KR100905069B1 - Solar beam module support fundamental file - Google Patents

Abstract

A fundamental file of a solar module support is provided to minimize the shaking of the solar module support due to wind or typhoon through a plurality of bearing blades. A fundamental file of a solar module support is connected to the lower part of the module support supporting a frame structure having a plurality of solar cell modules and fixing the module support on the ground. The fundamental file comprises: a horizontal mounting unit(64a,64b) formed at the upper and lower edges of a body(62); and a plurality of bearing blades(66) being fixed between the horizontal mounting units and being protruded from the outer circumference along a longitudinal direction. The fundamental file is inserted into a mounting hole in which the module support is mounted and is buried.

Description

Solar beam module support fundamental file

The present invention relates to a foundation pile for fixing the solar module holder to the forest or the ground, more specifically, the base pile is fixedly coupled to the lower portion of the solar module holder and a plurality of support wings are formed on the outer surface of the body designated place Install solar module holder in the correct position by inserting into the solar module holder.After installation, the solar module holder can withstand the settlement of the ground according to the weight load while minimizing the shaking of the solar module holder caused by wind or typhoon. It's about the base file.

In general, solar cells are classified into a power generation method using solar heat and a power generation method using solar light.

In particular, since the power generation method using solar light uses infinite clean energy, it does not require any energy or driving source, and it is easy to construct small to large-scale systems and is not affected by installation restrictions due to environmental problems. Although the possibilities are endless, on the other hand, the amount of power generation depends on the solar radiation time, a large amount of solar power generation module is required to obtain a large power, there is a point that expensive installation cost compared to commercial power.

The module holders used in the solar power generation method are classified into fixed, manual or automatic solar tracking type depending on whether the holder moves along the sun. It is distinguished by.

However, the conventional photovoltaic module 100 has the following problems when fixed installation of the module holder 200 in the forest or the ground.

First, the conventional module holder 200 forms a concrete foundation 300 at the lower end to be installed in the forest or the ground at this time, there is a problem that the flat work of the forest or the ground is difficult and takes a long time.

And when the settlement occurs in the forest or the ground where the conventional module holder 200 is mounted, the concrete foundation 300 is eccentric and the load of the photovoltaic module 100 is eccentrically transmitted to the module holder 200 There was a problem in that the module cradle 200 to be mounted newly by bending.

In addition, the conventional concrete foundation 300 is expensive as a ready-made product, when trying to manufacture the concrete foundation 300 in the field, there is a problem that the accuracy is much lower and the working period is extended according to the weather.

The present invention has been made in order to solve the above problems, a predetermined position in the forest or ground on which the photovoltaic module holder is mounted, and the specified position by inserting and mounting the foundation pile formed with a plurality of support wings on the outer surface of the body The solar module holder is installed on the solar panel correctly, and after installation, the solar module holder can withstand the ground subsidence according to the weight load while minimizing the shaking of the solar module holder caused by wind or typhoon through a plurality of supporting wings formed on the body. The purpose is to provide a base file of the optical module holder.

In order to achieve the above object, the upper and lower ends of the body having a predetermined length in the installation of a module holder for supporting the frame structure is fixed to the ground or forest and mounted on the top of the plurality of solar cell modules Each horizontal mounting portion is formed, and between the horizontal mounting portion constitutes a foundation pile fixed to protrude to form a plurality of support wings on the outer peripheral surface in the longitudinal direction, and inserted into the mounting hole of the place where the module holder is mounted, Characterized in that it is fixed through.

In addition, the support wing is characterized in that the fixing so as to protrude at least two on the horizontal line of the outer peripheral surface of the body.

In addition, the support wing is characterized in that both ends are fixed at a position overlapping each other while being fixed to protrude in a zigzag at regular intervals on the outer peripheral surface of the body.

According to the present invention, it is possible to install the solar module holder in the correct position without changing the position through the base pile inserted into the mounting position of the solar module holder, as well as the effect of less work influences due to the weather.

In addition, after installing the foundation pile in the designated place, through the plurality of support wings formed on the outer surface of the body can not only minimize the shaking of the solar module cradle caused by wind or typhoon, but also ground subsidence according to the weight of the solar module Through the support wings protruding from the body has an effect that can withstand well.

Hereinafter, with reference to the accompanying drawings, the configuration of the present invention, Figures 3 and 4 are a perspective view and a front view showing a base module of the solar module holder according to the present invention, Figures 5 to 8 is a solar module according to the present invention Figure is a view showing another embodiment of the cradle base pile.

The solar module 10 of the present invention includes a frame structure 20 formed by organically coupling a plurality of frames 22 to each other, and a plurality of channels 30 mounted on the frame structure 20. A plurality of solar cell modules 40 mounted on the channel 30 and the module holder 50 and the module holder 50 supporting the same while being installed at the lower portion of the frame structure 20 are located in the forest. It is composed of a foundation pile 60 fixedly installed on the ground.

That is, when the solar module 10 completes the skeleton of the frame structure 20 using the plurality of frames 22, a pair of module holders having different heights under the frame structure 20 ( 50) will be mounted before and after to form the frame structure 20 inclined.

Next, the solar cell module 40 may be mounted between the channels 30 after mounting the plurality of channels 30 on the frame structure 20.

And the base pile 60 is coupled to the module holder 50 and fixed to the forest or the ground, the body 62 has a predetermined length, and the horizontal mounting portion formed on the upper and lower ends of the body 62, respectively 64a and 64b and a plurality of support wings 66 formed along the longitudinal direction on the outer circumferential surface of the body 62.

The body 62 is formed to have a predetermined length, the cross section is formed in a square, circle, oval, etc. and the inside is formed by selecting a solid or hollow, the length of the body 62 is formed differently depending on the environment of the designated place Can be.

That is, when there is a fixed rock or hard material inside the designated place, the body 62 is formed to be shorter than the normal length and uses the fixed rock or hard material as a support.

The horizontal mounting portions 64a and 64b respectively formed on the upper and lower ends of the body 62 are formed in a plate shape larger than the size of the body 62 so that the upper horizontal mounting portion 64a is coupled to the module holder 50. The lower horizontal mounting portion 64b is buried in and fixed to the mounting hole H at the designated place.

In this case, a plurality of reinforcing pieces 64a-1 are selected and formed on the lower portion or the upper portion of the horizontal mounting portions 64a and 64b so as to reinforce the strength of the coupling and the fixed coupling, and the module holder 50 and Coupling holes 64a-2 are formed to be fixedly coupled using fasteners such as bolts, screws, nuts, and the like.

In addition, the horizontal mounting portions 64a and 64b may form a hole in the center so that the plating material can be removed when plating the inner and outer surfaces of the foundation pile 60.

A plurality of support wings 66 fixed to the outer surface of the body 62 is formed to protrude toward the outside, which is the base pile 60 left and right after insertion and mounting in the mounting hole (H) formed in the designated place. Or to prevent ground subsidence due to weight load while preventing movement up and down.

To further explain this, the plurality of support wings 66 formed on the outer surface of the body 62 is formed to protrude a predetermined section toward the outside, the shape is formed to be curved as well as horizontal.

That is, the support wing 66 is ground subsidence according to the weight of the photovoltaic module 10 while fixing the foundation pile 60 through the soil or stone embedded in the mounting hole (H) formed in the designated place, The typhoon, wind, etc. will serve to prevent the position of the body 62 changes.

At this time, the support wing 66 is formed on the outer surface of the body 62 may be mounted in a variety of shapes, that is, Figures 3 and 4 shown is a support wing 66 fixed to protrude to the body 62 5 and 6 show that the support wings 66 fixed to protrude to the body 62 are formed in a zigzag form, and FIGS. 7 and 8 show the body ( The support wings 66 fixed to protrude to 62 is formed in a zigzag, and both ends 66a of the support wings 66 are extended to overlap the support wings 66 formed on the upper and lower portions. .

Referring to the accompanying drawings, an embodiment of a base module of the solar module holder is configured as described above, Figure 9 is a side view showing a state of use of the solar module holder base pile according to the present invention.

First, a body 62 having a predetermined length, horizontal mounting portions 64a and 64b respectively formed at upper and lower ends of the body 62, and protruding from the outer circumferential surface of the body 62 at regular intervals are formed. A plurality of support wings 66 to form the foundation pile 60 is formed integrally.

Next, after the mounting hole (H) is formed in the designated place where the module holder (50) is mounted, the foundation pile (60) is fixedly installed through a buried operation while being inserted into the mounting hole (H).

At this time, the foundation pile 60 is inserted into the mounting hole (H) is to be firmly fixed to the designated place through the support wing (66).

And after mounting a pair of module holder 50 having a different height on the upper horizontal mounting portion (64a) of the foundation pile 60, using a plurality of frames 22 on the upper portion of the module holder 50 skeleton The completed frame structure 20 is mounted.

Next, after mounting a plurality of channels 30 on the upper portion of the frame structure 20, if the solar cell module 40 is mounted between the channels 30, the solar module 10 is completed.

In the above state, the foundation pile 60 is fixed by the soil or stone filling the mounting holes (H) a plurality of support wings 66 can minimize the shaking of the solar module 10, such as wind or typhoon. It is.

In addition, the solar module 10 is to be prevented from settling in the downward direction according to the weight by the support wings 66 protruding to the body 62.

That is, the plurality of support wings 66 formed on the body 62 is fixed and supported by the soil or the stones formed between the to be able to prevent the position change of the foundation pile 60 according to the weight load. .

1 is a perspective view showing a typical solar module.

Figure 2 is a side view showing a conventional solar module.

3 and 4 is a perspective view and a front view showing a solar module cradle base pile according to the present invention.

5 to 8 is a view showing another embodiment of a solar module cradle base pile according to the present invention.

Figure 9 is a side view showing a state of use of the solar module cradle base pile according to the present invention.

※ Explanation of code for main part of drawing

10: solar module, 20: frame structure,

30: channel, 40: solar cell module,

50: module holder, 60: foundation pile,

62: body, 64a. 64b: horizontal mount,

66: support wing, 68: end,

H: mounting hole.

Claims (3)

The base of the photovoltaic module holder which is fixed to the ground or the forest and fixed to the forest or the ground connected to the lower portion of the module holder 50 supporting the frame structure 20 on which the plurality of solar cell modules 40 are mounted. In the file, Horizontal mounting portions 64a and 64b are respectively formed at upper and lower ends of the body 62 having a predetermined length, and a plurality of support wings 66 are formed along the longitudinal direction on the outer circumferential surface between the horizontal mounting portions 64a and 64b. By constructing the foundation pile 60 fixed to protrude, The base pile of the photovoltaic module holder, characterized in that the module holder 50 is inserted into the mounting hole (H) of the place where it is mounted and then fixedly installed through the investment. The method of claim 1, The support wing (66) is a foundation of the solar module holder, characterized in that fixed to at least two protrusions formed on the horizontal line of the outer peripheral surface of the body (62). The method of claim 1, The support wing 66 is fixed on the outer circumferential surface of the body 62 while being fixed so as to protrude in a zigzag at regular intervals, both ends 68 are fixed in a position overlapping each other, characterized in that Foundation file.

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