KR101468003B1 - Reinforcement and insulation structure for curtain wall - Google Patents

Abstract

The present invention a reinforcement and insulation structure of a curtain wall having strength reinforced by a frame of steel and aluminum, and having a thermal insertion effect due to tight coupling of components. According to a curtain wall of the related art, since a frame is formed of one material, strength is low, and since a space is generated at the coupling portion of components, a thermal insertion effect is low. In order to solve this problem, the present invention provides a reinforcement and insulation structure of a curtain wall having double-glazed glass provided on the front surfaces of vertical frames and horizontal frames. In the reinforcement and insulation structure, the vertical frames and the horizontal frames each include an inner material composed of steel, an outer material composed of aluminum and connected to the outer side of the inner material, and an intermediate material composed of polyethylene and interposed between the inner material and the outer material. Therefore, according to the present invention, since the vertical frames and the horizontal frames include the inner materials of steel and the outer materials of aluminum, a supporting force against a load is improved, and since the intermediate materials of polyethylene firmly connect the inner materials and the outer materials, thermal insulation and adhesive strength are improved. Also, a shielding member and a cover insulation material seal a space between the double-glazed glass and the frames and a space between a plate and a cover.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a curtain wall,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a curtain wall using glass, and more particularly, to a reinforcing and insulating structure of a curtain wall which reinforces strength by using a frame made of steel and aluminum and enhances a heat insulating effect by tight coupling between parts.

In general, a curtain wall is a non-proof wall of a building that protects the occupants from the outside environment without supporting the load of the building. The horizontal load caused by the vertical load applied to the building and the wind or earthquake is supported by the frame made of column and beam, where the curtain wall acts as a curtain to protect the occupants in the building from the outside environment.

These curtain walls are largely divided into a stick type and a unitized type according to the construction method. The stick type is applied to the lower layer mainly by assembling the members in the field. On the other hand, a unit type is mainly applied to a high-level part by assembling each member at a factory and transporting it to a site.

On the other hand, materials such as stainless steel, aluminum, bronze and the like are also used as the material of the curtain wall, but in recent years, the use of glass has also been increasing. The glass curtain wall not only transforms the exterior image of the building into a modern one, but also has the advantage of making the inside of the building better.

As shown in FIG. 1, a conventional curtain wall is a curtain wall using a glass. The curtain wall is a structure in which frames such as the vertical frame 1 and the horizontal frame 2 are spaced apart from each other at regular intervals And an anchor bolt is welded and integrally joined to form an anchor bolt at a specific portion of the frame. When the anchor bolt is fixed to the frame, a predetermined portion of the multilayer glass 3 is punctured to fix the multilayer glass 3 back to the anchor bolt, and is coupled to the anchor bolt.

The material of the frame is mainly aluminum, which is due to the light workability of the aluminum and the good workability that can be processed into complicated sections. However, aluminum is expensive compared to steel, has low heat insulation and fire resistance, and has a stiffness of about 1/3 of steel. Therefore, when aluminum is used, the size of the frame is inevitably enlarged.

On the other hand, the use of steel in frames has been increasing in accordance with the demand for large-sized glass surfaces, heat insulation performance and fire resistance performance improvement. The frame made of steel has various advantages such as excellent rigidity, improvement of structural performance, low heat transfer rate and excellent heat insulation and fire resistance, but it causes a serious problem of corrosion in the frame. Thus, despite the many advantages of conventional curtain walls, the use of steel frames made of steel has been counteracted since it causes fatal corrosion problems.

As described above, since steel and aluminum have opposite ends and ends, respectively, conventionally, the frame is composed of only one material. Even if a composite material is applied, different materials are applied only to a very limited portion, There is a problem that the advantages of the present invention can not be maximized.

1, the conventional curtain wall is provided with a heat insulating material 4 and a fixing member 5 in order, between the front surface of the vertical frame 1 and two double-layered glass members 3, The plate 6 is coupled by the bolt B and the cover 7 is coupled to the upper side of the plate 6 to seal the space.

However, such a closed structure has a problem in that the space is not formed in the process of joining the fixture 5, the plate 6, and the cover 7, so that the tight seal is not achieved and the effect of heat insulation is deteriorated.

It is an object of the present invention to provide a reinforcement and a thermal insulation structure of a curtain wall capable of reinforcing a supporting force against a load of a building by constituting a frame with a plurality of materials having different characteristics.

Another object of the present invention is to provide a reinforcing and insulating structure of a curtain wall having an improved heat insulating effect by sealing a space generated in the process of joining parts more closely.

The reinforcing and heat insulating structure of a curtain wall according to the present invention is a curtain wall in which a vertical frame and a horizontal frame are combined with a double-layer glass on the front surface thereof, wherein the vertical frame and the horizontal frame are made of steel, An outer member made of aluminum and an intermediate member made of polyethylene bonded between the inner member and the outer member.

According to the reinforcing and insulating structure of the curtain wall according to the present invention, the vertical frame and the horizontal frame are composed of the inner member of steel and the outer member of aluminum, thereby reinforcing the supporting force against the load of the building, Tightly joining the ashes to improve heat insulation and adhesion.

In addition, there is an advantage that the heat insulating effect is increased by closely sealing the space generated between the multilayer glass and the frame, the plate and the cover by the blocking member and the cover insulating material.

1 is a plan sectional view showing a conventional curtain wall.
2 is a plan sectional view showing a curtain wall of the present invention.
3 is a plan sectional view showing an inner member of the present invention.
4 is a plan sectional view showing a process of joining a plate, a cover insulation, and a cover according to the present invention.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The curtain wall of the present invention includes a plurality of vertical frames 100 vertically coupled to each other at right and left intervals as shown in FIG. 2, and a plurality of horizontal A frame 200 and a plurality of multi-layer glasses 40 coupled to the front surface of the vertical frame 100.

The vertical frame 100 includes an inner member 10 made of steel, an outer member 20 connected to the outer side of the inner member 10 and made of aluminum, And an intermediate member (30) that is coupled between the outer member (20).

The inner member 10 is formed by bending a steel plate having a predetermined thickness at right angles and is formed into a shape of approximately 'I' in cross section, and both ends are joined by welding without welding by roll forming.

As shown in FIG. 3, the inner member 10 is formed with a pair of opposed convex portions 11, and a concave portion 12 is formed between the convex portions 11.

The convex portion 11 and the concave portion 12 are formed so as to support the vertical load of the building as much as possible by reinforcing the strength.

The outer member 20 is made of aluminum having a predetermined thickness and is bonded to the outer side of the inner member 10 to improve the strength and heat insulation of the vertical frame 100. An outer surface of the outer member 20 is anodized , Fluorine treatment, powder coating, and the like.

The intermediate member 30 coupled between the inner member 10 and the outer member 20 is made of polyethylene and is intended to increase the heat insulation, adhesive strength and smoothness.

That is, the surface of the inner member 10 is made of a non-smooth steel and is not tightly coupled with the outer member 20 made of aluminum, thereby deteriorating the adiabatic effect, adhesive strength, and smoothness.

Therefore, by joining the intermediate member 30 made of polyethylene between the inner member 10 and the outer member 20, it is possible to make a firm connection and to increase the heat insulating property by tight sealing.

It goes without saying that the constitution of the inner member 10, the outer member 20 and the intermediate member 30 is not limited to the configuration of the vertical frame 100 shown in the drawings but also to the configuration of the horizontal frame 200. [

A blocking member 50 is coupled between the front surface of the vertical frame 100 and the two multilayer glasses 40 by a bolt B. The blocking member 50 is formed of two layers of glass 40, The space formed between the frames is closely sealed together with the finishing material bonded to both sides to perform heat insulation.

The blocking member 50 is made of polyamide. Polyamide (PA) is commonly known as "nylon ", and has a very large number of types depending on its molecular structure. It is widely used for fiber but it is also used for plastic molding. It is good in quality and heat resistance, and it is used mainly for automobile wheelcap, air cleaner, engine cover and so on.

A plate 60 is coupled to the front surface of the blocking member 50 by a bolt B and a cover 80 is coupled to a front surface of the plate 60 together with a cover insulating material 70, The cover 60 and the cover 80 are formed by extruding aluminum to prevent corrosion by moisture.

4, a pair of latching protrusions 61 are formed on the plate 60. A latching protrusion 62 for fixing the plate 60 is formed on the back surface of the latching protrusion 61, Respectively.

The cover insulator 70 is made of polyamide and has an engaging space 71 formed inside the engaging space 71 so that the engaging protrusion 61 can be inserted and fixed therein. And a fastening part 72 is formed so that the fastening protrusion 62 of the plate 60 can be closely contacted and fixed.

The engaging space 71 is open at one side so that the engaging protrusion 61 can be inserted. The inclined portion 73 is formed at the opening side of the engaging space 71 so that the engaging protrusion 61 can be easily inserted and fixed by sliding. Respectively.

An insertion space 81 into which a locking protrusion 61 and a cover insulation 70 are inserted is formed on the back surface of the cover 80 at an interval and a cover insulator 70 A pair of fixing protrusions 82 are formed to face each other.

The plate 60, the cover insulating material 70 and the cover 80 are tightly coupled to the front surface of the blocking member 50 to seal the space formed between the two multi-layered glass plates 40. The plate 60 The cover insulator 70 is tightly inserted into the insertion space 81 of the cover 80. The cover insulator 70 is inserted into the inserting space 81 of the cover 80,

Therefore, the space formed in the process of engaging the plate 60 and the cover 80 can be closely intercepted by the cover insulating material 70, thereby increasing the heat insulating effect.

The vertical frame 100 and the horizontal frame 200 constituting a curtain wall are constituted by an inner member 10 made of steel and an outer member 20 made of aluminum so that the supporting force against the load of the building is reinforced. The inner member 30 and the outer member 20 are tightly coupled to each other to improve the heat insulation and the adhesive strength.

It is also advantageous that the heat insulating effect is increased by sealing the spaces generated between the multilayer glass 40 and the frame, the plate 60 and the cover 80 tightly by the blocking member 50 and the cover insulating member 70.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. will be.

10: Inner member 11:
12: concave portion 20: outer member
30: intermediate material 40: multilayer glass
50: blocking member 60: plate
61: stopper 62: stopper
70: Cover insulation 71:
72: tight contact portion 73: inclined portion
80: Cover 81: Insertion space
82: Fixing projection 100: Vertical frame
200: Horizontal frame B: Bolt

Claims (4)

In a curtain wall in which a double-layer glass is joined to the front of a vertical frame and a horizontal frame,
The vertical frame 100 and the horizontal frame 200
An inner member 10 made of steel; An outer member 20 joined to the outside of the inner member 10 and made of aluminum; An intermediate member 30 connected between the inner member 10 and the outer member 20 and made of polyethylene;
And a reinforcing and insulating structure of the curtain wall.
The method according to claim 1,
The inner member 10 comprises a convex portion 11 formed to face each other with a space therebetween and a concave portion 12 formed between the convex portions 11,
Wherein the cross-sectional shape of the curtain wall is a " I " shape so as to reinforce the strength.
The method according to claim 1,
A shielding member 50 is coupled between the front surface of the vertical frame 100 and the multilayer glass and a plate 60, a cover insulating material 70, and a cover 80 are coupled to the front surface of the shielding member 50 Wherein the reinforcing and insulating structure of the curtain walls is characterized in that
The method of claim 3,
A plurality of locking protrusions 61 are formed on the plate 60. The locking protrusions 61 are engaged with the engaging space 71 formed in the cover insulator 70. The cover insulator 70 covers the cover 80 Is inserted into the insertion space (81) formed in the curtain wall.

Images