KR20170141433A - Thermal-insulation curtain wall structure with easy detachable function - Google Patents

Abstract

The heat insulating reinforced curtain wall according to the present invention comprises: a heat insulating bracket made of a synthetic resin material having an inner insulating space and extending in a longitudinal direction; A front bracket made of a metal material extending in a direction perpendicular to a longitudinal direction of the heat insulating bracket and arranged to cover the front of the heat insulating bracket; A metal structural frame arranged to cover the front of the heat insulating bracket; And a fixing anchor coupled to the structural frame after the end sequentially passes through the front bracket and the heat insulating bracket to unite the front bracket and the heat insulating bracket integrally with the structural frame. A multi-layer glass inserted between the front bracket and the structural frame; A rubber gasket inserted between the heat insulating bracket and the multilayer glass to block heat transfer through a space between the heat insulating bracket and the multilayer glass; A cover mounted to cover the front side of the front bracket; And a sealing member and a sealant for sealing a space between the multilayer glass and the front bracket and a space between the multilayer glass and the structural frame.

Description

{THERMAL-INSULATION CURTAIN WALL STRUCTURE WITH EASY DETACHABLE FUNCTION}

The present invention relates to a curtain wall, and more particularly, to a curtain wall which can have a structural strength and a heat insulating property higher than a reference value and can be easily detached and attached to shorten a construction period.

Generally, the curtain wall method is a method of constructing a structure composed of a reinforced concrete structure, a steel frame, and the like, such that the load acting on the building is supported only by a frame composed of columns, beams and slabs, and the outer wall is formed by non- It says. Such a curtain wall method can be mechanized, can be manufactured in a factory, can be easily controlled in quality, and can be made light in weight on the outer wall. In addition, since it can produce a beautiful appearance according to materials used, And most of the present high-rise buildings are being constructed by this method.

Typically, the curtain walls are configured to connect a plurality of double-glazed windows by mounting a frame to two neighboring double-glazed windows vertically erected so as to be spaced apart from one another. In this case, the frame applied to the conventional curtain wall is generally made of aluminum in order to improve the adhesion with the double-layered glass. However, aluminum has a high thermal conductivity, so that external heat is quickly transferred to the room.

That is, when the air temperature is low as in winter, external cool air flows into the room through the aluminum frame as it is, and external heat is introduced into the room when the air temperature is high as in summer. In addition, even when the room is cooled and / or cooled, cold air or warm air in the room quickly escapes to the outside, thereby deteriorating overall insulation performance of the building. Of course, in order to solve the above problems, it is possible to propose a method of manufacturing all frames with a low thermal conductivity synthetic resin. However, when each frame is coupled with an anchor or a bolt, each anchor or bolt easily comes off, It can not be stably maintained.

In order to solve such a problem, a curtain wall having a structural strength higher than a reference value and having a high heat insulating property has been filed and registered by the present applicant because the aluminum frame and the synthetic resin frame are mixed. Although the curtain wall configured to mix the aluminum frame and the synthetic resin frame has an advantage in that both the structural strength and the heat insulating property are excellent, the connecting bracket and the heat insulating bracket must be provided between the indoor side frame and the outdoor side frame, And the fastening anchor for fastening the fastening bolt to the heat insulating bracket must be fastened to each other, which complicates the construction and thus requires a long construction period.

KR 10-1596271 B1

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above problems and provides a curtain wall which is simple in structure and has a simple bracket structure installed between an indoor side frame and an outdoor side frame while having a structural stiffness and heat insulation higher than a standard value .

According to an aspect of the present invention, there is provided a curtain wall having a heat insulating property, the curtain wall having a heat insulating bracket made of a synthetic resin material and having an inner insulating space and extending in a longitudinal direction. A front bracket made of a metal material extending in a direction perpendicular to a longitudinal direction of the heat insulating bracket and arranged to cover the front of the heat insulating bracket; A metal structural frame arranged to cover the rear of the heat insulating bracket; And a fixing anchor coupled to the structural frame after the end sequentially passes through the front bracket and the heat insulating bracket to unite the front bracket and the heat insulating bracket integrally with the structural frame. A multi-layer glass inserted between the front bracket and the structural frame; A rubber gasket inserted between the heat insulating bracket and the multilayer glass to block heat transfer through a space between the heat insulating bracket and the multilayer glass; A heat conduction blocking block coupled to an edge of the front bracket; A cover mounted to cover the front side of the front bracket and the heat conduction blocking block; And a sealing member and a sealant for sealing a space between the multilayer glass and the heat conduction blocking block and a space between the multilayer glass and the structural frame.

The heat insulating bracket includes a front extending piece extending forwardly at a front end edge thereof, a rear extending piece extending rearward at a rear end edge thereof,

Wherein the front bracket has a front insertion portion into which the front extension piece is inserted in a fitting manner,

Wherein the structural frame has a rear insertion portion into which the rear extension is inserted in a fitting manner,

A front fastening protrusion and a rear fastening protrusion are respectively formed on the outer side surface of the front extension member and the outer side surface of the rear extension member,

A front fastening groove into which the front fastening protrusion is inserted is formed on an inner wall of the front insertion portion,

And a rear fastening groove into which the rear fastening protrusion is inserted is formed on an inner wall of the rear insertion portion.

A mounting groove is formed on a front side of the structural frame above a portion to which the heat insulating bracket is coupled,

And a guide bracket which is composed of a mounting part mounted on the mounting groove and an extension part extending forward from the mounting part and on which the lower end of the multilayer glass located on the upper side is seated.

Wherein the mounting groove is formed on the upper side and the lower side of a part of the front surface of the structural frame where the heat insulating bracket is coupled,

The guide bracket is mounted on the two mounting grooves,

The rubber gasket has one side inserted into the gasket engagement groove formed on the upper surface and the lower surface of the heat insulating bracket, and the other side is press-bonded to the upper extension and the lower extension.

A cutout groove is formed in a portion of the heat insulating bracket, the front bracket, and the structural frame through which the end of the fastening anchor passes,

Wherein the heat insulating bracket has a diaphragm across the inner isolation space in a direction perpendicular to an insertion direction of the fastening anchor,

The diaphragm is formed in a curved shape such that the middle portion thereof is convex backward.

The curtain wall according to the present invention is excellent in heat insulation because it can effectively block both conduction and radiation of heat while having a structural rigidity higher than a standard value by being made of metal at a portion where a fastening force and a load are concentratedly applied, The structure of the bracket provided between the outdoor side frames is simple, so that the construction is easy and the construction period can be remarkably shortened.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view of a heat-insulating curtain wall which is easily detachable and attachable according to the present invention.
2 is an exploded view showing a structure in which a heat insulating bracket included in a heat insulating curtain wall which is easy to detach and attach according to the present invention is coupled to a front bracket and a structural frame.
3 and 4 are a sectional view and an exploded view of a second embodiment of an insulating curtain wall which is easy to detach and attach according to the present invention.
FIGS. 5 to 7 sequentially illustrate the joining process of the second embodiment of the heat insulating curtain wall which is easy to detach and attach according to the present invention.
8 is a sectional view of a third embodiment of a heat insulating curtain wall which is easy to detach and attach according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a heat insulating curtain wall according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a cross-sectional view of a heat insulating curtain wall according to the present invention, and FIG. 2 shows a structure in which a heat insulating bracket included in a heat insulating curtain wall which is easy to detach and attach according to the present invention is coupled to a front bracket and a structural frame It is an exploded view.

The heat-insulating curtain wall according to the present invention stably supports the vertically standing double-layered glass 500, and prevents the external heat or cold air from being introduced into the room by conduction or radiation. Some of which are made of a metal such as aluminum and others are made of a synthetic resin having a low thermal conductivity such as polyamide. In this case, the heat-insulating curtain wall of the present invention can easily be detached and attached due to the simple structure of each element constituting the frame, that is, it is easy to construct and shorten the construction period, Feature.

That is, according to the present invention, the heat-insulating curtain wall which is easily detachable and attachable comprises a heat insulating bracket 100 made of a synthetic resin material having an inner insulating space 110 and extending in the longitudinal direction, A front bracket 200 made of a metal material extending in a direction to cover the front of the heat insulating bracket 100 and a metal structural frame 300 arranged to cover the rear of the heat insulating bracket 100, And the front end bracket 200 and the heat insulating bracket 100 are sequentially passed through the front bracket 200 and the heat insulating bracket 100, 300 and a structural frame 300 to which the front bracket 200 and the structural frame 300 are connected to each other; 500, It is configured to include a racket 100 and the heat conductive block block 900 coupled to the edge of the rubber gasket 600 and the front bracket 200 to block heat transfer through the space between the insulating glass (500).

Generally, the curtain wall has a problem that the outdoor heat is conducted to the room through the bracket connecting the front bracket 200 and the structural frame 300, resulting in a poor heat insulating property. As described above, The heat insulating curtain wall is made of a synthetic resin having a low thermal conductivity such as polyamide or the like and inserted between the front bracket 200 and the structural frame 300. In this case, The heat insulating property is remarkably improved. The front bracket 200 and the structural frame 300 mounted on the front and rear sides of the heat insulating bracket 100 are both made of metal having a rigidity higher than a reference value such as aluminum or the like, The structural strength of the insulating curtain wall can be secured higher than the reference value.

In this case, only one bracket (more specifically, the heat insulating bracket 100) is inserted between the front bracket 200 and the structural frame 300, and the one fastening anchor Since the front bracket 200 and the heat insulating bracket 100 are integrally coupled to the structural frame 300 by means of the bracket 400, it is easy to construct and disassemble them, . That is, when the heat insulating curtain wall to be easily detachable according to the present invention is to be installed, the heat insulating bracket 100 is inserted into the structural frame 300, the front bracket 200 is positioned, and the fastening anchor 400 The front bracket 200 and the structural frame 300 can be integrally combined with each other merely by fastening operation, and the construction time is remarkably shortened as compared with the conventional curtain wall construction.

Layer glass 500 is coupled between the front bracket 200 and the structural frame 300 and is not mounted between the front bracket 200 and the structural frame 300 A separate finishing frame (not shown) may be inserted. The packing member 510 and the sealant 520 are installed between the multilayer glass 500 and the heat conduction block 900 and between the multilayer glass 500 and the structural frame 300 to prevent water or foreign matter from entering the multilayer glass 500. [ Such a packing member 510 and the sealant 520 are applied to the conventional curtain wall in the same manner, and a detailed description thereof will be omitted.

When the front bracket 200 and the structural frame 300 are coupled by the fastening anchor 400 with the heat insulating bracket 100 interposed therebetween, both ends of the heat insulating bracket 100 in the longitudinal direction are connected to the front bracket 200 and the structural frame 300 The heat insulating bracket 100 is formed in a structure in which the both ends of the heat insulating bracket 100 are in close contact with the front bracket 200 or the structural frame 300, desirable. In this case, if the heat insulating brackets 100 are formed in a columnar shape, that is, if both ends of the heat insulating brackets 100 in the longitudinal direction are clogged with walls, even if the fastening anchor 400 is strongly tightened, Both ends in the longitudinal direction are not easily bent, so that the front bracket 200 and the structural frame 300 may not be completely compressed.

Therefore, it is preferable that the heat insulating bracket 100 included in the heat insulating curtain wall according to the present invention is made to have a resilient structure so that both ends in the longitudinal direction can be bent to a certain level. That is, it is preferable that the heat insulating bracket 100 is formed with a front extended piece 120 extending frontward at the front end edge and a rear extended piece 130 extending backward at the rear edge.

When the front extension piece 120 and the rear extension piece 130 are formed at both ends of the heat insulating bracket 100 in the longitudinal direction, the fastening anchor 400 penetrates the front bracket 200 and the heat insulating bracket 100 The front extension piece 120 and the rear extension piece 130 are deformed and pressed against the front bracket 200 and the structure frame 300 when the front bracket 200 is screwed to the structure frame 300, A clearance is not generated between the heat insulating brackets 100 and no gap is formed between the heat insulating bracket 100 and the structural frame 300, so that the heat insulating property is very high.

The front bracket 200 is fitted with the front extension 120 so that both sides of the heat insulation bracket 100 in the longitudinal direction can be more reliably pressed on the front bracket 200 and the structural frame 300. [ A rear insertion part 310 is formed in the structural frame 300 to insert the rear extension part 130 in a fitting manner. When the front bracket 200 and the structural frame 300 are formed with the front insertion portion 210 and the rear insertion portion 310 as described above, not only the adhesion with the heat insulation bracket 100 is further improved, The mounting position of the heat insulating curtain 100 can be always kept constant, so that the durability of the heat insulating curtain wall according to the present invention can be improved.

The front extension 120 and the rear extension 130 inserted into the front insertion part 210 and the rear insertion part 310 are not easily separated from each other by the external force, A front fastening protrusion 122 and a rear fastening protrusion 132 are formed on the outer side surface of the rear extension 130. The front fastening protrusion 122 is inserted into the inner wall of the front insertion portion 210, And a rear fastening groove 312 into which the rear fastening protrusion 132 is inserted is formed on an inner wall of the rear insertion portion 310. [ When the front fastening protrusion 122 and the rear fastening protrusion 132 and the front fastening recess 212 and the rear fastening recess 312 are formed as described above, The front fastening protrusion 122 and the rear fastening protrusion 132 are engaged with the front fastening recess 212 and the rear fastening recess 312 respectively when the first fastening protrusion 120 and the rear fastening protrusion 130 are inserted, The extension piece 120 and the rear extension piece 130 are not easily released by an external force.

When the front fastening protrusion 122 and the rear fastening protrusion 132 and the front fastening recess 212 and the rear fastening recess 312 are formed as described above, The front extension part 120 and the rear extension part 130 are inserted into the front insertion part 210 and the rear insertion part 310 by the click feeling generated when the front extension part 120 and the rear extension part 130 are engaged with the front engagement groove 212 and the rear engagement groove 312, So that it is possible to prevent the failure of the heat insulating bracket 100 from being tightened.

When the end of the fastening anchor 400 is passed through the front bracket 200 and the heat insulating bracket 100 and then fastened to the structural frame 300, if the direction of the fastening anchor 400 is shifted, 100 can not be normally combined with each other, thereby causing a serious problem that the heat insulating performance of the heat insulating curtain wall according to the present invention becomes poor.

Therefore, the heat insulating curtain wall according to the present invention can be installed in a state where the fastening anchor 400 of the heat insulating bracket 100, the front bracket 200, and the structural frame 300 can be guided uniformly, It is preferable that an incision groove S is formed at a portion through which an end of the light guide plate passes. Even if the end of the fastening anchor 400 is slightly spaced apart from the incision groove S, the incision groove S is first broken, It is possible to obtain the effect that the fastening direction of the fastening anchor 400 is guided along the incision groove S, that is, the effect that the fastening anchor 400 penetrates through the point where the incision groove S is formed.

The heat insulating bracket 100 is fastened to the fastening anchor 400 so that the fastening anchor 400 does not move in the forward direction while advancing toward the rear side wall surface after passing through the front side wall surface of the heat insulating bracket 100. [ And a diaphragm 150 which intersects the internal isolation space 110 in a direction perpendicular to the inserting direction of the inserting space 110 (the up-down direction in Fig. 2). The end of the fastening anchor 400 which is in contact with the diaphragm 150 slides on an inclined surface formed on the diaphragm 150 to be separated from the diaphragm 150 150, and thus the direction of the fastening anchor 400 is constantly guided.

If the partition 150 is provided in the inner isolation space 110, that is, if the inner isolation space 110 is divided into a plurality of independent spaces, if heat is introduced into one side of the inner isolation space 110 It is not easily propagated to the inner isolation space 110 on the opposite side, and the effect of further improving the heat insulation efficiency can be obtained.

3 and 4 are a sectional view and an exploded view of a second embodiment of an insulating curtain wall which is easy to detach and attach according to the present invention.

Layer glass 500 is inserted between the front bracket 200 and the structural frame 300. Since the self-weight of the double-layer glass 500 is very large, The position can not be fixed by the sealant 520 alone, and a problem of sagging down may occur. In particular, when the double-layer glass 500 positioned on the upper side of the heat insulating bracket 100 is sagged downward, there is a fear that the double-layered glass 500 presses and breaks the heat insulating bracket 100.

The insulating curtain wall according to the present invention may further include a guide bracket 800 for supporting the multi-layered glass 500 located above the heat insulating bracket 100 to solve the above problems. That is, a mounting groove 320 is formed on the front side of the structural frame 300 at a portion where the heat insulating bracket 100 is coupled, and the guide bracket 800 is mounted to the mounting groove 320, And may be configured to support the glass 500.

The guide bracket 800 includes a mounting portion 810 mounted to the mounting groove 320 and an extension portion 810 extending forward from the mounting portion 810 to receive the lower end of the upper layer of the double- (820), and is configured to transmit the load of the multilayer glass (500) to the structural frame (300). Therefore, it is possible to prevent the heat insulating bracket 100 from being damaged by the double-layer glass 500.

A gasket coupling groove 140 is formed on the outer surface of the heat insulating bracket 100 so that the rubber gasket 600 can be stably coupled to the heat insulating bracket 100. The rubber gasket 600 Is mounted to be inserted into the gasket locking groove 140 at one side. The structure in which one side of the rubber gasket 600 is inserted into the gasket coupling groove 140 is applied in various fields in various manners, and a detailed description thereof will be omitted.

FIGS. 5 to 7 sequentially illustrate the joining process of the second embodiment of the heat insulating curtain wall which is easy to detach and attach according to the present invention.

5, the guide bracket 800 is mounted on the structural frame 300 and then the heat insulating bracket 100, to which the rubber gasket 600 is coupled, The rear extension part 130 of the structure frame 300 is inserted into the rear insertion part 310 of the structure frame 300.

The length of the rubber gasket 600 is set to be longer than the distance between the heat insulating bracket 100 and the guide bracket 800 so that the rear extension 130 of the heat insulating bracket 100 is positioned at a distance The end of the rubber gasket 600 is pressed against the inner surface of the extension portion 820 when the rubber gasket 600 is inserted into the rear insertion portion 310. 6, the front bracket 200 is fastened and then the fastening anchor 400 is fastened to the front bracket 200 and the heat insulating bracket 100, Thereby integrally joining the frame 300.

At this time, if the head portion of the fastening anchor 400 is exposed to the outside, heat or cool air can be easily transmitted through the fastening anchor 400 and the head portion of the fastening anchor 400 is broken, May be released.

The heat insulating curtain wall according to the present invention may further include a cover 700 covering the front side of the front bracket 200 and the heat conduction block 900 so as to solve such a problem. At this time, the cover 700 should be made of a material having high rigidity such as metal so as not to be easily damaged by an external impact. A heat insulating material 710 may be applied to the inner surface of the cover 700 to block external heat and cold air inflow through the cover 700.

8 is a sectional view of a third embodiment of a heat insulating curtain wall which is easy to detach and attach according to the present invention.

The heat insulating curtain wall according to the present invention is provided with a rubber gasket 600 so that the heat insulating bracket 100 can be sealed between the heat insulating bracket 100 and the multilayer glass 500. The end of the rubber gasket 600 is connected to the end of the double- A high heat insulating effect can be obtained only when it is strongly pressed.

At this time, since the end of the double-layered glass 500 is not formed in a perfectly smooth planar shape, the end of the rubber gasket 600 is hardly brought into close contact with the end of the double-layered glass 500. Accordingly, the insulating curtain wall according to the present invention is positioned at the end of the double-layered glass 500 located above the guide bracket 800 and at the lower side thereof so that the surface to which the end of the rubber gasket 600 is pressed can be provided in a smooth plane. Layered glass 500, which is the same as the first embodiment.

That is, the mounting groove 320 is formed on the upper side and the lower side of the front surface of the structural frame 300 where the heat insulating bracket 100 is coupled, and the guide bracket 800 has the two mounting grooves 320, One end of the rubber gasket 600 is inserted into one of the gasket engagement grooves 140 formed on the upper surface and the lower surface of the heat insulating bracket 100 and the other end is inserted into the upper extension portion 820 and the lower side And extended portions 820, respectively. As described above, the guide bracket 800 is provided on the upper side and the lower side of the heat insulating bracket 100, respectively, and the heat insulating efficiency of the heat insulating curtain wall according to the present invention is increased.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the invention.

100: Insulation bracket 110: Internal isolation space
120: front extension piece 122: front fastening projection
130: rear extension piece 132: rear fastening projection
140: gasket fastening groove 150: diaphragm
200: front bracket 210: front insertion part
212: front fastening groove 300: structural frame
310: rear insertion portion 312: rear fastening groove
320: mounting groove 400: fastening anchor
500: Double layer glass 510: Packing member
520: sealant 600: rubber gasket
700: Cover 710: Insulation
800: guide bracket 810:
820: extension part S: incision groove

Claims (5)

A heat insulating bracket 100 made of a synthetic resin material having an inner isolation space 110 and extending in a longitudinal direction;
A front bracket 200 made of metal and extending in a direction perpendicular to the longitudinal direction of the heat insulating bracket 100 so as to cover the front of the heat insulating bracket 100;
A metal structural frame 300 arranged to cover the rear of the heat insulating bracket 100;
And the structural frame 300 is coupled to the front bracket 200 and the heat insulating bracket 100 so that the front bracket 200 and the heat insulating bracket 100 are connected to the structural frame 300, A fastening anchor 400 integrally joining the anchors 400;
A double-layered glass 500 inserted between the front bracket 200 and the structural frame 300;
A rubber gasket 600 inserted between the heat insulating bracket 100 and the multilayer glass 500 to block heat transfer through the space between the heat insulating bracket 100 and the multilayer glass 500;
A heat conduction blocking block 900 coupled to an edge of the front bracket 200;
A cover 700 mounted to cover the front side of the front bracket 200 and the heat conduction block 900;
A packing member 510 and a sealant 520 for sealing a space between the multilayer glass 500 and the heat conduction block 900 and a space between the multilayer glass 500 and the structural frame 300;
Wherein the curtain wall comprises a curved wall.
The method according to claim 1,
The heat insulating bracket 100 is formed with a front extension piece 120 extending forwardly at a front end edge thereof and a rear extension piece 130 extending rearward at a rear edge edge thereof,
The front bracket 200 includes a front insertion portion 210 into which the front extension 120 is inserted in a fitting manner,
The structure frame 300 includes a rear insertion part 310 into which the rear extension part 130 is inserted in a fitting manner,
A front fastening protrusion 122 and a rear fastening protrusion 132 are formed on the outer side surface of the front extension 120 and the outer side surface of the rear extension 130,
A front fastening groove 212 into which the front fastening protrusion 122 is inserted is formed on an inner wall of the front insertion portion 210,
Wherein a rear fastening groove (312) in which the rear fastening protrusion (132) is inserted is formed in an inner wall of the rear insertion part (310).
The method according to claim 1,
A mounting groove 320 is formed on the front side of the structural frame 300 above the portion to which the heat insulating bracket 100 is coupled,
A guide bracket (not shown) composed of a mounting portion 810 mounted on the mounting groove 320 and an extension portion 820 extending forward from the mounting portion 810 to receive the lower end of the multi- 800). ≪ / RTI >
The method of claim 3,
The mounting groove 320 is formed on the upper side and the lower side of the front surface of the structural frame 300 to which the heat insulating bracket 100 is coupled,
The guide bracket 800 is mounted on the two mounting grooves 320,
One end of the rubber gasket 600 is inserted into a gasket engagement groove 140 formed on the upper surface and the bottom surface of the heat insulating bracket 100 and the other end is inserted into the upper extension portion 820 and the lower extension portion 820 And each of the curtain walls is compressed.
The method according to claim 1,
A cutout groove S is formed at a portion of the heat insulating bracket 100, the front bracket 200 and the structural frame 300 through which the end of the fastening anchor 400 passes,
The heat insulating bracket 100 has a diaphragm 150 which crosses the internal isolation space 110 in a direction perpendicular to the insertion direction of the fastening anchor 400,
Wherein the diaphragm (150) is formed in a curved shape such that a central portion of the diaphragm (150) is convex backward.

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