KR102142401B1 - Solar panel integrated exterior material - Google Patents

Abstract

Solar panel-integrated building exterior material according to an embodiment of the present invention, a building exterior material comprising a frame, a solar cell and a junction box and a solar panel attached to the top of the metal frame, the frame is on the top A panel attachment portion to which a solar panel is attached; A first fastening part provided at one side edge in the horizontal direction of the panel attachment part; A second fastening part provided on the other side edge of the panel attachment part and having a shape that can be fastened with the first fastening part; including, wherein the solar cell is equal to or higher than the first fastening part and the second fastening part Located.

Description

SOLAR PANEL INTEGRATED EXTERIOR MATERIAL}

The present invention relates to a building exterior material which is easily combined with a solar panel and has enhanced aesthetics.

Recently, due to environmental pollution and fossil energy depletion problems, the development of environmentally friendly alternative energy sources and diversification of future energy sources have emerged as international issues. Against this background, solar cells utilizing solar energy are attracting attention as a potential alternative energy source in the future, and as the cost of solar cells progresses, the size of the related world market is rapidly increasing.

The solar panel includes a plurality of solar cells connected in series or in parallel, and a junction box that collects electricity generated by the solar cells and prevents reverse flow of the electricity.

The main material constituting the solar cell may be monocrystalline silicon, polycrystalline silicon, amorphous silicon, CdTe, CIGS, or the like.

The solar cell is used in the form of a panel or module so that the surface is protected by an upper substrate to protect it from chemical changes or physical impact. As the upper substrate, for example, a vinyl film, tempered glass or heat-resistant glass may be used.

The photovoltaic power generation system installed in a conventional house is installed in a form of combining a solar panel with the structure after installing a building exterior material on a roof or a wall, and then installing a separate structure for fixing the solar panel. This not only complicates construction, but also impairs the exterior of the house.

In addition, when installed on the roof, it is necessary to pierce a pre-installed roofing material for installation of a structure for fixing a solar panel, so there is a high risk of leakage from the roof.

Korean Patent Publication No. 2016-0026268 (2016.3.9.)

In order to solve the above problems, the solar panel-integrated exterior material according to an embodiment of the present invention, the solar panel is integrally combined with the exterior material of the building, thereby constructing the exterior material without installing a separate structure. It aims to make this possible.

In addition, it is an object of the present invention to increase the efficiency of photovoltaic power generation because the shadow by a portion where one exterior material and the other exterior material are fastened is not cast on the solar cell.

In addition, it aims to increase the waterproof performance of the solar panel-integrated building exterior material, so that it can be installed on the roof as well as the side walls of the building.

Solar panel-integrated building exterior material according to an embodiment of the present invention, a building exterior material comprising a frame, a solar cell and a junction box and a solar panel attached to the top of the metal frame, the frame is on the top A panel attachment portion to which a solar panel is attached; A first fastening part provided at one side edge in the horizontal direction of the panel attachment part; A second fastening part provided on the other side edge of the panel attachment part and having a shape that can be fastened with the first fastening part; including, wherein the solar cell is equal to or higher than the first fastening part and the second fastening part Located.

According to the solar panel-integrated exterior material according to an embodiment of the present invention, the height of the first fastening part and the second fastening part for fastening any one exterior material with the other adjacent exterior material is equal or lower than that of the solar cell. Therefore, no shading occurs in the solar cell, and power generation efficiency can be increased.

In addition, the first fastening part and the second fastening part connecting the building exterior material in the horizontal direction have a structure capable of blocking water over several stages, thereby improving waterproof performance. And, since the waterproof performance is increased, it can be used not only for side walls of buildings, but also for roofs.

In addition, since a junction box or a cable is accommodated in the lower portion and is not visible from the outside, the degree of freedom of construction and design of the building is increased.

In addition, since a space is formed in a lower portion of the portion where the solar panel is attached, it is possible to reduce a decrease in power generation efficiency due to an increase in temperature.

1 is a perspective view of a solar panel-integrated exterior material according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of the solar panel integrated exterior material according to an embodiment of the present invention cut in the AA direction.
3 is a perspective view showing a frame of a solar panel-integrated exterior material according to an embodiment of the present invention.
4 is a view showing a state in which a plurality of solar panels according to an embodiment of the present invention are combined in a horizontal direction.
5 is a view showing a state in which a plurality of solar panels according to an embodiment of the present invention are combined in a vertical direction.
6 is a view showing a cross-section of a solar panel according to another embodiment of the present invention.
7 is a view showing a cross-section of a solar panel according to another embodiment of the present invention.

Hereinafter, a solar panel-integrated exterior material according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a solar panel-integrated exterior packaging material according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the solar panel-integrated exterior packaging material according to an embodiment of the present invention cut in the AA direction.

The solar panel-integrated exterior material according to an embodiment of the present invention includes a solar panel 100 and a frame 200 fixed to an outer wall while supporting the solar panel 100 attached to the upper surface from the bottom.

The solar panel 100 includes a solar cell 110 (solar cell) generating photoelectric conversion and generating electrical energy from solar energy, and a junction box 120 accommodating electronic components for electrical connection. do.

The solar cell may be made of monocrystalline silicon, polycrystalline silicon, amorphous silicon, CdTe, or CIGS. In addition, it may be either crystalline, thin film, or third generation.

The solar panel 100 may include a lower substrate positioned under the solar cell and an upper substrate positioned above the solar cell. Here, an example of the lower substrate may be a back sheet, and an example of the upper substrate may be a glass or other film having good light transmittance. However, the present invention is not limited thereto, and the structure or material of the solar panel according to the present embodiment is not limited.

The electronic component accommodated in the junction box 120 may include a diode (not shown). The diode may function to block reverse current flowing into the junction box 20 from an inverter (not shown) connected to the junction box 120. The junction box 120 may be located below the panel attachment portion 210 of the frame 200, at least partially described below.

Figure 3 is a perspective view showing a frame 200 of a solar panel-integrated exterior material according to an embodiment of the present invention, Figure 4 is a plurality of solar panel-integrated exterior material according to an embodiment of the present invention combined in the horizontal direction Figure 5 is a diagram showing a state in which a plurality of solar panel-integrated exterior materials according to an embodiment of the present invention are combined in a vertical direction.

Hereinafter, a frame will be described with reference to FIGS. 2 to 5.

The frame includes a panel attachment portion 210 to which a solar panel is attached, and a first fastening portion 220 positioned at one side in a horizontal direction (x-axis direction) of the panel attachment portion 210, and the panel attachment portion It is located on the other side in the horizontal direction (x-axis direction) and includes a second fastening part 220 having a shape that can be fastened with the first fastening part 210. In addition, the frame 200 has a third fastening portion 250 provided on one side of the horizontal panel attachment portion 210 in the vertical direction (y-axis direction), and the vertical direction (y-axis) of the panel attachment portion 210. Direction) may include a fourth fastening part 260 located on the other side and having a shape that can be fastened with the third fastening part 250. In addition, the frame 200 is provided on the outer side in the horizontal direction of the second fastening part 230, and further includes an outer wall fixing part 240 fixed to the outer wall of the building through a fixing member 300 such as a nail or piece. It can contain.

Here, the horizontal direction (x-axis direction) refers to a direction that extends left and right when fixed to a roof or outer wall, and the vertical direction (y-axis direction) refers to a direction that extends vertically when fixed to a roof or outer wall. When the outer wall is vertical, the vertical direction is a direction extending vertically vertically, and when the outer wall is inclined, the vertical direction is an inclined direction extending vertically.

The panel attachment portion 210 is formed in a plate shape and includes an incision 211 that penetrates vertically. The position of the incision 211 is not limited. Through the incision 211, at least a portion of the junction box 120 may pass through the panel attachment portion 210 vertically.

Referring to FIG. 2, the first fastening part 220 includes a first vertically extending part 221 extending downwardly from one end in a horizontal direction (x-axis direction) of the panel attachment part 210, and the first And a first horizontal protrusion 222 protruding from the lower end of the upper and lower extension parts 221 toward the horizontal direction. The first horizontal protrusion 222 protrudes toward the opposite direction of the second fastening part 230. The first horizontal protrusion 222 is formed as a curved surface such that at least a portion thereof is rounded. The cross section of the round gin portion may have an arc shape or an elliptical arc shape, and is formed to be elastically deformable.

In addition, the first fastening portion 230 is located between the first vertical extension 221 and the first horizontal protrusion 222 and further includes a first horizontal extension 223 formed in a substantially flat plane. Can. Then, the first horizontal extension 223 may be formed with a groove 224 that protrudes upward and extends along the longitudinal direction (y-axis direction). The groove 224 becomes a passage through which a small amount of water that has penetrated between the first horizontal protrusion 222 and the second horizontal protrusion 233 of the second fastening part 230, which will be described later, flows, and is no longer inside. It serves to prevent penetration.

The second fastening part 230 includes an upper and lower protruding part 231 protruding upward, and a first fastening part receiving part 232 positioned between the panel attachment part 210 and the upper and lower protruding parts 231. do. The first fastening portion receiving portion 232 is surrounded by the upper and lower protrusions 231, the second vertically extending portions 233, the second horizontal protrusions 234, and the second horizontal extensions 235 to be described later. It is defined as space. Accordingly, the second fastening part 230 may further include a second vertical extension part 233, a second horizontal protrusion part 234, and a second horizontal extension part 235.

The second vertical extension portion 233 extends downward from the other end in the horizontal direction of the panel attachment portion 210. The second horizontal protrusion 234 protrudes from the lower end of the second vertical extension portion 233 toward the inside in the horizontal direction. That is, it protrudes toward the first fastening portion 220. The second horizontal protrusion 234 has a concave groove shape that opens toward the upper and lower protrusions 231. The concave portion of the second horizontal protrusion 234 has a shape in which at least a portion of the first horizontal protrusion 222 can be inserted. The second horizontal extension 235 connects the second horizontal protrusion 234 and the upper and lower protrusions 231.

The second horizontal protrusion 234 is formed to be at least partially rounded to a curved surface. At this time, the radius of curvature of the rounded portion of the second horizontal protrusion 234 may be smaller than the radius of curvature of the rounded portion of the first horizontal protrusion 222. That is, the radius of curvature of the rounded portion of the first horizontal protrusion 222 may be greater than the radius of curvature of the rounded portion of the second horizontal protrusion 234. In this case, when a plurality of exterior materials are fastened in the horizontal direction, when the first horizontal protrusion 222 of any one exterior material is elastically deformed and fitted to the concave portion of the second horizontal protrusion 224 of the adjacent exterior material, when it is fitted, By this, the second horizontal protrusion 234 is in close contact with the other, thereby improving airtight performance. That is, the penetration of water between the first horizontal protrusion 222 and the second horizontal protrusion 234 becomes more difficult.

The second horizontal extension portion 235 may have a planar shape substantially parallel to the panel attachment portion 210, and extends along a longitudinal direction (y-axis direction). When a plurality of exterior materials are fastened in the horizontal direction, the first horizontal extension part 223 of any one exterior material may have a shape corresponding to the second horizontal extension part 235 of the adjacent exterior material and may contact each other.

At this time, the sum of the lengths of the second horizontal protrusions and the second horizontal extensions may be equal to or greater than the sum of the lengths of the first horizontal protrusions and the first horizontal extensions.

The upper and lower protrusions 231 protrude upward from the second horizontal extension 235. The upper and lower protrusions 231 include a panel attachment portion 210 and an inclined portion 231a formed to be inclined upward, and a stopper portion 231b extending closer to a right angle up and down than the inclined portion at the bottom of the inclined portion 231a. ). The inclined portion 231b may be formed as a curved surface such that at least a portion thereof is rounded. The inclined portion 231b facilitates insertion of the first fastening portion 220. The stopper portion 231b is preferably approximately vertically up and down, but the first vertically extending portion 221 of the first fastening portion 220 inserted into the first fastening portion receiving portion 232 is horizontally outward. If it is a structure that can block the movement to, it does not have to be vertical.

When a plurality of solar panel-integrated building exterior materials are combined in the horizontal direction, the first vertical extension portion 221 of any one solar panel-integrated building exterior material is the stopper portion 231b of an adjacent solar panel integrated building exterior material In contact with the movement to the outside in the horizontal direction may be limited.

The outer wall fixing part 240 extends from the lower end of the upper and lower protrusions 231 toward the outside in the horizontal direction. The outer wall fixing part 240 may have a planar shape that is approximately parallel to the panel attachment part 210 and extends along the vertical direction. At this time, the outer wall fixing part 240 is spaced apart from the first horizontal extension part 223 of the first coupling part 220 and the second horizontal extension part 235 of the second coupling part 230 , Can be located on the same plane. That is, the frame 210 can be in contact with the outer wall surface of the building is fixed.

The third fastening part 250 is provided at one end of the panel mounting part 210 in the vertical direction (y-axis direction). The third fastening part 250 is formed by bending the panel mounting part 210 upward, and then bending it again to the other side in the vertical direction, and the vertical cross section (the BB direction cross section in FIG. 1) is approximately “c”. It has a ruler shape. Accordingly, the third fastening part 250 is positioned above the one end of the panel attaching part 210 in the longitudinal direction.

The fourth fastening part 260 is provided at the other end of the panel mounting part 210 in the vertical direction (y-axis direction). The fourth fastening part 260 is formed by bending the panel mounting part 210 downward, and then bending it again to one side in the vertical direction, that is, in the direction of the third fastening part 250, and a vertical cross-section (FIG. The cross section in the BB direction of 1) has an approximately “U” shape. Therefore, the fourth fastening part 260 is positioned near the other end in the longitudinal direction of the panel attaching part 210, and is located at the bottom.

The third fastening part 250 and the fourth fastening part 260 have shapes that can be inserted into each other when a plurality of frames are connected to each other in the vertical direction.

Hereinafter, with reference to FIGS. 2, 4, and 5, a construction method of a solar panel-integrated exterior material in an embodiment of the present invention will be described.

In describing the construction method, the outer wall of the building includes both a roof or side walls. That is, the solar panel-integrated exterior material according to the present embodiment can be constructed on both the roof or the sidewall, and the material of the exterior wall is not limited. For example, the outer wall may be concrete or wood, and may be constructed where various building materials such as moisture-permeable waterproof paper or spacers are attached to the surface.

Hereinafter, for convenience, the plurality of solar panel-integrated exterior materials are referred to as a first exterior material 10, a second exterior material 20, and a third exterior material 30, respectively.

First, referring to FIG. 4, the outer wall fixing part 240 of the first exterior material 10 is fixed to the outer wall through a fixing member such as a nail or a screw. At this time, the first exterior material 10 is arranged such that the third fastening portion 250 is on the upper side and the fourth fastening portion 260 is on the lower side. Then, the first fastening part 210 of the second exterior material 20 is inserted into the first fastening part receiving part 232 of the first exterior material 10. At this time, the first horizontal protrusion 222 of the first fastening portion 210 is elastically deformed, so that the radius of curvature is smaller than the original, and is fitted to the concave portion of the second horizontal protrusion 234. Therefore, the concave surface of the second horizontal protrusion 234 is pressed by the restoring force and the gap through which water can pass is minimized.

At this time, the first horizontal extension portion 223 of the first coupling portion 210 is positioned above the second horizontal extension portion 235 of the second coupling portion 230, and at least a portion of the first horizontal portion is in contact with each other. .

Meanwhile, in a state where the first fastening part 220 is fitted to the first fastening part receiving part 232 of the second fastening part 230, the first vertical extension part 221 of the first fastening part 220 is the second The upper and lower protrusions 231 of the fastening portion 230 are brought into contact. More specifically, it comes into contact with the stopper portion 231b. Therefore, the second exterior material 20 is blocked from moving in the horizontal direction, opposite to the first exterior material 10. In this state, the outer wall fixing part 240 of the second exterior material is fixed to the outer wall of the building.

In the same way, the exterior materials according to the present embodiment can be connected and fixed in a plurality of horizontal directions (x-axis direction).

Meanwhile, referring to FIG. 5, the third exterior material 30 may be fixed to one side in the vertical direction of the first exterior material 10. After inserting the fourth fastening part 260 of the third exterior material 30 into the third fastening part 250 of the first exterior material 10, the outer wall fixing part 240 of the third exterior material 30 cannot be nailed. It is fixed to the outer wall through a piece or the like. At this time, the first fastening part 220 and the first fastening part 220 of the first fastening part 220 of the third fastening material 30 by the predetermined length of the first fastening part 220 of the first fastening material 30 Each of the two fasteners 230 may be covered and overlap each other. Meanwhile, in order to further increase the overlapping length, the first fastening part 220 and the second fastening part 230 may be extended slightly longer in the vertical direction than the panel attachment part 210 and/or the fourth fastening part 260. Can. in this case,

In this way, it is possible to connect and secure the exterior materials according to the present embodiment in a plurality of vertical directions.

Meanwhile, the fixing part 240 positioned outside the horizontal direction of the second fastening part 230 may be omitted. In this case, a nail or piece may be fixed to the second horizontal extension 235 of the second fastening portion. In terms of ease of construction, it is advantageous that the fixing part 240 is provided, and in the cost side, it is advantageous to omit the fixing part 240 because the amount of material can be reduced.

On the other hand, the cable (not shown) extending from the junction box in the solar panel, when a plurality of exterior materials are connected, the cables of each exterior material are first electrically connected through a connector, and then the exterior materials can be fixed to the exterior wall. , You can also fix the exterior material to the exterior wall first, and then connect the cables.

On the other hand, when the solar panel 100 is attached to the frame 200 while the junction box 120 is coupled to the solar panel 100, the junction box 120 cuts off the panel attachment portion 210. A portion of the panel 211 may be exposed through the portion 211. In this case, the size of the junction box 120 should be smaller than the incision 211.

Alternatively, at least a portion of the solar panel 100 may be attached to the frame 200 in advance, and then the cover of the junction box 120 may be combined at the bottom of the frame 200 to cover the incision 211. . In this case, the cover of the junction box 120 should be larger than the incision 211.

When the junction box 120 is provided in the lower portion of the solar panel 100, in the lower portion of the panel attachment portion 210, the space between the first fastening portion 210 and the second fastening portion 220 is the junction box It will function as the receiving portion 270.

Meanwhile, the junction box 120 may be provided on the solar panel 100.

In this case, the space between the first fastening part and the second fastening part under the panel attaching part does not function as a junction box receiving part, and serves only to increase the heat dissipation function due to the air located therebetween.

6 is a view showing a cross-section of a solar panel-integrated exterior material according to another embodiment of the present invention.

In this embodiment, only the difference is that the length of the upper and lower extensions 221' of the first fastening portion 220' is shorter than in the previous embodiment. That is, in the previous embodiment, the first horizontal protrusion 222 is curved upward from the first vertical extension part 221, while in the present embodiment, the first horizontal protrusion 222' is the first vertical motion. The difference is that it extends by being curved downward from the extension 221'. In addition, since the first horizontal extension 223 ′ and the second horizontal extension 235 do not contact each other, the groove 224 is omitted.

All other configurations and construction methods are the same as in the previous embodiment, and repeated descriptions are omitted.

7 is a view showing a state in which a plurality of solar panel-integrated exterior materials according to another embodiment of the present invention are combined in a horizontal direction.

All configurations are the same as in the previous embodiment shown in FIGS. 1 to 5, and there is only a difference in that the upper and lower protrusions 231 of the second fastening part 200 extend a little longer. When the height of the upper end of the upper and lower protrusions 231 is equal to or higher than the height of the bottom surface of the panel attachment portion 210, when a plurality of exterior materials are coupled in the horizontal direction, the panel attachment part 210 of any one exterior material Upper and lower protruding portions 231 of the exterior material adjacent to the bottom surface of the exterior material may contact each other. At this time, the upper and lower protrusions 231 may be elastically deformable by an external force from above.

100: solar panel
110: solar cell
120: junction box
200: frame
210: panel attachment
211: incision
220: first fastening
221: first vertical extension
222: first horizontal protrusion
223: first horizontal extension
224: Home
230: second fastening part
231: upper and lower protrusions
231a: tapered portion
231b: stopper part
232: second upper and lower extension
233: second horizontal protrusion
234: second horizontal extension
235: first fastening section receiving section
240: outer wall fixing
250: third fastening part
260: fourth fastening
270: junction box accommodation
300: fixing member

Claims (11)

A solar panel-integrated building exterior material comprising a frame, a solar cell and a junction box, and a solar panel attached to the top of the metal frame,
The frame,
A panel attachment portion to which a solar panel is attached;
A first fastening part provided at one side edge in the horizontal direction of the panel attachment part;
It includes a second fastening portion provided on the other side of the horizontal direction of the panel attachment portion and having a shape that can be fastened with the first fastening portion.
The solar cell is located at the same or higher than the first fastening part and the second fastening part,
The first fastening portion,
A first vertical extension portion 221 extending downward from the panel attachment portion;
A first horizontal protrusion 222 protruding from the lower portion of the first vertical extension part in a direction opposite to the second fastening part;
And a first horizontal extension 223 connecting between the first vertical extension and the first horizontal protrusion,
The second fastening part,
An upper and lower protrusion 231 protruding upward;
A first fastening part receiving part 232 provided between the panel attaching part and the upper and lower protruding parts and having a shape in which the first fastening part can be inserted;
A second vertical extension portion 233 extending downward from the panel attachment portion;
A second horizontal protrusion 234 protruding toward the first fastening part from the lower end of the second vertical extension part and being formed to be inserted into the concave recessed portion;
And a second horizontal extension 235 connecting between the second horizontal protrusion and the upper and lower protrusions,
The upper and lower protrusions 231
The panel attachment portion and the inclined portion (231a) formed to be inclined upward,
Further comprising a stopper portion (231b) extending closer to the vertical than the inclined portion at the bottom of the inclined portion,
Each of the first horizontal protrusion and the second horizontal protrusion is formed to be rounded at least partially,
The radius of curvature of the rounded portion of the first horizontal protrusion is larger than the radius of curvature of the rounded portion of the second horizontal protrusion, and the second fastening portion of the other building exterior material adjacent to the first fastening part of one building exterior material. When combined with each other, the round gin portion of the first horizontal protrusion constantly presses the round gin portion of the second horizontal protrusion so that the two curved surfaces contact each other,
The first horizontal extension 223 and the second horizontal extension 235 are in surface contact with each other,
The first vertical extension part 221 and the stopper part 231b are in surface contact,
Solar panel-integrated building exterior material with improved waterproofing by at least three surface contact parts. delete delete According to claim 1,
When a plurality of solar panel-integrated building exterior materials are combined in the horizontal direction, the first vertical extension of any one solar panel-integrated building exterior material contacts the stopper portion of the adjacent solar panel-integrated building exterior material to the outside in the horizontal direction. The movement of which is limited,
Solar panel integrated building exterior. According to claim 1,
At least a portion of the first fastening part and the second fastening part extend downward from both ends in the horizontal direction of the panel attachment part,
A junction box accommodating portion, which is a space between the first fastening portion and the second fastening portion, is provided under the panel attachment portion,
The junction box is at least partially located in the junction box receiving portion
Solar panel integrated building exterior. According to claim 1,
The upper end of the upper and lower protrusions of the second fastening part is positioned higher than the lower end of the upper and lower extensions of the first fastening part.
Solar panel integrated building exterior. delete delete According to claim 1,
A solar panel-integrated building exterior material in which the first horizontal connection portion is formed with a groove protruding upward and extending in a vertical direction. According to claim 1,
The upper and lower protrusions of the second fastening portion are the same or higher than the panel attachment portion, the solar panel integrated building exterior material.
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