KR102225102B1 - Angle adjustable solar facility - Google Patents

Abstract

The present invention relates to an angle adjustable solar installation, which is to improve the solar power generation efficiency by making it easier to adjust the angle of the solar panel. In the present invention for realizing this, the angle adjustable solar installation comprises: a solar panel (10) for generating electric energy by condensing sunlight; a panel support (20) for supporting the solar panel (10); a post (30) configured vertically to support the panel support (20) at a predetermined height; a connection bracket (40) integrally coupled to the central portion of the panel support (20) so as to be rotatably connected to the upper end of the post (30) and a rotation pin (42); and a guide frame (50) having a plurality of through-holes (51) provided at regular intervals to guide the rotation of the panel support (20), wherein the fastening pins (52) are fastened in the through-holes (51).

Description

Angle adjustable solar facility {ANGLE ADJUSTABLE SOLAR FACILITY}

The present invention relates to a photovoltaic facility, and more particularly, an angle-adjustable photovoltaic system for improving solar power generation efficiency by allowing easy angle adjustment of a photovoltaic panel facility installed outdoors for photovoltaic power generation. It is about facilities.

In general, solar power generation using solar panels uses infinite, non-polluting solar energy, so that fuel costs are unnecessary, there is no air pollution or waste generation, and the power generation area is a semiconductor device, and the control unit is an electronic component. No noise

In addition, the solar panel has a long lifespan of at least 20 years, it is easy to automate the power generation system, and has the advantage of minimizing the cost of operation and maintenance.

A solar panel used for photovoltaic power generation plays a role of converting sunlight into electric energy as described above, and generally silicon and a composite material are mainly used.

On the other hand, the solar cell has a change in power generation efficiency according to the angle of sunlight, but since most of the solar panels are made of a fixed type, there is a problem in that power generation efficiency is deteriorated because it cannot cope with the angle of sunlight according to the four seasons.

Korean Patent Registration No. 2103304 (registered on April 16, 2020) Korean Patent Registration No. 1864438 (Registered on May 29, 2018)

The present invention has been proposed to improve the above-described problems in the prior art, and provides a structure capable of easily adjusting the angle of the solar panel so that the solar panel angle can be adjusted according to the change of the season or the area of the construction site. The purpose is to improve the solar power generation efficiency by adjusting it.

A solar facility of the present invention for achieving the above object comprises: a solar panel for generating electric energy by condensing sunlight; A panel support for supporting the solar panel; A support vertically configured to support the panel support at a predetermined height; A connection bracket integrally coupled to the central portion of the panel support so that the upper end of the post and the pivot pin are rotatably connected to each other; A plurality of through-holes are provided at regular intervals to guide the rotation of the panel support, and a guide frame through which fastening pins are fastened in the through-holes.

In addition, the solar facility of the present invention includes a solar panel for generating electric energy by condensing sunlight; A panel support for supporting the solar panel; A support vertically configured to support the panel support at a predetermined height; A guide frame integrally coupled to the panel support so as to be rotatably connected by the middle portion of the post and the pivot pin; A connection bracket configured to be integrally coupled to the central portion of the panel support so as to be fastened by a fastening pin with an upper end of the post, and a plurality of through holes through which the fastening pins are fastened are formed at regular intervals to guide the rotation of the panel support; It characterized in that it constitutes a configuration comprising a.

In addition, a driving cylinder connected to the panel support is mounted on the post.

In the present invention, since the angle of the solar panel can be adjusted more easily, it is possible to improve the solar power generation efficiency according to the precise adjustment of the panel angle according to the seasonal change.

1 is a front structural view of a solar facility installation state according to an embodiment of the present invention.
Figure 2 is a side structure diagram of a solar facility of the present invention.
Figure 3 is a detailed cross-sectional view of the angle adjustment fastening pin installation in the present invention.
Figure 4 is a solar panel angle adjustment state in the present invention.
Figure 5 is a state diagram of a driving cylinder mounted on the solar facility of the present invention.
6 is a side structural view of a solar facility according to another embodiment of the present invention.
7 is a detailed view of part A of FIG. 6.
Figure 8 is a perspective view of the holding part in another embodiment of the present invention.
9 is a cross-sectional view of part A of FIG. 6 in another embodiment of the present invention.
Figure 10 is a solar panel angle adjustment state in another embodiment of the present invention.
11 is a cross-sectional view of the main part of the support according to another embodiment of the present invention.
12 is a detailed cross-sectional view of a buffer pad in another embodiment of the present invention.
13 is a detailed structural diagram of a connection bracket installation part according to an application example of the present invention.
14 is a cross-sectional view of a main part according to an application example of the present invention.

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

First, a configuration of an angle-adjustable solar facility according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

In the present embodiment, the solar facility includes a solar panel 10 for condensing sunlight to generate electric energy, a panel support 20 supporting the solar panel 10, and the panel support 20 ) To be vertically configured to support the support at a certain height, and the upper end of the support 30 and the central part of the panel support 20 so as to be rotatably connected by the rotation pin 42 A connection bracket 40 configured to be combined with a plurality of through holes 51 are provided at regular intervals to guide the rotation of the panel support 20, and the fastening pin 52 is fastened in the through hole 51 It consists of a guide frame 50 made.

In addition, the holding plate 30 is formed by welding a square plate-shaped fastening plate 31 so that the fastening pin 52 is fastened in the middle of the I-shaped cross-sectional structure, as shown in FIG. 5 as needed. The drive cylinder 60 connected to the panel support 20 can be mounted.

On the other hand, it can be seen that the guide frame 50 is provided in a curved shape having a predetermined curvature.

In the drawings, unexplained reference numeral 11 denotes a panel frame.

The effect of the construction of the solar facility of the present invention constituting such a configuration will be described.

In the solar facility of the present invention, optimal solar power generation can be achieved through an adjustment operation at an appropriate angle in a state in which a plurality of solar panels 10 are installed at a predetermined height above the posts 30.

That is, when the position of the guide frame 50 is adjusted while the fastening pin 52 is removed from the guide frame 50, the solar panel 10 is rotated around the rotation pin 42 of the connection bracket 40. ) Will be held.

At this time, since a plurality of through holes 51 are formed at regular intervals in the guide frame 50 forming a semicircular shape, the fastening pin 52 is fastened to the through hole 51 at the corresponding position in a state in which rotation is made at an appropriate angle. You can adjust the angle.

On the other hand, since the solar panel 10 in this embodiment is a heavy body in which the panel frame 11 and the panel support 20 are integrally assembled, a large number of manpower is required to manually adjust the angle.

In this case, as shown in FIG. 5, the angle adjustment operation can be made more easily in a state in which the driving cylinder 60 is installed in the middle of the post 30.

Accordingly, it can be seen that the solar facility of the present invention has an effect of improving the solar power generation efficiency according to the precise adjustment of the panel angle according to the seasonal change since the angle of the solar panel can be adjusted more easily.

On the other hand, FIGS. 6 to 10 show the structure of a solar facility according to another embodiment of the present invention, in which the guide frame 50 is rotatably connected by the rotation pin 53 at the middle portion of the post 30. It is made, in the central portion of the panel support 20, the upper end of the support 30 and the connection bracket 40, which is fastened by the fastening pin 43, is integrally coupled.

At this time, a plurality of through holes 44 through which the fastening pins 43 are fastened are formed in the connection bracket 40 at regular intervals to guide the rotation of the panel support 20.

In addition, the post 30 is configured with a fastening plate 31 formed with a pin fastening hole 32 through which the pivoting pin 53 is fastened at the middle portion corresponding to the guide frame 50, and the fastening plate 31 On one side, a guide hole 33 forming a curved shape is formed to limit the angle of rotation, and a guide pin 54 is fastened to the guide frame 50 corresponding thereto so that it can be guided along the guide hole 33. .

When this configuration is achieved, the angle adjustment of the solar panel 10 can be made around the pivot pin 53 at the middle of the post 30, and the solar panel in a state where the fastening pin 43 is removed. In a state where (10) is adjusted to an appropriate angle, the fastening pin 43 is fastened to the through hole 44 at the corresponding position to fix the angle.

In particular, in this angle adjustment process, the guide pin 54 provided in the guide frame 50 is guided along the guide hole 33 formed in the fastening plate 31, resulting in rapid flow of the solar panel 10 It is possible to stably adjust the angle while preventing it.

In addition, in the above embodiment, while the rotation shaft is located at the top of the holding 30, in this embodiment, the rotation shaft is located at the middle of the holding 30, so that the center of gravity is lowered, so that manual angle adjustment can be made more easily. You can see that it is.

On the other hand, Figures 11 and 12 show the configuration according to another embodiment of the present invention, the guide frame 50 is provided to form a curved surface shape of a predetermined curvature, and the fastening plate 31 at the middle of the post 30 ) Is provided with an elastic pad 35 made of a sponge or urethane material for elastic support.

At this time, the elastic pad 35 has a cross-sectional structure of a "c" shape such that a groove 36 for preventing interference with the guide pin 54 is formed, and a guide pin 54 inside the groove 36 ) And magnets 37 are provided to enable attachment by magnetic force, and wave-shaped reinforcing plates 38 for reinforcing durability are provided on both sides of the elastic pad 35 in a symmetrical manner, and the reinforcing plates ( 38) forms a structure connected by a buffer spring 39 at one side.

When the elastic pad 35 is configured as described above, the fastening plate 31 is elastically supported, so that the guide frame 50 can be maintained in a stable support state.

In particular, it is possible to strengthen the durability and buffering power of the elastic pad 35 by the wave-shaped reinforcing plate 38 and the buffer spring 39 provided therein, and the guide pin 54 due to the magnetic force of the magnet 37 ) Is not separated and a stable fastening state can be maintained.

In addition, FIGS. 13 and 14 show a configuration according to an application example of the present invention, in which a toothed portion 40a is formed on the bottom of the connection bracket 40, and a guide gear ( 45) is configured at the upper end of the post 30, and the gear shaft 45a supporting the guide gear 45 to be rotatable is elastically supported by an elastic spring 46, and an iron brush on one side of the post 30 (47) is composed.

When this configuration is achieved, the flow of the connection bracket 40 can be made more stably by the meshing action of the tooth portion 40a and the guide gear 45, and the load-bearing force is strengthened.

In particular, the guide gear 45 is elastically supported by the elastic spring 46 so that the efficiency of contact with the toothed portion 40a can be improved, and the connection bracket according to the angle adjustment of the solar panel 10 ( In the flow process of 40), the iron brush 47 is brought into contact with the toothed portion 40a, so that the removal of foreign substances attached to the toothed portion 40a can be automatically performed during the angle adjustment process.

In addition, although a specific embodiment of the present invention has been described and illustrated above, it is obvious that the solar facility structure of the present invention can be variously modified and implemented by those skilled in the art.

However, such modified embodiments should not be individually understood from the technical spirit or scope of the present invention, and such modified embodiments should be included within the appended claims of the present invention.

10: solar panel 20: panel support
30: support 31: fastening plate
32: pin fastening 33: guide hole
40: connection bracket 42: pivot pin
43: fastening pin 44: through hole
50: guide frame 51: through hole
52: fastening pin 53: rotating pin
54: guide pin 60: drive cylinder

Claims (6)

delete delete A solar panel 10 for condensing sunlight to generate electric energy;
A panel support 20 supporting the solar panel 10;
A post 30 configured vertically to support the panel support 20 at a predetermined height;
A guide frame 50 integrally coupled to the panel support 20 so as to be rotatably connected by the middle portion of the post 30 and the pivot pin 53;
It is configured integrally coupled to the central part of the panel support 20 so that the upper end of the post 30 and the fastening pin 43 are fastened, but the through hole 44 through which the fastening pin 43 is fastened is spaced at a predetermined interval. It is formed in a plurality of forming the configuration of the connection bracket 40 to guide the rotation of the panel support 20;
The holding plate (31) is formed with a pin fastening hole (32) through which the pivoting pin (53) is fastened at the stop corresponding to the guide frame (50), and one side of the fastening plate (31) In order to limit the angle of rotation, a guide hole 33 is formed in a curved shape, and a guide pin 54 is fastened to the guide frame 50 corresponding thereto so that it can be guided along the guide hole 33. Angle-adjustable solar facility. delete The method of claim 3,
The guide frame 50 is provided in a curved shape with a certain curvature, and an elastic pad 35 for elastically supporting the fastening plate 31 is provided at the middle portion of the support 30, and the elastic pad 35 A groove 36 for preventing interference with the guide pin 54 is formed, and a magnet 37 is provided inside the groove 36 so as to be attached to the guide pin 54 by magnetic force, On both sides of the elastic pad 35, a wave-shaped reinforcing plate 38 for reinforcing durability is provided symmetrically buried on both sides, and the reinforcing plate 38 forms a structure connected by a buffer spring 39 at one side. An angle-adjustable solar facility characterized by. The method of claim 3,
A toothed portion 40a is formed on the bottom of the connection bracket 40, and a guide gear 45, which is engaged with the toothed portion 40a, is configured at the upper end of the support 30, and the guide gear 45 The gear shaft (45a) for supporting the pivotable is elastically supported by an elastic spring (46), and an angle-adjustable solar facility, characterized in that an iron brush (47) is configured on one side of the support (30).

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