KR101162675B1 - Easily repairable multi functional bipv curtain wall system - Google Patents

Abstract

PURPOSE: A BIPV(Building Integrated Photo Voltaic) curtain wall system which is easily repairable and has multi functions is provided to reduce maintenance and repair costs by exposing both a horizontal wire and a vertical wire in construction and maintenance and repair processes with a simple structure. CONSTITUTION: A horizontal frame part(200) includes a horizontal frame main body(210), a horizontal cap fixture(230), a horizontal frame outer cap fixing plate(240), and a horizontal frame outer cap(250). The horizontal frame outer cap includes a horizontal wiring part(222). The horizontal cap fixture is installed in a front side of the horizontal frame main body. A vertical frame part includes a vertical frame main body(310), a vertical cap fixture, and a vertical frame outer cap. An insulating glass unit(100) is inserted into a unit vertical insertion part(242) and a unit horizontal insertion part.

Description

Easy Repairable Multi Functional BIPV Curtain Wall System

The present invention relates to a multilayer glass structure unit and a method of manufacturing the same, in which a junction box is buried in a space between multilayer glass, and thus a solar cell module is easily applied to and detached from unskilled pores when applied to a BIPV curtain wall system because there is no protrusion. The present invention relates to a multifunctional BIPV curtain wall system that has a structure that exposes the entire wiring and is easy to maintain.

Recently, the interest of BIPV (Building Integrated Photovoltaic) curtain wall system has been increasing at the construction site in line with the trend of eco-friendly or green growth.

FIG. 1 is a multilayer glass structure to which a conventional solar cell module is disclosed in Korean Laid-Open Patent Publication No. 10-2008-0104786, and FIG. 2 is a cross-sectional view of a curtain wall system to which the technique of FIG. 1 is applied.

In the multilayer glass structure applied to the BIPV curtain wall system, as shown in FIGS. 1 and 2, the connection wiring box 102 protrudes on the top of the solar cell module 100 so that the connection wiring box is carried out during the transportation and construction process. There was a high possibility that the 102 is damaged, and requires a separate empty space for the connection wiring box 102 to be inserted into the curtain wall frame due to the connection wiring box 102 protruding when applied to the curtain wall system There are also difficult disadvantages.

Therefore, it is urgent to develop a technology to solve the damage and construction difficulties due to the protruding connection wiring box (junction box).

FIG. 5 is a conventional curtain wall system for integrated solar power generation disclosed in Korean Laid-Open Patent Publication (Publication No. 10-2009-0030134), and FIG. 6 is a vertical cross-sectional view viewed vertically by cutting FIG. 5 horizontally.

As shown in FIG. 5, the wire 15 and the connector 16 which are horizontally wired are positioned in the first vertical wiring space 360 of the vertical wiring unit 350, as shown in FIG. 5. There is a disadvantage in that replacement and repair of the wire 15 and the connector 16 which are horizontally wired by the fourth partition 380 are inconvenient, and most of the vertical wirings not shown are replaced by the fourth partition 380. And almost impossible to repair.

Therefore, it is urgent to develop a technology that can expose all the horizontal wiring and the vertical wiring with a simpler structure.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, to provide a multilayer glass structure unit and a method of manufacturing the same applied to the solar cell module is less prone to damage in the manufacturing and construction process because the junction box is not protruding and easy to attach and detach.

Second, it is to provide a multi-functional BIPV curtain wall system that can be easily repaired by being able to expose both horizontal and vertical wiring at the construction and maintenance stages with a simple structure.

Third, it is easy to install even unskilled workers with a simple structure to provide a multifunctional BIPV curtain wall system that can be easily repaired to reduce air and cost.

In order to solve the above technical problem, the present invention provides a BIPV curtain wall system.

A horizontal frame body 210 having a shape of lying down a tube, a horizontal cap fixing unit 230 installed at the front of the horizontal frame body 210, and a unit vertical inserting unit 242 formed at the front of the horizontal cap fixing unit 230. Horizontal frame outer cap fixing plate 240, a horizontal frame comprising a horizontal frame outer cap 250 is fastened in a removable structure to the horizontal frame outer cap fixing plate 240 to form a horizontal wiring portion 222 Part 200;

A vertical frame body 310 having a shape of a square tube, a vertical cap holder 330 installed at the front of the vertical frame body 310, and a unit horizontal inserting part 342 formed at the front of the vertical cap holder 330. Vertical frame outer cap fixing plate 340, the vertical frame is configured to include a vertical frame outer cap 350 is fastened in a removable structure to the vertical frame outer cap fixing plate 340 to form a vertical wiring portion 322 Part 300; And,

A multilayer glass structure unit (100) to which the solar cell module is inserted and installed in the unit vertical insertion unit 242 and the unit horizontal insertion unit 342;

It is configured to include, but the horizontal frame portion 200 is coupled to the side of the vertical frame portion 300 to remove the horizontal frame outer cap 250 and the vertical frame outer cap 350 horizontal wiring ( HW) and the vertical wiring (VW) is provided, easy to repair multifunctional BIPV curtain wall system is provided.

According to the present invention, the following effects are expected.

Firstly, the junction box does not protrude and thus provides a multilayer glass structure unit and a method of manufacturing the solar cell module to which the risk of breakage in the manufacturing and construction process is low and unskilled workers are easily removable.

Second, it provides a multifunctional BIPV curtain wall system that can be easily repaired by exposing both horizontal and vertical wiring at the construction and maintenance stages with a simple structure.

Third, it is easy to install even unskilled workers with a simple structure to provide a multi-functional BIPV curtain wall system that can be easily repaired to reduce air and cost.

FIG. 1 is a multilayer glass structure to which a conventional solar cell module is disclosed in Korean Patent Laid-Open Publication No. 10-2008-0104786.
2 is a cross-sectional view of the curtain wall system to which the technique of FIG. 1 is applied.
3 is a combined perspective view of a multilayer glass structure unit to which a solar cell module applied to the present invention is applied.
Figure 4 illustrates in order the manufacturing method of the multilayer glass structure unit to which the solar cell module of the present invention is applied.
FIG. 5 is a conventional curtain wall system for integrated solar power generation disclosed in Korean Patent Laid-Open Publication No. 10-2009-0030134.
FIG. 6 is a vertical cross-sectional view of FIG. 5 cut horizontally and viewed vertically.
Figure 7 is a horizontal cross-sectional view of the easy-to-repair multifunctional BIPV curtain wall system of the present invention viewed vertically.
Figure 8 is a vertical cross-sectional view of the easy-to-repair multifunctional BIPV curtain wall system of the present invention viewed vertically.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1. Multilayer Glass Structure Unit with Solar Cell Module

Figure 3 is a combined perspective view of a multilayer glass structure unit to which the solar cell module of the present invention is applied, Figure 4 shows a manufacturing method of the multilayer glass structure unit to which the solar cell module of the present invention is applied.

The multilayer glass structure unit 100 to which the solar cell module of the present invention is applied is a multilayer glass structure unit using a solar cell module (PV),

A solar cell module (PV) including a module outer glass 110, a solar cell 112, a module inner glass 114, a cell connection line 116, and a junction box 118 and installed vertically; An inner glass 120 vertically spaced apart from the module inner glass 114 to form a void (B) between the module inner glass 114 and installed vertically; The insulating inner rod 140 is installed between the module inner glass 114 and the inner glass 120 spaced apart from the upper, lower, left and right ends of the module inner glass 114 and the inner glass 120 by an interval. ; And a caulking agent (160) injected between the module inner glass (114) and the inner glass (120) and the insulating insulating rod (140).

The junction box 118 is buried in the caulking agent 160 and the cell connection line 116 connecting the solar cell 112 and the junction box 118 closely adheres to the upper portion of the module inner glass 114. Characterized in that the configuration.

The solar cell module PV includes a module outer glass 110, a solar cell 112, a module inner glass 114, a cell connection line 116, and a junction box 118. Normally, it refers to a product manufactured at the factory. The module outer glass 110 may be a plate glass or the like used in conventional multilayer glass, or may be composed of low iron glass having a transmittance of 90% or more. In addition, the wire 103 shown in FIG. 1 is normally connected to the junction box 118 and installed, but is not shown in concept in FIGS. 3 and 4.

The inner glass 120 is spaced apart from the module inner glass 114 by a predetermined distance to form a gap (B) between the module inner glass 114 and is installed vertically, which is used in conventional multilayer glass Plate glass or the like may be used or low-E glass may be used for energy saving. In addition, the air gap B is configured in a vacuum state or an air layer to increase heat insulation performance.

The insulating insulation rod 140 is installed between the module inner glass 114 and the inner glass 120, but is spaced apart from the upper, lower, left, and right ends of the module inner glass 114 and the inner glass 120 inwardly. It is installed to maintain the gap between the module inner glass 114 and the inner glass 120 and to maintain the vacuum state formed in the air gap (B) or the airtight state of the air layer.

The caulking agent 160 may use a sealant which is commonly used to be injected between the module inner glass 114, the inner glass 120, and the insulating insulation rod 140.

The cell connecting line 116 is configured to be in close contact with the upper portion of the module inner glass 114, it is possible to reduce the risk of breakage in the manufacturing or construction step by maintaining the upper portion of the cell connecting line 116 with a coating or a tape. .

2. Manufacturing method of multilayer glass structure unit to which solar cell module is applied

Figure 4 illustrates in order the manufacturing method of the multilayer glass structure unit to which the solar cell module of the present invention is applied.

In the method of manufacturing the multilayer glass structure unit to which the solar cell module of the present invention is applied, in the method of manufacturing the multilayer glass structure unit 100 to which the solar cell module is applied,

(a) a liver rod installation step of installing a thermal insulation rod 140 between the solar cell module PV and the inner glass 120 from which the junction box 118 is separated; (b) a caulking agent injection step of injecting a caulking agent 160 between the module inner glass 114, the inner glass 120 and the insulating insulation bar 140; (c) a molding step of pressing the junction box mold M formed in the shape of the junction box 118 into the upper portion of the caulking agent 160 to a predetermined depth before the caulking agent 160 is cured; (d) a junction box installation step of inserting and fixing the junction box 118 at a position where the junction box mold M is removed; And (e) a cell connecting line connecting step of connecting the cell connecting line 116 to the junction box 118.

(C) molding step; After (c`) caulking step for removing the caulking agent 160 to the outside; or further comprising (e) the cell connection line connection step; After (e`) the step of maintaining the upper portion of the cell connecting line 116 with a coating or tape; may further include,

The outside of the junction box mold (M) may be further formed with a coating to prevent the attachment of the caulking agent (160).

The (a) liver rod installation step is to install the insulating insulation rod 140 between the solar cell module (PV) and the inner glass 120 from which the junction box 118 is separated as shown in Figure 4 (a). Say step.

The (b) caulking agent injection step is to inject the caulking agent 160 between the module inner glass 114 and the inner glass 120 and the insulating insulation rod 140, as shown in Figure 4 (b) Say step.

In the molding step (c), as shown in FIG. 4 (c), the caulking agent is formed in the junction box mold M formed in the shape of the junction box 118 to a predetermined depth before the caulking agent 160 is cured. (160) refers to the step of pulling out the upper portion, the outside of the junction box mold (M) may be further formed with a film using a lubricant or vinyl to prevent the attachment of the caulking agent (160).

The (c`) caulking refining step refers to a step of removing the caulking agent 160 pushed out to the outside after the molding step (c) using a knife or the like.

The (d) junction box installation step refers to the step of inserting and fixing the junction box 118 in the position where the junction box mold (M) is missing, as shown in FIG.

The (e) cell connecting line connecting step refers to a step of connecting the cell connecting line 116 to the junction box 118, as shown in Figure 4 (e),

The (e`) maintenance step refers to a step of maintaining the top of the cell connection line 116 with a coating or a tape after the (e) cell connection line connection step.

3. Easy to repair Multifunctional BIPV Curtain Wall System

7 is a horizontal cross-sectional view of the easy-to-repair multifunctional BIPV curtain wall system of the present invention vertically cut, Figure 8 is a vertical cross-sectional view of the easy-to-repair multifunctional BIPV curtain wall system of the present invention horizontally This is a vertical cross section view.

The versatile BIPV curtain wall system of the present invention can be easily repaired in a BIPV curtain wall system.

A horizontal frame body 210 having a shape of lying down a tube, a horizontal cap fixing unit 230 installed at the front of the horizontal frame body 210, and a unit vertical inserting unit 242 formed at the front of the horizontal cap fixing unit 230. Horizontal frame outer cap fixing plate 240, a horizontal frame comprising a horizontal frame outer cap 250 is fastened in a removable structure to the horizontal frame outer cap fixing plate 240 to form a horizontal wiring portion 222 Part 200;

A vertical frame body 310 having a shape of a square tube, a vertical cap holder 330 installed at the front of the vertical frame body 310, and a unit horizontal inserting part 342 formed at the front of the vertical cap holder 330. Vertical frame outer cap fixing plate 340, the vertical frame is configured to include a vertical frame outer cap 350 is fastened in a removable structure to the vertical frame outer cap fixing plate 340 to form a vertical wiring portion 322 Part 300; And,

A multilayer glass structure unit (100) to which the solar cell module is inserted and installed in the unit vertical insertion unit 242 and the unit horizontal insertion unit 342;

It is configured to include, but the horizontal frame portion 200 is coupled to the side of the vertical frame portion 300 to remove the horizontal frame outer cap 250 and the vertical frame outer cap 350 horizontal wiring ( HW) and the vertical wiring (VW) are all exposed.

The multilayer glass structure unit 100 is bonded to the horizontal frame portion 200 and the vertical frame portion 300 by using a conventional gasket, sealant, etc. together with the conventional waterproofing and heat insulating treatment.

Therefore, unlike the prior art shown in Figures 5 and 6 in the present invention, as shown in Figures 7 and 8, the vertical wiring (VW) is exposed in the vertical wiring portion 322, the construction is simple and easy to maintain the advantages There is this.

In addition, at least one of the horizontal frame outer cap fixing plate 240 and the vertical frame outer cap fixing plate 340 is further formed with a holder rail (HR) and the horizontal wiring (HW) or vertical wiring (VW) on the holder rail (HR) Holder (HD) that can be fixed may be further configured.

In the present invention, all of the members may be fastened in a conventional manner using a screw or the like, or a conventional method such as fabricating and fitting a contact portion of each member into a corresponding shape may be used.

In conclusion, the multilayer glass structure unit to which the solar cell module of the present invention is applied has a low risk of breakage in the manufacturing and construction process because the junction box 118 is not protruded, and thus there is no protruding portion, so that even unskilled pores are easily detachable. In addition, since there is no protruding portion, there is an advantage of improving the structure of the frame of the curtain wall system to a simple structure.

In addition, the multifunctional BIPV curtain wall system, which is easy to repair, of the present invention can expose both horizontal wiring and vertical wiring at the construction and maintenance stages with a simple structure, so that repair is easy and unskilled construction can be easily performed, thereby reducing air and cost. The advantage is that it is possible.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

PV: Solar Cell Module
B: void
M: Junction Box Mold
100: multilayer glass structure unit with solar cell module
110: module outer glass
112: solar cell
114: glass inside module
116 cell connection line
118: junction box
120: inner glass
140: insulation insulation rod
160: caulking agent
200: horizontal frame portion
210: horizontal frame body
222: horizontal wiring unit
230: horizontal cap holder
240: horizontal frame outer cap fixing plate
242: unit vertical insert
250: horizontal frame outer cap
300: vertical frame portion
310: vertical frame body
322 vertical wiring section
330: vertical cap holder
340: vertical frame outer cap fixing plate
342: unit horizontal insertion unit
350: vertical frame outer cap
HD: Holder
HR: holder rail
HW: Horizontal Wiring
VW: vertical wiring

Claims (4)

In the BIPV curtain wall system,
A horizontal frame body 210 having a shape of lying down a tube, a horizontal cap fixing unit 230 installed at the front of the horizontal frame body 210, and a unit vertical inserting unit 242 formed at the front of the horizontal cap fixing unit 230. Horizontal frame outer cap fixing plate 240, a horizontal frame comprising a horizontal frame outer cap 250 is fastened in a removable structure to the horizontal frame outer cap fixing plate 240 to form a horizontal wiring portion 222 Part 200;
A vertical frame body 310 having a shape of a square tube, a vertical cap holder 330 installed at the front of the vertical frame body 310, and a unit horizontal inserting part 342 formed at the front of the vertical cap holder 330. Vertical frame outer cap fixing plate 340, the vertical frame is configured to include a vertical frame outer cap 350 is fastened in a removable structure to the vertical frame outer cap fixing plate 340 to form a vertical wiring portion 322 Part 300; And,
A multilayer glass structure unit (100) to which the solar cell module is inserted and installed in the unit vertical insertion unit 242 and the unit horizontal insertion unit 342;
Consists of including
The horizontal frame portion 200 is coupled to the side of the vertical frame portion 300 to remove the horizontal frame outer cap 250 and the vertical frame outer cap 350 from the horizontal wiring (HW) and vertical wiring ( Easy-to-repair multifunctional BIPV curtain wall system, characterized in that the entire VW) is exposed.
In claim 1,
At least one of the horizontal frame outer cap fixing plate 240 and the vertical frame outer cap fixing plate 340 is further formed with a holder rail (HR) and the horizontal wiring (HW) or vertical wiring (VW) on the holder rail (HR) Easy-to-repair multifunctional BIPV curtain wall system, characterized in that the holder (HD) is further configured to fix the.
The multilayer glass structure unit 100 to which the solar cell module is applied,
A solar cell module (PV) including a module outer glass 110, a solar cell 112, a module inner glass 114, a cell connection line 116, and a junction box 118 and installed vertically;
An inner glass 120 vertically spaced apart from the module inner glass 114 to form a void (B) between the module inner glass 114 and installed vertically;
The insulating inner rod 140 is installed between the module inner glass 114 and the inner glass 120 spaced apart from the upper, lower, left and right ends of the module inner glass 114 and the inner glass 120 by an interval. ; And,
And a caulking agent (160) injected between the module inner glass (114) and the inner glass (120) and the insulated rod (140).
The junction box 118 is buried in the caulking agent 160 and the cell connection line 116 connecting the solar cell 112 and the junction box 118 closely adheres to the upper portion of the module inner glass 114. Easy-to-repair multifunctional BIPV curtain wall system characterized in that the configuration.
The multilayer glass structure unit 100 to which the solar cell module is applied in claim 2,
A solar cell module (PV) including a module outer glass 110, a solar cell 112, a module inner glass 114, a cell connection line 116, and a junction box 118 and installed vertically;
An inner glass 120 vertically spaced apart from the module inner glass 114 to form a void (B) between the module inner glass 114 and installed vertically;
The insulating inner rod 140 is installed between the module inner glass 114 and the inner glass 120 spaced apart from the upper, lower, left and right ends of the module inner glass 114 and the inner glass 120 by an interval. ; And,
And a caulking agent (160) injected between the module inner glass (114) and the inner glass (120) and the insulated rod (140).
The junction box 118 is buried in the caulking agent 160 and the cell connection line 116 connecting the solar cell 112 and the junction box 118 closely adheres to the upper portion of the module inner glass 114. Easy-to-repair multifunctional BIPV curtain wall system characterized in that the configuration.

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