KR101971897B1 - Solar panel assembly - Google Patents

Abstract

The present invention relates to a solar panel assembly comprising a steel sheet which includes a planar rectangular photovoltaic panel which collects sunlight and converts the sunlight to electrical energy and a panel mounting unit which supports the rear surface of the photovoltaic panel and is fixed to a side wall of a building in a form of a flat plate. According to the present invention, solar power generation efficiency is considered and construction can be made for building insulation.

Description

[0001] SOLAR PANEL ASSEMBLY [0002]

The present invention relates to a solar panel assembly for installing a solar panel for receiving solar light to generate electricity.

With the development of technology, the development and use of eco-friendly energy sources are continuing in order to solve the limitations of finite resources and environmental pollution problems.

Solar power As one of them, solar power can also be developed in a large power generation form, but it can also be used in houses and factory buildings due to its nature.

In other words, a rail and a frame are installed on the roof of a building for solar power generation, and a solar panel is assembled on a rail.

In order to receive sunlight, it is more effective to install the panel at a slope of 15 degrees or more with respect to the roof plane. However, the solar panel installed in most existing buildings is only about 12 degrees from the plane, There are disadvantages.

However, it is also difficult to select a remodeling that increases the slope of the solar panel because of additional cost.

However, in the case of a solar panel installed on a building roof or the like, the rail itself is not robust, and therefore, there is a safety problem.

That is, when a strong wind caused by a strong typhoon occurs, the inclined solar panel is inevitably fragile, but the supporting ability of the rail is limited.

In addition, there is a difficulty in maintaining the building that is leaking between the solar panel and the building, and even if the solar panel is installed, it is vulnerable to external wall insulation.

The matters described in the background art are intended to aid understanding of the background of the invention and may include matters which are not known to the person of ordinary skill in the art.

Korean Patent Registration No. 10-1631645

It is an object of the present invention to provide a solar panel assembly capable of being installed for insulation of buildings in consideration of photovoltaic power generation efficiency.

A solar panel assembly according to one aspect of the present invention includes a planar rectangular solar panel that condenses sunlight to convert it into electric energy, and a solar panel that supports the rear surface of the solar panel and is fixed to the side wall of the building And a steel plate including a panel seating portion.

The steel plate includes an upper outer wall coupling portion in the form of a flat plate formed on the upper side of the panel seating portion, a lower outer wall coupling portion in the form of a flat plate formed on the lower side of the panel seating portion, And a panel lower end support portion that protrudes between the seating portion and the upper outer wall coupling portion and a lower panel support portion that supports the lower end of the solar panel and protrudes between the panel seating portion and the lower outer wall coupling portion do.

The panel top supporting portion includes a first upper supporting end bent perpendicularly from the upper end of the panel seating portion, a second upper supporting end bent perpendicularly from a lower end of the upper outer wall coupling portion, And a second front supporting end bent in a downward direction from an end of the second upper supporting end, wherein the first front supporting end and the second front supporting end are bent in a downward direction, And the first front supporting end and the second front supporting end are spaced apart from each other.

The panel lower end supporting portion may include a first lower end supporting portion bent vertically from a lower end of the panel seating portion, a second lower end supporting portion bent perpendicularly from an upper end of the lower outer wall coupling portion, And a fourth front supporting end bent upward in an upward direction from an end of the second lower supporting end, wherein the first lower supporting end and the second lower supporting end And the third front supporting end and the fourth front supporting end are spaced apart from each other.

The length of the first spacing groove formed between the first front supporting end and the second front supporting end is longer than the length of the second spacing recess formed by the third front supporting end and the fourth front supporting end being spaced apart from each other It is characterized by longer.

Further, the steel plate may further include an upper protruding connection portion protruding from the upper outer wall connection portion and a lower protruding connection portion protruding from the lower outer wall connection portion.

The upper projecting connection portion is formed in a protruding shape with a predetermined width in a plane formed by the upper outer wall coupling portion and the lower projecting connection portion is provided in a protruding shape with a constant width in a plane formed by the lower outer wall coupling portion .

According to the solar panel assembly of the present invention, the power generation efficiency is improved as compared with the solar panel installed on the existing roof.

In addition, it can be applied instead of the remodeling of the outer wall of the building, which is effective, and can exert the same effect as the adiabatic construction.

And, it is stronger in wind than solar panel is installed on roof, and there is no risk of rain between panel and outer wall.

On the other hand, it is easy to construct and economical because it is easy to connect the panels and to install the outer wall of the building.

1 shows a front view of a solar panel assembly according to the present invention.
Figure 2 illustrates a side view of a solar panel assembly according to the present invention.
3 is an example of a combined form of a solar panel assembly according to the present invention.
4 is another example of an embodiment of a solar panel assembly according to the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In describing the preferred embodiments of the present invention, a description of known or repeated descriptions that may unnecessarily obscure the gist of the present invention will be omitted or omitted.

FIG. 1 illustrates a front view of a solar panel assembly according to the present invention, and FIG. 2 illustrates a side view of a solar panel assembly according to the present invention.

Hereinafter, a solar panel assembly according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG.

The solar panel assembly according to the present invention can be assembled not only on the building roof but also on the side wall of the outer wall as in the conventional manner, thereby replacing the outer wall remodeling of a building requiring remodeling as well as solar power generation. It is able to perform an insulating function, is strong against external force, and does not cause leakage of water.

To this end, the solar panel assembly according to the present invention includes a planar rectangular solar panel S that condenses sunlight to convert it into electric energy, and a solar panel S which supports the solar panel S, A steel plate 100 and a plurality of steel plates 100 are connected and assembled to each other with an assembly of the solar panel S and the steel plate 100 as one unit.

The steel plate 100 includes a panel seating portion 110 for supporting the rear surface of the solar panel S, outer wall joining portions 120 and 130 to be installed in contact with the outer wall, protruding connection portions 140 and 150 for stacking between the steel plates, The panel upper support portion 160 and the panel lower support portion 170 for supporting the upper and lower ends of the panel are formed of one steel plate.

The panel seating part 110 has a configuration in which the rear surface of the solar panel S is seated and supported while being in contact with the outer wall of the building in the form of a flat plate.

As shown in the drawing, the width of the solar panel S is larger than the width of the right and left sides of the solar panel S, and is overlapped with other steel plates 100 to be laterally connected and assembled.

The height of the panel seating portion 110 may be greater than the height of the solar panel S. When the solar panel S is placed on the panel seating portion 110, And the upper part of the panel upper support part 160 is formed with a clearance space, thereby facilitating the assembling process.

The outer wall coupling portion is composed of an upper outer wall coupling portion 120 and a lower outer wall coupling portion 130, and is fixed to the wall by a fixing means such as a piece, in contact with the outer wall in the form of a plate.

The protruding connection portion includes an upper protruded connection portion 140 and a lower protruded connection portion 150. The upper protruded connection portion 140 has a side surface having a constant width in a plane defined by the upper outer wall coupling portion 120, Shape.

The lower protruding connection portion 150 has a protruding shape with a constant width in a plane formed by the lower outer wall coupling portion 130.

As will be described later, the upper projecting connection portions of one steel plate are overlapped with the lower projecting connection portions of the other steel plates, and a plurality of steel plates are vertically connected to each other. At this time, the protruding connection portions 140 and 150 have a certain width and have self-elasticity due to the protruding shape, so that it is easy to assemble them so as to overlap.

The panel upper support portion 160 has a shape protruding between the panel seating portion 110 and the upper outer wall coupling portion 120 as shown in the figure for supporting the upper end of the solar panel S. [

That is, the first upper support end 161 is vertically bent from the upper end of the panel seating part 110, and the second upper support end 162 is bent perpendicularly from the lower end of the upper outer wall coupling part 120. The length of the first upper support end 161 corresponds to the width of the solar panel S.

The first front supporting end 163 is bent and extended from the end of the first upper supporting end 161 in a downward direction and the second front supporting end 163 is bent downward from the end of the second upper supporting end 162, (164) is bent and extended.

The first upper supporting end 161 and the second upper supporting end 162 are spaced apart from each other and the first front supporting end 163 and the second front supporting end 164 are also spaced apart from each other.

The first upper support end 161 and the second upper support end 162 and the first front support end 163 and the second front support end 164 are spaced apart from each other, Thereby facilitating the operation of fixing the steel plate 100 to the outer wall.

The panel lower support 170 is configured to support the lower end of the solar panel S and has a shape protruding between the panel seating portion 110 and the lower outer wall coupling portion 130 as shown in the figure.

That is, the first lower supporting end 171 is vertically bent from the lower end of the panel seating part 110, and the second lower supporting end 172 is bent perpendicularly from the upper end of the lower external wall joining part 130. The length of the first lower support end 171 corresponds to the width of the solar panel S.

The third front supporting end 173 is bent and extended from the end of the first lower supporting end 171 upwardly and upwardly from the end of the second lower supporting end 172, (174) is bent and extended.

The first lower support end 171 and the second lower support end 172 are spaced apart from each other and the third front support end 173 and the fourth front support end 174 are also spaced apart from each other.

The first lower supporting end 171 and the second lower supporting end 172 and the third front supporting end 173 and the second front supporting end 174 are spaced apart from each other and have self- Thereby facilitating the operation of fixing the steel plate 100 to the outer wall.

The length of the first front supporting end 163 is longer than the length of the third front supporting end 173 and the length of the second front supporting end 164 is longer than the length of the fourth front supporting end 174. [ do.

That is, the length of the first spacing groove 165 formed by the first front supporting end 163 and the second front supporting end 164 is distanced from the third front supporting end 173 and the fourth front supporting end 174 Is longer than the length of the second spacing groove 175 formed to be spaced apart.

This is because the first spacing groove 165 is formed longer to secure a space through which the wiring cable connected to the solar panel S can pass through the first spacing groove 165.

Figs. 3 and 4 are illustrations of a combined form of a solar panel assembly according to the present invention. In other words, the solar panel assembly according to the present invention can be assembled as a single unit in a horizontal direction when a plurality of solar panel assemblies are assembled on an outer wall (side wall) of a building, and can be connected and assembled in a vertical direction.

In other words, as shown in FIG. 3, it is possible to overlap the panel seating portions 110 of the neighboring steel plates 100 in the horizontal direction, overlap each other between the upper and lower outer wall coupling portions 120, have.

The upper protruding connection portions 140 are overlapped with each other and overlap each other between the lower protruding connection portions 150. The panel upper end supporting portions 160 are overlapped with each other and the panel lower end supporting portions 170 are overlapped with each other, Can be installed.

The lower protruding connection portion 150 of the upper side steel plate 100 and the upper side projected connection portion 140 of the lower side steel plate 100 may be overlapped with each other and fixed integrally to the outer wall in the vertical direction shown in FIG.

As described above, the solar panel assembly according to the present invention has a structure in which a solar panel is mounted on an outer wall of a building so as to be in contact with a steel plate so that the solar panel can be easily assembled, thereby providing not only energy efficiency but also construction advantages And can be applied in place of remodeling of the outer wall.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

S: Solar panel
100: steel plate
110:
120: upper outer wall coupling portion
130: lower outer wall coupling portion
140: upper protruding connection portion
150: lower protruding connection
160: upper panel support
161: first upper supporting end 162: second upper supporting end
163: first front supporting member 164: second front supporting member
165: first separation groove
170: panel bottom tibu
171: first lower end supporting member 172: second lower supporting end
173: third front supporting member 174: fourth front supporting member
175: second separating groove

Claims (7)

delete delete delete A planar rectangular photovoltaic panel that condenses sunlight to convert it into electric energy; And
And a panel seating part which is provided in a flat plate shape and supports the rear surface of the solar panel and is in contact with the solar panel side by side and fixed to the side wall of the building in parallel,
In the steel sheet,
An upper outer wall coupling portion in a flat plate shape formed on the upper side of the panel seating portion;
A lower outer wall coupling portion in the form of a flat plate formed below the panel seating portion;
An upper panel supporting portion supporting the upper end of the solar panel and protruding between the panel seating portion and the upper outer wall coupling portion; And
A panel lower end support portion supporting the lower end of the solar panel and protruding between the panel seating portion and the lower outer wall coupling portion,
The panel top support portion
A first upper support end bent perpendicularly from an upper end of the panel seating portion;
A second upper supporting end bent perpendicularly from a lower end of the upper outer wall coupling portion;
A first front supporting end bent downwardly from an end of the first upper supporting end; And
And a second front supporting end extending in a downward direction from the end of the second upper supporting end is integrally formed, the first upper supporting end and the second upper supporting end are spaced apart from each other, And the second front supporting end is spaced apart from the first front supporting end,
The panel lower end support portion
A first lower supporting end bent vertically from a lower end of the panel seating portion;
A second lower end supporting portion vertically bent from an upper end of the lower outer wall coupling portion;
A third front supporting end bent upwardly from an end of the first lower supporting end; And
And a fourth front supporting end extending upwardly from an end of the second lower supporting end is integrally formed, the first lower supporting end and the second lower supporting end are spaced apart from each other, And the fourth front supporting end are spaced apart from each other.
Solar panel assembly. The method of claim 4,
The length of the first spacing groove formed between the first front supporting end and the second front supporting end is longer than the length of the second spacing recess formed by the third front supporting end and the fourth front supporting end being spaced apart from each other ≪ / RTI >
Solar panel assembly. The method of claim 5,
In the steel sheet,
An upper protruding connection portion protruding from the upper outer wall coupling portion; And
A lower protruding connection portion extending from the lower outer wall connection portion is integrally formed,
Wherein the upper projecting connection portion is vertically protruded from a plane formed by the upper outer wall coupling portion at a predetermined height and is opened to the side wall of the building,
Wherein the lower projecting connection portion is vertically protruded at a predetermined height from a plane formed by the lower outer wall coupling portion and is formed to be open to the side wall of the building.
Solar panel assembly delete

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