KR102235009B1 - Structure for the sunlight panel installation - Google Patents

Abstract

The present invention relates to a structure for installing a solar panel. To this end, the present invention relates to a structure for installing a solar panel in which a solar panel is placed on a support member provided at an upper portion between posts and is coupled by a coupling unit. The post has a support member extended from both upper sides of a post head toward the lower part of the post, respectively. The extended lower end of the support member is hooked and tensioned from a hooking piece provided at the lower part of the post. Therefore, this invention is to increase the space utilization rate of the lower part where the solar panel is installed.

Description

Structure for solar panel installation {STRUCTURE FOR THE SUNLIGHT PANEL INSTALLATION}

The present invention relates to a structure for installing a solar panel, and in particular, to increase the space utilization rate under the solar panel is installed.

In general, a solar panel generates electricity using solar energy, and is provided in the form of a plate in which a number of cells form one module.

Solar panels are installed together with a structure on the roof or hillside of a building with excellent solar conditions. As a structure on which the solar panel is installed, a pillar that is largely erected at a predetermined height from the ground, and the pillars are assembled horizontally to the sun. It is provided with supports to fix the light panel.

In order to improve power generation efficiency, the angle of sunlight incident on the solar panel is important, so the incident amount of sunlight is fixed in accordance with the highest orientation and angle.

When the solar panel is installed on the ground in this form, there is a problem that the lower space cannot be used due to a plurality of pillars.

On the other hand, a support device for a solar panel capable of utilizing the ground of Registration Patent Publication No. 10-1979832 (2019.05.13) has been proposed. Two wires are connected, the upper end of the solar panel is connected to the first wire by a holding module, and the second wire is connected to the bottom of the solar panel by an elevating module so that the lower space can be utilized. , When the solar panel is installed long in the direction of Haengryeong, the top of the post is inclined inward, and due to this reason, the smoothness of the solar panel supported by the first and second wires is lowered, and the solar incidence angle is changed. There was a problem.

In addition, there is a problem in that the efficiency is lowered due to the cause of irregular power generation.

Registered Patent Publication No. 10-1979832 (2019.05.13)

This invention prevents the top of the post from inclining to the inside so that the solar panel can be stably installed long in the matrix direction, while the smoothness of the solar panel is maintained uniformly to increase the efficiency of solar power generation. In addition, by reducing the number of posts supporting the solar panel, the lower space can be efficiently used while reducing the construction cost.

형태의 포스트 아암(111)이 외측으로 수평 돌출되게 결합되어 캔틸레바 형상을 이루되, 일측단이 포스트(10)에 결합된 보강대(112)에 의해 지지되고, 한 쌍의 와이어 로프(210)는 포스트 헤드(110)의 돌출된 포스트 아암(111)에 걸쳐진 상태로 하부로 연장되어 상기 포스트(10)의 하부에 구비된 걸림편(120)에 인장된 상태로 걸려지게 구비되며, 상기 결합구(30)는 유격홀(311a)이 구비된 패널 받침편(311)의 단부에 받침부재 받침편(312)이 절곡된 결합구 몸체(310) 및 상기 받침부재 받침편(312)에 볼트(BT)로 결합되는 결합구 커버(320)로 구비되며, 상기 패널 받침편(311)은 받침부재 받침편(312)이 절곡된 일측 또는 양측에 패널 유격 방지편(311b)이 돌출되게 구비되는 것을 특징으로 한다.In the present invention, a support member 20 consisting of a pair of wire ropes 210 is mounted between a pair of posts 10 spaced apart from each other, and the solar panel P is provided by the coupling hole 30. In the solar panel installation structure coupled to the support member 20, the post 10 is provided with a flange 130 having a through hole 131 at a lower portion, and a lower portion of the base concrete (FC) provided on the ground. The flange 130 is coupled to be supported by a support bolt (SB) provided to be buried, and the post head 110 of the post 10 is at both ends of the upper end of the T shape.

The post arm 111 of the form is coupled to protrude horizontally outward to form a cantilever shape, but one end is supported by a reinforcing rod 112 coupled to the post 10, and a pair of wire ropes 210 The post head 110 extends downwardly while being spanned over the protruding post arm 111 and is provided to be caught in a tensioned state by the locking piece 120 provided at the lower portion of the post 10, and the coupling hole ( 30) is a bolt (BT) to the coupling body 310 in which the support member support piece 312 is bent at the end of the panel support piece 311 provided with the clearance hole 311a and the support member support piece 312 It is provided with a coupling cover 320 coupled to, and the panel support piece 311 is characterized in that a panel gap prevention piece 311b is provided to protrude on one or both sides of the support member support piece 312 bent. do.

delete

delete

delete

In addition, the support member 20 is characterized in that the ends of the wire rope 210 are coupled to each of the end portions of both sides of the support bar 220 so as to be tied.

delete

In addition, the support bolt (SB) is characterized in that it is provided so that the buried depth has a length of 1/2 of the vertical length of the post (10).

delete

In addition, the clearance hole 311a is characterized in that it is provided in the form of a long hole.

In addition, the support member support piece 312 is provided with a bolt through hole 312a in the upper and lower portions, and the coupling hole cover 320 is provided with a bolt head locking hole 321 that matches the bolt through hole 312a. It is characterized in that the support member pressure guide 322 is provided between the bolt head locking hole 321.

In addition, the support member pressure guide 322 is characterized in that it is provided to have a > shape.

In addition, the support member 20 is further provided with an auxiliary support member 40 in the middle between the posts 10, and the auxiliary closing member 40 is characterized in that it is provided to have a T shape.

In addition, when the solar panel (P) is coupled to the support member (20) by the coupling hole (30) and is provided to be arranged on the ground in two or more rows, the support member (20) on which the solar panel (P) is supported. ) And the other supporting member 20 on which the other solar panel P is supported is coupled to the auxiliary supporting member 50.

In addition, the auxiliary support member 50 is coupled to the support member 920 in which each solar panel P is located, and both ends of the horizontal auxiliary support member 510 are coupled by a coupler 30, and the solar panel One end of the inclined auxiliary support member 520 is coupled to the other supporting member 20 located at the upper end of the (P) by a coupling hole 30, and the other end of the inclined auxiliary support member 520 is horizontally assisted. It is characterized in that it is coupled to the support member 410.

In the present invention, the solar panel is mounted on a support member provided at the upper portion between the posts and coupled by a coupling hole, thereby obtaining an effect of preventing the upper end of the post from tilting inward.

In addition, through this, it is possible to obtain an effect that the solar panel can be stably installed long in the matrix direction.

In addition, through this, it is possible to obtain an effect that the smoothness of the solar panel as a whole can be uniformly maintained.

In addition, it is possible to obtain an effect of increasing the efficiency of solar power generation through this.

In addition, there is an effect of reducing the construction cost by reducing the number of posts supporting the solar panel through this.

In addition, there is an effect that the lower space between the posts supporting the solar panel can be used more efficiently.

1 is a perspective view showing a structure for installing a solar panel according to the present invention.
Figure 2 is a perspective view showing the separation of the solar panel installation structure according to the invention.
Figure 3 is a perspective view showing an enlarged view from the bottom of the post in the solar panel installation structure according to the present invention.
Figure 4 is a perspective view showing an enlarged view from the bottom of the auxiliary support member in the solar panel installation structure according to the present invention.
Figure 5 is a perspective view showing an enlarged horizontal auxiliary support member from the bottom in the solar panel installation structure according to the present invention.
Figure 6 is a front view showing a solar panel installation structure according to the invention.
Figure 7 is a side view showing a solar panel installation structure according to the invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a structure for installing a solar panel according to the invention, FIG. 2 is a perspective view showing a structure for installing a solar panel according to the invention, and FIG. 3 is a solar panel according to the invention. A perspective view showing an enlarged post from the bottom of the installation structure, FIG. 4 is a perspective view showing an enlarged view of the auxiliary support member from the bottom of the solar panel installation structure according to the present invention, and FIG. A perspective view showing an enlarged horizontal auxiliary support member from the bottom of the structure for installing a photovoltaic panel, FIG. 6 is a front view showing the structure for installing a photovoltaic panel according to the present invention, and FIG. 7 is a view for installing a photovoltaic panel according to the present invention. It is a side view showing the structure.

The solar panel installation structure according to the present invention allows the solar panel to be uniformly installed while the solar panel is installed for a long time, thereby increasing the efficiency of solar power generation, and a post that supports the solar panel. The lower space between the spaces is to be used more efficiently, and as shown in Figs. 1 to 7, the solar panel P is mounted on the support member 20 provided at the upper portion between the posts 10 to be combined. It is provided to be coupled by the sphere (30).

Here, the post 10 is to maintain a shape in which the solar panel P is spaced apart from the ground at a certain height, and a post head 110 having a T shape is provided at the top, and the upper end of the T shape It is preferable that the length or width be the same as the length or width of the solar panel P.

Post arms 111 are provided to extend horizontally toward the outside at both ends of the post head 110 having a T shape of the post 10, and the post arm 111 has an inclined lower portion. By being coupled to the vertical surface positioned below the post head 110 by the reinforcing bar 112, it is provided to support a sufficient load.

형태를 갖도록 하는 것이 바람직하다.To this end, the post arm 111

It is desirable to have a shape.

The post 10, the post head 110, and the reinforcing bar 112 are preferably formed of H-beams to maintain maximum strength while reducing the amount of material used.

The post 10 is provided with a flange 130 having a through hole 131 at a lower end thereof, and the flange 130 is provided with a support bolt (SB) having a lower part embedded in the foundation concrete (FC) provided on the ground. Is provided to be coupled to be supported. At this time, in a way to prevent the post 10 from being inclined or even pulled out of the base concrete (FC), the support bolt (SB) is buried so as to have a length of 1/2 of the vertical length of the post (10). It is desirable to do it.

The post 10 is a state in which a locking piece 120 is provided on an outer surface spaced apart from the lower flange 130 at a predetermined interval so that the extended lower end of the support member 20 is applied with a predetermined tensile force, and the post 10 is bound It is provided to be fixed.

The support member 20 has both ends of the post head 110 over the post head 110 and is caught by the locking piece 120 provided in the lower portion of the post 10, so that the solar panel P is connected to the upper part 30 It is provided to be combined by.

To this end, the support member 20 is provided with a wire rope 210 in which a plurality of strands of wire are twisted to facilitate installation, and is provided so that the finish of both ends can be made more easily.

In the present invention, the support member 20 is provided with a wire rope 210, but in addition to this shape, as shown enlarged by the dashed-dotted line in FIG. 2, both ends of the support bar 220 having the shape of a square tube One end of the wire rope 210 having a predetermined length is tied, and the other end of the wire rope 210 crosses the post head 110 as described above, and a locking piece provided at the lower portion of the post 10 ( 120).

The coupler 30 is composed of a coupler body 310, a coupler cover 320, and a bolt BT so that the solar panel P is coupled to the support member 20, and the coupler body ( 310 is provided so that the support member support piece 312 having the bolt through hole 312a in the upper and lower portions is bent at the end of the panel support piece 311 provided with the clearance hole 311a having a long hole shape.

The coupling hole cover 320 is provided with a bolt head locking hole 321 that matches the bolt through hole 312a, and a support member pressing guide 322 having a shape of > It is equipped.

The panel support piece 311 is provided with a panel gap prevention piece 311b protruding on one or both sides of the support member support piece 312 bent, so that the solar panel ( It is equipped so that P) can always come to a certain position. At this time, a certain amount of clearance can be absorbed by the fixing bolt/ which is inserted into the clearance hole 311a while the solar panel P is seated on the panel support piece 311, so that the construction can be easily performed. Are provided.

The upper end of the coupling cover 320 is provided with a pressing piece 323 bent at a predetermined angle toward the coupling body 310, so that the base 20 is easily coupled by a bolt (BT) in the middle. By being able to be more pressurized in the process of being installed, it is possible to further prevent the occurrence of a flow phenomenon after installation. This makes it possible to prevent the nut from being loosened in the reverse direction as the pressing piece 323 is subjected to a stress (repulsion force) in the form of spreading during the tightening by the nut.

In this solar panel installation structure, the solar panel P is mounted on the support member 20 provided at the upper portion between the posts 10 to be coupled by the coupling hole 30, but in addition to this type, between the posts 10 When a sagging phenomenon occurs in which the support member 20 positioned as the middle portion of the solar panel P is drooped downward by the self-weight of the solar panel P, the support member 20 positioned in the middle between the posts 10 The auxiliary support member 40 may be further provided in the lower part of ). At this time, it is more preferable that the auxiliary closing member 40 has a T shape.

In addition, in the present invention, the solar panel (P) is installed in one row, but if it is installed in multiple rows other than this type, that is, the solar panel (P) is the supporting member 20 by the coupling hole 30. When combined with and arranged to be arranged on the ground in two or more rows, the supporting member 20 on which the solar panel P is supported and the other supporting member 20 on which the other solar panel P is supported are auxiliary supporting members ( 50) is preferred.

The auxiliary support member 50 allows both ends of the horizontal auxiliary support member 510 to be coupled to the support member 20 on which each solar panel P is positioned by a coupling hole 30, and the solar light It is preferable that one end of the inclined auxiliary support member 520 is coupled to the other supporting member 20 located at the upper end of the panel P by the coupling hole 30, and the inclined auxiliary support member 520 It is preferable that the other end is coupled to the horizontal auxiliary support member 410.

10: post 20: support member
30: coupling 110: post head
111: post arm 112: reinforcement
120: jamming 130: flange
131: through hole 210: wire rope
310: coupling body 311: panel base
311a: Gap hole 311b: Panel gap prevention piece
312: support member support piece 320: coupling cover
321: bolt head locking hole 312a: bolt through hole
322: support member pressure guider

Claims (14)

A support member 20 consisting of a pair of wire ropes 210 is mounted between a pair of posts 10 spaced apart from each other, and the solar panel P is attached to the support member 20 by means of a coupling hole 30. In the solar panel installation structure coupled to ),
The post 10 is provided with a flange 130 having a through hole 131 at a lower portion, and the flange 130 is mounted on a support bolt (SB) provided to have a lower part embedded in the foundation concrete (FC) provided on the ground. Is joined to be supported,
The post head 110 of the post 10 is at both ends of the upper end of the T-shaped

The post arm 111 of the form is coupled to protrude horizontally outward to form a cantilever shape, but one end is supported by a reinforcing rod 112 coupled to the post 10, and a pair of wire ropes 210 It extends downwardly while being spanned by the protruding post arm 111 of the post head 110 and is provided to be caught in a tensioned state by the locking piece 120 provided under the post 10,
The coupling hole 30 is a support member support piece 312 at the end of the panel support piece 311 provided with a clearance hole 311a is bent to the coupling body 310 and the support member support piece 312 It is provided with a fitting cover 320 coupled with a bolt (BT), and the panel support piece 311 is provided with a panel gap prevention piece 311b protruding on one or both sides of which the support member support piece 312 is bent. Solar panel installation structure, characterized in that the.
delete delete delete delete delete The method of claim 1,
The support bolt (SB) is a solar panel installation structure, characterized in that provided so that the buried depth has a length of 1/2 of the vertical length of the post (10).
delete delete The method of claim 1,
The support member support piece 312 is provided with a bolt through hole 312a in the upper and lower portions, and the coupling hole cover 320 is provided with a bolt head locking hole 321 that matches the bolt through hole 312a, A structure for installing a photovoltaic panel, characterized in that a support member pressure guide 322 is provided between the bolt head locking holes 321.
The method of claim 10,
The support member pressure guide 322 is a structure for installing a solar panel, characterized in that provided to have a > shape.
The method of claim 1,
The support member 20 is further provided with an auxiliary support member 40 in the middle between the posts 10, the auxiliary support member 40 is a solar panel installation structure, characterized in that provided to have a T shape.
The method of claim 1,
When the solar panel (P) is coupled to the support member (20) by the coupling hole (30) and arranged to be arranged on the ground in two or more rows, the solar panel (P) is supported by the support member (20) and A structure for installing a solar panel, characterized in that the other supporting member (20) on which the other solar panel (P) is supported is coupled to the auxiliary supporting member (50).
The method of claim 13,
In the auxiliary support member 50, both ends of the horizontal auxiliary support member 510 are coupled to the support member 20 on which each solar panel P is located by a coupling hole 30, and the solar panel One end of the inclined auxiliary support member 520 is coupled to the other supporting member 20 located at the upper end of the (P) by a coupling hole 30, and the other end of the inclined auxiliary support member 520 is horizontally assisted. Solar panel installation structure, characterized in that coupled to the support member (410).

Images