KR101716673B1 - curtain wall frame - Google Patents

Abstract

The present invention relates to a curtain wall frame and, more specifically, relates to a curtain wall frame having an improved insulation structure, which is able to significantly improve insulation performance by blocking a gap between an indoor frame placed indoors and a support bracket exposed to the outside. Moreover, a structure of a portion into which glass is inserted is able to be simplified, and specifically, reinforcement is performed to improve durability of the frame for insulation performance to be improved.

Description

A curtain wall frame having an improved insulation structure is disclosed.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a curtain wall frame, and more particularly, to an improved curtain wall frame for improving the durability of a curtain wall frame, To a curtain wall frame having a heat insulating structure.

Generally, in the method of constructing the outer wall of the building structure, the curtain wall installation method is a method of constructing the outer wall from the building structure using the metal material and the inorganic material as the non-load wall, It is widely used for construction of high-rise structures especially because of its advantage in that it can be mechanized and manufactured as well as it is easy to control quality,

Such a curtain wall installation method is advantageous in that it is possible to reduce the weight of the building structure because the profile and the frame constituting the unit are manufactured with a comparatively light weight and the load added to the foundation frame is reduced, Recently, it has been widely applied to newly constructed buildings.

As a prior art for improving the workability of workers at the construction site by improving the durability of the window and preventing the heat transfer from the outside to improve the heat insulation performance by the conventional curtain wall installation method, Japanese Patent Application Laid-Open No. 10-2011-0132067 The curtain wall structure of the present invention has been proposed.

However, in the conventional curtain weir structure, a thin packing-type insulating member is installed between the steel frame and the connecting steel to prevent heat transmitted from the outside to the room to improve the heat insulating performance. However, in reality, In the case of a winter season where the temperature is low, the insulating member can not effectively block heat transmitted from the outside to the room, resulting in insufficient heat insulation performance.

In order to solve the above-mentioned problems, a curtain wall frame such as that disclosed in Patent Application No. 10-1194693 is limited.

However, the curtain wall frame has a structure in which a profile corresponding to an indoor frame located in a room and a supporting bracket corresponding to a supporting bracket exposed to the outside are connected through a plurality of heat insulating materials and packing, A large number of gaps are generated between the support brackets, resulting in deterioration of the heat insulating performance. In particular, the durability of the frame is deteriorated due to the characteristics of being connected to a large number of parts.

Korean Patent Registration No. 10-1308671. Korean Patent Application No. 10-1194693.

SUMMARY OF THE INVENTION The present invention has been devised in order to solve the above problems, and it is an object of the present invention to provide an improved heat insulating material for preventing a gap between an indoor frame positioned in a room and a support bracket exposed to the outside, The present invention has been made in view of the above problems, and it is an object of the present invention to provide a curtain wall frame having a structure.

In addition, the present invention provides a curtain wall frame having an improved heat insulating structure for improving the durability of the frame and thereby improving the heat insulating performance, in particular, by performing the reinforcement while causing structural simplification to be made in the portion where the glass is inserted The present invention has the object of the present invention.

As a concrete means for achieving the above object, a pair of "a" coupling protrusions are protruded and formed on both sides of the upper end, respectively, and a reinforcing portion protruding upward is protruded from the center. An inner hollow frame;

A pair of heat insulating panels on both sides of the upper part of the indoor frame and the reinforcement part;

A support bracket coupled to an upper end of the reinforcing portion of the indoor frame and having cover engagement portions protruded from both sides of the upper portion; And

And a bracket cover made of an aluminum material to cover the cover engaging pieces of the support bracket and to be closed,

A bracket coupling groove is formed in an upper portion of the reinforcing portion, the bracket coupling groove having an upper opening and a bracket engaging groove formed on both inner lower ends thereof,

The support bracket is formed with bracket coupling pieces each of which is inserted into the bracket coupling groove and formed with bracket coupling projections formed in the bracket coupling grooves at the lower ends of both sides thereof so that the support bracket is inserted into the bracket coupling groove of the reinforcing part through the bracket coupling piece Respectively,

And a heat insulating material coupling groove is further formed in the lower center of the reinforcing portion and a heat insulating material is inserted into the heat insulating material coupling groove.

As described above, in the curtain wall frame having the improved heat insulating structure of the present invention, a heat insulating panel made of polyamide is formed at a portion where the end of the glass is interposed between the inner frame and the supporting bracket, It is possible to obtain an improved effect.

In addition, in constituting the outer bracket, the heat insulating performance due to the increase in the adhesion with the heat insulating panel can be improved by constructing the outer bracket with polyamide made of the same material as the heat insulating panel.

Further, in forming the indoor frame, the reinforcing portion is formed corresponding to the interval of inserting the glass, and the heat insulating material is formed inside the reinforcing portion, so that the durability can be improved and the effect of completely insulating the interior can be obtained.

1 is an exploded perspective view of a curtain wall frame having an improved thermal insulation structure according to the present invention.
2 is an exploded perspective view of a curtain wall frame having an improved insulation structure of the present invention.
3 is an assembled cross-sectional view of a curtain wall frame having an improved thermal insulation structure of the present invention.
Figure 4 is another embodiment of a curtain wall frame having an improved insulation structure of the present invention.
5 is a front view of the installation state of a curtain wall frame having an improved heat insulating structure according to the present invention.
6 is a cross-sectional view of a curtain wall frame having an improved insulation structure according to the present invention in an installation state.
7 is a cross-sectional view of an installed state of a curtain wall frame according to another embodiment of the present invention having an improved insulation structure.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

Fig. 1 is an exploded perspective view of a curtain wall frame having an improved heat insulating structure according to the present invention, Fig. 2 is an assembled perspective view of a curtain wall frame having an improved heat insulating structure according to the present invention, Fig.

1 to 3, a curtain wall frame 1 having an improved heat insulating structure according to the present invention includes an indoor frame 100, heat insulating panels 200 and 200 ', a support bracket 300, And a bracket cover 400.

Here, the indoor frame 100 is configured in the form of a rectangular tubular body made of a longitudinal aluminum material having a hollow interior and a glass (not shown in the drawing), and is configured to support the glass on the indoor side of the building .

At this time, the indoor frame 100 is formed with a pair of coupling protrusions 110, each of which is opposed to both sides of the upper end of the panel frame 100. In this case, each of the coupling protrusions 110 has a panel- And is formed in the longitudinal direction of the indoor frame 100. [0050]

In the interior frame 100, the reinforcing portion 120 is configured to protrude upward so that the glass is supported on both sides of the upper center.

The upper portion of the reinforcing portion 120 is formed with a bracket coupling groove 121 in the form of an upper open " c "groove, which is open at an upper portion of the bracket coupling groove 121. Brackets 121, And an engaging groove 122 is formed.

The reinforcing portion 120 is formed with a heat insulating material engaging groove 125 which is formed at a lower center thereof in the longitudinal direction so that a heat insulating material 130 made of a polyamide material is inserted into the heat insulating material engaging groove 125 .

The heat insulating panels 200 and 200 'are configured to surround the upper portion of the indoor frame 100 and the reinforcing portion 120. The heat insulating panels 200 and 200' are composed of a pair of symmetrically symmetrical polyamides.

At this time, each of the heat insulating panels 200 and 200 'is configured such that the bottom surface thereof is firstly brought into close contact with the upper surface of the indoor frame 100. At this time, the horizontal close- A panel coupling protrusion 211 is protrudingly formed to be engaged with the panel locking groove 111 of the indoor frame 100 and is fixedly coupled to the indoor frame 100 and the other end is brought into close contact with the lower end of the reinforcing portion 120 .

That is, the horizontal close part 210 is configured to cover the upper part of the indoor frame 100 and to be fixedly coupled to the indoor frame 100 through the panel coupling protrusions 211, 100 and the upper surface of the coupling protrusion 110 of the coupling protrusion 110.

The heat insulating panels 200 and 200 'are vertically tightened at the other end of the horizontal tight fitting part 210 so that the vertical tight fitting part 220 protrudes upward. 120).

The heat insulating panels 200 and 200 'are formed of an upper tight fitting part 230 bent at a right angle in a direction opposite to each other at an upper end of the vertical tight fitting part 220, (120).

Meanwhile, in the construction of the heat insulating panels 200 and 200 'as described above, in another embodiment, the vertically tight fitting part 220 of the heat insulating panels 200 and 200' And a hollow air layer 221 may be further formed at the center of the hollow air layer.

The support bracket 300 is configured to support the glass to be coupled to both sides of the reinforcing part 120 at the outdoor side by being coupled to the end of the reinforcing part 120 of the indoor frame 100, .

At this time, the support bracket 300 is configured such that the cover engagement piece 310 protrudes upward so that the bracket cover 400 described below can be coupled to both sides of the support bracket 300.

The support bracket 300 has a pair of bracket coupling pieces 320 on both sides of the support bracket 300 so as to be engageable with the bracket coupling grooves 121 of the reinforcing part 120, A bracket coupling protrusion 321 is formed on the outer side of the lower end of each bracket coupling piece 320 so as to be engageable with the bracket coupling groove 122 of the bracket coupling groove 121.

That is, the support bracket 300 is configured to be coupled to the bracket coupling groove 121 of the reinforcing portion 120 through the bracket coupling piece 320, and the bottom of the support bracket 300 is connected to the upper portion of the heat insulating panel 200 And is in close contact with the upper part of the tight fitting part 230.

The bracket cover 400 is configured to be coupled to the support bracket 300 and to close the support bracket 300 on the outdoor side, and is made of aluminum material.

At this time, the bracket cover 400 is configured such that the cover binding pieces 410 are protruded downward to cover the cover binding pieces 310 of the support bracket 300 on both sides of the lower side.

That is, the bracket cover 400 is configured to wrap around and support the support bracket 300 using the cover binding piece 410 to prevent exposure of the support bracket 300 from the outside, and the support bracket 300, (400).

In the meantime, when the heat insulating material 130, the heat insulating panels 200 and 200 ', and the support bracket 300 are constructed, the polyamide is made of a polyamide material, A generic term for polymers linked by CONH-. The abbreviation is PA. (Condensation polymerization) of a diamine and a divalent acid, and is classified into an aliphatic polyamide, an aromatic polyamide, and an aliphatic cyclic polyamide. A typical example of the aliphatic polyamide is nylon 6,6 , And condensation polymerization of hexamethylenediamine having 6 carbon atoms and adipic acid having 6 carbon atoms.

These aromatic polyamides are known as aramid and have excellent heat resistance, mechanical properties, electrical properties, and chemical resistance, and have been used as engineering substitutes for metals such as polyacetals · It is attracted attention as plastic, and it has excellent dew condensation and insulation.

That is, when the polyamide is applied to the curtain wall frame 1 having the improved heat insulating structure according to the present invention as the heat insulating material 130, the heat insulating panels 200 and 200 ', and the supporting bracket 300, Resulting in improvement of the effect and insulation.

Hereinafter, the operation of the curtain wall frame having the above-described improved insulation structure according to the present invention will be described in detail with reference to the accompanying drawings.

A curtain wall frame (1) having an improved heat insulating structure according to the present invention is constructed such that a glass can be installed by constructing a curtain wall of a curtain wall constituting an outer wall of a building, 1 to 3, the indoor frame 100 is located on the indoor side and the support bracket 300 is positioned on the outdoor side (the front side in the figure) The packing 11 is attached to the support bracket 300 between the inner frame 100 and the support bracket 200 on both sides of the reinforcement part 120, And an end portion of the glass 10 may be installed inside and outside of the glass 10, if necessary.

The curtain wall frame 1 of the present invention is formed such that the reinforcing portion 120 of the indoor frame 100 in which the end portion of the glass 10 is closely attached is protruded in a structure integrated with the indoor frame 100, The heat insulating performance of the intermediate portion is improved through the heat insulating material 130 made of polyamide material which is inserted into the reinforcing portion 120. [

The curtain wall frame 1 according to the present invention is characterized in that the curtain wall frame 1 is made of a polyamide material for the upper face of the indoor frame 100 to which the end portion and both sides of the glass 10 are closely contacted and the contact portion of the reinforcing portion 120 and the support bracket 300 The heat insulating panels 200 and 200 'are formed, the adhesion with the glass 10 is increased, the gap is minimized, and the hot and cold air is effectively blocked, thereby increasing the heat insulating performance .

4, the curtain wall frame 1 of the present invention is configured such that when the air layer 221 is formed in the vertical close portion 220 as shown in FIG. 7, The heat insulating performance can be improved by increasing the shielding force of the heat and the cold air transmitted from the outside to the inside of the room and the glass 10 provided with the cushion force through the air layer 221, The adhesion is increased even in the process of expanding and the maintenance of the tightness of the installation state of the glass and the heat insulating performance are improved.

The curtain wall frame 1 according to the present invention is characterized in that the supporting bracket 300 is made of a polyamide material so that the adhesion of the curtain wall frame 1 to the glass 10 on the outdoor side is increased and on the other hand, Performance is improved.

The curtain wall frame 1 according to the present invention is characterized in that the contact surfaces of the inner frame 100 made of aluminum and the bracket cover 400 and the glass 10 are made of insulating panels 200 and 200 ' The condensation due to the temperature difference is prevented due to the characteristic of being blocked by the bracket 300.

100: indoor frame 110:
111: panel engaging groove 120: reinforcing portion
121: Bracket coupling groove 122: Bracket coupling groove
125: Insulating material coupling groove 130: Insulation material
200, 200 ': Insulating panel 210: Horizontal close-
211: panel coupling projection 220:
221: air layer 230:
300: support bracket 310: cover engagement piece
320: Bracket coupling piece 321: Bracket coupling projection
400: Bracket cover 410: Cover-

Claims (4)

The upper and lower sides of each of the upper and lower sides are provided with a pair of opposing pair of engagement projections 110 having a panel engagement groove 111 protruding therefrom and a central reinforced portion 120 protruding upward, Type indoor frame 100;
A pair of heat insulating panels 200 and 200 'on both sides of the upper part of the indoor frame 100 and the reinforcing part 120;
A support bracket 300 coupled to an upper end of the reinforcing portion 120 of the indoor frame 100 and having cover engaging pieces 310 protruded from both sides thereof; And
And a bracket cover 400 made of an aluminum material for covering the cover engagement piece 310 of the support bracket 300 and covering the cover engagement piece 410,
A bracket coupling groove 121 is formed in an upper portion of the reinforcing portion 120 and has bracket engagement grooves 122 formed on both sides of an inner lower portion thereof.
Bracket coupling pieces 320 are formed on the bottom surface of the support bracket 300 so as to be inserted into the bracket coupling grooves 121 and have bracket coupling protrusions 321 formed at both lower ends thereof, The support bracket 300 is coupled to the bracket coupling groove 121 of the reinforcing portion 120 through the bracket coupling piece 320,
A heat insulating material coupling groove 125 is further formed in a lower center of the reinforcing portion 120 and a heat insulating material 130 is inserted into the heat insulating material coupling groove 125,
Each of the heat insulating panels 200 and 200 'includes a horizontal tight fitting part 210 whose bottom face is in close contact with the upper face of the indoor frame 100 and whose other end is in close contact with the lower end of the reinforcing part 120, A vertical tight fitting part 220 bent at right angles to the other end of the horizontal tight fitting part 210 and protruding upward while being in close contact with the reinforcing part 120 and a vertical reinforcing part 220 bent right at the upper end of the vertical tight fitting part 220, And an upper adhering part 230 which is engaged with the upper end of the reinforcing part 120. The upper adhering part 230 has an improved adiabatic structure configured to be in close contact with the upper surface of the reinforcing part 120 and the bottom surface of the support bracket 300 In the curtain wall frame,
The horizontal fitting portion 201 of each of the heat insulating panels 200 and 200 'has a panel fitting protrusion 211 so that one end of the horizontal fitting portion 201 is engaged with the panel fitting groove 111 of the coupling protrusion 110,
The vertical adhered portion 220 of the heat insulating panels 200 and 200 'has an enlarged thickness, and an air layer 221 is formed at the center in the longitudinal direction,
Wherein the heat insulating material 130, the heat insulating panels 200 and 200 ', and the support bracket 300 are made of a polyamide material. delete delete delete

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