KR101979823B1 - Supporting device for solar panel that can be used on the ground - Google Patents

Abstract

The present invention relates to a supporting device for a solar panel capable of utilizing the ground and, more specifically, to a supporting device for a solar panel capable of utilizing the ground which is installed to be spaced apart from the ground by regular intervals in order to utilize a lower space in which the solar panel is installed, adjusts an angle of the panel in accordance with a position of the sun, moves the solar panel in accordance with a necessary position of sunlight, and selects the solar panel or the lower space, thereby adjusting an amount of sunshine.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a support device for a solar panel,

The present invention relates to a support device for a solar panel capable of utilizing a floor, and more particularly, to a support device for a solar panel capable of utilizing a floor, which is installed at a predetermined distance from the ground so as to utilize a lower space provided with a solar panel, To a supporting device for a solar panel capable of adjusting the amount of sunshine by selecting a luminescent panel or a lower space by moving the solar panel according to the required position of the sunlight.

Generally, photovoltaic power generation is a power generation method that converts solar light energy into electric energy, and a solar panel is installed to receive solar light energy.

Such solar power generation is free from pollution, can be installed and developed as needed in a place where it is needed, and is easy to maintain and installed on a small scale or large scale with eco-friendly energy.

However, there is a problem that the power generation efficiency is irregular due to the natural conditions such as the season and the amount of sunshine, and the area where the solar panel is installed can not be utilized separately.

In order to solve such a problem, a conventionally proposed " solar panel array supporting system " relates to a solar panel array in which a main cable and an auxiliary cable are installed in a fixed strut and unit solar panels are arranged to provide panel lines, will be.

Therefore, although the prior art has made it possible to utilize the lower space by installing panel lines spaced apart from the ground, a plurality of unit solar panels constitute one panel line, so that there is a restriction that sunlight does not enter, There is a problem.

In addition, panel lines are installed in the main cable and the auxiliary cable, making it difficult to maintain and replace the unit solar panels.

Korean Patent No. 10-1275078 (2013.06.10)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a solar panel that is spaced apart from a ground surface by a certain distance, And to provide a supporting device for a solar panel capable of utilizing the ground to prevent the solar panel.

It is another object of the present invention to provide a solar panel capable of moving a position of a solar panel, utilizing a lower space and a ground, and capable of selectively irradiating sunlight to a solar panel or a ground And a supporting device for the panel.

It is still another object of the present invention to provide a support device for a solar panel capable of supporting a top surface and a bottom surface of a solar panel through wires, I have to.

It is still another object of the present invention to provide a solar panel capable of easily attaching and detaching a plurality of solar panels and easily adjusting the number of solar panels and simultaneously or selectively performing solar power generation or plant cultivation according to natural requirements such as season and weather And to provide a support device for a solar panel that can be used on the ground.

According to an aspect of the present invention, there is provided a method of manufacturing a semiconductor device, the method comprising: A first wire connected in the row direction to the top of the column; A second wire connected to the side of the column in a row direction; Wherein the first wire is connected to an upper portion and the lower end is connected to the second wire located in front of the column, the solar panel being mounted on an upper end of the solar panel, And a lifting module installed on the strut to move the second wire up and down.

The struts may be formed of a pair of pairs positioned on both sides in the row direction, and a plurality of the struts are preferably arranged at regular intervals in the row and column directions.

The supporting module includes a hollow groove provided at an upper end of the solar cell panel and having both sides thereof inserted with the first wire and an opening through which the first wire flows into the hollow groove. And a holding part coupled to the opening to press the first wire to open and close the opening.

The holder has a half-shape having a fitting hole formed in a side surface thereof and having a space formed therein, and an inner surface of the inner surface in the hollow groove direction, which is laterally disposed along the width direction, A U-shaped elastic member which is inserted in the fitting groove provided on the left and right sides of the housing, has a through hole at both ends thereof and is disposed so as to be exposed in the hollow groove direction, And an adjusting bolt inserted in the coupling hole so as to freely rotate and one of both ends of the elastic member rotating in the forward direction and the other of the adjusting bolts rotating in the opposite direction to move in the longitudinal direction to adjust the elastic force of the elastic member .

Preferably, the elevating and lowering module comprises a guide rail installed along the height direction of the strut, and a guide member moving up and down along the guide rail and connected to the second wire to adjust the height.

And a coupling module connected to the second wire at a lower end of the solar panel, wherein the coupling module comprises: a coupling member provided at a lower end of the solar panel and having a guide groove formed therein; And a moving member which is installed so as to freely move in the longitudinal direction and in which the insertion groove into which the second wire is inserted is formed on one side.

Wherein the first wire is seated on an upper end of the strut so that both ends of the first wire are fixed to the ground and a tension adjuster for adjusting the tension of the first wire is disposed at an upper end of the strut, It is preferable that the wire is seated and the lower end moves up and down by elasticity in the inside of the support to adjust the tension of the first wire.

According to the support device for the solar panel capable of utilizing the ground according to the present invention, the solar panel is installed at a predetermined distance from the ground and through the support and the first wire and the second wire. By the load of the solar panel, It is possible to prevent the breakage by buffering the generated impact.

According to the present invention, the position of the solar panel can be moved, the lower space and the ground can be utilized, and the sunshine amount can be selectively irradiated to the solar panel or the ground according to the positional movement.

According to the present invention, the solar panel is fixed or moved through a holding module, and the holding module is configured to be operable through a separate tool so that an outside person can not operate it arbitrarily.

According to the present invention, the upper and lower ends of the solar panel can be supported through wires, the wire at the lower end can be raised and lowered to adjust the angle of each of the solar panels, .

According to the present invention, it is possible to easily attach and detach a plurality of solar panels, to easily adjust the number of solar panels, and to simultaneously or selectively perform solar power generation or plant cultivation according to natural requirements such as season and weather There are advantages.

FIG. 1 is a perspective view showing a support device for a solar panel capable of utilizing the ground according to the present invention, FIG.
FIG. 2 is a side view showing a coupled state according to the present invention,
3 is a perspective view showing a holding module according to the present invention,
FIG. 4 is a side view of a lifting module and a tension adjusting unit according to the present invention,
5 is a perspective view showing a moving state of the solar panel according to the present invention,
6 is a side view showing an angle adjustment state of the solar panel according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a supporting apparatus for a solar panel according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a support device for a solar panel capable of utilizing the ground according to the present invention, FIG. 2 is a side view showing a combined state according to the present invention, FIG. 3 is a perspective view showing a holding module according to the present invention, FIG. 5 is a perspective view illustrating a moving state of the solar panel according to the present invention, FIG. 6 is a perspective view illustrating the angle adjustment of the solar panel according to the present invention, Fig.

As shown in FIGS. 1 to 6, the present invention relates to a support device for a solar panel capable of utilizing a floor, and more particularly, to a support device for a solar panel capable of utilizing a floor, , A supporting device for a solar panel capable of adjusting the angle of the panel according to the position of the sun and moving the solar panel according to the required position of the sunlight to select the light-receiving panel or the lower space to control the amount of sunshine will be.

To this end, the present invention comprises a strut 10, a first wire 20, a second wire 30 and a solar panel 40 so as to adjust the position and angle of the solar panel.

The struts 10 are embedded in the ground and arranged in a matrix direction.

The pillars 10 are arranged on both sides in the row direction, and a plurality of the pillars 10 are arranged at a predetermined interval in the row and column directions.

The first wire 20 is connected to the upper end of the strut 10 in the row direction.

That is, both ends of the first wire 20 are provided in a pair of pillars 10 located on both sides in the row direction.

The second wire 30 is connected to the side of the strut 10 in the row direction.

Here, the second wire 30 is disposed at a side portion of a side of the strut 10, and a plurality of the struts 10 are arranged in a column direction.

The first wire 20 is fixed to the ground at the upper end of the strut 10 or in the state of being placed on the strut 10 and the second wire 30 is fixed to the side of the strut 10, And it is preferable that it is fixed to the ground in a state in which it is welded.

The solar panel 40 has the first wire 20 connected to the upper end portion and the lower end connected to the second wire 30 positioned in the column direction.

The solar panel 40 may be a panel type or a flexible type and may be used singly or in combination.

In addition, the solar panel 40 of the flexible system can easily mitigate the impact applied by the wind or the like, and the impact applied by the wind or the like on the solar panel 40 of the panel- 20) and the second wire (30).

A plurality of the solar panels 40 may be disposed through the first wire 20 and the second wire 30.

A holding module 50 installed at an upper end of the solar panel 40 to fix the solar panel 40 to the first wire 20; Down module 11 for moving the wire 30 up and down.

Here, the holding module 50 is configured to fix or move the solar panel 40 to the first wire 20.

The holding module 50 includes a support 51 and a holding part 52.

The supporting member 51 is installed on the upper end of the solar panel 40 and has hollow grooves 51a on both sides of which the first wires 20 are inserted and first and second wires 20a and 20b as the hollow grooves 51a. Is formed in the opening 51b.

It is preferable that the support body 51 is installed on both rear sides of the solar panel 40 and connected to the first wire 20.

The opening 51b is formed in the support 51 so as to be prevented from being arbitrarily disengaged from the first wire 20 due to the load of the solar panel 40, (20) can easily be combined.

The holding part 52 is coupled to the opening 51b to press the first wire 20 so as to open and close the opening 51b.

The holding part 52 is provided with a housing 53, an elastic member 54, and an adjustment part 54 so that the solar panel 40 can be fixed or moved along the first wire 20 inserted into the opening 51b. And a bolt 55.

The housing 53 is coupled to the support body 51 and includes a coupling hole 53a formed in a side surface thereof with a space formed therein and an inner surface in the direction of the hollow groove 51a being laterally disposed along the width direction, And a fitting groove (53b) penetrating through the through hole (53b).

At this time, it is preferable that the housing 53 is inserted into the opening 51b, and the inner surface of the housing 53 is aligned with the hollow groove 51a through a half-shape.

The housing 53 is detachably fixed to the opening 51b through a screw, a fitting or the like.

The housing (53) is constituted by a cover (56) which can be opened and closed at the top.

Both ends of the elastic member 54 are inserted into the fitting grooves 53b disposed at the left and right sides and the through holes 54a are formed at both ends of the elastic member 54. The elastic members 54 are disposed such that the stopping is exposed in the direction of the hollow groove 51a, Like shape for pressing the first wire 20.

The adjustment bolt 55 is inserted into the coupling hole 53a in a freely rotatable manner. Either end of the elastic member 54 rotates in the forward direction and the other is rotated in the reverse direction to move in the longitudinal direction The elastic force of the elastic member 54 is adjusted.

Here, the through hole 54b is cut at the end or formed with a groove at the center.

The adjusting bolt 55 is provided with a fixing body 55a for fixing both ends of the elastic member 54 and a fixing body 55a for moving the fixing body 55a in the longitudinal direction when the adjusting bolt 55 is rotated And may be realized by various methods other than the method using a screw thread.

Here, the thread is provided in a direction opposite to the normal direction of the screw thread so that both ends of the elastic member 54 can be narrowed or widened.

When the elastic member 54 is coupled to the adjustment bolt 55, the cover 56 of the housing 53 can be easily opened after the cover 56 is installed inside the housing 53.

The elevating and lowering module 11 is movable up and down along the guide rail 11a and a guide rail 11a installed along the height direction of the support body 51. The second wire 30 is connected And a guide member 11b for adjusting the height.

That is, the guide member 11b is moved up and down along the guide rail 11a, and is configured to be fixed to a desired height.

The elevating and lowering module 11 for this purpose can adjust the height of the second wire 30 by adopting an electronic system using a linear motor or the like and having a separate control means, And can be configured in various manners so that the user can operate the apparatus directly.

The second wire 30 is connected to the guide member 11b and directly connected to the guide rail 11a or both ends of the guide member 11b are fixed to the ground after being mounted on the guide member 11b.

When the second wire 30 is fixed to the ground, it is obvious that the second wire 30 can be tensioned so as to prevent the second wire 30 from being stretched.

And a coupling module 60 connected to the second wire 30 at the lower end of the solar panel 40.

The coupling module 60 can adjust the angle of the second wire 30 without interfering with the solar panel 40 when the second wire 30 ascends and descends.

The joining module 60 includes a joining member 61 provided at the lower end of the solar panel 40 and having a guide groove 61a formed therein and a guide member 61b which is free to move in the longitudinal direction of the guide groove 61a And a moving member 62 having an insertion groove 62a formed at one side thereof for inserting the second wire 30 therein.

Accordingly, when adjusting the angle of the solar panel 40 according to the rising and falling of the second wire 30, the lower end of the solar panel 40 can be supported without interference.

At this time, the insertion groove 62a is fixed so as to be movable in the longitudinal direction of the second wire 30.

Also, the plurality of second wires can be raised and lowered individually, and the solar panels 40 arranged in the column direction can be operated at different angles.

The first wire 20 is seated on the upper end of the strut 10 so that both ends are fixed to the ground and a tension adjuster for adjusting the tension of the first wire 20 is provided at the upper end of the strut 10, (12).

The tension adjuster 12 adjusts the tension of the first wire 20 by vertically moving the lower end of the tensioner 12 by elasticity inside the strut.

The lower end of the tension adjusting unit 12 may have an elastic force applied to the upper end of the elastic supporter 12a through elasticity of the elastic spring 12a.

Therefore, the tension adjusting unit 12 can easily absorb the load and impact applied to the first wire 20 mounted on the upper end thereof through elasticity.

Accordingly, the impact generated by the load of the solar panel 40 and wind or the like can be easily buffered.

1, the solar panel 40 is mounted on the first wire 20 and the second wire 30 connected to the struts 10, and the solar panel 40 is mounted on the first wire 20 and the second wire 30, Can be selectively adjusted.

The solar panel 40 installed in this manner can be installed in a wide area by adjusting a necessary number and position of the plurality of pillar columns 10 arranged in a row in the row direction.

Further, a space is formed on the lower surface of the solar panel 40, and the distance between the solar panel 40 and the solar panel 40 can be adjusted, It can be cultivated.

If necessary, the number of the solar panels 40 installed on the first wire 20 and the second wire 30 can be adjusted by attaching or detaching the solar panel 40.

Therefore, the first wire 20 and the second wire 30 can be inserted into the holding module 50 and the coupling module 60.

Next, the moving state of the solar panel will be described with reference to FIG.

The solar panel 40 is connected to the first wire 20 and the second wire 30 via the holding module 50 and the coupling module 60, do.

At this time, the holding module 50 is moved and fixed in the longitudinal direction of the first wire 20, and the coupling module 60 is movable in the longitudinal direction to the second wire.

In addition, the coupling module 60 may be configured to be coupled to the holding module 50 to be moved and fixed to the second wire 30.

Here, the holding module 50 can be fixed to the first wire 20 through an operation of the holding module 50 or can be moved so that it can be moved if necessary.

Accordingly, connection and operation to the first wire 20 through the holding module 50 are as follows.

The first wire 20 is introduced into the housing 53 through the opening 51b and is seated in the hollow groove 51a and then the holding part 52 is inserted into the opening 51b, And the opening 51b is closed to prevent the first wire 20 from being detached.

When the stop of the elastic member 54 is protruded in the direction of the hollow groove 51a by the rotation of the adjustment bolt 55, the holding part 52 presses the first wire 20, The solar panel can be fixed.

When the heavy carbon of the elastic member 54 protrudes in the opposite direction of the hollow groove 51a by the rotation of the adjustment bolt 55 of the holding part 52, The solar panel 40 can be moved in the longitudinal direction of the first wire 20.

Here, the adjustment bolt 55 is configured to be manipulatable through various tools having a shape such as a hexagonal, a zig-zag, or the like.

Accordingly, the solar panel 40 can be moved or fixed in the longitudinal direction of the first wire 20 through the operation of the holding module 50, moved to a desired position and fixed, and a separate tool is used It is possible to prevent the outside person from arbitrarily operating in accordance with the above-described embodiment.

Accordingly, after operating the holding module 50, the solar panel 40 can be moved to irradiate the sunshine to the lower space and the ground of the specific area.

In addition, the solar panel 40 can be moved to a position where the sunlight is irradiated to increase the power generation efficiency.

Accordingly, the movement of the solar panel 40 can be performed by moving the solar panel 40 so that the solar panel 40 can receive a sufficient amount of sunshine, increasing the efficiency, moving to the inside space or the ground so as to irradiate the sunshine, It is available.

In addition, plants can be cultivated simultaneously with solar power generation through the solar panel 40.

As shown in FIG. 6, the solar optical panel can be adjusted in angle through the up / down module of the second wire.

That is, as described above, the angle is adjustable through the elevating and lowering module 11 and the coupling module 60, and interference is not generated.

Therefore, when the second wire 30 is moved up and down on the side of the support, the elevating and lowering module 11 changes the position of the lower end portion of the solar panel 40 connected to the second wire 30 The lower end of the first wire 20 connected to the upper end of the solar panel 40 is rotated to adjust the angle.

The coupling module 60 prevents interference between the rotation of the solar panel 40 and the rotation of the second wire 30 due to the vertical movement of the second wire 30.

That is, the coupling module 60 is adjusted according to the interval at which the second wire 30 is changed through the sliding movement when the second wire 30 is lifted or lowered.

The angle of the solar panel 40 is adjusted by adjusting the height of the second wire 30 by moving the up / down module 11 up and down.

At this time, the coupling module 60 moves according to the changing interval during the movement and rotation, and can move efficiently without interference.

Through the rotation of the solar panel 40, the angle can be adjusted in accordance with the altitude change of the sun to enable efficient power generation.

The lifting / lowering module 11 can be fully or manually configured and can be selectively used in accordance with various requirements such as a use position, environment, and the like.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. It is obvious that you can do it.

10: support 11: ascending / descending module 11a: guide rail
11b: guide member
12: tension adjusting portion 12a: elastic spring
20: first wire
30: second wire
40: Solar panel
50: holding module 51: support 51a: hollow groove
51b: opening 52: holding part
53: housing 53a: engaging hole
53b: fitting groove 54: elastic member
54b: Through hole 55: Adjusting bolt
55a: Fixture 56: Cover
60: coupling module 61: coupling member 61a: guide groove
62: moving member 62a: insertion groove

Claims (7)

A strut (10) embedded in the ground and arranged in the direction of the matrix;
A first wire (20) connected in the row direction to the top of the column (10);
A second wire 30 connected in a row direction to a side surface of the column 10;
And a solar panel (40) having the first wire (20) connected to the upper part and the lower end connected to the second wire (30) located in front of the column,
A holding module 50 installed at an upper end of the solar panel 40 and fixing the solar panel 40 to the first wire 20; Down module 11 for moving up and down the upper and lower frames 30,
The ascending / descending module (11)
A guide rail 11a provided along the height direction of the column 10 and a guide member 11b moving up and down along the guide rail 11a and connected to the second wire 30 to adjust the height Wherein the supporting member is a ground supporting member. The method according to claim 1,
Wherein the support posts (10) are formed of a pair located on both sides in the row direction, and a plurality of the support posts (10) are arranged at regular intervals in the row and column directions. The method according to claim 1,
The holding module (50)
A hollow groove 51a provided at an upper end of the solar panel 40 and having both side surfaces to receive the first wire 20 and an opening portion through which the first wire 20 flows into the hollow groove 51a 51b are formed,
And a holding part (52) coupled to the opening (51b) for pressing the first wire (20) so as to open and close the opening (51b). The method of claim 3,
The holding part (52)
A coupling hole 53a formed in a side surface of the support body 51 and formed with a space therein and an inner surface of the hollow groove 51a in the direction of the hollow groove, 53a, 53b, respectively,
Both ends are inserted into the fitting grooves 53b disposed at the left and right sides and through holes 54a are formed at both ends of the fitting groove 53b so as to be exposed in the direction of the hollow groove 51a, A U-shaped resilient member 54 which presses,
One of the opposite ends of the elastic member 54 is rotated in the forward direction and the other of the opposite ends of the elastic member 54 is rotated in the opposite direction to move the elastic member 54 in the longitudinal direction, And an adjusting bolt (55) for adjusting the elastic force. delete The method according to claim 1,
And a coupling module 60 connected to the second wire 30 at a lower end of the solar panel 40,
The coupling module (60)
A coupling member 61 provided at the lower end of the solar panel 40 and having a guide groove 61a formed therein,
And a moving member (62) provided to be freely movable in the longitudinal direction of the guide groove (61a) and having an insertion groove (62a) for inserting the second wire (30) at one side thereof. Supporting device for a solar panel as far as possible. The method according to claim 1,
The first wire 20 is seated on the upper end of the strut 10 so that both ends are fixed to the ground and a tension adjuster for adjusting the tension of the first wire 20 is provided at the upper end of the strut 10 12)
The first wire 20 is mounted on the upper end of the tension adjusting part 12 and the lower end of the tension adjusting part 12 moves up and down by elasticity in the support 10 to adjust the tension of the first wire 20 A supporting device for a solar panel which can be utilized as a ground.

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