KR101797897B1 - Solar Panel Support Assembly for Rail-mounted - Google Patents

Abstract

The present invention relates to a solar panel support assembly comprising: a main frame including two or more vertical bars which are installed to be spaced from each other by a predetermined distance, and including a horizontal bar which horizontally connects upper and lower ends of the vertical bars, respectively; an angle adjusting frame installed on the outer side surface of the upper part of the main frame to have a horizontal length; an installation frame installed on the angle adjusting frame such that an upper part thereof is horizontally movable and a lower part thereof is vertically movable along the vertical bars to adjust an installation angle; and a solar panel installed on the installation frame, and generating electricity by solar light. The angle adjusting frame comprises: a horizontal slot formed to have a horizontal length by penetrating both side surfaces of the angle adjusting frame; a cylindrical screw tightening unit installed to penetrate the outer surface of the upper part of the vertical bars and to be connected to the inside of the angle adjusting frame; and a handle screw-tightened to the screw tightening unit, and having one end inserted to and withdrawn from the inside of the angle adjusting frame by a rotating operation. According to the structure of the present invention, when great external force is applied to a solar panel due to strong wind or the like, an installation angle of the solar panel and a separation distance between main frames are suitably adjusted to decrease the external force, and thus, transformation and breakage of the solar panel support assembly can be prevented.

Description

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

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar panel support assembly, and more particularly, to a solar panel support assembly installed in a rail of a veranda or the like of an apartment (hereinafter referred to as a 'handrail') to support a plurality of solar panels.

In general, photovoltaic power generation is a device for converting light energy into electrical energy by utilizing the properties of semiconductors. In the past, the photovoltaic power generation has been limited to a solar power plant or a roof of a building. However, recently, Railings, etc., so that electric energy generated by solar power generation can be used in ordinary households, thereby saving electric energy.

In order to install the solar module (panel) as described above, the support assembly is fixed to the railing and the solar panel is installed on the fixed support assembly. At this time, the operator fixes the solar panel to the appropriate angle, So that photovoltaic generation can be efficiently performed.

However, it is not easy for the user to arbitrarily adjust the installation angle of the once installed solar panel, and therefore, most of the users continue to use the same as installed by the operator. In this case, when the strong wind is blown, A large load is exerted on the support structure due to the influence.

If the load acting on the support structure is sustained by the influence of the strong wind, the solar panel or the support structure may be damaged as a result, and in the case of severe case, there is a risk that the damaged parts fall down.

Therefore, it is required to develop a solar panel support assembly that can reduce load acting on the support assembly by configuring the solar panel module support assembly installed in the railing so that it can damp the load appropriately according to the influence of strong winds and the like.

KR 10-1674817 B1 KR 10-1215665 B1 KR 10-1280641 B1 KR 10-2016-0023515 A

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a solar panel support assembly capable of attenuating a load appropriately according to the influence of strong wind, And to provide a solar panel support assembly that can reduce the load on the support assembly.

According to an aspect of the present invention, there is provided a solar panel support assembly comprising two or more vertical bars spaced apart from each other by a predetermined distance, and a horizontal bar horizontally connecting upper and lower ends of the vertical bars, ; An angle adjusting frame provided on the outer surface of the upper portion of the main frame to have a horizontal length; And an installation frame installed vertically movably along the vertical bar to adjust the installation angle of the installation frame. And a solar panel installed in the installation frame to produce electricity by solar light, wherein the angle adjusting frame includes horizontal slits penetrating both sides and having a horizontal length; A cylindrical screw-engaging portion horizontally penetrating the upper outer surface of the vertical bar and communicating with the inside of the angle adjusting frame; And a handle which is threadedly engaged with the threaded portion and which has one end that is pulled in and out of the angle adjusting frame by a rotating operation.

According to another aspect of the present invention, there is provided a vertical bar, comprising: a vertical bar formed by passing through both sides along a length; an upper support plate fixedly installed on the upper portion with a predetermined distance therebetween on the basis of a vertical slot; A lower support plate installed to be vertically movable along a vertical slot, a lower movable block positioned below the upper movable block, an upper support plate and an upper movable block, And a tension spring installed between the lower supporting plate and the lower moving block.

According to another aspect of the present invention, the upper and lower ends of the compression spring are fixed to the upper support plate and the upper movable block by welding, respectively, and the upper and lower ends of the tension spring are respectively fixed to the lower support plate and the lower movable block by welding do.

Further, in the present invention, one end of a first link bar having a certain length is connected with a moving roller on an upper part of an installation frame, one end of a second link bar having a certain length is connected to the lower end, And the other end of the second link bar is fixed to the lower movable block. When the wind pressure acts on the outer or inner surface of the solar panel, the compression spring and the tension spring are coupled through the first and second link bars, And the installation space and the angle between the installation frame and the main frame are controlled by the wind pressure, so that the external force acting on the solar panel is absorbed and attenuated.

According to the present invention, one end of the first link bar is connected to the upper part of the mounting frame, one end of the second link bar is connected to the lower part of the mounting frame, the other end of the first link bar is fixed to the upper moving block, The upper and lower movable blocks are fixed to the compression spring and the tension spring so that when wind pressure acts on the outer or inner surface of the solar panel, And the compression spring and the tension spring are respectively compressed and tensioned, so that the installation interval and the angle between the installation frame and the main frame are appropriately adjusted so that the external force acting on the solar panel Is absorbed and damped, with the result that strong loads on the support assembly due to strong winds are prevented from deforming or damaging the support assembly.

1 is a perspective view illustrating an embodiment of a solar panel support assembly according to the present invention.
Fig. 2 is a perspective view showing the back surface of Fig. 1; Fig.
3 is a side view of Fig.
4 is a partially enlarged view showing an example in which the first link bar according to the present invention is connected to the upper movable block.
5 is a partially enlarged view showing an example in which a second link bar according to the present invention is connected to a lower moving block.
6 is a partially enlarged view showing an embodiment of an angle adjusting frame according to the present invention.
7 is an explanatory view showing an example of adjusting an installation angle of an installation frame using an angle adjusting frame according to the present invention.
FIG. 8 is an exploded view illustrating an example in which the angle of the solar panel support assembly according to the present invention is adjusted by a strong wind blowing in a horizontal direction. FIG.
FIG. 9 is an exploded view illustrating an example in which the angle of the solar panel support assembly according to the present invention is adjusted by vertical winds. FIG.

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

SUMMARY OF THE INVENTION The present invention is directed to a solar panel support assembly capable of attenuating a load appropriately according to the influence of strong wind or the like, thereby reducing a load acting on the support assembly. An angle adjusting frame 20, an installation frame 30 and a solar panel 40 as shown in FIG.

For convenience of explanation, the direction in which the solar panel 40 is installed will be referred to as 'forward' and the direction in which the main frame 10 is installed will be referred to as 'rear'.

The main frame 10 is rigidly fixed to the railing using a separate fixture (not shown), and at the same time supports the installation frame 30 to be described later. And a horizontal bar 12 horizontally connecting the upper and lower ends of the vertical bar 11, respectively.

The vertical bar 11 is made up of a frame having a "C" shape or a rectangular "K" shape having a cross-section open on one side. At this time, when the vertical bar 11 is formed of a frame having a "C" shape, a cover plate (not shown) is further provided by welding or the like so as to cover the open side.

As shown in FIG. 3, the vertical bar 11 is formed with a vertical slot 11A passing through both sides along its length. On the upper side of the vertical slot 11A, The upper support plate 11B is fixedly installed at a predetermined interval, and the upper movable block 11C is vertically movable along the vertical slot 11A.

In addition, a lower support plate 11D is fixedly installed at a lower portion of the vertical slot 11A with a predetermined distance therebetween as shown in FIG. 5, and vertically movably installed along the vertical slot 11A. A lower moving block 11E positioned below the block 11C is provided.

A compression spring S1 is provided between the upper supporting plate 11B and the upper moving block 11C and a tension spring S2 is provided between the lower supporting plate 11D and the lower moving block 11E. The upper and lower ends of the tension spring S2 are fixed to the upper and lower support plates 11B and 11C by welding respectively and the upper and lower ends of the tension spring S2 are welded to the lower support plate 11D, (11E). 4 and 5 and not shown in the drawing, the reference numeral "WD" is a weld to which the compression spring S1 and the tension spring S2 are welded.

One end of the first link bar 31 and the other end of the second link bar 32 of the mounting frame 30, which will be described later, are connected to the upper moving block 11C and the lower moving block 11E.

One end of the first and second link bars 31 and 32 of the mounting frame 30 described later is elastically supported by the compression spring S1 and the tension spring S2 by the construction of the main frame 10 as described above And can be moved along the vertical slot 11A.

An angle adjusting frame 20 is installed on the outer surface of the upper part of the main frame 10 so as to have a horizontal length and the angle of initial installation of the mounting frame 30 can be appropriately adjusted by the angle adjusting frame 20 When the wind pressure acts between the inner surface of the solar panel 40 and the main frame 10 due to the upward airflow rising vertically along the outer wall of the building, the installation space between the installation frame 30 and the main frame 10 So that the ascending airflow can flow smoothly.

As shown in FIG. 6, the angle regulating frame 20 includes a horizontal slot 21 formed to have a horizontal length passing through both side surfaces thereof, an angle adjusting frame 20 extending through the upper outer surface of the vertical bar 11, (20), a screw-engaging portion (22) having a cylindrical shape and being screwed to the screw-engaging portion (22) and having one end drawn in and out of the angle-regulating frame (23).

One end of the handle 23 is provided with a supporting portion (not shown) for pressing and supporting the moving roller 31A of the mounting frame 30 to be described later. The supporting portion is provided with a cushioning portion 23A made of rubber do.

At this time, when the mounting angle of the mounting frame 31 is appropriately adjusted by the wind pressure and then the elasticity of the compression spring S1 returns to the originally installed position, the shock absorbing portion 23A absorbs the impact .

7, when the user manipulates the handle 23 to move the support of the handle 23 to the inside of the bezel adjustment frame 20, as shown in FIG. 7, The angle of the solar panel 40 to be described later becomes closer to the vertical direction while the support portion of the handle 23 is moved from the inside to the outside of the square adjustment frame 20 The installation angle of the installation frame 30 is adjusted as the installation angle of the solar panel 40 becomes closer to the horizontal as the upper portion of the installation frame 30 moves toward the rear side as it is drawn out.

The upper movable block 11C is moved upward along the vertical slot 11A by the first link bar 31 provided on the vertical bar 11 so that the upper movable block 11C moves upwards along the vertical slot 11A, The first link bar 31 is moved downward by the resilient restoring force of the compressed compression spring S1 when the upper end portion of the installation frame 30 is moved toward the rear side, The upper end portion of the support member 30 is closely attached to the support portion and is moved toward the rear side.

The installation frame 30 is installed on the angle adjusting frame 20 so that the upper portion thereof is horizontally movable and the lower portion thereof is vertically movable along the vertical bar 11 of the main frame 10, The installation angle of the solar panel 40 to be described later is appropriately adjusted.

1 and 2, the installation frame 30 is formed in a square frame shape to support the solar panel 40, and a pair of left and right sides are installed so that both sides of the installation frame 30 are freely angled along the length do.

A hinge shaft (not shown) protrudes from both sides of the upper portion of the mounting frame 30, and a moving roller 31A inserted into the angle adjusting frame 20 is installed on the hinge shaft. One end of the first link bar 31 is connected.

A hinge shaft (not shown) is protruded from both sides of the lower portion of the mounting frame 30. One end of a second link bar 32 having a predetermined length is connected to the hinge shaft. The other end of the second link bar 32 is fixed to the lower movable block 11E.

When the wind pressure acts on the outer side surface or the inner side surface of the solar panel 40 by the structure of the installation frame 30 as described above, the compression spring S1 and the tensile force are transmitted through the first and second link bars 31, The spacing and angle between the installation frame 30 and the main frame 10 are adjusted by the wind pressure while the spring S2 is compressed and tensioned so that the external force acting on the solar panel 40 is absorbed and attenuated .

1, a pair of solar panels 40 provided on the front side of the installation frame 30 are installed on a pair of left and right installation frames 30, And the solar panel 40 is appropriately selected and installed among various types of solar panels known to those skilled in the art for further implementation, A detailed description thereof will be omitted.

The solar panel support assembly of the present invention constructed as described above is firmly fixed to the apartment verandah railing or the like using a fixture. Then, as shown in FIG. 7, the handle 23 is rotated to adjust the installation angle of the installation frame 30 So that the angle of the solar panel 40 is adjusted.

When a strong wind is blown toward the outer surface of the solar panel 40 in the state as described above, the tension spring S2 is pulled by the second link bar 32 as shown in FIG. 8 by wind pressure, The lower portion of the spring 40 is rotated downward with respect to the upper portion so that the wind pressure is not directly transmitted to the support assembly but is appropriately absorbed and attenuated by the elastic force of the tension spring S2.

9, when the strong wind blows strongly toward the inner side surface of the solar panel 40, that is, along the outer wall of the building from the bottom to the top, the compression spring S1 is pressed by the first link bar 31, The upper part of the solar panel 40 is horizontally moved along the horizontal slot 21 of the angle regulating frame 20 so as to be separated from the installation space with the main frame 10, The wind pressure is absorbed and attenuated appropriately by the elastic force of the compression spring S1 without being directly transmitted to the support assembly.

That is, according to the present invention, even if the user does not adjust the installation angle of the solar panel 40 during strong wind, the angle and the installation interval are appropriately adjusted by the wind pressure and the wind pressure is not directly transmitted to the support assembly, .

As described above, according to the present invention, when the wind pressure acts on the outer surface or the inner surface of the solar panel, the wind pressure acting on the solar panel is transmitted along the first and second link bars and the compression spring and the tension spring are respectively compressed and tensioned The installation gap and angle between the installation frame and the main frame are automatically adjusted so that the external force acting on the solar panel is absorbed and attenuated so that a large load acts on the support assembly due to the strong wind to prevent the support assembly from being deformed or broken do.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. It is to be understood that the scope of the present invention should not be interpreted as being limited only by the scope of the present invention and that the scope of the present invention should not be construed to be interpreted to limit the scope of the present invention. .

10: main frame 11: vertical bar
11A: Vertical long hole 11B: Upper support plate
11C: upper moving block 11D: lower supporting plate
11E: lower moving block 12: horizontal bar
20: Angle adjusting frame 21: Horizontal slit
22: screw coupling portion 23: handle
23A: Buffer 30: Installation frame
31: first link bar 31A: moving roller
32: second link bar 40: solar panel
WD: Welding

Claims (5)

A main frame 10 including two or more vertical bars 11 spaced apart from each other by a predetermined distance and a horizontal bar 12 horizontally connecting upper and lower ends of the vertical bars 11;
An angle adjusting frame 20 installed on the outer surface of the upper portion of the main frame 10 so as to have a horizontal length;
An installation frame 30 installed at an upper portion of the angle regulating frame 20 so as to be horizontally movable and vertically movable along the vertical bar 11 at a lower portion thereof to adjust an installation angle; And
A solar panel (40) installed in the installation frame (30) and producing electricity by sunlight;
/ RTI >
The angle adjusting frame (20)
A horizontal slot 21 formed so as to have a horizontal length through both side surfaces;
A cylindrical screw-engaging portion 22 which is installed to communicate with the inside of the angle regulating frame 20 through an upper outer surface of the vertical bar 11; And
A handle (23) screwed to the threaded engagement portion (22) and having one end drawn in and out of the angle regulating frame (20) by rotation;
≪ / RTI >
The method according to claim 1,
The vertical bar (11)
A vertical slot 11A formed through both sides along the length;
An upper support plate 11B fixedly installed on the upper portion of the vertical slot 11A at a predetermined interval;
An upper moving block 11C installed vertically movably along the vertical slot 11A;
A lower support plate 11D fixedly installed at a predetermined distance apart from the vertical slot 11A;
A lower moving block 11E movably installed along the vertical slot 11A and positioned below the upper moving block 11C;
A compression spring S1 installed between the upper support plate 11B and the upper moving block 11C; And
A tension spring S2 installed between the lower support plate 11D and the lower moving block 11E;
≪ / RTI >
The method of claim 2,
The upper and lower ends of the compression spring S1 are respectively fixed to the upper supporting plate 11B and the upper moving block 11C by welding and the upper and lower ends of the tension spring S2 are welded to the lower Is fixed to the support plate (11D) and the lower moving block (11E).
The method according to claim 2 or 3,
One end of a first link bar 31 having a predetermined length is connected to the upper portion of the installation frame 30 while a moving roller 31A is provided on the upper side of the installation frame 30. One end of a second link bar 32 Connected,
The other end of the first link bar 31 is fixed to the upper movable block 11C and the other end of the second link bar 32 is fixed to the lower movable block 11E,
The compression spring S1 and the tension spring S2 are compressed and tensioned through the first and second link bars 31 and 32 when the wind pressure acts on the outer side surface or the inner side surface of the solar panel 40, , And an installation space and an angle between the installation frame (30) and the main frame (10) are adjusted by the wind pressure so that the external force acting on the solar panel (40) is absorbed and attenuated. .
The method according to claim 1,
Wherein the main frame (10) is mounted on a railing.

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