 3D drawing for explaining the elastic re-engagement space of the type photovoltaic facility, and FIGS. 17 to 19 are 3D for explaining the unidirectional coupling member of the vertical photovoltaic facility provided with a double-sided module according to an exemplary embodiment of the present invention. FIG. 20 is a 3D diagram for explaining that agricultural machinery can be used in a space secured through inter-line spacing of a vertical solar installation equipped with a double-sided module according to an exemplary embodiment of the present invention, and FIG. 21 is It is an excerpt drawing of a prior application document for comparing a pineapple cutting device of a prior application document with a vertical solar system equipped with a double-sided module according to a preferred embodiment of the present invention.

The vertical solar installation provided with a double-sided module according to an embodiment of the present invention is first fastened to the base material 110 embedded in the ground as shown in FIGS. 3 to 6 to be vertically fixed to the ground. The vertical support frame 100 is fastened to the vertical frame 100 and the horizontal support frame 200 is provided to have a lengthwise direction parallel to the ground.

In addition, the lower end of the horizontal support frame 200 is further provided with an irrigation catching means 210 that is attached to or fastened to the horizontal support frame 200 along the length progressing direction of the horizontal support frame 200, so that the irrigation is caught. It is to arrange the water supply hose for agricultural products to the means 210 or to install a pipeline for spraying the medicine so that it can be utilized for the growth of agricultural products.

Here, as shown in FIGS. 3 to 7, a plurality of double-sided photovoltaic cells 310 are aligned to form a square plate shape through the vertical support frame 100 and the horizontal support frame 200 to be perpendicular to the ground. The solar panel 300 is arranged to be provided.

By using the double-sided photovoltaic cell 310, vertical arrangement is possible, and the land utilization rate can be increased by cultivating crops in the lower portion close to the load surface.

At this time, as shown in FIGS. 3 to 5, the bidirectional coupling member 400 is supported on the vertical support frame 100 or the horizontal support frame 200 and is provided to fasten the solar panel 300 in both directions. A unidirectional coupling member is provided and is supported on the vertical support frame 100 or the horizontal support frame 200 to fasten the solar panel 300 in one direction as shown in FIGS. 17 to 19 ( 500).

In addition, the bi-directional coupling member 400, as shown in Figures 8 to 14, the vertical support frame 100 or the horizontal support frame by pressing and fixing the vicinity of the rim of the solar panel 300 on both sides of the top and bottom or left and right. Position to face the first cover surface 430 and the first cover surface 430 such that the first fixed space 410 and the second fixed space 420 are formed vertically or horizontally symmetrically to fasten to the 200 A second cover surface 440 is disposed on, a through hole is formed at a central position of the first cover surface 430 and the second cover surface 440, and a first movement limiting wing is provided on both sides of the through hole ( 450) and the second movement limiting wing 460 are formed perpendicular to the lengthwise direction of the bidirectional coupling member 400 in the inner directions of the first cover surface 430 and the second cover surface 440, and Inside the first fixing space 410, the first left elastic material 411 and the first left elastic material 411 in a shape facing each other, the first right elastic material 412 of the bidirectional coupling member 400 The second right elastic material 422 is disposed along the lengthwise direction, and in the shape of the second left elastic material 421 and the second left elastic material 421 facing each other inside the second fixed space 420. Is disposed along the lengthwise direction of the bidirectional coupling member 400, and presses the first cover surface 430 and the second cover surface 440 from both sides by using the through hole, thereby providing the first left elasticity. A compression fixing material 470 is provided to press the ash 411, the first right elastic material 412, the second left elastic material 421, and the second right elastic material 422.

Here, the pressing fixing material 470 is a bolt 471 and a nut 472 to press the outer surface of the first cover surface 430 and the outer surface of the second cover surface 440 as shown in FIG. ), and the outer circumferential spring 473 is the bolt 471 to elastically repel the inner surface of the first cover surface 430 and the inner surface of the second cover surface 440 as shown in FIGS. 10 and 11. It is provided so as to be disposed on the outer periphery of the thread of the position.

Here, as shown in FIG. 11, the first left elastic material 411 and the first right elastic material 412 face each other in a first facing engagement unevenness 411a and first first engagement unevenness 412a. ) Is formed parallel to the length direction of the first cover surface 430, and the second left elastic material 421 and the second right elastic material 422 face each other to form a second left engagement irregularity ( 421a) and the second irregularities 422a are formed parallel to the length direction of the first cover surface 430.

Through this configuration, the double-sided photovoltaic cell 310, which is a glass panel, can be stably supported, and can also serve as a sound insulation wall by adding a sound insulation member thereto.

In addition, as illustrated in FIG. 12, the first movement limiting blade 450 is vertical to the through-hole direction at the end where the second cover surface 440 is located on the inner surface of the first cover surface 430. The first movement limit bending jaw 451 is formed to be bent, and the first movement limit bending jaw 451 is formed at the end of the second movement limit wing 460 so as to be caught by the first movement limit bending jaw 451. And a second movement limit bending jaw 461 vertically bent in opposite directions.

At this time, as shown in Figure 16, the inner surface of the first cover surface 430 and the second cover surface 440 facing each other in a shape facing the outside of the first cover surface 430 and the second cover surface It is recessed in the outer direction of (440) and is provided with an elastic re-engagement space (431) parallel to the lengthwise direction of the first cover surface (430) and the second cover surface (440), but the elastic re-engagement space (431) Is provided as a basic space for receiving an elastic material (431a) and a narrow space (431b) is provided to catch the elastic material, the elastic material has an elastic engaging portion (431c) in a shape conforming to the elastic material catching space (431) Although provided, the volume of the elastic engagement portion 431c is larger than that of the elastic re-engagement space 431 so that the waterproof and soundproofing roles can be maintained after installation.

On the other hand, as shown in Figures 1 and 2, using the vertical solar system equipped with the present invention double-sided module can secure energy of about 5 to 15% compared to the existing solar facilities, the amount of sunshine twice in the morning and afternoon High energy efficiency can be generated through peak time.

In addition, as shown in Figure 20, since the space between the structures can secure a space of 10 ~ 15M, it is possible to use agricultural machinery and cultivated crops in the secured space.

Here, the photovoltaic panel 300 is moved up and down along the lengthwise direction of the vertical support frame 100 and fixed with the bidirectional coupling member 400 or the unidirectional coupling member 500 and the horizontal support frame ( Hose through the irrigation means 210, which is moved left and right along the lengthwise direction of the 200 and is fixed to the bidirectional coupling member 400 or the unidirectional coupling member 500 and fastened to the horizontal support frame 200. To connect the hose for irrigation in the lengthwise direction of the horizontal support frame 200, it is provided to be able to spray coolant, irrigation, or chemicals in the direction of the ground to effectively manage farmland and cool the heat of the hot road.

When using a vertical solar system equipped with a double-sided module according to an embodiment of the present invention described above, by placing the double-sided solar panel perpendicular to the ground through the frame and the coupling member to minimize solar energy loss A high-yield solar energy can be collected through a vertical photovoltaic facility equipped with a double-sided module capable of maintaining land utilization, increasing the efficiency of land use, preserving the ecological environment, and reclaiming the base material (110) It is fastened to the vertical support frame 100 provided to be vertically fixed to the ground and the horizontal support frame 200 fastened to the vertical frame 100 and provided to have a lengthwise running direction parallel to the ground from the ground in the vertical direction It is to be fixed, a plurality of double-sided photovoltaic cells 310 are formed to form a square plate shape through the vertical support frame 100 and the horizontal support frame 200 to be disposed perpendicular to the ground solar panel A bidirectional coupling member 400 and the vertical support frame 100 that are supported by the 300 and the vertical support frame 100 or the horizontal support frame 200 and are provided to fasten the solar panel 300 in both directions. ) Or a unidirectional coupling member 500 supported by the horizontal support frame 200 and provided to fasten the photovoltaic panel 300 in one direction, the frame and the photovoltaic panel are easily combined, and the sunrise and sunset of the sun That is, to enable the solar energy to be collected during the peak time twice a day, the vertical support frame 100 is fixed by pressing and fixing the rim of the solar panel 300 to the top, bottom, or left and right sides of the bidirectional coupling member 400. ) Or the first cover surface 430 and the first cover surface so that the first fixed space 410 and the second fixed space 420 are symmetrically formed vertically or horizontally so as to be fastened to the horizontal support frame 200. The second cover surface 440 is disposed at a position facing the 430, and a through hole 480 is formed at a center position of the first cover surface 430 and the second cover surface 440. The first movement limiting wing 450 and the second movement limiting wing 460 are located on both sides of the group through hole 480 in both directions in the inner direction of the first cover surface 430 and the second cover surface 440. It is formed perpendicular to the longitudinal direction of the coupling member 400, it is possible to easily adjust the coupling position of the frame and the solar panel, the first left elastic material 411 and the inside of the first fixing space 410 The first right elastic material 412 is disposed in the shape of the first left elastic material 411 facing each other along the lengthwise direction of the bidirectional coupling member 400, and the second fixed space 420 has a first 2 The left elastic material 421 and the second left elastic material 421 are disposed in the shape facing each other, and the second right elastic material 422 is disposed along the lengthwise direction of the bidirectional coupling member 400, and the through hole The first left elastic material 411, the first right elastic material 412, and the second by pressing the first cover surface 430 and the second cover surface 440 on both sides using 480 A compression fixing member 470 is provided to press the left elastic material 421 and the second right elastic material 422, and along the lengthwise direction of the horizontal support frame 200 is provided at the bottom of the horizontal support frame 200. The horizontal support frame 200 is attached to or attached to the fastening irrigation means 210 to prevent damage to the frame and the solar panel caused by the coupling member, the first cover surface 430 of It is provided with a bolt 471 and a nut 472 to press the outer surface and the outer surface of the second cover surface 440, the inner surface of the first cover surface 430 and the second cover surface 440 The outer peripheral spring 473 is provided to be disposed on the outer circumference where the thread of the bolt 471 is located so as to elastically repel each other so that the space of the coupling member is easily adjusted and fixed, and the first left elastic material 411 And the first right elastic material 412 is in a shape facing each other, the first left engagement unevenness 411a and the first right engagement unevenness 41 2a) is formed parallel to the length direction of the first cover surface 430, and the second left elastic material 421 and the second right elastic material 422 face each other to form a second left engagement irregularity. The (421a) and the second irregularities (422a) may be formed parallel to the length direction of the first cover surface 430 to enhance the bonding force between the frame and the solar panel, and the first cover surface 430 ), a first movement limit bending jaw 451 vertically bent in the direction of the through hole 480 is formed at an end where the second cover surface 440 is located, and the first movement limit bending jaw ( A coupling member is provided at the end of the second movement limiting wing 460 so as to be caught in 451 through a second movement limiting bending jaw 461 vertically bent in a direction opposite to the first movement limiting bending jaw 451. It can be prevented from being opened over a predetermined interval, the inner surface of the first cover surface 430 and the second cover surface 440 facing each other in the shape of the outer surface of the first cover surface 430 and the second cover It is recessed in the outer direction of the surface 440 and is provided with an elastic re-engagement space 431 parallel to the lengthwise direction of the first cover surface 430 and the second cover surface 440, but the elastic re-engagement space 431 ) Is provided as a basic space for receiving an elastic material (431a) and a narrow space (431b) is provided to catch the elastic material, the elastic material has an elastic engaging portion (431c) in a shape conforming to the elastic material catching space (431) Is provided, the volume of the elastic engaging portion (431c) is provided to be larger than the volume of the elastic catching space 431 is to be easily coupled to the elastic catching space through the elastic force of the elastic material.

As described above, the present invention has been described through a preferred embodiment. The above-described embodiments are merely illustrative of the technical idea of the present invention, and various changes are possible within the scope of the technical idea of the present invention. Anyone with ordinary knowledge can understand. Therefore, the present invention should be construed that the scope of protection should be interpreted by the matters described in the claims, not by specific embodiments, and that all technical ideas within the scope equivalent thereto are included in the scope of the present invention.

100 ... vertical support frame
110 ... base material
200 ... horizontal support frame
210 ... watering means
300 ... solar panel
310 ... solar cell
400 ... bidirectional mating member
410 ... first fixed space
411 ... first left elastic material
411a ... first unevenness
412 ... first urethane material
412a ... first irregularities
420 ... 2nd fixed space
421 ... second left elastic material
421a ... 2nd left unevenness
422 ... second urethane material
422a ... second irregularities
430 ... first cover surface
431 ... Elastic re-engagement space
431a ... Basic Space
431b ... narrow space
431c ... elastic catch
440 ... second cover surface
450 ... 1st restricted wing
451 ... 1st movement limit bending chin
460 ... 2nd Restricted Wing
461 ... 2nd movement limit bending jaw
470 ... pressure fixing material
471 ... bolt
472 ... nuts
473 ... Outer spring
480 ... through hole
500 ... unidirectional mating member

Claims (6)

A vertical support frame 100 which is fastened to the base material 110 embedded in the ground and provided to be vertically fixed to the ground;
A horizontal support frame 200 which is fastened to the vertical support frame 100 and is provided to have a lengthwise direction parallel to the ground;
A solar panel 300 in which a plurality of double-sided solar cells 310 are formed to form a square plate shape through the vertical support frame 100 and the horizontal support frame 200 to be disposed perpendicular to the ground; And
A bidirectional coupling member 400 and the vertical support frame 100 or the horizontal support member 100 supported by the vertical support frame 100 or the horizontal support frame 200 and provided to fasten the solar panel 300 in both directions. A unidirectional coupling member 500 supported by the support frame 200 and provided to fasten the solar panel 300 in one direction; Including,
The bidirectional coupling member 400 is fixed to the vertical support frame 100 or the horizontal support frame 200 by fastening and fixing the vicinity of the rim of the solar panel 300 on both sides of the upper, lower, right, and left sides. 410) and the second cover surface 440 is disposed at a position facing the first cover surface 430 and the first cover surface 430 so that the second fixed space 420 is formed vertically or horizontally symmetrically,
Through holes 480 are formed at center positions of the first cover surface 430 and the second cover surface 440,
On both sides of the through hole 480, a first movement limiting wing 450 and a second movement limiting wing 460 are in both directions in the inner direction of the first cover surface 430 and the second cover surface 440. It is formed perpendicular to the longitudinal direction of the coupling member 400,
A first left elastic material 411 and a first right elastic material 412 are formed in the shape of the first left elastic material 411 and the first left elastic material 411 facing each other, and the bidirectional coupling member 400 is formed in the first fixed space 410. The length of the is arranged along the direction of travel,
A second right elastic material 422 is formed in the shape of the second left elastic material 421 and the second left elastic material 421 facing each other inside the second fixing space 420, and the bidirectional coupling member 400 is formed. The length of the is arranged along the direction of travel,
The first left elastic material 411 and the first right elastic material 412 by pressing the first cover surface 430 and the second cover surface 440 on both sides using the through hole 480, A compression fixing member 470 is provided to press the second left elastic material 421 and the second right elastic material 422,
The lower end of the horizontal support frame 200 is further provided with irrigation means 210 attached to or fastened to the horizontal support frame 200 along the lengthwise direction of the horizontal support frame 200,
The first movement limiting wing 450 is a first movement limit that is vertically bent in the direction of the through hole 480 at the end where the second cover surface 440 is located on the inner surface of the first cover surface 430. A bending jaw 451 is formed, and ends of the second movement limiting wing 460 so as to be caught by the first movement limiting bending jaw 451 in a direction opposite to the first movement limiting bending jaw 451. A second movement limit bending jaw 461 that is vertically bent is provided,
The inner surfaces of the first cover surface 430 and the second cover surface 440 face each other and are recessed in an outer direction of the first cover surface 430 and outward of the second cover surface 440. The first cover surface 430 and the second cover surface 440 is provided with an elastic re-engagement space 431 parallel to the length direction of travel, but the elastic re-engagement space 431 is a basic space for receiving an elastic material ( 431a) and is provided as a narrow space (431b) is provided to catch the elastic material,
The elastic material is provided with an elastic catching portion 431c in a shape conforming to the elastic catching space 431, but the volume of the elastic catching portion 431c is larger than that of the elastic catching space 431. Vertical solar system equipped with a double-sided module, characterized in that.
delete According to claim 1,
The compression fixing material 470
It is provided with a bolt 471 and a nut 472 to press the outer surface of the first cover surface 430 and the outer surface of the second cover surface 440,
The outer peripheral spring 473 is provided to be disposed on the outer periphery where the thread of the bolt 471 is positioned to elastically repel the inner surface of the first cover surface 430 and the inner surface of the second cover surface 440. Vertical solar equipment equipped with a double-sided module.
According to claim 1,
The first left elastic material 411 and the first right elastic material 412 are facing each other, such that the first left engagement unevenness 411a and the first left engagement unevenness 412a are the first cover surface 430. The length of is formed parallel to the direction of travel,
The second left elastic material 421 and the second right elastic material 422 face each other, such that the second left and right uneven surfaces 421a and the second left and right uneven surfaces 422a have the first cover surface 430. Vertical solar installation equipped with a double-sided module, characterized in that formed in parallel with the length direction of the direction.
delete According to claim 1,
The solar panel 300,
The vertical support frame 100 is moved up and down along the length progression direction, and is fixed to the bidirectional coupling member 400 or the unidirectional coupling member 500, and left and right along the length progression direction of the horizontal support frame 200. It is moved and fixed by the bidirectional coupling member 400 or the unidirectional coupling member 500,
Cooling water, irrigation or chemical spraying is possible in the direction of the ground by connecting a hose for irrigation in the lengthwise direction of the horizontal support frame 200 through the watering means 210 fastened to the horizontal support frame 200 Vertical solar system equipped with a double-sided module, characterized in that provided to be.
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