KR101557377B1 - Insulation structure for curtain Wall - Google Patents

Abstract

The present invention relates to an insulation structure of a curtain wall capable of increasing an insulation effect by forming multiple air layers by combining multiple cover frames and an insulation member with a vertical frame. A conventional curtain wall has the problem of reducing an insulation effect as tight sealing is not performed due to the extremely simple combination structure of a frame. To achieve the objective of the present invention, according to a curtain wall wherein a multi-layer glass is combined with the front surface of a horizontal frame and a vertical frame, the front end of the vertical frame is combined by a combination member to have a space in right and left with an installation space formed in an inner cover frame, an air layer is formed between the inner cover frame and the vertical frame by sealing an entrance of the installation space by a sealing member, and an air layer is formed between an inner cover frame and an outer cover frame by combining a pair of outer cover frames with both sides of the inner cover frame respectively. The present invention has effects of increasing insulation by forming multiple air layers between frames by tightly combining an inner cover frame and an outer cover frame at regular intervals outside a vertical frame; and increasing insulation by forming an air layer inside by combining a pair of insulation members between a vertical frame and a multi-layer glass.

Description

Insulation structure for curtain wall < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a curtain wall which is a non-structural wall of a building, and more particularly to a curtain wall having a plurality of cover frames and a heat insulating member joined to a vertical frame, will be.

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.

As a material of the curtain wall, materials such as stainless steel, aluminum, and bronze are also used. However, recently, the use of glass is also 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 the frame is increasing according to the demand for the enlargement of the glass surface and the performance demand for improving the heat insulation performance and the refractory performance. 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, the sealing structure is extremely simple because the coupling structure between the vertical frame 1, the horizontal frame 2, and the double-layer glass 3 is extremely simple, so that a gap is formed between the coupled parts, .

It is an object of the present invention to provide a heat insulating structure of a curtain wall in which the gap generated in the process of joining components is more tightly closed and a plurality of air layers are formed to increase the heat insulating effect.

The present invention provides a curtain wall in which a horizontal frame and a vertical frame are combined with a double-layered glass, wherein a tip end of the vertical frame is spaced apart from the installation space formed in the inner cover frame And an inlet of the installation space is sealed by a sealing member to form an air layer between the inner cover frame and the vertical frame, and a pair of outer cover frames are coupled to both sides of the inner cover frame, And an air layer is formed between the outer cover frame and the outer cover frame.

According to the heat insulating structure of the curtain wall according to the present invention, since the inner cover frame and the outer cover frame are tightly coupled with each other at an interval on the outside of the vertical frame, a plurality of air layers are formed between the frames to increase the heat insulation.

Further, by joining a pair of heat insulating members between the vertical frame and the multilayer glass, an air layer is formed on the inner side to increase the heat insulation.

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 partially enlarged view of a curtain wall of the present invention.
4 is a perspective view showing a coupling member of the present invention.
5 is a perspective view showing the heat insulating member of the present invention.

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

As shown in FIG. 2, the curtain wall of the present invention is provided with a horizontal frame 10 made of steel or aluminum in a transverse direction, and a vertical frame 11 made of steel is arranged between the horizontal frames 10 in a longitudinal direction Layer glass 12 is joined to the front surface of the horizontal frame 10 and the vertical frame 11. [

The present invention provides a heat insulating structure for increasing the heat insulating effect by shutting off the cold air introduced from the outside by forming a plurality of air layers between the parts, .

To this end, an inner cover frame 20 and an outer cover frame 40 are coupled to the outside of the vertical frame 11, and a heat insulating member 50 is coupled between the vertical frame 11 and the multilayer glass 12 .

The inner cover frame 20 and the outer cover frame 40 are made of aluminum. The inner cover frame 20 is formed in a substantially 'C' shape as shown in FIG. 3, And a mounting space 21 is formed in the mounting space 21 so that the front end of the mounting portion 21 can be inserted.

A pair of coupling grooves 22, which are bent outward, are formed symmetrically on one side of the inner cover frame 20, and a pair of coupling projections 23 are formed symmetrically on the other side.

A pair of first guide grooves 24 are formed on the front surface of the inner cover frame 20 and a pair of second guide grooves 25 are formed on the outer side of the first guide groove 24 And a pair of insertion holes 26 corresponding to each other are formed between the coupling groove 22 and the coupling projection 23.

A seal member 27 is coupled to the entrance side of the inner cover frame 20 so that the inner cover frame 20 and the vertical frame 11 are tightly closed. A plurality of spacers 28 may be further coupled to form a constant space in the cavity.

A coupling hole 11a is formed at the tip end of the vertical frame 11 inserted into the inner cover frame 20 and a coupling member 30 penetrating the insertion hole 26 is coupled to the coupling hole 11a. So that the inner cover frame 20 and the vertical frame 11 are firmly fixed.

4, the coupling member 30 includes a female screw portion 31 and a male screw portion 32. At both ends of the coupling member 30, a head portion 33 is formed. The head portion 33 is provided with a tool A pair of tool insertion grooves 34 are formed so as to allow the engaging member 30 to rotate.

The female screw portion 31 and the male screw portion 32 are inserted into the respective insertion holes 26 and are screwed to each other in the coupling hole 11a to fix the inner frame 20 and the vertical frame 11 together.

A pair of outer cover frames 40 are coupled to the outer side of the inner cover frame 20. The coupling protrusions 41 formed at one side of the inner side of the outer cover frame 40 are engaged with the coupling And the coupling protrusion 23 of the inner cover frame 20 is inserted and fixed into the coupling groove 42 formed on the other side.

Meanwhile, a pair of heat insulating members 50 made of synthetic resin are coupled to the front surface of the inner cover frame 20, and the heat insulating member 50 is preferably made of polyamide excellent in heat insulation.

5, an insulator 51 having a triangular shape is formed on the upper and lower sides of the heat insulating member 50. An air layer is formed between the insulators 51 to increase the effect of heat insulation, A plurality of the space portions 52 are formed so as to be able to save.

The insertion portion 51 formed at the upper side is coupled to the first guide groove 24 of the inner cover frame 20 and the insertion portion 51 formed at the lower side is coupled to the coupling hole 60 as shown in FIG. do.

In the second guide groove 25, a gasket 61 sealing between the multilayer glass 12 and the inner cover frame 20 is coupled.

Therefore, an air layer is formed between the pair of heat insulating members 50 that are spaced from each other, and an air layer is formed between the heat insulating member 50 and the multilayer glass 12 to increase the effect of heat insulation.

The inner cover frame 20 and the outer cover frame 40 not only closely seal the gap generated in the process of joining the multilayer glass 12 and the vertical frame 11 but also form a plurality of air layers between the frames Thereby enhancing the effect of heat insulation.

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: Horizontal frame 11: Vertical frame
11a: Coupling hole 12: Double layer glass
20: Inner cover frame 21: Installation space
22, 42: coupling groove 23, 41:
24: first guide groove 25: second guide groove
26: insertion hole 27: sealing member
28: spacer 30: coupling member
31: female thread portion 32: male thread portion
33: head portion 34: tool insertion groove
40: outer cover frame 50: heat insulating member
51: insertion part 52:
60: coupling part 61: gasket

Claims (4)

In a curtain wall in which a horizontal glass frame and a vertical frame are combined with a double glass glass,
The front end of the vertical frame 11 is coupled to the installation space 21 formed in the inner cover frame 20 by a coupling member 30 so as to be laterally spaced from the installation space 21, 27 so as to form an air layer between the inner cover frame 20 and the vertical frame 11,
Wherein a pair of outer cover frames (40) are coupled to both sides of the inner cover frame (20) to form an air layer between the inner cover frame (20) and the outer cover frame Insulation structure. The method according to claim 1,
The engaging member 30 is composed of a female threaded portion 31 and a male threaded portion 32. The female threaded portion 31 and the male threaded portion 32 are provided with a head portion 33 Respectively,
The female threaded portion 31 and the male threaded portion 32 are screwed in the coupling hole 11a formed in the vertical frame 11 through the insertion hole 26 formed in the inner cover frame 20 Insulation structure of curtain walls. The method according to claim 1,
A pair of first guide grooves 24 are formed at intervals on the front surface of the inner cover frame 20 and a pair of second guide grooves 25 are formed on the outer side of the first guide grooves 24 Lt; / RTI &
A pair of heat insulating members 50 made of polyamide are coupled to the first guide groove 24 to form an air layer therebetween and the second guide groove 25 is provided with a multi- Characterized in that a gasket (61) sealing between the cover frame (20) is engaged. The method of claim 3,
An inserting portion 51 is formed on the upper and lower sides of the heat insulating member 50. A plurality of space portions 52 for forming an air layer for heat insulation are formed between the inserting portions 51,
Wherein the upper insertion portion 51 is coupled to the first guide groove 24 and the lower insertion portion 51 is coupled to the coupling hole 60. [

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