KR102073602B1 - Curtain wall with improved insulation and assembly - Google Patents

Abstract

The present invention provides a curtain wall with improved insulation and assembly, which forms a separate space inserting a tip bar supporting glass in an outdoor side of an indoor frame positioned on an indoor side in the curtain wall and fills Azon insulating materials into a space around the tip bar, thereby prominently increasing insulation and facilitating assembly of the tip bar.

Description

Curtain wall with improved insulation and assembly

The present invention relates to a curtain wall structure, and more particularly, by forming a separate space for inserting a glass bar supporting the glass on the outdoor side of the indoor frame in the curtain wall and filling the insulating material in the space around the glass bar. It is related with the curtain wall which improved the heat insulation property and the granulation property which improved the assembly property.

It is a structure that supports the vertical loads on the pillars and the horizontal loads caused by wind or earthquakes, etc. in buildings, while the outer walls that partition the interior and exterior in high-rise buildings do not support the loads. It is a non-bearing wall that divides the bay. It is called a curtain wall because the wall serves only as a partition like a curtain. The curtain wall prevents the columns and beams from being exposed to the outside and serves as an exterior material for the beautiful appearance of the building and blocks rain, wind, noise and heat.

Curtain walls are mainly used in high-rise buildings, and horizontal bars and vertical bars are usually installed in a grid shape, and glass walls are formed in the grid shape to form walls. Although there is an advantage to shorten the construction period, since the entire surface of the outer wall is treated with a glass finishing material, there is a disadvantage that the insulation is inferior, improving the thermal insulation to reduce energy loss in terms of energy efficiency is essential.

The curtain wall mainly uses horizontal bars and vertical bars made of aluminum. One of the factors that lowers the window performance of the curtain wall is that the heat loss of the bar (frame) made of aluminum is large. Window performance is evaluated by the average value of glass wall and curtain wall frame. In the case of glass wall, it can be supplemented by attaching insulation film on the surface, but the bar forming the frame is made of aluminum, which is a metal material. Since there is still a problem of a lot of energy loss, it is urgently needed to compensate for this.

In order to solve the above problems, a number of technologies have emerged. For example, Patent Registration No. 1287270, "Insulation reinforcement of curtain wall and its manufacturing method," has a polyamide frame attached to the outside after molding an epoxy frame. Next, a technique of manufacturing a bar of a curtain wall by attaching an aluminum bar integrally to the outside thereof, the manufacturing process is very complicated. In addition, Patent Registration No. 1223620 "Double Curtain Wall Window of Insulation Composite" is a structure for reinforcing insulation by inserting an insulating material between the indoor and outdoor frames, and combining a separate insulating finishing member to the indoor frame. Not only is it complicated, it is not a structure that can reduce the heat loss of the frame itself, there is a problem that the insulation performance is poor.

Applicant (inventor) of the present invention, while constructing the window directly, while continuing a number of research and development to solve the various problems as shown in the curtain wall up to now, Patent Registration No. 1432311 "with a double insulation structure Curtain Wall ", Patent Registration No. 172286" Curtain Wall Frame with Strength Reinforcement and Insulation Structure ", Patent Registration No. 1754619," Curtain Wall Frame with Improved Insulation and Bonding " And patented, and this series of processes led to the present invention.

The present invention has been made to solve the above problems, an object of the present invention is to form a separate space for inserting a glass bar supporting the glass on the outdoor side of the indoor frame located on the indoor side from the curtain wall, The purpose of the present invention is to provide a curtain wall having improved thermal insulation and assemblability, by filling the space around the bar with an azo insulating material, thereby significantly increasing the thermal insulation and making the assembly of the vertical bar easier.

Curtain wall is improved heat insulation and assemblability according to the present invention, the interior frame is located on the indoor side, and the top bar is assembled to be located on the outdoor side of the indoor frame is assembled to support the glass, the indoor frame The frame body has an azona filling hole cut in a predetermined width along a longitudinal direction in the central portion of the outdoor side wall having a hollow rectangular cross section and located on the outdoor side in a rectangular shape; And a partition wall portion formed as a wall on the outdoor side in the rectangular shape of the frame body to form an azone filling space between the wall and the outdoor side wall, and the cross section has a 'T' shape. A 't'-shaped horizontal portion is located in the middle of the azone filling space, the vertical portion is to be assembled with the indoor frame by protruding to the outdoor side through the azone filling hole formed in the frame body; Azone insulation material which is injected through the azone filling sphere and filled in the azone filling space and then solidified so that the apex bar is completely fixed and separated to block heat conduction between the apex bar and the frame body. It is characterized in that configured to block the heat conducted between the frame body and the stem bar by the AZON insulation.

Preferably, the stem bar is a part of the vertical portion of the 'T' shape is integrally connected to one side of the azone filling port formed on the outdoor side wall of the frame body, the integrally formed stem bar and the frame body is manufactured by an extrusion method; After the azone is solidified by injecting the azone into the azone filling space through an azone filling hole formed in the cutout portion of the outdoor side wall at one side of the vertical portion of the 'T' shape of the stem bar; The vertical part of the 'T' shape of the bar is cut (cut) the cut part connected integrally with one side of the azone filling port of the frame body, so that the frame body and the bar are completely separated.

According to another embodiment of the curtain wall according to the present invention, the indoor frame has a hollow rectangular cross section and is located along the longitudinal direction at the central portion of the outdoor side wall which is located on the outdoor side in the rectangular shape. A frame body formed with an azone filling hole cut into a predetermined width; The frame body is formed as a wall on the outdoor side inside the square body, and forms an azone filling space between the wall and the outdoor side wall, and a pair of protruding jaws are formed along the length direction by being spaced apart at regular intervals to the outdoor side of the wall. And a partition wall portion, the cross section having a 'T' shape, a polyamide insulation material attached to the outside of the 'T' shape horizontal portion, and the polyamide insulation material protruding from the wall. The 'T' shape is temporarily fixed by a pair of fixing protrusions which are inserted between the pair of protrusion jaws and protrude toward the outdoor side of the polyamide insulation, and the vertical portion is moved to the outdoor side through the azone filling hole formed in the frame body. A bar that is protruded and assembled with the indoor frame; Azone insulation through which the azone is injected through the azone filling hole and filled in the azone filling space and then solidified so that the apex bar is completely fixed and separates between the apex bar and the frame body to block heat conduction. And, it is characterized in that it is configured to block the heat conducted between the frame body and the stem bar by the azone insulation and polyamide insulation.

Preferably, the rectangular shape of the frame body is made of aluminum, and the outer side walls are formed to protrude to both sides, respectively, and each of the protruding end portions has a joining protrusion formed thereon; Made of synthetic resin, the insulating frame having a cross-section 'c' shape is further inserted from the interior side to the outside of the frame body, so that both ends of the 'c' shaped opening portion are combined. Composed in combination with the stone

Curtain wall according to the present invention forms a separate space for inserting the support bar to support the glass on the outdoor side of the indoor frame in order to block the heat or cold air of the outdoor through the glass and the tap bar to the interior, the tap bar The thermal insulation properties were remarkably increased because the interior space and the stem bar were completely separated by the heat insulator by filling the azone insulation material or the azone insulation material and the polyamide insulation material in the surrounding space.

In addition, in order to fill the azone insulation material around the tap bar, the frame body of the tap bar and the indoor frame is integrally manufactured by extrusion, and the part where the tap bar and the frame body are connected after filling and solidifying the Azone insulation material around the tap bar. By cutting the so that the bar is completely separated from the frame body, it is very easy to assemble to the frame body and the process is shortened. In addition, the polyamide insulation is fixed to the frame body by attaching the polyamide insulation to the outer surface of the end of the stem bar, and then filling and solidifying the azone insulation material in the space formed around the stem bar to fix the stem bar to the frame body. It is very easy to assemble to the body and the process is shortened.

1 is a view schematically showing a state in which a curtain wall is installed according to the present invention.
FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1.
3 is a cross-sectional view taken along line III-III of FIG. 1.
Figure 4 is a view for explaining a process of filling the insulating material in the cross-sectional view and the frame of the assembled state showing an embodiment of the curtain wall according to the present invention.
5 to 7 is an exploded view showing the cross-sectional view and the bar (bar) of the assembled state showing another embodiment of the curtain wall according to the present invention.

The biggest technical feature of the curtain wall with improved heat insulation and assemblability according to the present invention, by filling the heat insulating material in the space formed around the tap bar coupled to the bar-shaped interior frame, significantly increasing the heat insulating property and tap bar It is easy to assemble.

Curtain wall according to the present invention is assembled to the indoor frame 11 to be located on the indoor side, and the top bar 12 is assembled to be located on the outdoor side of the indoor frame 11 to support the glass 30, It is configured to form a frame of the horizontal bar 10 and the vertical bar 20.

First, referring to FIG. 4, the indoor frame 11 includes a frame body 111 made of aluminum and a partition wall 112 formed inside the frame body 111, and the frame body 111 is moved to the outdoor side. An azone filling port 114 is formed. The frame main body 111 has a hollow rectangular cross section, and is filled with an azone filled in a predetermined width along the longitudinal direction in the central portion of the outdoor side wall 113 positioned at the outdoor side in the rectangular shape. The sphere 114 is formed and comprised. In addition, the partition wall portion 112 formed as a wall on the outdoor side is located inside the square body of the frame body 111, an azone in which an azone is filled between the wall constituting the partition wall 112 and the outdoor side wall 113. The filling space is formed.

The tap bar 12 serves to support the glass 30. The tap bar 12 has a 'T' shape in cross section and is horizontal in a 'T' shape when assembly is completed. The additional portion is located in the middle portion of the azone filling space, the vertical portion in the 'T' shape is to be assembled with the indoor frame 11 so as to protrude to the outdoor side through the azone filling hole 114 formed in the frame body 111.

Azone insulation 13 serves to block the heat conducted between the frame body 111 and the stem bar 12, the azone is injected through the azone filling port 114 is filled in the azone filling space and solidified The Azon insulation material 13 separates between the stem bar 12 and the frame body 111 while completely fixing the stem bar 12, and thus conducts between the frame body 111 and the stem bar 12. The heat to be cut can be blocked, and the heat insulation of the curtain wall is remarkably improved.

Rather than inserting the azone insulation material 13 in the state where the stem bar 12 is separated from the frame body 111 from the beginning, the stem bar 12 initially has a portion of the vertical portion of the 'T' shape of the frame body. Connected integrally with one side of the azone filling port 114 formed on the outdoor side wall 113, the integrally formed stem bar 12 and the frame body 11 are manufactured by an extrusion method (see the first drawing in Fig. 4). ). If the stem bar 12 and the frame body 11 are separated, the position of the stem bar 12 is not fixed, and thus, the azone cannot be injected.

After fabricating integrally as described above, the azone is filled in the azone filling space through an azone filling hole 114 formed at the cutout portion of the outdoor side wall 113 at one side of the vertical portion of the 'T' shape of the stem bar 12. After injection and solidification of the azone (see the second figure in FIG. 4), a part of the vertical portion of the 'T' shape of the stem bar 12 is integrally formed with one side of the azone filling hole 114 of the frame body. By cutting (cutting) the cutting part 115 connected, the frame main body 11 and the stem bar 12 are completely separated (see the third drawing in FIG. 4). After inserting the solidified azone insulation material into the azone filling space of the frame body, the cutting part 115 is cut (cut) by fabricating in the same manner as the present invention rather than by inserting and inserting the bar by pushing the knob bar into the space formed in the azone insulation material. It is effective in workability and is very easy to work.

Figure 5 shows another embodiment of the curtain wall according to the present invention, Figure 5 is different from Figure 4, the position of the tap bar by attaching a polyamide insulation material to the tap bar to hold the polyamide insulation material to fix the position Also, since the azon is injected, a part of the outdoor side wall of the frame body is not cut (cut). Since the rest is the same as the embodiment described with reference to FIG. 4, redundant descriptions are omitted and only differences will be described. In the embodiment shown in Fig. 5, reference numerals starting with '4' are used.

In the partition 412 formed inside the interior frame 41, a pair of protrusions 412a protrude along the longitudinal direction to be spaced apart from the outside side of the wall by a predetermined interval, between the protrusions 412a. The polyamide insulation 43 'is fitted.

The stem bar 42 has a 'T' shape in cross section and a polyamide insulation material 43 'is attached to the outside of the' T 'shape horizontal part (referring to the interior frame side). The heat insulating material 43 'is sandwiched between a pair of protruding jaws 412a protruding toward the outdoor side from the wall of the partition 412, and a pair of fixed protrusions protruding toward the outdoor side of the polyamide insulation 43'. While the horizontal portion of the tap bar 42 is inserted between the 43b ', the' T 'shape of the tap bar 42 is temporarily fixed, and at this time, the vertical zone of the' T 'shape is formed in the frame body of the azone filling hole ( 414 is positioned to protrude to the outdoor side. Subsequently, the azone is injected through the azone filling hole 414 and filled in the azone filling space, and then solidified to form the azone insulating material 43, so that the stem bar 42 is completely fixed, and the azone insulating material 43 and the poly The amide insulation 43 'blocks the conduction of heat between the stem bar 42 and the frame body 41.

The embodiment shown in FIG. 6 is the same as the embodiment shown in FIG. 5, except that the polyamide insulation 43 '' is not attached to only the outer side of the 'T'-shaped horizontal portion of the spigot bar 42, but the azone filling. In the space, both the outer side of the 'T' shape of the spigot bar 42 and one side of the vertical part are filled with the polyamide insulation 43 '', and the remaining empty space is injected through the azone filling hole 414 to inject the azone insulation. The difference is that it is filled with (43). At this time, of course, only one projecting jaw 412a formed in the partition wall portion 412 may be provided at the boundary portion between the azone insulation material 43 and the polyamide insulation material 43 ". The rest is the same as the embodiment shown in FIG. Therefore, duplicate descriptions are omitted.

7 differs from the embodiment shown in FIG. 5 in that an insulating frame is further inserted on the outside of the frame body, and the rest of the configuration is the same. Therefore, only differences from the embodiment shown in FIG. 5 will be described. In the embodiment shown in Fig. 7, reference numerals starting with '5' are used.

The square shape of the frame body 511 is made of aluminum, and the outdoor side wall 513 positioned on the outdoor side of the frame body 511 is formed to protrude to both sides, and is coupled to each protruding end portion. A protrusion 513a is formed. Since the insulating frame 511 'should have excellent heat insulating performance, it is preferable to manufacture a synthetic resin containing plastic, and the shape of the insulating frame 511' is integrally manufactured with a 'c' shape in cross section. Integrally coupled to the outer three sides of the frame body 511 of each of the interior frames of the vertical bar 10 and the horizontal bar 20, the ends of the opened portion of the 'c' shape of the coupling protrusion 513a ) And assembled.

Insulating frame 511 'is composed of double walls in the' c 'shape, and a plurality of partition walls are provided between the double walls, and two to five hollow portions (not designated) are provided for each side. Although it is preferable to provide, by providing such a hollow part, heat insulation performance can be improved further. The insulation frame 511 'may be fastened to the frame body 511 of the indoor frame by means of fastening means such as bolts, but in order to facilitate construction, push and assemble in one-touch manner while pushing in accordance with the engaging protrusion 513a. It is desirable to.

The above description illustrates the present invention by way of example, and the embodiments disclosed in the specification are not intended to limit the technical spirit of the present invention, but to explain the present invention, so that those skilled in the art to which the present invention pertains can understand the present invention. Various modifications and variations will be possible without departing from the spirit of the technology. Therefore, the protection scope of the present invention is to be interpreted by the matter described in the claims, it should be interpreted that the technical matters within the scope equivalent to that included in the scope of the present invention.

10: horizontal bar
11, 41, 51: Indoor frame
111, 411, 511: frame body 112, 412, 512: partition wall
113, 413, 513: outdoor side walls 114, 414, 514: azone filling holes
115: cutting part 511 ': insulation frame
12, 42, 52: tap bar
13, 43, 53: Azon insulation 43 ', 43 ", 53': polyamide insulation
20: vertical bar
30: glass

Claims (5)

delete delete In the curtain wall configured to be located on the indoor side and the top bar is assembled to be located on the outdoor side of the indoor frame to support the glass, the curtain wall configured to form a frame of the horizontal bar and the vertical bar,
The indoor frame,
A frame body having a hollow rectangular shape having a cross section and an azofill filling hole cut in a predetermined width along a longitudinal direction at a central portion of an outdoor side wall positioned at an outdoor side in a rectangular shape;
The frame body is formed as a wall on the outdoor side inside the square body, and forms an azone filling space between the wall and the outdoor side wall, and a pair of protruding jaws are formed along the length direction by being spaced apart at regular intervals on the outdoor side of the wall. Partition walls;
It is configured with
The cross section has a 'T' shape, and a polyamide insulating material is attached to the outside of the 'T' shape horizontal portion, and the polyamide insulating material is sandwiched between a pair of protruding jaws protruding from the wall and the polyamide The 'T' shape is temporarily fixed by a pair of fixing protrusions protruding toward the outdoor side of the heat insulator, and the vertical bar protrudes to the outdoor side through the azone filling hole formed in the frame body, thereby being assembled with the indoor frame. ;
An azone insulation material which is injected through the azone filling hole and filled in the azone filling space, and then solidifies (固化) so that the apex bar is completely fixed and separates the apex bar and the frame body to block heat conduction;
It is configured to include a curtain wall improved heat insulation and assemblability, characterized in that configured to block the heat conducted between the frame body and the stem bar by the azone insulation and polyamide insulation.
The method of claim 3,
The square body of the frame body is made of aluminum, the outdoor side walls are formed to protrude to both sides, respectively, and each of the protruding end (端 部) is formed with a coupling protrusion,
It is made of synthetic resin, the insulating frame having a cross-section 'c' shape is further inserted from the interior side to the outside of the frame body, so that both ends of the 'c' shaped opening part are combined. Curtain wall with improved insulation and assemblability, characterized in that combined with the stone.
The method of claim 3,
Instead of attaching the polyamide insulation to the outside of the 'T' shaped horizontal portion of the spigot bar, fill both the outer side of the 'T' shaped horizontal portion and one side of the vertical portion with the polyamide insulation and fill the remaining empty space Curtain wall improved heat insulation and assemblability, characterized in that the filling.

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