KR102112506B1 - The sunlight structure provided by the angle adjusting means - Google Patents

Abstract

The present invention relates to a photovoltaic structure provided with an angle adjustment means, the structure base is installed so that the photovoltaic structure is fixed and supported on the ground or the ground, and a support frame installed upright in the vertical direction on the upper side of the structure base And, an angle adjusting means installed on the other side of the upper portion of the structure base, a module support frame that is installed inclined by connecting the upper portion of the support frame and the angle adjusting means, and a solar module coupled to the top of the module support frame ; And including. The module support frame is characterized in that the inclination is adjusted by the angle adjusting means, so that the incident angle of the solar module and the sunlight installed on the module support frame is adjusted.

Description

The sunlight structure provided by the angle adjusting means}

The present invention relates to a solar structure provided with an angle adjusting means, more specifically, provided with an angle adjusting means for adjusting the angle of the solar module under the module support frame supporting the solar module, the solar light The present invention relates to a photovoltaic structure provided with an angle adjusting means to increase the light receiving efficiency by setting the angle of the module to be easily adjusted, so that the angle of incidence of the photovoltaic module and sunlight is optimal.

In general, photovoltaic power generation is a power generation method that directly converts sunlight into electricity by a solar cell. Unlike conventional energy sources, solar power generation is a non-polluting energy source that does not cause greenhouse gas emission or environmental destruction. The situation is increasing, and various technologies related to this are being released.

The above-described photovoltaic power generation device, the solar module is rotated by rotating the module frame and a module frame for fixing a plurality of arrays of solar modules on the surface, and a solar module that enters sunlight so that its basic configuration is to produce power. It consists of a tracking device that allows sunlight to enter at any time. When the sunlight moves, the module frame rotates according to the direction of sunlight.

Of the above-described configuration, a tracking device that allows sunlight to be incident while rotating or moving according to the direction of movement of sunlight, has been released and used in various ways.

On the other hand, as a method for adjusting the angle of the solar module of the photovoltaic device, it is classified into an automatic tracking system using an actuator, a fixed inclined variable system, and a fixed system.

The automatic tracking system has problems such as frequent maintenance and malfunction of mechanical devices, electrical devices, and control devices, and the maintenance cost of the power plant is excessively compared to the power generation efficiency. It is a trend that is being converted into an inclined variable system.

As an automatic tracking system, Utility Model Registration No. 20-0413647 "Solar Tracking Device", Utility Model Registration No. 20-0426018 "Solar Power Generation Device", Patent Registration No. 10-0715040 "Solar Power Generation Device", etc. Is presented.

The fixed inclined variable type system is generally classified into a two-post method (consisting of two main pillars (posts) and one rotating body) and a three-post method, and the three-post method is more stable from risk factors such as wind pressure than the two-post method. to be.

As a structure for adjusting the angle of a solar module in a fixed inclined variable type system, an angle adjusting bar having a perforated plate in a post or perforating a hole in a post, and a plurality of holes perforated between the plate or post and the module frame It is installed and adjusts the angle of the solar module according to the fixed position of the hole of the angle adjustment bar.

As a fixed inclined variable system, Patent Publication No. 2009-0025724, "Manually inclined solar cell module support structure", and Patent Registration No. 20-0858916, "Inclined variable solar tracker" are proposed.

The fixed inclined variable type system has an advantage in that maintenance is advantageous because electricity, machinery, and control are unnecessary, and initial installation cost is low by manually adjusting and setting the inclination angle of the solar module according to the altitude angle of the season sun.

However, as the photovoltaic module is fixed by the angle adjustment bar, when adjusting the inclination angle of the seasonal photovoltaic module, two or three people must support the photovoltaic module and adjust the angle, as well as support heavy photovoltaic modules. As you have to work while doing so, there is a possibility of a safety accident.

In addition, there is a problem in that a worker may be injured when a sudden wind or gust occurs during the inclination angle adjustment operation, and serious damage may occur if the worker cannot support the solar module.

KR 1020170093764 A KR 200481087 Y1

The present invention has been devised to solve the above-mentioned problems, and its purpose is to provide an angle adjusting means that can adjust the angle of the solar module at the bottom of the module support frame supporting the solar module. It is to provide a solar structure equipped with an angle adjusting means to increase the light-receiving efficiency by adjusting the angle of the module to be easily adjusted, so that the incident angle of the photovoltaic module and the sunlight is adjusted to the optimum condition.

In addition, each frame constituting the photovoltaic structure is made of a bolted method rather than a welding method to facilitate replacement and repair in the event of a replacement due to corrosion of the structure, and to reduce construction costs and construction There is another object to provide a solar structure equipped with an angle adjusting means to shorten the period.

'자 형상으로 이루어지고, 전후 단부에는 상부방향으로 수직 절곡된 래크부(430)가 형성되고, 상기 래크부(430)에는 펄린(700)이 결합되도록 이루어지고,
상기 제2모듈받침프레임(420)은 제1모듈받침프레임(410)의 내측에 결합되며, 단면이 '

' 형상으로 이루어지며,
상기 각도조절수단(300)은, 양측에 결합부(311)가 형성된 회전부재(310), 상기 회전부재(310)의 결합부(311) 중 어느 하나에 결합되어 상기 회전부재(310)에 회전력을 전달하는 회전손잡이(320), 상기 회전부재(310)의 양측에 설치되는 제1이동부재(330)와 제2이동부재(340), 상기 제1이동부재(330) 상부에 결합되는 제1상부프레임(351), 상기 제2이동부재(340)의 상부에 결합되는 제2상부프레임(352), 상기 제1이동부재(330)의 하부에 결합되는 제1하부프레임(353), 상기 제2이동부재(340)의 하부에 결합되는 제2하부프레임(354), 상기 제1상부프레임(351)과 상기 제2상부프레임(352)을 연결하는 고정부재(360) 및 상기 제1하부프레임(353)과 상기 제2하부프레임(354)을 연결하는 지지부재(370)를 포함하여 이루어지고,
상기 모듈받침프레임(400)은 각도조절수단(300)에 의해 경사가 조절되도록 이루어져, 상기 모듈받침프레임(400)의 상부에 설치된 상기 태양광모듈(500)이 태양광의 입사각도에 따라 조절되도록 이루어지는 것을 특징으로 하였다.In order to achieve the above object, a solar structure equipped with an angle adjusting means of the present invention comprises: a structure base 100 installed so that the solar structure is fixed and supported on the ground or in the ground;
A support frame 200 installed vertically upright on one side of the upper portion of the structure base 100;
An angle adjusting means 300 installed on the other upper side of the structure base 100;
A module support frame 400 on which a lower one side is supported by the support frame 200 and a lower other side is supported by the angle adjusting means 300; And
It includes a solar module 500 installed on the top of the module support frame 400,
The module supporting frame 400 is formed by combining the first module supporting frame 410 and the second module supporting frame 420,
The first module support frame 410 has a cross section '

'It is made of a ruler, the front and rear ends are formed with a rack portion 430 vertically bent upward, and the rack portion 430 is made to be coupled with Perlin 700,
The second module supporting frame 420 is coupled to the inside of the first module supporting frame 410, the cross-section '

''
The angle adjusting means 300 is coupled to any one of the rotating member 310, the coupling member 311 of the coupling member 311 is formed on both sides, the rotating member 310, the rotational force to the rotating member 310 Rotating handle 320 for transmitting, the first moving member 330 and the second moving member 340 installed on both sides of the rotating member 310, the first coupled to the upper portion of the first moving member 330 The upper frame 351, the second upper frame 352 coupled to the upper portion of the second moving member 340, the first lower frame 353 coupled to the lower portion of the first moving member 330, the first 2 A second lower frame 354 coupled to the lower portion of the moving member 340, a fixing member 360 connecting the first upper frame 351 and the second upper frame 352, and the first lower frame It comprises a support member 370 connecting the 353 and the second lower frame 354,
The module support frame 400 is made to adjust the inclination by the angle adjusting means 300, the solar module 500 installed on the top of the module support frame 400 is made to be adjusted according to the incident angle of sunlight It was characterized by.

In addition, the support frame 200 is made to be coupled to the first support frame 210 and the second support frame 220 facing each other, the first support frame 210 and the second support frame 220 Side fixing holes 250 are formed on both sides of the first support frame 210 and the second support frame 220, so that the bolts and nuts can be combined.

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'형상으로 이루어져, 상기 제1지지프레임(210)과 상기 제2지지프레임(220)이 서로 대칭으로 마주보며 결합되어 구성되는 상기 지지프레임(200)의 단면은 '

'형상으로 이루어지는 것을 특징으로 하였다.In addition, cross sections of the first support frame 210 and the second support frame 220 are '

'Consisting of a shape, the first support frame 210 and the second support frame 220 are symmetrically facing each other and configured to be coupled to each other, and the cross section of the support frame 200 is'

'It was characterized by consisting of a shape.

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In addition, a first screw portion 313 and a second screw portion 314 are formed on the rotating member 310, and the first screw portion 313 and the second screw portion 314 have screw grooves opposite to each other. It was characterized by consisting of.

In addition, the rotating member 310 is characterized in that the connecting rod 800 is made to be coupled to the coupling portion 311 formed on both sides, so that the angle adjusting means 300 is connected in plurality.

In addition, the angle adjustment means 300 is intended to solve the technical problem to be solved by the present invention, characterized in that the angle frame 350 protruding in a long section of the 'a' shape is combined.

According to the photovoltaic structure provided with the angle control means of the present invention, the angle of the photovoltaic module is easy by providing an angle control means for adjusting the angle of the photovoltaic module under the module support frame supporting the photovoltaic module. By adjusting the light, it is possible to increase the light receiving efficiency by adjusting the incident angle of the solar module and the sunlight to optimal conditions.

In addition, each frame constituting the photovoltaic structure is made of a bolted method rather than a welding method to facilitate replacement and repair in the event of a replacement due to corrosion of the structure, and to reduce construction costs and construction It has the effect of being able to shorten the period.

1 is a front view of the solar structure of the present invention
Figure 2 is an exploded perspective view of the support frame of the present invention
Figure 3 is a perspective view of the support frame of the present invention
Figure 4 is an exploded perspective view of the module support frame of the present invention
5 is a perspective view of the module support frame of the present invention
Figure 6 is an exploded perspective view of the angle adjustment means of the present invention
7 is a perspective view of the angle adjustment means of the present invention
Figure 8 is a perspective view showing an embodiment of the angle adjustment means of the present invention
9 is a front view showing an embodiment of the solar structure of the present invention
10 is a front view showing another embodiment of the angle adjustment means of the present invention
Figure 11 is an exploded perspective view of the angle control means combined angle frame.
Figure 12 is a perspective view of the angle adjustment means combined angle frame.

The terms or words used in the present specification and claims should not be construed as being limited to ordinary or lexical meanings, and the inventor can appropriately define the concept of terms in order to describe his or her invention in the best way. Based on the principles, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, and various equivalents that can replace them at the time of this application It should be understood that there may be and variations.

Hereinafter, prior to the description with reference to the drawings, not necessary for revealing the gist of the present invention, that is, a well-known configuration that can be added by those skilled in the art will not be shown or not specifically described Well, reveal the notes.

1 is a front view of the solar structure of the present invention.

As shown in FIG. 1, the solar structure provided with the angle adjusting means of the present invention includes a structure base 100, a support frame 200 installed on an upper portion of the structure base 100, and the structure base 100 ) The angle adjusting means 300 installed on the upper portion, the support frame 200 and the module supporting frame 400 installed on the upper portion of the angle adjusting means 300, and the upper portion of the module supporting frame 400 It comprises a solar module 500 coupled to.

The structure base 100 is installed on the ground or the roof of a building to be formed to support the solar structure 1, and can be configured in various shapes only as a means capable of sufficiently supporting the solar structure 1 have.

On the other hand, looking at the support frame 200 with reference to Figure 1, it is installed to be installed upright on the upper side of the structure base 100, it is formed so that the lower side of the module support frame 400 to be described later is supported .

At this time, it is preferable that a base plate 600 is provided between the support frame 200 and the structure base 100 so that the support frame 200 can be stably supported on the upper portion of the structure base 100. Do.

The support frame 200 will be described below with reference to FIGS. 2 and 3 as follows.

Figure 2 is an exploded perspective view of the support frame of the present invention, Figure 3 is a perspective view of the support frame of the present invention.

2 and 3, the support frame 200 is configured such that the first support frame 210 and the second support frame 220 face each other and are coupled, but the first support frame 210 and the Side fixing holes 250 are formed on both sides of the second support frame 220 so that the first support frame 210 and the second support frame 220 can be coupled with bolts and nuts.

'형상으로 이루어져, 상기 제1지지프레임과 상기 제2지지프레임이 서로 대칭으로 마주보며 결합되어 구성되는 상기 지지프레임의 단면은 '

'형상으로 이루어진다.In addition, cross sections of the first support frame and the second support frame are '

'The cross section of the support frame is formed in a shape, the first support frame and the second support frame are configured to be symmetrically coupled to each other.'

'It is made in shape.

When the support frame 200 is installed in this way, the welding is not performed by being fastened with a bolt rather than a welding operation, so that the installation is easily performed and the material is easily transported.

In addition, a connecting member 230 and an upper fixing hole 240 are formed on an upper portion of the support frame 200 so that the module supporting frame 400 described later can be coupled.

On the other hand, looking at the module support frame 400 with reference to Figure 1, the lower end of the module support frame 400 is supported by the support frame 200, the other end of the lower end to the angle adjustment means 300 It is supported by and is made to be located on top of the structure base 100.

In addition, a plurality of Perlin 700 is installed along the longitudinal direction of the module support frame 400 on the upper portion of the module support frame 400, the solar module 500 on the upper portion of the Perlin 700. It is made to be coupled so that the solar module 500 is installed on the upper portion of the module support frame 400.

The module supporting frame 400 will be described below with reference to FIGS. 4 and 5.

Figure 4 is an exploded perspective view of the module support frame of the present invention, Figure 5 is a perspective view of the module support frame of the present invention.

'자 형상으로 이루어지고, 상기 제1모듈받침프레임(410)의 전후 단부에는 상부방향으로 수직 절곡된 래크부(430)가 형성되며, 상기 래크부(430)에는 펄린(700)이 결합되도록 이루어져 있다. 또한 상기 제2모듈받침프레임(420)은 제1모듈받침프레임(410)의 내측에 결합되며, 상기 제2모듈받침프레임(420)의 단면은 '

' 형상으로 이루어져 있다.4 and 5, the module support frame 400 is configured by combining the first module support frame 410 formed on the upper part and the second module support frame 420 formed on the lower part. , The cross section of the first module supporting frame 410 is

'It is made of a ruler shape, the front and rear ends of the first module support frame 410 is vertically bent rack portion 430 is formed, the rack portion 430 is made of a perlin 700 is coupled have. In addition, the second module supporting frame 420 is coupled to the inside of the first module supporting frame 410, the cross section of the second module supporting frame 420 is'

It consists of a shape.

In addition, a plurality of rack portions 430 to allow the perlin 700 to be coupled to the upper portion of the first module supporting frame 410 is formed along the longitudinal direction of the first module supporting frame 410, the sun The optical module 500 is made to be fixedly installed on the upper portion of the module support frame 400.

Therefore, when the module supporting frame 400 is installed, since no welding work is performed, it is easy to install and has an effect of easily transporting materials.

On the other hand, the angle adjusting means 300 is installed to be installed on the other upper side of the structure base 100 is formed to support the lower other side of the module support frame 400, which will be described later.

The angle adjustment means 300 is formed to adjust the angle of the solar module 500 installed on the top of the module support frame 400 by adjusting the inclination angle of the module support frame 400, this invention The angle adjusting means 300 will be described below with reference to FIGS. 6 and 7.

6 is an exploded perspective view of the angle adjusting means of the present invention, Figure 7 is a perspective view of the angle adjusting means 300 of the present invention.

6 and 7, the angle adjusting means 300 includes a rotating member 310, a rotating handle 320 coupled to one side of the rotating member 310, and the rotating member 310. The first moving member 330 and the second moving member 340 installed on both sides, the first upper frame 351 coupled to the upper portion of the first moving member 330, and the second moving member 340 ) Coupled to the upper portion of the second upper frame 352, the first lower frame 353 coupled to the lower portion of the first moving member 330, and the lower portion of the second moving member 340 A second lower frame 354, a fixing member 360 connecting the first upper frame 351 and the second upper frame 352, and the first lower frame 353 and the second lower frame ( It comprises a support member 370 for connecting 354).

The rotating member 310 is installed at the center of the angle adjusting means 300, is provided with an engaging portion 311 formed with a coupling hole 312 at both ends, along the longitudinal direction on both sides of the rotating member 310 The first screw portion 313 and the second screw portion 314 are formed.

At this time, the first screw portion 313 and the second screw portion 314 are opposite directions to each other, that is, when the threads formed in the first screw portion 313 are formed in the left direction, the second screw portion 314 The formed threads are formed to be formed in the right direction, so that the first moving member 330 and the second moving member 340 coupled to the respective screw portions can be moved in opposite directions.

Accordingly, each frame coupled to the first moving member 330 and the second moving member 340 moves in the inner or outer direction of the rotating member 310 so that the height of the angle adjusting means 300 is increased. It is made to be adjusted, the contents of which will be described later with reference to FIG. 8.

Meanwhile, the rotation handle 320 is coupled to the coupling portion 311 of the rotation member 310 to transmit rotational force to the rotation member 310 to rotate the rotation member 310 by rotation of the rotation handle 320. ) Is made to be rotated.

The first moving member 330 and the second moving member 340 are formed in a rectangular shape in cross section, and a rotating member coupling hole 331 to which the rotating member 310 is coupled is formed through the inside, respectively A frame coupling hole 332 to which the frames of the frame are coupled is formed, so that each frame is coupled to the first moving member 330 and the second moving member 340.

At this time, the rotating member coupling hole 331 is formed with a thread in the longitudinal direction so that the rotating member 310 is screwed and fixed inside the first moving member 330 and the second moving member 340. do.

Therefore, the rotating member 310 is stably coupled to the first moving member 330 and the second moving member 340, so that the first moving member 300 and the second moving member 340 are It is made to be stably moved along the longitudinal direction of the rotating member (310).

The first upper frame 351 has a cross-section of 'c' shape, and through holes 355 are formed on both sides, one through hole 355 is coupled to the fixing member 360, and the other The through hole 355 is made to be coupled to the first moving member 330.

In addition, the second upper frame 352, the first lower frame 353 and the second lower frame 354 of the present invention are formed to be the same as the first upper frame 351, in this specification Since each frame is classified into a first upper portion, a second upper portion, a first lower portion, and a second lower frame 354 so as to be classified according to a position where each frame is combined, the second upper frame 352 and The description of the first lower frame 353 and the second lower frame 354 will be replaced with the description of the first upper frame 351 described above.

On the other hand, the fixing member 360 is formed so as to be positioned on the upper portion of the angle adjustment means 300, the upper portion of the first upper frame 351 and the second upper frame 352 to be connected to one end A frame coupling hole 361 is formed, and the support member 370 is formed to be located under the angle adjusting means 300 to support the angle adjusting means 300 from the bottom surface, and the A lower frame coupling hole 371 is formed on one end surface to be connected to one end of the first lower frame 353 and the second lower frame 354.

An embodiment of the angle adjusting means 300 configured as described above will be described below with reference to FIGS. 7 and 8.

7 is a perspective view of the angle adjustment means of the present invention and Figure 8 is a perspective view showing an embodiment of the angle adjustment means of the present invention.

As shown in FIG. 7, the angle adjusting means 300 includes the first upper frame 351, the second upper frame 352, the first lower frame 353, and the second lower frame 354. These are combined to form a rhombus.

At this time, the rotation member coupling hole 331 formed in the first moving member 330 and the second moving member 340 coupled to the rotating member 310, the first of the rotating member 310 Is formed to correspond to the screw portion 313 and the second screw portion 314, when the rotating member 310 is rotated, the first moving member 330 and the second moving member 340 is the rotating member ( 310).

Accordingly, when the rotating member 320 is rotated in one direction to rotate the rotating member 310, the first moving member 330 and the second moving member 340 are rotated as shown in FIG. 8. The module is moved in the inner direction of 310, and thus the angle formed by each frame is increased, so that the fixing member 360 moves upward, and the module installed on the fixing member 360 The angle of the support frame 400 and the photovoltaic module 500 is made to be adjustable, as described below with reference to FIG. 9.

9 is a front view showing an embodiment of the solar structure of the present invention.

As shown in Figure 9, the lower side of the module support frame 400 is provided with the angle adjusting means 300, if the height is adjusted by the above-described configuration of the angle adjusting means 300, the module The inclination angle of the support frame 400 is made to be adjusted.

Accordingly, the angle of incidence between the photovoltaic module 500 and the sunlight is easily adjusted through an operation of rotating the rotation handle 320 to increase power efficiency.

At this time, it is preferable that the one end of the module supporting frame 400 is provided with an angle measuring device 900 such as a protractor to easily check the inclination angle of the solar module 500.

10 is a front view showing another embodiment of the angle adjusting means of the present invention.

As shown in Figure 10, the angle adjusting means 300 is coupled to a plurality, the height of the angle adjusting means 300 connected to a plurality through the one of the rotating handle 320 can be collectively adjusted. Is made possible.

At this time, one of the angle adjusting means 300 and the other of the angle adjusting means 300 is a connecting rod between the coupling portion 311 and the coupling portion 311 formed in the angle adjusting means 300 It is preferable to connect to (800) so that the angle adjusting means (300) can be connected to a plurality.

Accordingly, the angle adjusting means 300 is installed according to the area and the number of the solar structures 1 to be installed, so that the inclination angle of the solar module 500 can be easily adjusted.

11 is an exploded perspective view of the angle adjustment means combined angle frame, Figure 12 is a perspective view of the angle adjustment means coupled angle frame.

11 and 12, the angle of the present invention by combining the angle frame 350 protruding in the shape of an 'a' cross-section at a position where the first and second upper frames and the first and second lower frames are combined The adjusting means 300 'can be configured.

The angle frame 350 is composed of a first angle frame 350a and a second angle frame 350b, and through holes 355 are formed at both sides, so that the fixing member 360 and the support member 370 and It is made to be respectively coupled to the front and rear of each moving member.

That is, either the first angle frame 350a or the second angle frame 350b is coupled to the front of the fixing member 360 and the support member 370 and each moving member, and the first One of the one angle frame 350a or the second angle frame 350b is coupled to the fixed member 360, the support member 370, and the back of each moving member.

As described above, when the angle frame 350 is coupled to the fixing member 360, the support member 370, and each moving member, a portion where the angle frame 350 is coupled is not limited, but the present invention is practiced. It is preferable to be combined as shown in Figure 11 and Figure 12.

At this time, the angle frame 350, like the first and second upper frames and the first and second lower frames, through the through holes 355, the fixing member 360, the supporting member 370, and each moving member It is made to be coupled to.

Since the angle frame 350 is more easily manufactured than the first and second upper frames and the first and second lower frames, the angle frame 350 has an advantage that assembly and production of the angle adjusting means can be more easily performed.

According to the photovoltaic structure provided with the angle control means of the present invention, provided with an angle adjustment means 300 for adjusting the angle of the photovoltaic module under the module support frame supporting the photovoltaic module from the ground, the photovoltaic There is an effect that the angle of the module can be easily adjusted to increase the light receiving efficiency by matching the incident angle of the photovoltaic module 500 and sunlight to optimal conditions.

In addition, each frame constituting the photovoltaic structure 1 is made of a bolted method rather than a welding method so that replacement and repair can be facilitated when a replacement situation occurs due to corrosion of the structure, and construction cost is reduced. It has the effect of making it possible to shorten the construction period.

As described above, the solar structure provided with the angle adjusting means according to the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, and the technology of the present invention Of course, various modifications can be made by those skilled in the art within the scope of the idea.

1: Solar structure 100: Structure base
200: support frame 210: first support frame
220: second support frame 230: connecting member
240: upper fixing hole 250: side fixing hole
300: angle adjustment means 310: rotating member
311: engaging portion 312: engaging hole
313: first screw portion 314: second screw portion
320: rotating handle 330: first moving member
331: rotating member coupling hole 332: frame coupling hole
340: second moving member 350: angle frame
351: first upper frame 352: second upper frame
353: first lower frame 354: second lower frame
355: through 360: fixing member 361: upper frame coupling hole 370: support member
371: lower frame coupling hole 400: module support frame
410: first module supporting frame 420: second module supporting frame
430: rack 500: solar module
600: base plate 700: Perlin
800: connecting rod 900: angle measuring device

Claims (8)

Structure base 100 is installed so that the solar structure is fixed and supported on the ground or the ground;
A support frame 200 installed vertically upright on one side of the upper portion of the structure base 100;
An angle adjusting means 300 installed on the other upper side of the structure base 100;
A module support frame 400 on which a lower one side is supported by the support frame 200 and a lower other side is supported by the angle adjusting means 300; And
It includes a solar module 500 installed on the top of the module support frame 400,
The module supporting frame 400 is formed by combining the first module supporting frame 410 and the second module supporting frame 420,
The first module support frame 410 has a cross section '

'It is made of a ruler, the front and rear ends are formed with a rack portion 430 vertically bent upward, and the rack portion 430 is made to be coupled with Perlin 700,
The second module supporting frame 420 is coupled to the inside of the first module supporting frame 410, the cross-section '

''
The angle adjusting means 300 is coupled to any one of the rotating member 310, the coupling member 311 of the coupling member 311 is formed on both sides, the rotating member 310, the rotational force to the rotating member 310 Rotating handle 320 for transmitting, the first moving member 330 and the second moving member 340 installed on both sides of the rotating member 310, the first coupled to the upper portion of the first moving member 330 The upper frame 351, the second upper frame 352 coupled to the upper portion of the second moving member 340, the first lower frame 353 coupled to the lower portion of the first moving member 330, the first 2 A second lower frame 354 coupled to the lower portion of the moving member 340, a fixing member 360 connecting the first upper frame 351 and the second upper frame 352, and the first lower frame It comprises a support member 370 connecting the 353 and the second lower frame 354,
The module support frame 400 is made to adjust the inclination by the angle adjusting means 300, the solar module 500 installed on the top of the module support frame 400 is made to be adjusted according to the incident angle of sunlight Solar structure having an angle adjustment means, characterized in that.
According to claim 1,
The support frame 200 is made to be coupled to the first support frame 210 and the second support frame 220 facing each other,
Side fixing holes 250 are formed on both sides of the first support frame 210 and the second support frame 220 so that the first support frame 210 and the second support frame 220 are bolts and nuts. Solar structure having an angle control means, characterized in that made to be coupled to.
delete According to claim 2,
Cross sections of the first support frame 210 and the second support frame 220 are '

'Consisting of a shape, the first support frame 210 and the second support frame 220 are symmetrically facing each other and configured to be coupled to each other, and the cross section of the support frame 200 is'

'Solar structure is provided with an angle control means characterized in that the shape.
delete According to claim 1,
A first screw part 313 and a second screw part 314 are formed on the rotating member 310, and the first screw part 313 and the second screw part 314 have screw grooves opposite to each other. Solar structure having an angle adjustment means, characterized in that.
According to claim 1,
The rotating member 310 is made of a connecting rod 800 coupled to the coupling part 311 formed on both sides, so that the angle adjusting means 300 is connected to a plurality of angles, so that the angle adjusting means is formed. Solar structure provided.
According to claim 1,
The angle adjusting means 300 is a solar structure having an angle adjusting means, characterized in that the angle frame 350, which protrudes in a long section in the shape of a 'a', is combined.

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