KR101305147B1 - Curtain wall assembly with rib-gasket - Google Patents

Abstract

PURPOSE: A curtain wall assembly with a rib gasket is provided to facilitate the construction and to improve insulation efficiency by minimizing heat transmission between metal. CONSTITUTION: A curtain wall assembly (100) with a rib-gasket comprises a main frame (10), a connection member, a cap frame (30), a glass (50), and one or more rib gaskets (221). The main frame includes a space part (11) to insert an insulation member (111) and a support frame (12) to form a first insertion space part (121) which connects the connection member to the main frame. The connection member interconnects the cap frame and the main frame. The connection member includes an insertion part (23) to be combined in the first insertion space part of the main frame. The connection member includes a head part (21) combined in the cap frame and a body part (22) formed in a space between the head part and the insertion part. The cap frame includes a second insertion space part (31) which is combined with one side of the connection member. The glass is arranged in a space between the main frame and the cap frame using the connection member as a starting point. The rib gasket is formed on the upper and lower surfaces of the body part of the connection member. The rib gasket comes in touch with the insertion end of each glass.

Description

CURTAIN WALL ASSEMBLY WITH RIB-GASKET}

The present invention relates to a curtain wall assembly having a rib gasket, and more particularly, the construction is simple by consisting only of the main frame, the cap frame and the connecting member, and further minimizes heat transfer between metals by using the connecting member as a synthetic resin material. While increasing the performance, the connecting member relates to a curtain wall assembly having a rib gasket to release the mold gasket in contact with the glass to reduce the number of parts while minimizing the heat rate due to convection.

Generally, the building supports the vertical load applied only by the frame of the column and the beam, and the horizontal load by the wind or the earthquake.

At this time, the curtain wall simply functions as a curtain dividing the space. Such a curtain wall blocks rain or wind from the outside, and functions to block noise or heat.

The curtain wall also allows the pillars and beams to be exposed to the outside, providing the appearance of a beautiful building.

However, curtain wall system windows are generally made of metal such as aluminum, so they are good in terms of structural strength and cohesiveness, but are poor in heat insulation performance and condensation performance.

As a technique for increasing insulation performance, a window insulation connecting member (No. 20-1998-055682) has been published.

The conventional thermal insulation connecting member for windows and doors is interconnected via an intermediate member made of polyamide to prevent heat transfer between the main structure and the metal of the coupling member.

However, such a conventional window insulation connecting member is composed of the intermediate structure and the coupling between the main structure and the coupling portion between each other because it is composed of a weak structural rigidity, and also the packing is coupled to both sides of the intermediate member assembly There was a very uncomfortable problem.

In addition, a tropical flow phenomenon occurs through the space portion formed between the glass and the intermediate member, there was a problem that the thermal insulation and condensation performance is very weak.

The present invention has been made in view of the above problems, and the first object of the present invention is a rib gasket having a simple structure by constructing only a main frame, a cap frame and a connecting member without a separate coupling means such as a screw bolt. To provide a curtain wall assembly having a.

The second object of the present invention is to increase the thermal insulation performance by minimizing heat transfer between metals by using the connecting member as a synthetic resin material, while the connecting member releases and extrudes and extrudes the rib gasket in contact with the glass to reduce the number of parts by convection. It is to provide a curtain wall assembly having a rib gasket to minimize the heat rate.

A second object of the present invention is to provide a curtain wall assembly having a rib gasket having a structure capable of increasing the rigidity of the connecting member and the coupling force with the main frame by temporarily coupling the pressing pin to the connecting member. It is.

According to a feature for achieving the object as described above, the first invention relates to a curtain wall assembly having a rib gasket, the recessed space is formed to insert a heat insulating member on one surface, the center of one surface The main frame is integrally formed with a support frame which is branched forward to extend the first fitting space portion is formed; and the insertion portion is fitted to the first fitting space portion of the main frame is formed, in order to reduce the thermal conductivity A connecting member extruded from a synthetic resin material; and a cap frame having a second fitting space formed at the center of the other surface so that one side of the connecting member can be fitted; And a glass disposed between the main frame and the cap frame starting from the connecting member, wherein the connecting member is formed between the head coupled to the cap frame and the head portion and the insertion portion. Further comprising a body portion, the head portion and the through-hole are formed in the body portion communicated with each other at regular intervals along the longitudinal direction, the insertion portion has a structure in which the center is cut in half, the upper surface of the body portion and The lower surface is characterized in that it has at least one rib gasket which is released and molded integrally with the connecting member so as to block heat conduction due to convection, and in contact with the insertion end of each glass.

The second invention, in the first invention, preferably has a plurality of air layers in the head portion and the body portion of the connecting member.

According to a third aspect of the present invention, it is preferable that the insertion portion of the connection member is toothed so as not to be separated from the first fitting space portion.

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In the fifth invention, in the first invention, the connecting member further increases the rigidity, in order to increase the coupling force, one side is exposed to the front of the head portion and the other side is further contact pins contacting one surface of the insertion portion through the respective through holes It is preferable to include.

In the sixth invention, in the fifth invention, the pressing pin is integrally fixed by the diaphragm formed in the through hole of the head portion, and configured to be able to enter into the cut-out insertion portion which is separated from the diaphragm by an external strike. desirable.

In the seventh invention, in the fifth invention, the other side of the pressing pin is further formed with a locking jaw, it is preferable that the insertion portion of the connection member further includes an inner step to prevent the separation when the other end of the pressing pin is introduced. .

 According to the curtain wall assembly having a rib gasket according to the present invention, it is composed of only the main frame, the cap frame and the connecting member without a separate coupling means such as a screw bolt has a very simple effect of maintenance and construction.

In addition, the connecting member is made of a synthetic resin to minimize heat transfer between metals to increase the thermal insulation performance, while the connecting member releases and extrudes the rib gasket in contact with the glass to minimize the number of parts while minimizing the number of parts by heat convection. There is an excellent heat insulation effect.

In addition, the pressing pin is integrally coupled to the connecting member to reduce the number of parts, thereby increasing the rigidity of the connecting member and increasing the coupling force with the main frame.

1 is a cross-sectional view of a curtain wall assembly having rib gaskets according to a first embodiment of the present invention;
2 is a perspective view showing the connection member extracted from FIG.
3 is a conceptual diagram showing conduction of cold or hot air of a curtain wall assembly having rib gaskets according to a first embodiment of the present invention;
4 is a cross-sectional view of a curtain wall assembly having rib gaskets according to a second embodiment of the present invention;
5 is a perspective view of the connection member extracted from FIG.
6 is a conceptual diagram showing the engagement of the pressure pin.

Hereinafter will be described in detail with the accompanying drawings with respect to the curtain wall assembly having a rib gasket according to the present invention.

1 is a cross-sectional view of a curtain wall assembly having a rib gasket according to the first embodiment of the present invention, Figure 2 is a perspective view showing a connecting member extracted from FIG.

As shown in Figure 1 and 2, the present invention is composed of only the main frame 10, the cap frame 30 and the connecting member 20, the construction is simple, and the connecting member 20 is made of a synthetic resin material By minimizing the heat transfer between the metal to increase the thermal insulation performance, while the connecting member 20 is released by extrusion molding the rib gasket 221 in contact with the glass 50 to minimize the number of parts while minimizing the heat rate of heat by convection A curtain wall assembly having rib gaskets is provided.

Curtain wall assembly 100 having such a rib gasket consists of four parts, which is the cap frame 30, the main frame 10, and the cap frame 30 and the main frame 10 are interconnected It is composed of a connecting member 20, the glass 50 is disposed between the main frame 10 and the cap frame 30 from the connecting member 20 as a starting point.

The main frame 10 has a space 11 recessed to insert the heat insulating member 111 on one surface thereof, and a gasket contacting the surface of the glass 50 to both sides of the space 11. (G) is the structure to be fitted.

Here, the heat insulating member 111 is made of a polyurethane material, and serves to block heat transfer to the main frame 10 to enhance the heat insulating effect.

In addition, the main frame 10 is branched forward to extend so that the first fitting space 121 for connecting the connecting member 20 is formed in the center of one surface, that is, the front of the space 11 The frame 12 is integrally formed.

In addition, the connection member 20 is for connecting the cap frame 30 and the main frame 10, the insertion portion 23 is fitted to the first fitting space portion 121 of the main frame 10. ) Is formed. The connecting member 20 is a structure that is extrusion molded with a synthetic resin material in order to reduce the thermal conductivity.

In addition, the cap frame 30 is formed with a second fitting space 31 joined to the center of the other surface so that one side of the connecting member 20 can be fitted, and to both sides of the second fitting space 31. Is a structure in which the gasket G in contact with the glass 50 is fitted.

Meanwhile, the connection member 20 includes a head portion 21 coupled to the cap frame 30, and a body portion 22 formed between the head portion 21 and the insertion portion 23. do. At this time, the head portion 21 and the body portion 22 has a structure having a plurality of air layers so as to minimize the heat conduction while saving material. At this time, the insertion portion 23 of the connection member 20 is a structure that is coupled to each other so as not to be separated from the first fitting space portion 121.

In addition, the body portion 22 of the connecting member 20 is molded and extruded integrally with the connecting member 20 so as to block the heat conduction due to convection on the upper and lower surfaces, the insertion end of each glass and It is a structure having at least one rib gasket 221 in contact.

The rib gasket 221 has a structure in which two are formed on the upper and lower surfaces of the body portion 22 as an example, and is composed of a soft synthetic resin material to be flexible. At this time, the rib gasket 221 is in a form perpendicular to the body portion 22.

Therefore, when the glass 50 is disposed in the state in which the connecting member 20 is coupled to the first fitting space 121 of the main frame 10, the rib gasket 221 is inserted into the insertion end of the glass 50. It is configured to be in contact in an inclined state to minimize the heat rate of heat caused by convection.

Hereinafter, the thermal barrier effect of the curtain wall assembly having a rib gasket according to the first embodiment of the present invention will be described briefly.

3 is a conceptual diagram showing conduction of cold or hot air of a curtain wall assembly having rib gaskets according to a first embodiment of the present invention.

As shown in FIG. 3, the external hot or cold air is conducted to the cap frame 30 made of metal.

The conducted hot or cold air is reduced by the air layer formed inside the cap frame 30, and is also shielded by the connecting member 20 made of a synthetic resin material combined with the cap frame 30.

And hot or cold air conducted to the glass 50 and the cap frame 30 is primarily shielded through the gasket (G), through the rib gasket 221 extending to the body portion 22 of the connecting member 20 By minimizing the heat rate of heat caused by convection, it is possible to maximize the insulation effect.

Figure 4 is a cross-sectional view of the curtain wall assembly having a rib gasket according to a second embodiment of the present invention, Figure 5 is a perspective view of the connection member extracted in Figure 4, Figure 6 is a conceptual diagram showing the coupling of the pressing pin. .

As shown in Figures 4 to 6, the second embodiment includes the first embodiment, but only to increase the rigidity of the connecting member 20, to increase the coupling force with the main frame 10 The structure further includes a plurality of pressure pins 40 made of ash.

Here, one side of the pressing pin 40 is exposed to the front of the head portion 21 of the connecting member 20, the other side is inserted through each through hole (211,222) formed in the head portion 21 and the body portion 22. It is a structure in contact with one surface of the portion (23).

And the insertion portion 23 of the connection member 20 is cut in half to open to both sides structure.

Here, the pressing pin 40 is integrally fixed by the diaphragm 211a formed in the through hole 211 of the head part 21, and is inserted into the diaphragm 211a and cut off by an external strike. It is configured to be able to enter the inside of.

At this time, the other side of the pressing pin 40 has a structure in which the locking jaw 41 is formed, the insertion portion 23 of the connecting member 20 to prevent the separation when the other end of the pressing pin 40 is introduced. The inner step 231 is formed so that the locking step 41 of the pressing pin 40 is covered.

Therefore, when the insertion portion 23 hits one side exposed to the outside of the head portion 21 as shown in (a) and (b) of FIG. 6, the pressing pin 40 penetrates the through hole of the head portion 21 ( The other end enters into the insertion part 23 while being separated from the diaphragm 211a formed at 211, and the insertion part 23 is pressed against the inner circumferential surface of the first fitting space part 121 of the support frame 12. As a result, a structure for increasing the rigidity of the connecting member 20 and improving the coupling force between the main frame 10 and the connecting member 20 is provided.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

10: main frame 11: space 111: heat insulating member
12: Support frame
121: first fitting space part
20: connecting member 21: head portion 211: through hole
211a: diaphragm 22: body portion
221: rib gasket 222: through hole
23: inserting portion 231: internal step
30: cap frame 31: second fitting space
40: pressure pin 41: locking jaw
50: glass
G: Gasket
100: curtain wall assembly with rib gasket

Claims (7)

In the curtain wall assembly having a rib gasket,
The support frame 12 which is branched forward and extended so that the first fitting space 121 is formed in the center of one surface is formed in the recessed portion 11 to insert the heat insulating member 111 on one surface. The main frame 10 formed integrally with this;
An insertion part 23 formed to be fitted into the first fitting space part 121 of the main frame 10, and a connection member 20 extruded from a synthetic resin material to reduce thermal conductivity;
A cap frame 30 having a second fitting space portion 31 formed in the center of the other surface so that one side of the connection member 20 can be fitted; And
The glass member 50 is disposed between the main frame 10 and the cap frame 30 from the connection member 20;
The connecting member 20,
Further comprising a head portion 21 coupled to the cap frame 30, the body portion 22 formed between the head portion 21 and the insertion portion 23,
The head portion 21 and the body portion 22 are formed with through-holes 211 and 222 communicating with each other at a predetermined interval along the longitudinal direction, respectively, and the insertion portion 23 has a structure in which the center is cut in half. ,
At least one of the upper and lower surfaces of the body portion 22 is extruded integrally with the connecting member 20 so as to block heat conduction due to convection, and is in contact with the insertion end of each glass 50. Curtain wall assembly having a rib gasket, characterized in that it has more than one rib gasket (221).
The method of claim 1,
Curtain wall assembly having a rib gasket, characterized in that the head portion 21 and the body portion 22 of the connecting member 20 has a plurality of air layers.
The method of claim 1,
Inserting portion (23) of the connecting member 20 is curtain wall assembly having a rib gasket, characterized in that the structure is coupled to the tooth so as not to be separated from the first fitting space (121).
delete The method of claim 1,
The connection member 20 is exposed to the front of the head portion 21 in order to increase the rigidity, and increase the coupling force, the other side is in contact with one surface of the insertion portion 23 through the through holes 211 and 222 Curtain wall assembly having a rib gasket, characterized in that it further comprises a pressing pin (40).
6. The method of claim 5,
The pressing pin 40 is integrally fixed by the diaphragm 211a formed in the through hole 211 of the head portion 21, and is inserted into the diaphragm 211a and cut off by an external strike. Curtain wall assembly having a rib gasket, characterized in that configured to be able to enter the interior of the.
6. The method of claim 5,
A locking jaw 41 is further formed on the other side of the pressing pin 40, and the insertion part 23 of the connection member 20 has an inner step (2) to prevent separation when the other end of the pressing pin 40 is introduced. Curtain wall assembly having a rib gasket, characterized in that it further comprises.

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