KR101377613B1 - Curtain Wall Insulation System - Google Patents

Abstract

The present invention relates to a heat insulation system for a curtain wall constituting an outer wall of a building structure, comprising: a frame part fixed to the building structure; A bracket part coupled to the frame part and supporting a glass member; And a heat insulating part installed at a coupling part between the frame part and the bracket part, wherein the heat insulating part is capable of expanding, contracting, and deflecting in response to various widths and shapes of the frame part. do. The curtain wall insulation system as described above may correspond to various sizes, widths, and shapes of the curtain wall frame, and may improve heat insulation performance by minimizing heat loss.

Description

[0001] CURTAIN WALL INSULATION SYSTEM [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a curtain wall, and more particularly, to a curtain wall insulating system that improves the heat insulating performance of a curtain wall constituting an outer wall of an architectural structure.

In recent years, curtain walls have been widely used to construct the exterior walls of buildings as the construction of buildings has become higher. Here, the curtain wall means a non-bearing wall that does not support the load of the exterior finishing material of the building, and is a frame structure for detachably attaching a finishing material such as a glass wall installed on the outer wall of the building structure.

In general, curtain walls are made of high-strength, dense, and large windows. As the size of windows is also large, they use a lot of aluminum materials, which have high strength, low expansion, excellent durability, and high ignition temperature. have. However, the curtain wall using the aluminum material has a very poor thermal insulation performance due to the very high thermal conductivity.

In addition, recent trends such as high-rise buildings and curtain wall construction methods are expanding the awareness that they are energy consumption type, and they are also very disadvantageous in terms of energy saving. The greatest part of heat dissipation in buildings is windows, which, unlike ceilings, floors and walls, are exposed directly to the outside, reducing the energy consumption of the entire building. Currently, various researches are actively conducted to realize a low energy consumption type building, and related industries are interested in developing energy saving type curtain wall products.

As shown in FIG. 1, the conventional curtain wall system is divided into a non-opened column a and a heat insulating bar b, c and d according to the required performance. 10) The filling system (b) and the polyamide (11, 12) coupling system (c, d) Here, the azon 10 is a system in which a liquid type polyurethane is inserted into a filling groove and hardened to block internal and external heat bridges. The polyamide 11, 12 is a bridge type, hollow type, And is fitted into the groove.

However, the heat insulating material for blocking the thermal bridge phenomenon has a problem in that the design must be different according to various sizes, widths, shapes of the curtain wall frame (1) due to the fixed dimensions.

The present invention is to provide a curtain wall insulation system that can respond to a variety of sizes, widths, shapes of the curtain wall frame.

In addition, the present invention is to provide a curtain wall insulation system with improved heat insulation performance by minimizing heat loss.

The present invention relates to a heat insulation system for a curtain wall constituting an outer wall of a building structure, comprising: a frame part fixed to the building structure; A bracket part coupled to the frame part and supporting a glass member; And a heat insulating part installed at a coupling part between the frame part and the bracket part, wherein the heat insulating part is capable of expanding, contracting, and deflecting in response to various widths and shapes of the frame part. do.

In addition, the heat insulating portion, the soft insulating member having an elasticity to enable the expansion, contraction and refraction; And a pair of hard insulation members respectively provided at both ends of the soft insulation member.

In addition, the soft insulation member discloses a curtain wall thermal insulation system, characterized in that it has any one of the shape of the balance, circular, uneven and serrated.

In addition, it discloses a curtain wall insulation system, characterized in that the hollow portion is formed in the inner space in which the soft insulation member is located between the frame portion and the bracket portion.

In addition, the heat insulating part discloses a curtain wall heat insulation system, characterized in that the soft heat insulating member and a pair of the hard heat insulating member integrally formed.

In addition, the heat insulating part discloses a curtain wall heat insulation system, characterized in that the soft insulation member and the pair of hard insulation member detachably coupled.

In addition, the soft insulation member is formed with a projection projecting projections on both ends of the pair, the pair of hard insulation member is characterized in that the coupling groove is formed so that the coupling projections are fitted to each inner end portion. A curtain wall insulation system is disclosed.

The curtain wall insulation system according to the present invention has the following effects.

(1) The present invention has the effect of improving the heat insulating performance by providing a heat insulating part such as an azone material or a polyamide material at the joint between the frame part and the bracket part of the curtain wall.

(2) The present invention has an effect that the heat insulation portion of the curtain wall has a flexible structure that can be expanded, contracted and refracted, so that it can be adapted to various sizes, widths and shapes of the curtain wall frame.

(3) The present invention can be applied regardless of the size, width, or shape of the frame has the effect of minimizing the scope of development of additional insulation member according to the profile of the curtain wall.

(4) The present invention has the effect that by forming a hollow portion in the inner space forming portion in which the soft insulation member of the heat insulating portion is located, the heat insulating portion can minimize the heat loss by the hollow portion to improve the heat insulating performance.

1 is a sectional view showing a conventional curtain wall insulation system.
2 is a sectional view showing a curtain wall insulation system according to a preferred embodiment of the present invention.
3 is a cross-sectional view showing various embodiments of the heat insulation unit provided in the curtain wall insulation system of the present invention.
It is a figure which shows the refractive form of a heat insulation part.
FIG. 5 is a diagram illustrating examples of expanding and contracting an insulation part in response to various widths of the frame part in the curtain wall insulation system of the present invention.
FIG. 6 is a diagram illustrating examples of refracting an insulation part corresponding to inner and outer corner shapes of a frame part in the curtain wall insulation system of the present invention.
7 is a view showing a hollow portion provided in the soft insulation member portion in the curtain wall insulation system of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 is a cross-sectional view showing a curtain wall insulation system according to an embodiment of the present invention.

As shown in FIG. 2, the curtain wall insulation system 100 according to the preferred embodiment of the present invention includes a frame portion 110, a bracket portion 120, and an insulation portion 130, and the glass of the building exterior wall. It is used to attach the members 21 and 22. Here, the curtain wall means a non-loadable partition wall that does not support a load, and is a frame structure for attaching and detaching a finishing material such as a glass wall installed on an outer wall of a building structure.

The frame part 110 is a tubular member fixed to a bracket (not shown) of a building structure and having a substantially rectangular cross section.

In addition, the frame portion 110 is formed with a heat insulation insertion groove 111 to be inserted into the heat insulating portion 130 to the portion coupled to the bracket portion 120 to be described later.

The bracket unit 120 is coupled to the frame unit 110 and supports the glass members 21 and 22 of the multilayer on both sides. The bracket part 120 includes a fixing piece 121, a bracket 123, a gasket 125, and a sealing member 127.

The fixing piece 121 is a member installed in the room between the first glass member 21 and the second glass member 22, and the heat insulating part 130 is inserted into the heat insulating inserting groove 111 of the frame part 110. In the attached state is fixedly coupled to the frame portion 110 by a fastening means such as a screw 113. In addition, the fixing piece 121 is a screw fastening protrusion 122 is formed projecting between the first glass member 21 and the second glass member 22, the center of the screw fastening protrusion 122 bracket 123 to be described later The screw hole for fixing the with a screw 124 is formed.

The bracket 123 is a member installed outdoors between the first glass member 21 and the second glass member 22, and supports the first glass member 21 and the second glass member 22 on both sides, respectively. The fixing piece 121 is fastened and fixed by a screw 124.

The gasket 125 is a packing member installed at a portion where the bracket portion 120 and the glass members 21 and 22 are in contact with each other. The gasket 125 is a pair of inner gaskets 125a and 125b respectively coupled to the fixing grooves 121a and 121b of the fixing piece 121 so as to contact the first glass member 21 and the second glass member 22. And a pair of outer gaskets 125c and 125d coupled to the fixing grooves 123a and 123b of the bracket 123 so as to contact the first glass member 21 and the second glass member 22, respectively. have. The gasket 125 is made of a sealing material such as rubber or silicone and functions as a wind and a waterproof between the first glass member 21 and the second glass member 22.

The sealing member 127 is provided between the gasket 125 and the glass members 21 and 22 and is made of a sealing material such as silicon or the like to provide a windproof function and a waterproof function between the bracket part 120 and the glass members 21 and 22. do.

Further, it is preferable that a decorative frame 129 is coupled to the outer surface of the bracket part 120 so as to decorate the outer wall of the glass members 21 and 22. The decorative frame 129 is formed to have a substantially "C" -shaped cross-section and is fixed to both ends of the decorative frame 129 so as to be engaged with engagement grooves (not shown) of the bracket part 120 Respectively.

The heat insulating part 130 is installed at the coupling portion between the frame part 110 and the bracket part 120 to reduce the thermal bridge phenomenon due to the temperature difference between the inside and the outside. Therefore, when the curtain wall heat insulating system is installed between the first glass member 21 and the second glass member 22, the first glass member 21 and the second glass member 22 are cooled by the flow of cool air or warm air The heat loss can be blocked by the heat insulating portion 130, and the heat insulating effect between the glass members 21 and 22 can be improved. The heat insulating part 130 may use Azon 200 and polyamides 201 and 202 according to the type of heat insulating material. Here, Azone is a heat insulating material for inserting a liquid type high strength polyurethane into a filling groove and curing it to block internal and external heat bridging. The polyamide is extruded in various forms such as a bridge type, a hollow type and a solid type, It is an insulating material that combines.

In addition, the heat insulating part 130 may be expanded, contracted, and refracted to correspond to various sizes, widths, and shapes of the frame part 110.

3 is a cross-sectional view showing various embodiments of the heat insulation portion provided in the curtain wall insulation system of the present invention, Figure 4 is a view showing the refractive form of the heat insulation portion.

As shown in FIGS. 3 and 4, the heat insulating part 130 may include a soft insulating member 131 having elasticity to allow expansion, contraction, and refraction in response to various sizes, widths, and shapes of the frame part 110. , A pair of hard insulation members 133 and 135 provided at both ends of the soft insulation member 131, respectively.

The soft insulation member 131 has a flat shape (FIG. 3A) having a constant cross-sectional area, a concave-convex shape (Fig. 3B) in which roughness is formed at an intermediate portion, a tooth shape (Fig. 3D), and a circular shape in which a plurality of circular rings are continuously connected. It may have a shape of any one of (FIG. 3E). In addition, as shown in Figure 3e, the soft insulating member 131 is capable of shrinking in the longitudinal direction in accordance with the size or width reduction of the frame portion (110).

In the present embodiment, the soft insulation member 131 has a configuration having a shape of equilibrium, concave-convex, sawtooth, and circular shapes, but is not limited thereto. The soft insulation member 131 may have various other shapes.

In addition, the heat insulating part 130 is formed by integrally extruding the soft insulating member 131 and the pair of hard insulating members 133 and 135, or the soft insulating member 131 and the pair of hard insulating members 133. , 135) can be detachably combined. Here, in the case where the soft insulation member 131 and the pair of hard insulation members 133 and 135 are separated from each other, the flexible insulation member 131 is formed with protrusions 131a and 131b protruding from both end portions thereof, respectively. Coupling grooves 133a and 135a are formed in the pair of hard insulation members 133 and 135 so that coupling protrusions 131a and 131b are fitted into and coupled to respective inner end portions thereof.

FIG. 5 is a diagram illustrating examples of expanding and contracting an insulation part in response to various widths of the frame part in the curtain wall insulation system of the present invention.

As shown in FIG. 5, as the width of the frame portion 110 extends from FIG. 5A to FIG. 5C, the heat insulation portion 130 corresponds to the expanded width of the frame portion 110. The length of the soft insulation member 131 can be expanded and applied. On the contrary, as the width of the frame portion 110 decreases from FIG. 5 (c) to FIG. 5 (a), the soft insulation member 131 of the heat insulating part 130 corresponds to the reduced width of the frame portion 110. It can be applied by reducing the length. That is, the heat insulating part 130 may be applied to expand and contract in response to various widths of the frame part 110.

FIG. 6 is a diagram illustrating examples of refracting an insulation part corresponding to inner and outer corner shapes of a frame part in the curtain wall insulation system of the present invention.

As shown in FIG. 6, the soft insulating member 131 of the heat insulating part 130 may be refracted to correspond to the shape of the inner corner (FIG. 6 a) and the outer corner (FIG. 6 b) of the frame part 110. . That is, the heat insulating part 130 has a shape of a flexible structure that can be effectively applied in implementing the elevation of the frame part 110 having the appearance of various shapes (angles).

7 is a view showing a hollow portion provided in the soft insulation member portion in the curtain wall insulation system of the present invention.

As shown in FIG. 7, the inner space is formed between the two profiles 210 and 220 when the insulating part 130 is combined with different profiles, for example, between the frame part and the bracket part. Hollow portions 301 and 302 are formed in the portion to effectively block or reduce heat conduction. That is, the heat insulating part 130 is improved by minimizing heat loss by the hollow parts 301 and 302 formed around the soft insulating member 131.

Therefore, according to the present invention, heat insulation performance can be improved by providing a heat insulation portion such as an azone material or a polyamide material at a coupling portion between the frame portion and the bracket portion of the curtain wall. In addition, since the insulation portion of the curtain wall has a flexible structure capable of expansion, contraction and refraction, it is possible to respond to various sizes, widths and shapes of the curtain wall frame. In addition, it can be applied regardless of the size, width, shape of the frame can minimize the development of additional insulation member according to the profile of the curtain wall. In addition, by forming a hollow part in the inner space forming portion in which the soft insulation member of the heat insulating part is located, the heat insulating part may improve heat insulating performance by minimizing heat loss by the hollow part.

While the present invention has been described in connection with certain exemplary embodiments, it will be understood by those skilled in the art that various changes may be made without departing from the scope of the present invention. In addition, the description in parentheses in the description of the claims is intended to prevent obscuration of the description, and the scope of the claims of the claims should be construed to include all the items in parentheses.

100: curtain wall insulation system
110:
120: bracket portion
121: fixing piece
123: Bracket
125: gasket
127: sealing member
130:
131: soft insulation member
133, 135: hard insulation member
301, 302: hollow part

Claims (7)

delete In a heat insulation system of a curtain wall constituting an outer wall of an architectural structure,
A frame part fixed to the building structure;
A bracket part coupled to the frame part and supporting a glass member; And
It includes a heat insulating portion is installed on the coupling portion between the frame portion and the bracket portion,
The heat insulation part may expand, contract and deflect in response to various widths and shapes of the frame part,
The heat-
Soft insulation member having elasticity to allow the expansion, contraction and refraction; And
Curtain wall insulation system, characterized in that it comprises a pair of hard insulation members respectively provided on both ends of the soft insulation member. 3. The curtain wall insulation system according to claim 2, wherein the soft insulation member has any one of a balance, a circle, an uneven shape, and a sawtooth shape. 3. The curtain wall insulation system according to claim 2, wherein a hollow part is formed in an inner space in which the soft insulating member is located between the frame part and the bracket part. 3. The curtain wall insulation system according to claim 2, wherein the heat insulation portion integrally forms the soft insulation member and the pair of hard insulation members. The curtain wall insulation system according to claim 2, wherein the heat insulation portion detachably couples the soft insulation member and the pair of hard insulation members. According to claim 6, wherein the soft insulation member is formed in each of the coupling protrusions protruding at both ends, the pair of hard insulation members are coupled grooves are formed so that the coupling projections are fitted to each inner end portion. Curtain wall insulation system characterized in that it is.

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