KR102288044B1 - Curtain wall system - Google Patents

Abstract

The present invention has a simple structure in which the heat insulating member and the molding member are assembled in close contact so that they can be installed in the pockets on one end of the vertical and horizontal tee-type bars, so that the heat insulation performance is improved, the external exposure is blocked, the appearance is improved, and the glass bearing capacity We provide an exposed curtain wall system that can be raised to one level. Exposed curtain wall system according to a suitable embodiment of the present invention, a vertical tee-type bar supported on the floor or beam of the structure and installed in the vertical direction at regular intervals; a vertical insulating material inserted into one end of the vertical tee-shaped bar to block mutual heat transfer between the vertical tee-shaped bar and the vertical molding member; a vertical molding member inserted into the vertical insulating material and fixed to the vertical tee-type bar by screw fastening to support the glass; a horizontal tee-type bar installed horizontally in contact with the vertical tee-type bar at right angles; a horizontal insulating material inserted into one end of the horizontal tee-shaped bar to block mutual thermal shear between the horizontal tee-shaped bar and the horizontal molding member; a horizontal molding member inserted into the horizontal insulating material and fixed to the horizontal tee-type bar by screw fastening to support the glass; It characterized in that it includes; a glass support that one end is coupled to the horizontal molding member to support the glass from below.

Description

Exposed curtain wall system {Curtain wall system}

The present invention relates to an exposed curtain wall system, and in particular, the heat insulation member and the molding member are assembled in close contact with a simple structure so that they can be installed in the pockets of one end of the vertical and horizontal tee-type bars, so that the insulation performance is improved, and the external exposure is reduced It relates to an exposed curtain wall system that improves the appearance by blocking, increases the bearing capacity of glass, and improves the structural safety of the joint by absorbing wind load and vibration.

Curtain wall refers to a film-like wall that hardly receives loads other than its own weight. In other words, in a structure that supports the vertical load applied to the building and the horizontal load caused by wind or earthquake only with the frame of the main structure of the building, such as columns and beams, the wall serves only as a curtain to block the space, so such a wall is called a curtain wall. Recently, curtain walls not only block rain or wind from the outside, but also block noise and heat.

As the background technology of the present invention related to thermal insulation in a curtain wall, a 'curtain wall structure' is proposed as Korean Patent Registration No. 10-1546471. This is a curtain wall structure installed based on the vertical frame and the horizontal frame, the insulation bracket coupled to one end of the vertical frame; an adapter having one side coupled to the bracket and a glass coupled therein; It is configured to include a cover for covering the adapter from the outside, and the inside of the insulation bracket is characterized in that it is formed in a hollow hollow. However, since the background art has a structure in which the fastening piece is exposed, a cover must be installed for aesthetics. In addition, it is necessary to increase the supporting force because the glass is installed spaced apart from the insulating bracket by the protrusion of the fixed frame and the rear seal member. In addition, there is a disadvantage in that the structure of the adapter including the intermediate seal member is complicated to have a thermal insulation structure.

As another background technology of the present invention, as Korean Patent Laid-Open Publication No. 10-2018-0048168, 'a vertical fixing device for a glass panel module for a steel curtain wall' is proposed. This is to improve work efficiency by installing the glass panel module for curtain wall on the iron frame, but not installing a separate frame between the two fixed glass panel modules, and by enabling stable installation as well as sealing. However, the background art has a disadvantage in that the construction cost increases because a lot of components such as a vertical fixing frame, a vertical fixing member, the first and second vertical internal gaskets and a glass panel are used.

Korean Patent Registration No. 10-1546471 Korean Patent Publication No. 10-2018-0048168

The present invention has a simple structure in which the heat insulating member and the molding member are assembled in close contact so that they can be installed in the pockets on one end of the vertical and horizontal tee-type bars, so that the heat insulation performance is improved, the external exposure is blocked, the appearance is improved, and the glass bearing capacity It is an object of the present invention to provide an exposed curtain wall system that can increase the structural safety of the joint by absorbing wind loads and vibrations.

Exposed curtain wall system according to a suitable embodiment of the present invention, in the exposed curtain wall system in which the glass is installed on the structure, the vertical tee-type bar and ; a vertical insulating material inserted into one end of the vertical tee-shaped bar to block mutual heat transfer between the vertical tee-shaped bar and the vertical molding member; a vertical molding member inserted into the vertical insulator and fixed to the vertical tee-type bar by screw fastening to support the glass; a vertical gasket support installed on the outside of the glass through screw coupling to the vertical molding member; a vertical rubber gasket that is fitted on both sides of the inner surface of the vertical gasket support and is in close contact with the outer surface of the glass; a vertical closing cover elastically attached to the vertical gasket support; a horizontal tee-type bar installed horizontally in contact with the vertical tee-type bar at right angles; a horizontal insulating material inserted into one end of the horizontal tee-shaped bar to block mutual thermal shear between the horizontal tee-shaped bar and the horizontal molding member; a horizontal molding member inserted into the horizontal insulating material and fixed to the horizontal tee-type bar by screw fastening to support the glass; a horizontal gasket support installed on the outside of the glass through screw coupling to the horizontal molding member; a horizontal rubber gasket which is fitted on both sides of the inner surface of the horizontal gasket support and is in close contact with the outer surface of the glass; and a horizontal closing cover elastically coupled to the horizontal gasket support.

In addition, glass is bonded to the vertical molding member and the horizontal molding member through a temporary fixing tape, respectively, and structural caulking is formed along the inner circumference where the temporary fixing tape and the glass are in contact.

In addition, each of the vertical tee-type bar and the horizontal tee-type bar is formed with a T-shaped space inside by roll forming a steel plate, and a storage pocket for installing the insulation material that is recessed by a predetermined depth inward to position the vertical insulation material at one end is formed. characterized.

In addition, the vertical insulation material and the horizontal insulation material have the same structure and each has a molding coupling groove recessed in the center, a side coupling portion formed at both ends and contacting a storage pocket for installing the insulation material, and a reinforcing rib protruding to one side. It is characterized in that the width is configured to be the same as the depth of the storage pocket for installing the insulating material.

In addition, the vertical tee-type bar consists of a vertical tee-type bar head having a storage pocket for installation of an insulating material that is recessed by a predetermined depth inward by roll forming a steel plate, and a vertical tee-type bar connecting rod joined to the center of the rear surface of the vertical tee-type bar head. It is characterized in that it is a hybrid form.

In addition, the vertical and horizontal molding member has a vertical and horizontal connecting plate that faces the vertical and horizontal insulating material, a heat-crossing insulating material filling space having an opening with a bulkhead therebetween, and a reinforcing hollow part are formed in the center of the vertical and horizontal connecting plate It is characterized in that it is composed of a gasket support connecting angular tube projecting integrally to the pole, and is installed in a divided structure by a heat-cross-blocking cutout after the heat-crossing insulating material is filled in the heat-crossing insulating material filling space through the opening.

In addition, the vertical and horizontal gasket support is formed with a rubber gasket coupling groove for installing the vertical rubber gasket on both sides of the vertical molding member coupling groove and the vertical molding member coupling groove disposed in the center to be supported on the vertical and horizontal insulation material on one side. , it is characterized in that the finishing cover binding jaws for binding the finishing cover to both sides are formed.

According to the exposed curtain wall system of the present invention, the insulation member and the molding member are assembled in close contact with a simple structure and installed in a state stored in the pocket on one end of the vertical and horizontal tee-type bar, so that the external exposure of the molding member is blocked and the appearance is improved. is improved

In addition, an insulating member is installed between the tee-shaped bar and the molding member to block the flow of the thermal bridge, thereby improving the insulating performance.

In addition, since the molding member is installed on the same line with the one end surface of the tee-shaped bar and the glass is disposed close to the end side of the tee-shaped bar, the supporting force of the glass can be further increased.

In addition, wind load and vibration absorption are possible and structural safety of the joint is improved by the thermal insulation material filled in the vertical and horizontal molding members and the rubber gasket installed on the vertical and horizontal gasket supports.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings It should not be construed as being limited.
1 is a perspective view of an exposed curtain wall system according to an embodiment of the present invention.
Fig. 2 is a cross-sectional view taken along line AA of Fig. 1;
3 is an exploded view of the vertical tee-type bar, the vertical insulation material, the vertical molding member, the vertical gasket support, the vertical closing cover and the vertical rubber gasket shown in FIG.
Fig. 4 is a cross-sectional view taken along line BB of Fig. 1;
5 is an exploded view of the horizontal tee-type bar, the horizontal insulation material, the horizontal molding member, the horizontal gasket supporter, the horizontal finish cover and the horizontal rubber gasket shown in FIG.
Figure 6 is a modified installation state of the vertical tee-type bar according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

The exposed curtain wall system according to the present invention is supported on the floor or beam of the structure 10 as shown in FIGS. 1 to 6 and the vertical tee-type bar 20 is installed in the vertical direction at regular intervals. The vertical tee-type bar 20 is installed by being fixed to a bracket (not shown) installed on the structure 10 .

At one end of the vertical tee-shaped bar 20 , the vertical insulating material 22 and the vertical molding member 24 are accommodated and installed. As described above, since the vertical insulating material 22 and the vertical molding member 24 are installed at one end of the vertical tee-type bar 20 in a receiving form, the protruding structure can be avoided. Therefore, the glass 50 is installed close to one end of the vertical tee-shaped bar 20, it is possible to increase the supporting force. In the present embodiment, the glass 50 is applied as an example multi-layer glass.

The vertical tee-type bar 20 has a T-shaped space 201 formed inside by roll forming a steel plate, and is recessed by a predetermined depth (h) inward to position the vertical insulation 22 at one end. A pocket 202 is formed.

The vertical insulating material 22 is inserted and accommodated in the storage pocket 202 for installing the one end side of the vertical tee-shaped bar 20 to block the mutual heat transfer between the vertical tee-shaped bar 20 and the vertical molding member 24 . The vertical insulating material 22 has a molding fastening groove 221 recessed in the center, a side fastening part 222 formed at both ends and in contact with the receiving pocket 202 for installing the insulating material, and a reinforcing rib 223 protruding to one side. . At this time, the width (w) of the side fastening portion 222 is configured to be the same as the depth (h) of the storage pocket 202 for installing the heat insulating material.

The vertical molding member 24 is inserted in close contact with the vertical insulating material 22 and fastened with screws 23 to be fixedly installed on the vertical tee-shaped bar 20 to support the glass 50 . The vertical molding member 24 is composed of a vertical connecting plate 241 that faces the vertical insulating material 22 , and a gasket support connecting tube 242 integrally protruding from the center of the vertical connecting plate 241 . At this time, the gasket support connecting tube 242 is provided with a heat-crossing insulating material filling space 243 having an opening 243a with the bulkhead 242 interposed therebetween and a reinforcing hollow part 244 . After the heat-crossing insulation material filling space 243 is filled with the heat-crossing insulation material S1 (trade name: AZON) through the opening 243a, a part of the opposite side of the opening 243a is cut off to cut the heat cross-cutting portion 243b ) is formed. Therefore, although the vertical molding member 24 is divided by the opening 243a and the cutout 243b for thermal cross-cutting, it has a structure connected by the thermal-crossing insulating material S1. As described above, since the vertical molding member 24 has a structure connected by the heat cross-blocking insulating material S1 in a divided form, the thermal cross-blocking is maximized, thereby further enhancing the thermal insulation effect. Of course, the wind load and vibration applied to the glass 50 is absorbed by the heat-crossing insulating material (S1). As such, the vertical molding member 24 has a reinforcing hollow part 244 formed therein, which is advantageous for reinforcement and light weight. And by absorbing vibration energy, the structural safety of the joint is improved.

A vertical gasket support 26 is installed on the outside of the glass 50 through screw coupling to the vertical molding member 24 . The vertical gasket support 26 is connected and fixed to the gasket support connecting tube 242 on the vertical molding member 24 side through the screw 27 coupling. The vertical gasket support 26 has rubber gasket coupling grooves 262 and 262 formed on both sides of the vertical molding member coupling groove 261 and the vertical molding member coupling groove 261 disposed in the center on one side, and finishing cover fixing jaws on both sides. (263,263) is formed.

Vertical rubber gaskets 28 and 28 are fitted into the rubber gasket coupling grooves 262 and 262 of the vertical gasket support 26, respectively. Therefore, when the vertical gasket support 26 is connected and fixed to the vertical molding member 24 side through the screw 27 coupling, the vertical rubber gaskets 28 and 28 are in close contact with the outer surfaces of the glass 50 and 50 to ensure watertightness and airtightness. Of course, it absorbs vibration energy and increases the structural safety of the joint.

The vertical closing cover 29 is elastically attached to the vertical gasket support 26 and installed. The vertical closing cover 29 has locking projections 291 that are fastened to the finishing cover fixing projections 263 of the vertical gasket support 26 inside both ends.

A horizontal tee-type bar 30 is installed horizontally in contact with the vertical tee-type bar 20 at right angles. At one end of the horizontal tee-shaped bar 30 , a horizontal insulating material 32 , a horizontal molding member 34 and a glass support 36 are installed.

4 and 5 , the horizontal tee-type bar 30 has the same structure as the vertical tee-type bar 20 . That is, the horizontal tee-shaped bar 30 is formed by roll forming a steel plate to form a T-shaped space 301 inside, and an insulating material that is recessed by a certain depth (h) inward to position the horizontal insulating material 32 at one end. A storage pocket 302 for installation is formed.

The horizontal insulating material 32 is inserted and accommodated in the receiving pocket 302 for installing the one end side of the horizontal tee-shaped bar 30 to block the mutual thermal shear between the horizontal tee-shaped bar 30 and the horizontal molding member 34. . The horizontal insulating material 32 has the same structure as the vertical insulating material 22 . That is, the horizontal insulating material 32 has a molding fastening groove 321 recessed in the center, a side fastening part 322 formed at both ends and in contact with the receiving pocket 302 for installing an insulating material, and a reinforcing rib 323 protruding to one side. has At this time, the width (w) of the side fastening portion 322 is configured to be the same as the depth (h) of the storage pocket 302 for installing the heat insulating material.

The horizontal molding member 34 is inserted into the horizontal insulating material 32 and fixed to the horizontal tee-type bar 30 by fastening screws 33 and installed. The horizontal molding member 34 faces the horizontal insulating material 32 and the horizontal connecting plate 341 having a glass support support and fastening groove 341a, and the gasket support connecting pipe ( 342). At this time, the gasket support connecting pipe 342 is provided with a heat-crossing insulating material filling space 343 and a reinforcing hollow part 344 having an opening 343a with the bulkhead 345 interposed therebetween.

A horizontal gasket support 36 is installed on the outside of the glass 50 through screw coupling to the horizontal molding member 34 . The horizontal gasket support 36 has the same structure as the vertical gasket support 26 . The horizontal gasket support 36 is connected and fixed to the gasket support connecting pipe 342 on the horizontal molding member 34 side through the screw 37 coupling. The horizontal gasket support 36 has rubber gasket coupling grooves 362 and 362 on both sides of the vertical molding member coupling groove 361 and the vertical molding member coupling groove 361 disposed in the center on one side, and the finishing cover fixing jaws on both sides. (363,363) is formed.

Horizontal rubber gaskets 38 and 38 are fitted on both sides of the inner surface of the horizontal gasket support 36, respectively. The horizontal rubber gaskets 38 and 38 are installed on the horizontal gasket support 36 so as to be in close contact with the outer surfaces of the glasses 50 and 50 .

Here, since the horizontal molding member 34 and the horizontal rubber gaskets 38 and 38 exhibit the same functional effects as the aforementioned vertical molding member 24 and the vertical rubber gaskets 38 and 38, detailed operation descriptions will be omitted.

A horizontal closing cover 39 is elastically attached to the horizontal gasket support 36 and installed. The horizontal closing cover 39 has locking projections 391 that are fastened to the closing cover fixing projections 363 of the horizontal gasket support 36 inside both ends and is bonded to the horizontal gasket support 36 .

On the other hand, as shown in Figs. 2 and 4, the glass 50 is bonded to the vertical molding member 24 and the horizontal molding member 34 via the temporary fixing tapes 25 and 35, respectively. Accordingly, the glass 50 is supported by the vertical molding member 24 and the horizontal molding member 34 via the temporary fixing tapes 25 and 35 . Thereafter, a silicone heat-blocking insulating material is applied along the inner circumference where the temporary fixing tapes 25 and 35 and the glass 50 are in contact, so that the structural caulking 52 is constructed.

As such, in the exposed curtain wall system of the present invention, between the vertical insulating material 22 installed between the vertical tee-type bar 20 and the vertical molding member 24 and the horizontal tee-type bar 30 and the horizontal molding member 34 . The thermal bridge flow is blocked by the installed horizontal insulating material 32, thereby improving the insulation performance of the curtain wall.

In addition, since the vertical insulating material 22 and the horizontal insulating material 32 are constructed so as not to be exposed to the outside by the vertical molding member 24 and the horizontal molding member 34, respectively, the aesthetics is improved.

In addition, wind load and vibration energy can be absorbed by the thermal cross-blocking insulating materials S1 and S2 filled in the vertical molding member 24 and the horizontal molding member 34, and the vertical gasket support 26 and the horizontal gasket support 36 ), the vibration energy is absorbed by the vertical rubber gaskets 28 and 38 installed in it, and the overall structural safety of the joint is improved.

On the other hand, the vertical tee-type bar 20 applied to the present invention is another embodiment, as shown in FIG. 6 , a storage pocket 201 for installing an insulating material that is recessed by a predetermined depth (h) inward by roll forming a steel plate to increase structural performance. The formed vertical tee-type bar head 20a and the vertical tee-type bar head 20a may be configured in a hybrid form including a vertical tee-type bar connecting rod 20b bonded to the center of the rear surface.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such variations and modifications, but only by the claims appended hereto.

20: vertical tee bar
22: vertical insulation
24: vertical molding member
26: vertical gasket support
28: vertical rubber gasket
29: vertical end cover
30: horizontal tee bar
32: horizontal insulation
34: horizontal molding member
36: horizontal gasket support
38: horizontal rubber gasket
39: horizontal finish cover

Claims (7)

In the exposed curtain wall system in which the glass 50 is constructed on the structure 10,
a vertical tee-type bar 20 supported on the floor or beam of the structure 10 and installed in the vertical direction at regular intervals; a vertical insulating material 22 inserted into one end of the vertical tee-shaped bar 20 to block mutual heat transfer between the vertical tee-shaped bar 20 and the vertical molding member 24; a vertical molding member 24 inserted into the vertical insulating material 22 and fixedly installed to the vertical tee-type bar 20 by screw fastening to support the glass 50; a vertical gasket support 26 installed on the outside of the glass 50 through screw coupling to the vertical molding member 24; vertical rubber gaskets 28 and 28 that are fitted on both sides of the inner surface of the vertical gasket support 26 and are in close contact with the outer surfaces of the glasses 50 and 50; a vertical closing cover (29) elastically attached to the vertical gasket support (26);
a horizontal tee-type bar 30 installed horizontally in contact with the vertical tee-type bar 20 at a right angle; a horizontal insulating material 32 inserted into one end of the horizontal tee-shaped bar 30 to block mutual thermal shear between the horizontal tee-shaped bar 30 and the horizontal molding member 34; a horizontal molding member (34) inserted into the horizontal insulating material (32) and fixed to the horizontal tee-shaped bar (30) by screw fastening to support the glass (50); a horizontal gasket support 36 installed on the outside of the glass 50 through screw coupling to the horizontal molding member 34; horizontal rubber gaskets 38 and 38 that are fitted on both sides of the inner surface of the horizontal gasket support 36 and are in close contact with the outer surfaces of the glass 50 and 50; and a horizontal closing cover (39) elastically attached to the horizontal gasket support (36);
Each of the vertical tee-type bar 20 and the horizontal tee-type bar 30 is recessed by a predetermined depth (h) inward to position the vertical insulation material 22 and the horizontal insulation material 32 by roll-forming steel plates, and a storage pocket for installing the insulation material (202, 302) is formed, and the vertical and horizontal insulation materials (22, 32) and the vertical and horizontal molding members (24, 34) are accommodated in the storage pockets (202, 302) for installing the insulation,
The vertical and horizontal molding members 24 and 34 are thermal bridges having openings 243a and 343a with vertical and horizontal connecting plates 241 and 341 and bulkheads 242 and 342 interposed between the vertical and horizontal insulating materials 22 and 32. The blocking insulation filling space parts 243, 343 and the reinforcing hollow parts 244 and 344 are formed so as to be integrally protruded from the center of the vertical and horizontal connecting plates 241 and 341. It is composed of a gasket support connecting pipe 242, 342, but openings 243a and 343a. Exposed curtain wall system, characterized in that it is installed in a structure divided by the cutout for thermal cross-cutting (243b) after the thermal-cross-blocking insulating material (S1) is filled in the thermal-crossing insulating material filling space (243, 343) through the. The method of claim 1,
Glass 50 is bonded to the vertical molding member 24 and the horizontal molding member 34 via temporary fixing tapes 25 and 35, respectively, and temporary fixing tapes 25 and 35 and glass 50 Exposed curtain wall system, characterized in that the structural caulking (52) is formed along the inner circumference of the temporary contact. The method of claim 1,
The vertical tee-shaped bar 20 and the horizontal tee-shaped bar 30 are each formed by roll forming a steel plate to form T-shaped spaces 201 and 301 inside, and at one end to position the vertical insulation 22 at a certain depth inward ( Exposed curtain wall system, characterized in that the storage pockets (202, 302) for installing the insulating material that are recessed as much as h) are formed. 4. The method of claim 3,
The vertical insulating material 22 and the horizontal insulating material 32 have the same structure and are respectively recessed in the center of the molding fastening grooves 221 and 321, the side fastening portions 222, 322 formed at both ends and in contact with the receiving pockets 202 and 302 for installing the insulating material, Exposed curtain wall system, characterized in that it has reinforcing ribs (223, 323) protruding to one side, and the width (w) of the side fastening parts (222, 322) is the same as the depth (h) of the storage pocket for installing the insulator. The method of claim 1,
The vertical tee-type bar 20 includes a vertical tee-type bar head 20a, a vertical tee-type bar head 20a, in which a storage pocket 201 for installing an insulation material is formed by roll forming a steel plate and recessed inward by a predetermined depth (h). Exposed curtain wall system, characterized in that it is a hybrid type consisting of a vertical tee-type bar connecting rod (20b) joined to the center of the rear surface of the. delete The method of claim 1,
The vertical and horizontal gasket supports 26 and 36 are on both sides of the vertical molding member coupling grooves 261 and 361 and the vertical molding member coupling grooves 261 and 361 disposed in the center to be supported by the vertical and horizontal insulating materials 22 and 32 on one side. Rubber gasket coupling grooves 262 and 362 for installing the vertical rubber gaskets 28 and 38 are formed, and finishing cover fixing jaws 263 and 363 for fixing the closing covers 29 and 39 are formed on both sides. exposed curtain wall system.

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