KR20120003883U - A fixing structure for frame of solar cell and post - Google Patents

Abstract

The present invention relates to a solar panel fixing frame holding fixing structure that allows the frame fixing the solar panel to rotate smoothly, and does not cause the hinge portion breakage caused by the weight of the solar panel and the frame during rotation, the main square bar or In the solar panel fixing frame strut fixing structure in which the C channel is fixed on the square bar and the solar panel fixing frame in which the solar panel is fixed on the C channel is rotatably fixed to the upper end of the strut, the center of gravity of the solar panel fixing frame is located. It is characterized in that the hinge is fixed to the upper end of the holding and rotatably rotatable, the rotation of the solar panel of the weight is possible even with a small force.

Description

{A fixing structure for frame of solar cell and post}

The present invention relates to a solar panel fixing frame holding structure, and more particularly, to allow the frame to fix the solar panel to rotate smoothly, and to prevent the hinge portion from being damaged by the weight of the solar panel and the frame during rotation. A solar panel fixing frame strut fixing structure.

In order to solve the problem of environmental pollution caused by fossil fuel, research and construction of eco-friendly power generation facilities using solar, wind, tidal power, etc., which are clean energy sources, are gradually increasing.

Among these, photovoltaic power generation is a technology that can be generated by converting solar light without electricity into electricity indefinitely, and power generation using solar power requires no energy or driving source separately, and it is easy to construct a system from small to large scale. .

On the other hand, since the amount of power generation varies according to the inclination angle of the solar panel according to the incident angle of the solar light, a number of devices that can adjust the inclination angle of the solar panel according to the change of the solar altitude are proposed to improve the solar power generation efficiency. It has been.

As described above, when the inclination angle of the solar panel is adjusted and rotated according to the change of the solar altitude by a separate driving device, the amount of electricity required for the movement of the solar panel is greater than the amount of power generated by the adjustment of the inclination angle of the solar panel. On the contrary, there is a problem that the power generation efficiency is substantially deteriorated, and there is a problem in that the structure is complicated and the manufacturing cost is high, and the maintenance cost is consumed a lot.

Typically, the solar panel fixed to a single post is difficult to rotate because the weight of the frame included more than about 16 pieces 100Kg, which causes the actuator of the automatic tracking device often breaks down.

As shown in FIG. 1, in the structure in which the strut 1 and the solar panel frame are fixed in the related art, the square bar 2 and the main square bar 3 constituting the frame are fixed vertically and horizontally, and the main square bar 3 is fixed. Will be centered. A plurality of C channels 4 are fixed on the square bar 2, and the solar panel 5 is fixed to the C channels 4.

In this structure, the center of rotation RC for rotation is such that the frame hinge 6 protruding downward from the main square bar 3 and the hinge portion 7 protruding to the top of the support 1 are rotatable with each other. It becomes a fixed point. Therefore, the actuator 8 which can pull or push the main square bar 3 and rotates is unreasonable in the case of manual movement by human force or automatic movement by mechanical force.

That is, since the center of gravity (WC) of the solar panel frame is between the main square bar (3) and the C channel (4) for fixing the solar panel (5), the center of gravity and rotation center point is rotated unlike when the solar panel is horizontal If it is inclined, the frame hinge 6 receives a lot of load.

Therefore, it is difficult to rotate and the actuator and the hinge are frequently damaged due to excessive force, but the general structure of the hinge can only be made by protruding the lower part of the frame, which makes it impossible to think that the actuator of the automatic tracking device is damaged. It was. Therefore, the lower hinge structure of the photovoltaic device manufactured to date has been manufactured without considering the center of gravity and rotational center.

Thus, up to now, solar power generators had to pay a separate repair cost regularly.

The present invention is devised to solve the above-mentioned problem, so that the center of gravity does not deviate from the center of rotation acting on the hinge even when the center of rotation of the hinge rotatably fixing the solar panel frame is almost coincident with the center of gravity. I want to configure.

The center of gravity and the center of rotation are almost coincident even when the frame of the solar panel is rotated so that it can be rotated without feeling the load to prevent the breakage of the hinge and the damage of the actuator.

In addition, even if the rotation by manpower, even though it is a weight, it can be easily rotated, and the rotation is easy to attach a solar panel of about twice as large as the solar panel that is fixed in a fixed way to obtain economic benefits I would like to.

The present invention is to achieve the above object C channel is fixed on the main square bar or square bar, the solar panel fixing frame prop which the solar panel fixing frame is fixed to the top of the support of the solar panel fixed on the C channel rotatably In the fixed structure, characterized in that to fix the rotatable to the top of the support by placing the hinge where the center of gravity of the solar panel fixing frame is located, the hinge hole of the hinge fixing plate 20 fixed to the top of the support (10) 22 is formed to be located at the top of the main square bar (3), the hinge bracket (30) is fixed while wrapping the main square bar (3) from the bottom in the center of the main square bar (3), the hinge bracket ( A hinge hole 32 is formed at the upper end of the 30 to be rotatable with the center bolt 40 and the nut 41 while coinciding with the hinge hole 22 of the hinge fixing plate 20 at the upper side of the main square bar 3. Characterized by being fixed The fixing part 11-1 of the support frame 11 is fixed to the upper end of the support 10, and a plurality of hinge fixing plates 20 are fixed to the upper surface of the frame bar 11-2 of the support frame 11, The hinge hole 22 of the fixed hinge fixing plate 20 is formed at the top of the main square bar 3, and the main square bars 3 are orthogonal to each other at regular intervals between the square bars 2 at regular intervals. The hinge bracket 30 is fixed at the center of the main square bar 3 to wrap the main square bar 3 from the bottom up, and a hinge hole 32 is formed at the top of the hinge bracket 30. And the solar panel fixing frame holding fixed to the main square bar (3) on the upper side of the hinge fixing plate 20, while being coincided with the center bolt 40 and the nut (41) rotatably fixed Provide structure.

As described above, the present invention has the effect that the frame on which the heavy solar panel is fixed is smoothly rotated, and the hinge for rotating the heavy solar panel is prevented from being damaged.

It can be easily rotated by the attraction force, and the breakage of the actuator and the hinge is significantly reduced.

Because it does not take much force to rotate, there is an effect that can be attached to 2 times to 3 times of the solar panel to be fixed in general.

1 is a side view showing a conventional solar panel fixing frame holding structure.
Figure 2 is a perspective view showing a solar panel fixing frame strut fixing structure of the present invention.
Figure 3 is a side view showing a solar panel fixing frame strut fixing structure of the present invention.
Figure 4 is a side view showing a state in which the solar panel fixing frame holding structure of the present invention is rotated.
Figure 5 is an exploded perspective view showing a solar panel fixing frame strut fixing structure of the present invention.
Figure 6 is a perspective view showing another embodiment of the solar panel fixing frame strut fixing structure of the present invention.
Figure 7 is a side view showing another embodiment of the solar panel fixing frame strut fixing structure of the present invention.
8 is an exploded perspective view showing another embodiment of the solar panel fixing frame strut fixing structure of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the terminology or words used in the present specification and claims are based on the principle that the inventor can properly define the concept of the term in order to best explain his or her design in the best way. It should be interpreted as meanings and concepts corresponding to the technical idea of

According to the present invention, the C channel 4 is fixed on the main square bar 3 or the square bar 2, and the solar panel fixing frame on which the solar panel 5 is fixed on the C channel 4 is rotatable on the top of the support. In order to improve the fixed structure of the fixed solar panel holding frame fixed, the main purpose is to configure the solar panel fixing frame to rotate without a load at the rotation center point 100, the center of gravity of the solar panel fixing frame Place the rotation center point 100 of the hinge where it is located, characterized in that it is fixed rotatably with the top of the holding.

Looking at a specific embodiment as shown in the exploded perspective view of Figure 5 fixed a pair of hinge fixing plate 20 on both sides of the upper end of the support 10, the hinge hole 22 on the upper end of the hinge fixing plate 20 Center on the same horizontal line. In this case, the height of the plate 21 is fixed between the hinge hole 22 and the upper end of the support 10 so that the main square bar 3 to which the hinge is fixed has a space to rotate.

The hinge hole 22 of the hinge fixing plate 20 is formed at the upper end of the main square bar 3, and the hinge bracket 30 is formed at the center of the longitudinal direction of the main square bar 3. It is fixed while wrapping up from bottom to top.

The hinge bracket 30 has a U-shaped vertical cross section, and a hinge hole 32 is formed at the top of the body 31. Hinge bracket 30 may be used in addition to the above-described shape as well as fixed integrally with the main square bar (3), so that the hinge hole 32 is located in the center of gravity (200) located above the main square bar (3) It can be formed.

In the embodiment of the present invention is implemented as a hinge bracket 30 surrounding the main square bar (3) below. Hinge bracket 30 is fixed to the main square bar (3) with a bolt or the like at the bottom.

The hinge hole 32 formed at the upper end of the hinge bracket 30 rotates with the center bolt 40 and the nut 41 while coinciding with the hinge hole 22 of the hinge fixing plate 20 at the upper side of the main square bar 3. Possibly fixed.

At this time, the center bolt 40 is inserted into the space pipe 42 by using the space pipe 42 to maintain the gap between the hinge bracket 30 and the hinge fixing plate 20 is fixed.

6 to 8 show another embodiment of the present invention, which illustrates a structure in which a plurality of hinge structures are formed in one support.

The fixing part 11-1 of the support frame 11 is fixed to the upper end of the support 10, and the frame bar 11-2 is formed horizontally on the fixing part 11-1 of the support frame 11, The actuator 8 is formed on the frame bar 11-2 to act to push or pull the main square bar 3. A plurality of hinge fixing plates 20 are fixed to the upper surface of the frame bar 11-2. The strut frame 11 may be rotatably fixed or integrally fixed to the top of the strut 10.

The hinge hole 22 of the hinge fixing plate 20 fixed to the frame bar 11-2 of the support frame 11 is formed to be positioned at the upper end of the main square bar 3, and the main square bar 3 is rectangular. A plurality of bars 2 are fixed to be orthogonal to each other at regular intervals. That is, since the hinge hole 22 becomes the rotation center point 100, the C channel 4, the main square bar 3, and the square bar 2 when the hinge hole 22 is fixed to the solar panel 5 are positioned. ) Should be the center of gravity (200).

The hinge brackets 40 are fixed while wrapping the main square bars 3 from the bottom of the main square bars 3 to the top, and the hinge holes 32 are formed at the top of the hinge brackets 30 to form the main square bars. At the upper side of the (3) is coincided with the hinge hole 22 of the hinge fixing plate 20 is rotatably fixed to the central bolt 40 and the nut (41).

As such, the present invention solves the problem of breaking the hinge and the actuator by the force applied to the hinge when the solar panel and the fixed frame of the weight rotate, due to the difference between the center of rotation and the center of gravity, it is meaningful, The hinge solves the structural contradiction of the photovoltaic device that is formed so as to face the position where the hinge is coupled to each other.

Due to the development of the present invention presented above, it is difficult to rotate due to the weight, unlike the prior art that could not put more than 16 solar panels on the support at the same time is configured to place 32 solar panels corresponding to twice.

1: Shore 2: Square Bar
3: main square bar 4: C channel
5: solar panel 6: frame hinge
7: hinged government 8: actuator
10: Shoring 11: Shoring Frame
11-1: fixing part 20: hinged fixing plate
21: plate 22: hinge hole
30: hinge bracket 31: body
32: hinge hole 40: center bolt
41: nut 42: space tube
RC, 100: center of rotation WC, 200: center of gravity

Claims (3)

In the solar panel fixing frame strut fixing structure in which the C channel is fixed on the main square bar or the square bar, and the solar panel fixing frame on which the solar panel is fixed on the C channel is rotatably fixed to the top of the strut.
A solar panel fixing frame holding structure, characterized in that the rotatable top and the rotatable fixing so that the center of rotation (100) of the hinge is located in the center of gravity (200) of the solar panel fixing frame.
The hinge hole 22 of the hinge fixing plate 20 fixed to the upper end of the support 10 is formed to be located at the upper end of the main square bar 3, and at the center of the main square bar 3, The hinge bracket 30 is fixed while wrapping the main square bar 3 from the bottom up, and a hinge hole 32 is formed at the top of the hinge bracket 30 to fix the hinge plate 20 at the upper side of the main square bar 3. Solar panel fixing frame prop fixed structure, characterized in that the same as the hinge hole (22) of the center bolt 40 and the nut 41 is rotatably fixed.
The method of claim 1,
The fixing part 11-1 of the support frame 11 is fixed to the upper end of the support 10, and a plurality of hinge fixing plates 20 are fixed to the upper surface of the frame bar 11-2 of the support frame 11,
The hinge hole 22 of the fixed hinge fixing plate 20 is formed at the top of the main square bar 3, and the main square bars 3 are orthogonal to each other at regular intervals between the square bars 2. Is fixed,
In the center of the main square bar 3, the hinge bracket 30 is fixed while wrapping the main square bar 3 from the bottom up, and the hinge hole 32 is formed at the top of the hinge bracket 30 to form the main square bar. (3) from the upper side of the hinge fixing plate 20 of the solar panel fixed frame strut fixing structure, characterized in that it is rotatably fixed by the central bolt (40) and the nut (41).

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