KR20180082727A - Assenmbly of solar cell panel - Google Patents

Abstract

The present invention relates to a solar cell panel assembly, comprising: a plurality of solar cell panels generating electricity by means of sunlight; a plurality of supporting frames coupled to lower surface edges of the plurality of solar cell panels, respectively, and individually comprising a first airtight protrusion, a first airtight groove, a second airtight protrusion and a second airtight groove formed on a left outer surface, a right outer surface, a front outer surface and a back outer surface, respectively; an accommodating frame accommodating a supporting frame array in which the plurality of supporting frames are connected in a horizontal direction by means of inserting and coupling of the first airtight protrusion and the first airtight groove or are connected in foward and backward directions by means of inserting and coupling of the second airtight protrusion and the second airtight groove; and a support frame having the accommodating frame slantly installed. According to the present invention, the solar cell panel assembly prevents moisture from entering gaps between supporting frames supporting the solar cell panel, thereby preventing corrosion and oxidation of the supporting frames supporting the solar cell panel.

Description

Assenmbly of solar cell panel [0002]

The present invention relates to a solar cell panel assembly for converting sunlight into electric energy.

A solar cell is a cell capable of absorbing sunlight and obtaining converted energy in a form that can use absorbed sunlight.

Solar cell panels constituting a plurality of solar cells can be used as clean and unlimited energy sources, and maintenance costs can be reduced. Therefore, it is an alternative for solving environmental problems such as depletion of petroleum resources and global warming It is attracting attention.

A plurality of solar cells (solar cells) are fabricated in a form arranged in a solar cell panel frame that accommodates the solar panels to meet the requirements of battery capacity and the like.

Generally, a solar cell panel has a multi-layer structure in order to protect the solar cell from external environment. The solar panel frame maintains the mechanical strength of the solar cell panel and serves to strongly bond the solar cell and the materials stacked on the front and back of the solar cell.

Such a solar cell panel frame includes through holes for mechanical strength and connection with other structures, and bolts or the like can be used to strongly bind the structures to the solar panel.

As a related art, Korean Patent Registration No. 1098931 discloses a solar cell module including a solar cell panel for collecting sunlight to produce electricity, a first support member on which the solar cell panel is mounted and supported, a connection portion connected to the first support member, A main frame connected to the connection part to support the solar panel and the first support, wherein the connection part is provided and the installation groove is formed along the longitudinal direction so that the position can be adjusted along the longitudinal direction; And a second support for supporting the main frame with respect to the ground, wherein the connection portion includes an upper connection member connected to the first support, and an upper connection member connected to the upper connection member and the installation groove of the main frame, And a lower connecting member capable of supporting a state in which at least one of an installation angle or an installation height of the upper connecting portion is adjusted And a solar cell panel supporting structure.

However, according to the prior art, since the airtightness between the first support and the second support for supporting the solar panels is not possible, moisture is introduced between the first support and the second support so that corrosion and oxidation of the first support and the second support .

Korean Patent No. 1098931 (December 20, 2011)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a solar cell module and a solar cell module which prevent moisture from entering into a gap between a support frame for supporting the solar cell panel, Thereby preventing oxidation of the solar cell panel from being induced.

A solar cell panel assembly according to the present invention includes a plurality of solar cell panels for generating electricity by sunlight, and a plurality of solar cell panels, each of which is connected to a bottom edge of the plurality of solar cell panels and has a left outer surface, a right outer surface, A plurality of support frames including a first airtight projection, a first airtight groove, a second airtight projection, and a second airtight groove formed in the first airtight projection and the first airtight groove, And a support frame which is connected to the first airtight protrusion and the second airtight protrusion and which is connected to the first airtight protrusion and the second airtight groove in a back and forth direction, and a support frame on which the accommodation frame is inclined.

In addition, the support frame has a left inner surface, a right inner surface, a front inner surface, and a rear inner surface, all of which are formed into a "C" -shaped cross section, and the lower end of the 'C "shaped cross section is formed longer than the upper end thereof.

In addition, the support frame is characterized in that the first airtight protrusion, the first airtight groove, the second airtight protrusion, and the second airtight groove are all formed in the shape of a '<' shape.

The support frame may further include spacers inserted into the first airtight grooves and the second airtight grooves of the support frame located at the outermost of the support frame arrays.

And a plurality of O-rings surrounding the perimeter of the first airtight projection, the periphery of the second airtight projection, and the periphery of the spacer, respectively, of the support frame located at the outermost of the support frame arrays.

Accordingly, the solar cell panel assembly according to the present invention prevents moisture from being inserted into the gap between the support frames for supporting the solar cell panels, thereby preventing corrosion and oxidation of the support frame supporting the solar cell panels There are advantages to be able to.

1 is a schematic view showing a solar cell panel assembly according to the present invention;
2 is a schematic view showing a solar cell panel and a storage frame according to the present invention.
3 is a perspective view illustrating a solar cell panel and a support frame according to the present invention.
4 is a cross-sectional view of the solar cell panel and the support frame in the left-right direction and the back-and-forth direction according to the present invention.
5 is a cross-sectional view of the support frame array according to the present invention in the left-right direction and the back-and-forth direction.
6 is a cross-sectional view of a solar cell panel and a support frame according to another embodiment of the present invention.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a solar cell panel assembly, a solar cell panel and a storage frame, 4 is a left-right direction and a front-rear direction sectional view of the solar cell panel and the support frame according to the present invention (Fig. 3 (A-A ' 5 is a left-right direction and a front-rear direction cross-sectional view of a support frame array according to the present invention (in this case, Fig. 5 (a) And Fig. 5 (b) is a cross-sectional view in the front-rear direction).

1 to 3, a solar cell panel assembly 1000 according to the present invention includes a plurality of solar cell panels 100, a plurality of support frames 200, a storage frame 300, a support frame 400 ).

The plurality of solar cell panels 100 generate electricity by solar light and are formed in a plate structure.

4, the plurality of support frames 200 are coupled to the bottom edge of the solar cell panel 100, respectively. The first airtightness and the second airtightness are formed on the left outer surface, the right outer surface, the front outer surface, The protrusion 220, the first airtight groove 210, the second airtight protrusion 230, and the second airtight groove 240. At this time, the support frame 200 may have the first airtight groove 210 and the first airtight protrusion 220 formed on the left outer surface and the right outer surface, respectively, and the second airtightness The groove 240 and the second gas tight protrusion 230 may be formed.

5, the housing frame 300 may include a plurality of support frames 200 connected to the first airtight protrusion 220 in the left-right direction by fitting between the first airtight protrusion 220 and the first airtight groove 210 An array of support frames 200 connected in the forward and backward direction by fitting the second airtight protrusions 230 and the second airtight grooves 240 is received. That is, the storage frame 300 has a storage space for storing the array of the support frames 200 therein. 6 shows that the support frame 200 array is connected to the support frames 200 in the forward and backward directions. The array of the support frames 200 are spaced apart from one another in the left- However, the present invention is not limited thereto.

The support frame 400 supports the support frame 300 in an inclined manner, and the support frame 300 is inclined.

Accordingly, the solar cell panel assembly 1000 according to the present invention is configured such that the plurality of support frames 200 are connected in the left-right direction by fitting the first airtight protrusion 220 and the first airtight groove 210 The supporting frame 200 supporting the solar cell panel 100 is formed by assembling the support frame 200 arrayed in the forward and backward directions by the fitting of the second airtight protrusion 230 and the second airtight groove 240, It is possible to prevent the corrosion of the support frame 200 supporting the solar panel 100 and the oxidation of the support frame 200 from being induced.

In addition, the support frame 200 may have a left inner surface, a right inner surface, a front inner surface, and a rear inner surface, all of which have a "C" shape, and a lower end of the '

6 is a left-right direction and a back-and-forth direction cross-sectional view showing another example of a solar cell panel and a support frame according to the present invention (Fig. 7 (a) is a left-right direction sectional view and Fig. 7 (b) is a front-rear direction sectional view).

7, the support frame 200 includes a first airtight protrusion 220, a first airtight protrusion 210, a second airtight protrusion 230, and a second airtight protrusion 240, &Lt; &apos; &gt;

The first airtight protrusion 220 of the support frame 200 and the second airtight protrusion 230 of the support frame 200 are inserted into the first airtight groove 210 of the other support frame 200, And the second airtight grooves 240 of the other support frame 200 can be more easily engaged.

Referring again to FIGS. 5 to 7, the solar cell panel assembly 1000 may further include a spacer 500 and an O-ring 600.

The spacer 500 may be inserted into the first airtight groove 210 and the second airtight groove 240 of the support frame 200 positioned at the outermost of the array of the support frames 200 to further enhance airtightness .

The O-ring 600 is disposed around the periphery of the first airtight protrusion 220 and the periphery of the second airtight protrusion 230 of the support frame 200 located at the outermost one of the arrays of the support frame 200, ) Around the circumference of each of the airtightness can be further strengthened.

In addition, the first airtight protrusion 220, the second airtight protrusion 230, and the spacer 500 may have a concave-convex outer surface to enhance airtightness.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1000: Solar panel assembly
100: Solar panel
200: support frame
210: first airtight groove
220: first gas tight projection
230: Second airtight projection
240: second airtight groove
300: storage frame
400: Support frame
500: spacer
600: O ring

Claims (5)

A plurality of solar cell panels for generating electricity by sunlight;
A first airtight protrusion, a second airtight protrusion, and a second airtight groove, which are respectively coupled to the bottom edge of the plurality of solar cell panels and formed on the left outer surface, the right outer surface, the front outer surface, A plurality of support frames;
Wherein the plurality of support frames are connected to each other in the left-right direction by fitting the first airtight projection and the first airtight groove, or in which the support frame arrays, which are connected in the forward and backward directions by the fitting of the second airtight projection and the second airtight groove, frame; And
And a support frame installed on the housing frame so as to be inclined.
The apparatus of claim 1, wherein the support frame
Wherein the left inner surface, the right inner surface, the front inner surface, and the rear inner surface are all formed as a 'C' shaped cross section, and the lower end of the 'C' shaped cross section is longer than the upper end.
The apparatus of claim 1, wherein the support frame
Wherein the first airtight protrusion, the first airtight groove, the second airtight protrusion, and the second airtight groove are all formed in the shape of a '<' shape.
The method according to claim 1,
And a spacer inserted into the first airtight groove and the second airtight groove of the support frame located at the outermost of the support frame arrays.
5. The method of claim 4,
And a plurality of O-rings surrounding the perimeter of the first airtight projection and the periphery of the second airtight projection and the periphery of the spacer, respectively, of the support frame located at the outermost of the support frame arrays Panel assembly.

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