KR20240013512A - BIPV Frame Structure for Easy PV Panel Repair - Google Patents

Abstract

According to the present invention, a BIPV frame structure for the easy repair of a PV panel can comprise: a solar panel; a panel frame coupled to a rear surface of the solar panel; a vertical frame fixed on an outer wall and fixing the panel frame; and a horizontal frame coupled to the vertical frame, and mounting the panel frame on a hinge part formed inside, thereby rotating the solar panel. Therefore, solar power generation efficiency can be increased.

Description

BIPV Frame Structure for Easy PV Panel Repair}

The present invention relates to a BIPV frame structure that facilitates PV panel repair. More specifically, it relates to a BIPV frame structure that facilitates PV panel repair that allows easy repair and repair work of solar panels provided on the exterior wall. will be.

BIPV (Building Integrated Photovoltaic) is a solar panel structure integrated into a building. In addition to producing electricity from solar energy and supplying it to consumers, it refers to a solar power generation system that uses building-integrated solar modules as building exterior materials.

For this BIPV system, research on BIPV modules and building application techniques has been actively conducted over the past 10 years, and now and in the future, PV modules will be integrated and applied using the roof and facade of the building, serving as a building material and producing electricity. It is in the spotlight as a building envelope technology.

Here, the BIPV system must be harmoniously constructed on the exterior walls of the building from the design stage. There are various application methods for each building type, and depending on the application area, it can be divided into upper building elements such as the roof, building facade elements such as walls, and shading or lighting elements. .

However, in the BIPV system, in the process of receiving PV panel management and repair later, workers approach the outer wall of the building, separate the PV panels to be managed and repaired, return to the ground to repair them, and then approach the outer wall of the building again to install them. Problems arise with repair time and hassle.

Domestic Open Patent Publication No. 10-2021-0042793 (2021.04.20)

The purpose of the present invention is to provide a BIPV frame structure that allows easy PV panel repair, allowing workers to easily maintain solar panels installed on the exterior wall of a building.

Another object of the present invention is to provide a BIPV frame structure that is easy to repair PV panels that can eliminate shadows generated when a plurality of adjacent solar panels overlap each other.

A BIPV frame structure that facilitates PV panel repair according to one aspect of the present invention to achieve the above object includes a solar panel, a panel frame coupled to the rear of the solar panel, and the panel frame fixed to the exterior wall. It may be provided with a vertical frame for fixing and a horizontal frame for rotating the solar panel by mounting the panel frame on a hinge portion formed inside and coupled to the vertical frame.

The vertical frame includes a vertical body, vertical wings that protrude from both sides of the vertical body, and a plurality of protrusions on one surface that protrude and extend from the inner side of the vertical body, and fixed teeth fixed to a fastener provided on the outer wall. It may be provided with a stand and a spacing protrusion that protrudes from the outer surface of the vertical body to adjust the spacing distance between the adjacent panel frames.

The horizontal frame includes a horizontal body, horizontal wings protruding from both sides of the horizontal body, a horizontal step formed on the outer surface of the horizontal body and fixed to the panel frame, and an outer surface of the horizontal body. A hinge groove is formed in the form of a hook to rotate the solar panel while part of the panel frame is coupled, and a protrusion protrudes on the outer surface of the horizontal body to prevent excessive rotation of the solar panel mounted on the hinge groove. A stopper may be provided to prevent this.

The panel frame may include a first panel stand for fixing the solar panel, and a second panel stand for fixing the upper part of the solar panel and forming a hinge protrusion protruding from one side to be inserted into the hinge groove. .

The solar panel is fixed by the first panel stand and the second panel stand so that no shadow is formed between the neighboring solar panels due to the vertical body of the vertical frame and the horizontal step of the horizontal frame. By arranging them, the efficiency of the solar panel can be increased.

A vertical frame including a solar panel, a panel frame coupled to the rear of the solar panel, a first vertical pole fixed to an exterior wall, and a second vertical pole to which the panel frame is fixed, and the vertical frame is coupled to the vertical frame. A horizontal frame that rotates the solar panel can be provided by mounting the panel frame on the hinge portion formed inside.

The first vertical bar includes a first vertical body, vertical wings each protruding from both sides of the first vertical body, and a plurality of protrusions extending protruding from the inner surface of the first vertical body to form a plurality of protrusions on one surface and provided on the outer wall. A fixed tooth bar fixed to the fastener may be provided.

The second vertical bar may include a second vertical body and spaced protrusions that protrude from the outer surfaces of the second vertical body to adjust the spaced distance between the adjacent panel frames.

The horizontal frame includes a horizontal body, horizontal wings protruding from both sides of the horizontal body, a horizontal step formed on the outer surface of the horizontal body and fixed to the panel frame, and an outer surface of the horizontal body. A hinge groove is formed in the form of a hook to rotate the solar panel while part of the panel frame is coupled, and a protrusion protrudes on the outer surface of the horizontal body to prevent excessive rotation of the solar panel mounted on the hinge groove. A stopper may be provided to prevent this.

The panel frame may include a first panel stand for fixing the solar panel, and a second panel stand for fixing the upper part of the solar panel and forming a hinge protrusion protruding from one side to be inserted into the hinge groove. .

The solar panel is fixed by the first panel stand and the second panel stand, and a shadow is formed between the neighboring solar panels by the horizontal step of the second vertical frame and the horizontal frame of the vertical frame. The efficiency of the solar panel can be increased by arranging it so that it does not occur.

According to the BIPV frame structure for easy PV panel repair according to the present invention, workers can easily maintain and repair the solar panel by rotating the solar panel using the hinge grooves and hinge protrusions formed on the frame panel and horizontal frame.

In addition, due to the horizontal step between the second vertical band of the vertical frame and the horizontal frame, no structure is formed between adjacent solar panels, thereby eliminating shadows, thereby increasing solar power generation efficiency.

Figure 1 is a perspective view showing the overall appearance of a BIPV frame structure that facilitates PV panel repair according to the present invention.
Figure 2 is a perspective view showing the details of the solar panel and panel frame in Figure 1.
Figure 3 is a perspective view showing the vertical frame and horizontal frame in Figure 1 combined.
Figure 4 is a perspective view showing a detailed view of the vertical frame in Figure 3.
Figure 5 is a perspective view showing a detailed view of the vertical frame in Figure 3.
Figure 6 is a perspective view showing a detailed view of the horizontal frame in Figure 3.
Figure 7 is a cross-sectional view showing the solar panel of the BIPV frame structure, which facilitates PV panel repair, being rotated according to the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the attached drawings. However, it goes without saying that the present invention is not limited to these embodiments and can be modified into various forms.

In the drawings, parts not related to the description are omitted in order to clearly and briefly explain the present invention, and identical or extremely similar parts are denoted by the same drawing reference numerals throughout the specification. In addition, in the drawings, the thickness, area, etc. are enlarged or reduced in order to make the explanation more clear, so the thickness, area, etc. of the present invention are not limited to what is shown in the drawings.

And when a part is said to “include” another part in the entire specification, it does not exclude other parts and may further include other parts, unless specifically stated to the contrary.

Figure 1 is a perspective view showing the overall appearance of the BIPV frame structure that facilitates PV panel repair according to the present invention.

As shown in Figure 1, the BIPV frame structure for easy PV panel repair according to the present invention includes a solar panel 100, a panel frame 200 coupled to the rear of the solar panel 100, and an outer wall ( 10), the vertical frame 300 is fixed to the panel frame 200, and the panel frame 200 is mounted on the hinge portion formed inside and coupled to the vertical frame 300 to rotate the solar panel 100. It may be provided with a horizontal frame 400.

Here, the solar panel 100 is provided on the outer wall 10 of the building to supply energy to the building through solar power generation, and the panel frame 200 is provided on the rear of the solar panel 100 to form the outer wall 10. ) can be combined.

The panel frame 200 is provided on the rear of the solar panel 100 and can support the solar panel 100 to be coupled to the outer wall 10.

The panel frame 200 is mounted on a hinge portion formed on a part of the horizontal frame 400 coupled to the outer wall, so that the worker can use the horizontal frame without removing the solar panel 100 during maintenance of the solar panel 100. After rotating based on (400), maintenance can be easily performed.

The vertical frame 300 is coupled to the fastener 20 fixed to the outer wall 10 of the building, and has a horizontal frame 400 to support the panel frame 200 coupled to the outer surface.

The horizontal frame 400 is provided between the vertical frames 300 that form a space spaced at a certain distance and is fixed by a piece, and can be rotated by mounting the panel frame 200 on a hinge portion formed on the outer surface.

The horizontal frame 400 may be easily coupled to the vertical frame 300 by having portions of both ends cut out.

Through this, the BIPV frame structure that facilitates PV panel repair according to the present invention facilitates maintenance by allowing workers to rotate the solar panel 100 through the hinge portion formed on the panel frame 200 and the horizontal frame 400. can do.

Next, a solar panel and panel frame with a BIPV frame structure that facilitates PV panel repair according to an embodiment of the present invention will be described in detail.

Figure 2 is a perspective view showing the details of the solar panel and panel frame in Figure 1.

Referring to FIG. 2, the panel frame 200 includes a first panel stand 210 that fixes the solar panel 100, and a hinge means that secures the upper part of the solar panel 100 and protrudes from one side. A second panel stand 220 may be provided.

Here, the first panel stand 210 includes a panel body 221 and a panel wing 222 that protrudes from one side of the panel body 221 and is fixed to the vertical frame 300 and the horizontal frame 400 with a piece. It can be provided.

The first panel stand 210 is provided on the left, right, and bottom directions of the solar panel 100 and can be brought into contact with one side of the vertical frame 300 and the horizontal frame 400.

Next, the second panel stand 220 includes a panel body 221, a panel wing 222 that protrudes from one side of the panel body 221 and is fixed to the horizontal frame 400 with a piece, and a panel body 221. ) may be provided with a hinge protrusion 223 that protrudes from one side and is mounted in a groove formed in the horizontal frame 400 to rotate the solar panel 100.

The solar panel 100 is fixed to the outer surface of the panel body 221, and the panel wing 222 protruding from one side abuts against one surface of the horizontal frame 400 and can be fixed by a piece.

The panel wings 222 are fixed with pieces to the vertical frame 300 and the horizontal frame 400 that face the panel wings 222 so that the solar panel 100 is firmly fixed to the outer wall, and the solar panel 100 Only when maintenance is necessary, the worker can repair the solar panel 100 by removing the piece and rotating the solar panel 100.

The hinge protrusion 223 protrudes in a diagonal direction from the inner surface of the panel body 221, and a cylindrical protrusion is formed at one end of the protruding portion and is mounted in a groove formed in the horizontal frame 400 to form the solar panel 100. can be rotated.

The second panel stand 220 may be provided above the solar panel 100 and may be brought into contact with one side of the horizontal frame 400. Additionally, the hinge protrusion 223 protruding from the second panel stand 220 can be inserted into the groove formed in the horizontal frame 400 to rotate the solar panel 100.

Next, the vertical frame and horizontal frame of the BIPV frame structure that facilitates PV panel repair according to an embodiment of the present invention will be described in detail.

FIG. 3 is a perspective view showing the vertical frame and the horizontal frame combined in FIG. 1, FIG. 4 is a perspective view showing a detailed view of the vertical frame in FIG. 3, and FIG. 5 is a perspective view showing a detailed view of the vertical frame in FIG. 3. , and FIG. 6 is a perspective view showing the detailed appearance of the horizontal frame in FIG. 3.

Referring to FIG. 3, a horizontal frame 400 may be provided between vertically continuous and laterally repeated vertical frames 300, a portion of which is cut, and disposed between adjacent vertical frames 300.

The vertical frame 300 may be coupled to the fastener 20 fixed to the outer wall 10, and a step may be formed so that the panel frame 200 butts against the outer surface.

When viewed from the front, the horizontal frame 400 may have a step at the top so that one side of the panel frame 200 touches each other, and may have a groove for engaging the hinge protrusion 223 of the panel frame 200 at the bottom.

Referring to FIG. 4, the vertical frame 300 may be formed as an integrated vertical frame 300.

First, the vertical frame 300 includes a vertical body 310, vertical wings 320 that protrude from both sides of the vertical body 310, and a plurality of protrusions on one side that protrude and extend from the inner side of the vertical body 310. It forms a fixed tooth bar 330 fixed to the fastener 20 provided on the outer wall 10, and each protrudes from the outer surface of the vertical body 310 to adjust the separation distance between the neighboring panel frame 200. It may be provided with a spaced protrusion (340).

The vertical body 310 is provided between the exterior wall 10 of the building and the solar panel 100 to support the solar panel 100 to generate solar energy from the exterior wall 10.

The vertical wings 320 protrude from both sides of the vertical body 310, and a portion of the horizontal frame 400 that abuts the upper part of the vertical wings 320 can be fixed with a piece.

The fixing tooth bar 330 protrudes and extends from the inner surface of the vertical body 310 so that one side abuts the fastener 20 provided on the outer wall 10 and is fixed with a bolt.

When the fixing tooth bar 330 is brought into contact with the fastener 20, protrusions are continuously and repeatedly disposed on one surface to further increase the fastening force, so that the fixing force can be further increased.

The spaced protrusions 340 may form a space spaced apart by a certain distance from the outer surface of the vertical body 310 and may each protrude.

The spacing protrusions 340 are fixed to the panel frames 200 on the left and right sides, respectively, starting from the center of the vertical body 310, and are attached to the spacing protrusions 340 to prevent the panel frames 200 from abutting beyond the center. It can take.

Through this, the vertical frame 300 is easy to transport and work because it is formed as an integrated piece. It is manufactured as an integrated piece, so the inner side is fixed to the fastener 20 without any special fixing work (piece) and the solar panel is installed on the outer side. It may be easy to support the panel frame 200 provided with (100).

Referring to FIG. 5, the vertical frame 300 may be formed as a vertical frame 300 divided into two components.

The vertical frame 300 includes a first vertical bar 350 coupled to the fastener 20 fixed to the outer wall 10, and one side of the panel frame 200 coupled to the outer surface of the first vertical bar 350. It may be provided with a second vertical bar 360 that forms a step so as to face each other.

The first vertical stand 350 is formed on a first vertical body 351, vertical wings 330 protruding from both sides of the first vertical body 351, and an outer surface of the first vertical body 351. A vertical groove 352 coupled to the second vertical stand 360, a fastener 20 protruding from the inner surface of the first vertical body 351 to form a plurality of protrusions on one surface, and provided on the outer wall 10. It may be provided with a fixed tooth bar 330 fixed to.

The first vertical body 351 is provided between the outer wall 10 of the building and the solar panel 100 and can support the solar panel 100 to be fixed to the outer wall 10 to generate solar energy.

The vertical wings 330 protrude from both sides of the first vertical body 351, and a portion of the horizontal frame 400 that abuts the upper part of the vertical wings 330 can be fixed with a piece.

The vertical groove 352 is formed in a concave-convex shape on the outer surface of the first vertical body 351, so that the second vertical stand 360 can be fixed. In addition, the vertical groove 352 is joined by a piece after being inserted through position correction of the vertical protrusion 362, so that the second vertical stand 360 can be fixed to the first vertical stand 350.

The fixing tooth bar 330 protrudes and extends from the inner surface of the first vertical body 351 so that one side abuts the fastener 20 provided on the outer wall 10 and is fixed by a bolt.

When the fixing tooth bar 330 is brought into contact with the fastener 20, protrusions are continuously and repeatedly disposed on one surface to further increase the fastening force, so that the fixing force can be further increased.

Next, the second vertical stand 360 includes a second vertical body 361, a vertical protrusion 362 that protrudes from the inner surface of the second vertical body 361 and couples to the vertical groove 352, and a second vertical body 361. Separation protrusions 340 may be provided on the outer surfaces of the vertical body 361 to adjust the separation distance between the adjacent panel frames 200.

The second vertical body 361 is a frame that fixes the solar panel 100 during the process of arranging a plurality of solar panels 100 that are continuously repeated, and is used to prevent shading from occurring on the solar panel 100. It is possible to form a step between the vertical frame 300 and the vertical frame 300.

The vertical protrusion 362 is coupled to the vertical groove 352 formed in the first vertical stand 350 so that the second vertical stand 360 can be fixed to the first vertical stand 350. At this time, the vertical protrusion 362 may be fixed to the vertical groove 352 by coupling with a piece.

The spaced protrusions 340 may form a space spaced apart by a certain distance from the outer surface of the second vertical body 361 and each may protrude.

The spacing protrusion 340 is fixed to the panel frame 200 on the left and right sides, respectively, starting from the center of the second vertical bar 360. The spacing protrusion 340 prevents the panel frame 200 from being abutted beyond the center. ), and the installation interval of the panel frame 200 can be maintained at a constant level, thereby improving aesthetics by forming a unified joint on the outside.

The second vertical body 361 can be fixed with pieces after abutting each panel frame 200 on the left and right sides starting from the spacing protrusion 340 on the outer surface.

Through this, the vertical frame 300 is formed of a first vertical pole 350 and a second vertical pole 360, so that the first vertical pole 350 is fixed to the fastener 20, and the second vertical pole 360 ), the panel frame 200 equipped with the solar panel 100 can be easily supported, and the point where it interferes with the horizontal frame 400 can also be easily worked.

Referring to Figure 6, the horizontal frame 400 has a horizontal body 410, horizontal wings 420 protruding from both sides of the horizontal body 410, and a step is formed on the outer surface of the horizontal body 410. A hook shape is formed on the outer surface of the horizontal body 410 and the horizontal step 430 on which the panel frame 200 is butted and fixed, so that a part of the panel frame 200 is combined to rotate the solar panel 100. It may be provided with a hinge groove 440 and a stopper 450 with a protrusion protruding from the outer surface of the horizontal body 410 to prevent excessive rotation of the solar panel 100 mounted on the hinge groove 440.

In addition, the horizontal frame 400 has a part of the horizontal body 410 cut to be coupled to the vertical body 310 or the first vertical stand 350, and the horizontal step 430 and the hinge groove 440 are formed on the vertical body ( 310) or may be provided with a horizontal cut surface abutting the outer surface of the first vertical stand 350.

The horizontal body 410 is provided between the outer wall 10 of the building and the solar panel 100 and can support the solar panel 100 to be fixed to the outer wall 10 and generate solar energy.

The horizontal wings 420 each protrude from both sides of the horizontal body 410 and can be seated on the vertical wing 320 or the upper part of the vertical wing 330 and fixed by a piece.

The horizontal step 430 is formed on the outer surface of the horizontal body 410 so that the rear side of the panel frame 200 abuts, and can fix the solar panel 100. At this time, the panel wings 222 of the panel frame 200 may be fixed with a piece at the portion where the horizontal step 430 abuts.

The hinge groove 440 is formed on the outer surface of the horizontal body 410 and has a hook-shaped groove facing the horizontal step 430, and extends diagonally to increase the reinforcing force fixed to the horizontal body 410. A reinforcing bar may be formed.

The hinge groove 440 can rotate the solar panel 100 based on the horizontal frame 400 by inserting the hinge protrusion 223 of the second panel stand 220 provided on the upper part of the panel frame 200. there is.

The hinge groove 440 allows the panel wings 222 of the panel frame 200 to be connected to the vertical body 310 or the second vertical body 361 by the piece when maintenance of the solar panel 100 is not required. It can be fixed to the horizontal step 430 of the horizontal frame 400 with a piece.

The stopper 450 has a protrusion protruding between the horizontal step 430 and the hinge groove 440, and the solar panel 100 and the panel frame 200 rotate excessively while rotating along the hinge groove 440, causing the sun to To prevent one end of the light panel 100 from hitting the horizontal step 430, one end of the stopper 450 may first contact the solar panel 100 to stop rotation.

Next, the process of rotating a solar panel with a BIPV frame structure that facilitates PV panel repair according to an embodiment of the present invention will be described in detail.

Figure 7 is a cross-sectional view showing the solar panel of the BIPV frame structure, which facilitates PV panel repair, being rotated according to the present invention.

Referring to FIG. 7, the vertical frame 300 is fixed to the fastener 20 provided on the outer wall 10 of the building with a fixed tooth bar 330, and the horizontal frame 400 is vertically positioned between the vertical frames 300. After being seated on the outer surface of the body 310 or the first vertical stand 350 and fixed with a piece, the second panel stand 220 of the panel frame 200 is connected to the hinge groove 440 formed in the horizontal frame 400. The hinge protrusion 223 formed on can be mounted.

Here, the panel frame 200 has panel wings 222 butted against the vertical body 310 or the second vertical stand 360 and the horizontal step 430 of the horizontal frame 400, and the panel wings 222 are formed on the panel wings 222. The panel frame 200 may be fixed by fastening the pieces along the piece lines.

When the solar panel 100 requires maintenance, remove the piece fastened to the panel wing 222 and attach the hinge protrusion 223 of the panel frame 200 along the hinge groove 440 of the horizontal frame 400. The back of the solar panel 100 can be maintained by rotating it. After maintenance of the solar panel 100 is completed, the panel frame 200 is again connected to the vertical body 310 or the second vertical bar 360 and the horizontal step 430 through the hinge protrusion 223 to form a piece. It can be fixed.

Here, the stopper 450 of the horizontal frame 400 is used to prevent one end of the solar panel 100 from being damaged by hitting the first panel stand 210 when the hinge protrusion 223 rotates excessively. The panel wing 222 of the second panel stand 220 that fixes the panel 100 can prevent excessive rotation by contacting one end of the stopper 450.

Therefore, the stopper 450 is a means of adjusting the opening angle of the hinge groove 440 and the hinge protrusion 223 and can prevent damage to the solar panel 100.

The vertical frame 300 and the horizontal frame 400 use the vertical body 310 or the second vertical stand 360 and the horizontal step 430 of the horizontal frame 400 to increase the step, and to increase the step on the outer surface with the increased step. By providing a solar panel 100, shading due to a frame is not generated between a plurality of neighboring solar panels 100, so solar energy efficiency can be further increased.

The vertical frame 300 is provided with panel frames 200 on the left and right sides with respect to the spaced protrusions 340 formed on the vertical body 310 or the second vertical stand 360, and the horizontal frame 400 is horizontal. It may be provided with a panel frame 200 at the upper part against the step 430, and may be mounted on the hinge groove 440 to have a panel frame 200 at the lower part.

Through this, the BIPV frame structure, which makes it easy to repair PV panels, is designed to maintain the solar panel 100 fixed to the exterior wall of the building 10, by connecting the panel frame 200 with the hinge groove 440 formed in the horizontal frame 400. ) By rotating the hinge protrusion 223 formed on the solar panel 100, maintenance can be performed without separating the solar panel 100 from the outer wall 10.

In addition, after maintenance of the solar panel 100 is completed, the panel wings 222 formed around the panel frame 200 can be held against the vertical frame 300 and the horizontal frame 400 and fixed by pieces. there is.

In addition, the solar panel 100 is not provided within the frame of the vertical frame 300 and the horizontal frame 400, but the horizontal step ( By forming a higher level difference at 430, a frame is not provided between adjacent solar panels 100, thereby eliminating shading and increasing solar power generation efficiency.

In addition, the stopper 450 of the horizontal frame 400 and one end of the panel wing 222 of the panel frame 200 come into contact with each other to prevent excessive rotation of the hinge groove 440 and the hinge protrusion 223 and to reduce the opening angle. Damage to the solar panel 100 can be prevented by adjusting it.

In the above, a BIPV frame structure that facilitates PV panel repair according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiment presented herein. Additionally, a person skilled in the art who understands the spirit of the present invention will be able to easily suggest other embodiments by adding, changing, deleting, or adding components within the scope of the same spirit, but this is also within the scope of the present invention. They will say it costs money.

10: outer wall 20: fastener
100: solar panel 200: panel frame
210: 1st panel 220: 2nd panel
221: panel body 222: panel wings
223: Hinge projection
300: vertical frame 310: vertical body
320: Vertical wing 330: Fixed tooth bar
340: Separated protrusion 350: First vertical band
351: first vertical body 352: vertical groove
360: second vertical bar 361: second vertical body
362: Vertical projection
400: horizontal frame 410: horizontal body
420: horizontal wing 430: horizontal step
440: Hinge groove 450: Stopper

Claims (11)

solar panels,
A panel frame coupled to the rear of the solar panel,
A vertical frame fixed to the exterior wall to secure the panel frame,
A BIPV frame structure that facilitates PV panel repair, including a horizontal frame that is coupled to the vertical frame and rotates the solar panel by mounting the panel frame on a hinge portion formed inside. According to clause 1,
The vertical frame includes a vertical body,
Vertical wings protruding from each side of the vertical body,
a fixed tooth bar that protrudes and extends from the inner surface of the vertical body to form a plurality of protrusions on one surface and is fixed to a fastener provided on the outer wall;
A BIPV frame structure that facilitates PV panel repair, characterized in that it is provided with spacing protrusions that protrude from the outer surface of the vertical body to adjust the spacing distance between the neighboring panel frames. According to clause 2,
The horizontal frame includes a horizontal body,
Horizontal wings protruding from each side of the horizontal body,
A horizontal step is formed on the outer surface of the horizontal body and the panel frame is abutted and fixed,
A hinge groove formed in a hook shape on the outer surface of the horizontal body to rotate the solar panel while joining a portion of the panel frame;
A BIPV frame structure that facilitates PV panel repair, characterized in that it has a stopper that protrudes from the outer surface of the horizontal body and prevents excessive rotation of the solar panel mounted in the hinge groove. According to clause 3,
The panel frame includes a first panel stand for fixing the solar panel,
A BIPV frame structure that facilitates PV panel repair, comprising a second panel base that secures the upper part of the solar panel and forms a hinge protrusion protruding from one side to be inserted into the hinge groove. According to clause 4,
The solar panel is fixed by the first panel stand and the second panel stand so that no shadow is formed between the neighboring solar panels due to the vertical body of the vertical frame and the horizontal step of the horizontal frame. BIPV frame structure that facilitates PV panel repair by arranging and increasing the efficiency of the solar panel. solar panels,
A panel frame coupled to the rear of the solar panel,
A vertical frame including a first vertical bar fixed to the exterior wall and a second vertical bar to which the panel frame is fixed;
A BIPV frame structure that facilitates PV panel repair, including a horizontal frame that is coupled to the vertical frame and rotates the solar panel by mounting the panel frame on a hinge portion formed inside. According to clause 6,
The first vertical band includes a first vertical body,
Vertical wings protruding from both sides of the first vertical body, respectively,
A BIPV frame structure that facilitates repair of PV panels, characterized in that it protrudes and extends from the inner surface of the first vertical body to form a plurality of protrusions on one surface and includes a fixing tooth bar fixed to a fastener provided on the outer wall. According to clause 7,
The second vertical band includes a second vertical body,
A BIPV frame structure that facilitates PV panel repair, characterized in that it is provided with spaced protrusions that protrude from the outer surface of the second vertical body to adjust the spaced distance between the adjacent panel frames. According to clause 8,
The horizontal frame includes a horizontal body,
Horizontal wings protruding from each side of the horizontal body,
A horizontal step is formed on the outer surface of the horizontal body and the panel frame is abutted and fixed,
A hinge groove formed in a hook shape on the outer surface of the horizontal body to rotate the solar panel while joining a portion of the panel frame;
A BIPV frame structure that facilitates PV panel repair, characterized in that it has a stopper that protrudes from the outer surface of the horizontal body and prevents excessive rotation of the solar panel mounted in the hinge groove. According to clause 9,
The panel frame includes a first panel stand for fixing the solar panel,
A BIPV frame structure that facilitates PV panel repair, comprising a second panel base that secures the upper part of the solar panel and forms a hinge protrusion protruding from one side to be inserted into the hinge groove. According to clause 10,
The solar panel is fixed by the first panel stand and the second panel stand, and a shadow is formed between the neighboring solar panels by the horizontal step of the second vertical frame and the horizontal frame of the vertical frame. A BIPV frame structure that makes it easy to repair PV panels, increasing the efficiency of the solar panels by arranging them so that they are not damaged.

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