KR20120052068A - Curtain wall of earthquake resistant installed in outer wall of building - Google Patents

Abstract

PURPOSE: A curtain wall equipped with an earthquake-proof structure is provided to easily construct and replace double glazing installed in the curtain wall indoors and outdoors. CONSTITUTION: A curtain wall equipped with an earthquake-proof structure is formed by connecting a grid shaped center frame(1) on an outer wall of buildings. The center frame comprises an inner center bar(1a) and an outer center bar. The inner center bar and the outer center bar formed in a longitudinal direction into two by attaching an attaching/detaching bar to one side of a fixing bar. A space for inserting the double glazing is formed between the inner center bar and the outer center bar and connecting pipes are placed facing each other. The outer center bar and the inner center form the center frame by inserting insulating materials(4a) through the connecting pipes.

Description

CURTAIN WALL OF EARTHQUAKE RESISTANT INSTALLED IN OUTER WALL OF BUILDING}

The present invention relates to a curtain wall into which the multilayer glass is fitted so that the pair glass can be replaced both indoors as well as indoors. In detail, the curtain wall in which the multilayer glass is installed in one or two layers is installed. The present invention relates to a curtain wall installed on an outer wall of a building including a side frame installed on both wall surfaces of a space between walls of a building outer wall and a center frame connected to the side frame. The curtain wall is composed of a grid-like frame intersecting the center frame in a vertical and horizontal direction and is installed between the side frames that are erected vertically on both sides to connect both side frames. In the curtain wall configured as described above, the center frame is divided into a fixing bar and a detachable bar in a longitudinal direction, and the detachable bar can be detachably attached to the fixing bar by a free fitting method so that the multilayer glass installed in the curtain wall can be replaced in the outdoor as well as indoor. Configure it to be.

In other words, the existing curtain wall can be installed and replaced only in the outdoor glass, the curtain wall of the present invention can be installed and replaced in the interior as well as indoors, the construction and replacement of the double-layer glass in high-rise buildings, etc. It is a curtain wall that completely eliminates the risk of safety accidents that reduce city expenses and may occur during outdoor construction and replacement work of multilayer glass in high-rise buildings.

In addition, the double-layered glass is installed in a double, triple vacuum blocking is a curtain wall excellent in the thermal insulation effect, the side frame fixed to both walls of the building outer wall is separated into the inner sidebar and the outer sidebar, and the outer sidebar It is a seismic structure curtain wall designed to be seismic designed to absorb vibrations by filling an elastic rubber material in a fixed bar.

Curtain wall is a structure that is installed on the outer wall of the building to enhance the effect of light, as well as to enhance the appearance of the building.

The basic structure of such a curtain wall is usually composed of a horizontal bar and a vertical bar for fixing a glass panel such as multilayer glass, and a glass panel is installed in a glass panel installation partition formed by assembling the horizontal bar and the vertical bar.

The size of the curtain wall is determined according to the curtain wall installation area of the building, and the partitions in which the glass panels are installed are usually formed in quadrangles, and the size of each compartment is several meters long and wide. The glass panels fixed to the partitions have a horizontal length of several meters accordingly, and the glass panels have a thickness of 5 mm or more.

As the weight of the glass panel is very heavy, the strength and support of the horizontal bar and the vertical bar supporting the glass panel are very important, and the type of the curtain wall is that the horizontal bar and the vertical bar supporting the glass panel are exposed between the glass panels. And, the curtain wall is not exposed, and is installed according to the user's preference.

As described above, the curtain wall installed in the lattice frame structure for installing the double layer glass on the outer wall of the building replaces the double layer glass due to breakage because the double layer glass is installed outside the curtain wall, that is, outside the building. In order to do this, only the outside of the building can be replaced.

Thus, it is very inconvenient and dangerous to replace the double-layered glass that is performed outside of the building, and it requires a lot of cost because heavy equipment such as an expensive ladder is used.In general, the double-layered glass installed in the curtain wall has only one double glass. Because it is installed, its function is inevitably limited.

In addition, according to the government policy, the seismic design standards of schools and officetels have been strengthened by about 20-25%, and structural safety standards are applied to small-sized buildings with two or more floors. In the past, the level of importance applied was 2nd grade, but in the future, schools with 3 or more floors were upgraded to 1st grade, and seismic performance was enhanced by about 20%. In this case, seismic performance is expected to improve by about 25%.

Therefore, when the earthquake resistance design standard is raised to the express level as described above, the seismic performance should be strengthened by strengthening not only the basic construction of the building but also the frame and window construction in order to prevent the collapse of buildings and damage to surrounding buildings caused by earthquakes. However, the curtain walls installed in all buildings are vulnerable to the vibration caused by the earthquake, so it is necessary to install the curtain walls with seismic design in preparation for the future.

The present invention has been made to improve the above-mentioned problems, the object is composed of a fixed bar and an inner center bar and an outer center bar which is divided in the longitudinal direction as a removable bar detachable to one side or both sides of the fixed bar. The fixing bar of the center frame is connected to the connecting member to form a grid-shaped frame on the outer wall of the building. In addition, the fixing bar of the side frame composed of an inner side bar and an outer side bar, which is bisected along the length direction, is fixed to the fixing bar and a detachable bar detachably attached to one side or both sides of the fixing bar. Secure to both walls. Thereafter, the fixing bar of the side frame is connected to the fixing bar and the connecting member of the center frame of the lattice form and attaches the detachable bar to the fixing bar of the center frame and the side frame by fitting the curtain wall. One or double laminated glass installed on the curtain wall by detachably attaching a detachable bar attached to the fixed bar between the center frame and the center frame or between the center frame and the side frame from the fixed bar, indoors or outdoors. It can be replaced freely in the outdoor as well as indoor, and when double-glazed glass is installed, there is a triple vacuum blocking effect, and the vibration transmitted from the wall of the building by the elastic material filled inside the fixing bar of the side frame The present invention provides a curtain wall that is designed to be absorbed.

Another purpose of the curtain wall is to install only two-layer glass without pillars on the outer wall of the building, the center frame fixing member consisting of the angled bending plate facing each other at a predetermined interval on each floor of the building and the center frame fixing member Install the center frame on the In addition, an elastic material is attached to the inner surface of each L-shaped bending plate in which the center frame is in close contact, and the center frame fixing member is fixed to the outer wall by the fixing means together with the shock absorbing spring, and the center frame is fixed with the shock absorbing spring. To the center frame fixing member. Accordingly, the present invention provides a curtain wall having a seismic design to absorb vibrations transmitted from a wall of a building by the elastic material and the shock absorbing spring.

In order to achieve the object as described above, the seismic structure curtain wall installed on the outer wall of the building to replace the multilayer glass in the indoor and outdoor of the present invention, in the curtain wall provided on the outer wall of the building, the center of the grid on the outer wall of the building Combining the frame to form a curtain wall, the center frame is divided into a longitudinal direction consisting of an inner center bar is formed as a fixed bar and a detachable bar, respectively, and configured to be detachable bar on one side of the fixed bar of the inner center bar, One end of the center frame is formed at one end of the fixed bar, and connects between the fixed bar and the fixed bar of the center frame intersecting with each other by a connecting member, and installs a multilayer glass between the center frame and the center frame. Part is characterized in that the packing material is configured to be combined to replace the multilayer glass indoors and outdoors have.

In addition, the side frame coupled to the center frame and the grid form, the side frame is divided into a longitudinal direction each composed of an inner side bar formed of a fixed bar and a detachable bar, the detachable bar is attached to one side of the fixed bar of the inner side bar It is configured so as to form a protrusion on one end of the fixing bar, another fixing bar is formed on one end of the protrusion, and each of the fixing bars in close contact with both walls of the building outer wall is filled with an elastic material, respectively A connecting member is connected between the fixing bar of the center frame and the fixing bar of the side frame, and in order to install the multilayer glass between the center frame and the side frame, one end of the side frame is configured such that a packing material is coupled to the multilayer glass indoors and outdoors. Another feature is that it can be replaced.

The apparatus further includes an outer center bar which is integrally formed by being connected to the inner center bar with the protrusion of the fixing bar of the center frame interposed therebetween, wherein the outer center bar comprises a fixing bar and a detachable bar which are bisected in the longitudinal direction, respectively. A detachable bar is configured to be detachably attached to one side of the fixed bar of the center bar, and a protrusion is formed at one end of the fixed bar, and the packing material is coupled to one end of the inner center bar between the inner center bar and the outer center bar. In addition, the packing material is coupled to one end and the other end of the outer center bar is characterized in that it is possible to replace the multilayer glass indoors and outdoors.

In addition, the side frame is coupled to the center frame in the form of a grid, the side frame is composed of an inner sidebar and the outer sidebar, the inner sidebar and the outer sidebar is connected to each other with a protrusion between the integrally formed, the inner side The bar and the outer side bar are each formed of a fixed bar and a detachable bar each bisected in the longitudinal direction, and the detachable bar of the outer side bar is configured to be detachably attached to one side of the fixed bar having a protrusion formed at one end thereof, and the protrusion of the outer side bar. Another fixing bar is formed at one end of the fixing bar, and each of the fixing bars in close contact with both walls of the outer wall of the building is filled with an elastic material, respectively, the fixing bar of the inner center bar of the center frame and the fixing bar of the inner side bar of the side frame. Connecting between the connecting member, between the center frame and the side frame multilayer oil In order to install, the packing material is coupled to one end of the inner sidebar between the inner sidebar and the outer sidebar of the side frame, the packing material is coupled to one end and the other end of the outer sidebar to be laminated indoors and outdoors It is another feature that makes it possible to replace.

In addition, the heat insulating material is inserted into the protrusion formed on the fixing bar of the inner center bar, and the heat insulating material is preferably inserted into the protrusion of the side frame.

In addition, the protrusions formed on the inner center bar of the center frame are separated and formed on the inner center bar and the outer center bar, respectively, and an insulation is inserted between the protrusions so that the inner center bar and the outer center bar are connected to each other, and within the protrusions formed on the outer center bar. It is desirable to allow the insulation to be inserted.

In addition, the protrusions formed on the inner sidebar of the side frame are separated and formed on the inner sidebar and the outer sidebar, respectively, and an insulation is inserted between the protrusions so that the inner sidebar and the outer sidebar are connected to each other, and within the protrusions formed on the outer sidebar. It is desirable to allow the insulation to be inserted.

In addition, it is preferable that the outer center bar is connected to the protrusion of the inner center bar of the center frame so as to be integrally formed and the packing material is coupled to one end of the outer center bar.

In addition, the fixing bar is connected to the protruding portion of the side frame, the removable bar is configured to be detachable to the fixing bar, it is preferable that the packing material is coupled to one end of the detachable bar.

In addition, it is preferable to connect the outermost center bar to the protruding portion of the outer center bar of the center frame so as to be integrally formed, and the packing material is coupled to one end of the outermost center bar.

In addition, the fixing bar is connected to the protruding portion of the outer sidebar of the side frame, the fixing bar is configured to be detachable to the fixing bar to configure the outermost sidebar with the fixing bar and the detachable bar, one end of the detachable bar of the outermost sidebar It is preferable to allow the packing material to be coupled to the portion.

In addition, it is preferable that the outer center bar is connected to the protrusion of the inner center bar of the center frame, and the inner center bar and the outer center bar are integrally formed, and the packing material is coupled to one end of the outer center bar.

In addition, the fixing bar is connected to the protruding portion of the side frame, it is preferable to configure the removable bar to be detachable to the fixing bar, the packing material is coupled to one end of the detachable bar.

In addition, it is preferable to connect the outermost center bar to the protrusion of the outer center bar of the center frame, so that the outer center bar and the outermost center bar are integrally formed, and the packing material is coupled to one end of the outermost center bar. .

In addition, the fixing bar is connected to the protruding portion of the outer sidebar of the side frame, the fixing bar is configured to be detachable to the fixing bar to configure the outermost sidebar with the fixing bar and the detachable bar, one end of the detachable bar of the outermost sidebar It is preferable to allow the packing material to be coupled to the portion.

In addition, the center frame is preferably configured to be made of any one of polyvinyl chloride (PVC), aluminum (AL), steel, stainless steel (SUS).

In addition, the center frame and the side frame is preferably composed of a material of aluminum (AL).

In addition, it is preferable that the fixing bar of the side frame filled with the elastic material is bisected in the longitudinal direction is configured to be connected and fixed to each other by a fastener.

In addition, it is preferable that the other detachable bar is configured to be detachably attached to the other side of the fixed bar of the center frame.

In addition, the two B-shaped bending plates are fixed to each outer wall of the building so as to face each other at a predetermined interval, and further comprising a center frame fixing member fixed by inserting the inner center bar of the center frame between the L-shaped bending plates. It is another feature of the configuration.

In addition, the inner center bar of the center frame is in close contact with each other is preferably configured to be attached to the elastic material of the rubber material on each inner surface of the L-shaped bending plate facing each other.

In addition, it is preferable that each L-shaped bending plate of the center frame fixing member is configured to be fixed to the inner center bar of each layer outer wall and the center frame together with the shock absorbing spring as fixing means.

In addition, the connecting member has a U-shape, one side is fixed in close contact with the fixed bar of the inner center bar of the center frame is vertically erected, and the upper and lower surfaces are configured to cover and fix the fixed bar of the inner center bar of the center frame connected horizontally It is desirable to.

In addition, the connecting member has a U-shape, one side is fixed in close contact with the fixing bar of the inner center bar of the center frame and the inner sidebar of the side frame is vertically erected, the upper and lower sides of the inner side of the center frame connected horizontally It is preferable to cover and fix with a fixed bar of the center bar.

In addition, it is preferable that the elastic member is attached to one side and the upper and lower surfaces of the connection member so that the multilayer glass can be replaced indoors and outdoors.

According to the seismic structure curtain wall installed on the outer wall of the building that can replace the multi-layer glass in the outdoor as well as indoor of the present invention, one side of the center frame and the side frame constituting the curtain wall in the outdoor as well as indoors freely Since it can be attached and detached, the multilayer glass installed in the curtain wall can be easily and inexpensively constructed and replaced indoors as well as indoors.

As it is possible to construct and replace the laminated glass indoors, the cost of operation is lower than the cost of using high ladders in the outdoors, and the economic burden can be reduced, and it is necessary to install and replace the laminated glass outdoors. It is effective to prevent risk factors such as safety accidents.

In addition, it is possible to install double-layered glass that is installed in the curtain wall with heat insulator, and it has the effect of triple vacuum blocking, so it shows more excellent effect on insulation, windproof, and noise prevention. In case of installing curtain wall with double glazed glass, it is not necessary to configure additional extension balcony, which makes work easier, saves cost and achieves optimum space utilization.

In addition, due to the reinforced seismic design standard, the elastic material filled in the side frame that is in close contact with the wall of the building and the elastic material and shock absorbing spring used when installing the side and center frame fixing members divided in the longitudinal direction are used in the building. By blocking the transmission of the vibration generated there is an effect that can actively prevent the breakage of the curtain wall.

In addition, when two layers of glass are installed at a predetermined interval on the curtain wall, there is a triple vacuum blocking effect.

1 is a perspective view of the center frame of one embodiment used in the curtain wall according to the present invention
Figure 2 is a cross-sectional view of the center frame of one embodiment used in the curtain wall according to the invention
Figure 3 is an exploded cross-sectional view of the center frame of one embodiment used in the curtain wall according to the invention
Figure 4 is a cross-sectional view of the center frame of another embodiment used for the curtain wall according to the present invention
Figure 5 is a cross-sectional view of a side frame of one embodiment used in the curtain wall according to the invention
Figure 6 is a cross-sectional view of a sideframe of another embodiment used for the curtain wall according to the present invention
Figure 7 is a perspective view of the center frame fixing member used for the curtain wall according to the present invention
Figure 8 is a cross-sectional view of the center frame fixing member used for the curtain wall according to the present invention
9 is a partial perspective view of the installation state of the curtain wall according to the present invention
10 is a perspective view of a connecting member used to construct a curtain wall according to the present invention;
Figure 11 is a cross-sectional view of the installation state of the curtain wall of the present invention using a center frame fixing member
12 is a perspective view for separating one side of each center frame intersecting each other of the curtain wall according to the present invention
Figure 13 is a cross sectional view of the center frame of another embodiment for use in a curtain wall according to the present invention;
Figure 14 is a cross-sectional view of one embodiment when the center frame used in the curtain wall according to the present invention made of PVC
Figure 15 is a cross-sectional view of another embodiment when the center frame used in the curtain wall according to the present invention made of PVC
Figure 16 is a cross-sectional view of one embodiment when using the glass exposure type without the outer center bar in the center frame used in the curtain wall according to the invention
Figure 17 is a cross-sectional view of another embodiment when using the glass exposure type without the outer center bar in the center frame used in the curtain wall according to the present invention
Figure 18 is a cross-sectional view of one embodiment when using the glass exposure type without the outermost center bar in the center frame used for the curtain wall according to the present invention
19 is a cross-sectional view of another embodiment when using the glass exposure type without the outermost center bar in the center frame used for the curtain wall according to the present invention
Figure 20 is a cross-sectional view of one embodiment when using the glass exposure type without the outer sidebar in the side frame used in the curtain wall according to the invention
Figure 21 is a cross-sectional view of another embodiment when using the glass exposure type without the outer sidebar in the side frame used in the curtain wall according to the present invention
Figure 22 is a cross-sectional view of one embodiment when using without the outermost sidebar in the side frame used for the curtain wall according to the present invention
Figure 23 is a cross-sectional view of another embodiment when using the glass exposure type without the outermost sidebar in the side frame used in the curtain wall according to the present invention
Figure 24 is a cross-sectional view of one embodiment when using the glass exposure type without the outer center bar when the removable bars on both sides of the fixed bar in the center frame used in the curtain wall according to the invention
25 is a cross-sectional view of another embodiment when using the glass exposure type without the outer center bar when the detachable bars are attached to both sides of the fixed bar in the center frame used in the curtain wall according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of a seismic structure curtain wall installed on the outer wall of the building according to the present invention will be described in detail. The present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, only this embodiment to make the disclosure of the present invention complete and to those skilled in the art to fully understand the scope of the invention It is provided to inform you.

1 is a perspective view of an embodiment of the center frame used in the curtain wall according to the present invention, Figure 2 shows a cross-sectional view of the center frame of the embodiment used in the curtain wall according to the present invention.

As shown in Figure 1 and 2, the center frame 1 of the embodiment used for the curtain wall according to the present invention comprises an inner center bar (1a) and the outer center bar (1b), the inner center bar The heat insulating material 4a is inserted into each protrusion 40 of 1a and the outer center bar 1b, and the center bar 1a and the outer center bar 1b are mutually connected.

The inner center bar 1a of the center frame 1 is bisected in the longitudinal direction by attaching a detachable bar 10b having the same shape to one side in the width direction of the fixed bar 10a having a rectangular pipe shape. Form. That is, the fitting protrusion P formed in the widthwise one side surface of the detachable bar 10b is inserted into the fitting groove H formed in the widthwise one side surface of the fixing bar 10a of the inner center bar 1a. They are joined together to form a larger rectangular pipe.

The outer center bar 1b of the center frame 1 is bisected in the longitudinal direction by attaching a detachable bar 11b having the same shape to one side in the longitudinal direction of the fixing bar 11a having a small rectangular pipe shape. It consists of a form. That is, this also fits the fitting protrusion (P) formed on the longitudinal side of the detachable bar (11b) in the fitting groove (H) formed in the longitudinal side of the fixing bar (11a) like the inner center bar (1a) It consists of a long rectangular pipe that is joined together in a slotted form.

The connecting pipes 3a and 3b are spaced apart from each other in such a manner as to sandwich the laminated glass between the longitudinal side surface of the inner center bar 1a and the width side surface of the outer center bar 1b. Arranged to face each other, the inner center bar 1a and the outer center bar 1b are connected to each other by inserting the heat insulating material 4a through the connecting pipes 3a and 3b to form the center frame 1. .

The heat insulator 4a uses high strength polyurethane, and the inner center bar 1a is disposed in the space between the inner center bar 1a and the outer center bar 1b in which the multilayer glass is sandwiched in the center frame 1. And the first packing member 5a made of an elastic material such as rubber to be inserted into the outer center bar 1b to surround the inner circumference thereof so as to support the multilayer glass.

Figure 3 shows an isolated cross-sectional view of the center frame of one embodiment used in the curtain wall according to the present invention.

As shown in FIG. 3, the center frame 1 includes an inner center bar 1a and an outer center bar 1b as described above, and the inner center bar 1a and the outer center bar 1b. Are each divided into fixing bars 10a and 11a and detachable bars 10b and 11b, and each of the fixing bars 10a and 11a is formed by the fitting groove H and the fitting protrusion P. The removable bars 10b and 11b can be freely coupled to or separated from each other, and the fixing bar 10a of the inner center bar 1a is fixed to the wall to mainly remove and detach the bar 10a of the inner center bar 1a. ) Is detachable from the fixing bar 10a.

Figure 4 shows a cross-sectional view of the center frame of another embodiment used for the curtain wall according to the present invention.

As shown in Figure 4, the center frame 10 of another embodiment used for the curtain wall according to the present invention is the outer center to the outside of one side of the outer center bar (1b) of the center frame (1) of the embodiment The outermost center bar 1bb same as the bar 1b is connected.

The outermost center bar 1bb is connected by an insulator 4b in the same manner as the outer center bar 1b is connected to the inner center bar 1a, and the outer center bar 1b and the outermost side bar 1b are connected to each other. The second packing material 5b which is the same as the 1st packing material 5a is installed also between the center bar 1bb, between the outer center bar 1b and the said outer center bar 1b in the said inner center bar 1a. Between the outermost center bar (1bb) is a double layer glass is installed respectively.

As described above, in the center frame 10 of another embodiment, the double-layer glass is doubled, and the vacuum state between the double-layered glass becomes double, and the double-layered glass and the double-layered glass become vacuum, so that the triple vacuum cut-off is provided with the double-layered glass. Compared to this, it is more effective in insulation, windproof and noise prevention.

The center frame (1) (10) as described above is installed in the space between the two walls of the building by using the connecting member 11 of Figure 10 to configure the frame in the form of a grid in the horizontal and vertical, the connecting member ( 11) will be described later.

Figure 5 shows a cross-sectional view of the side frame of one embodiment used in the curtain wall according to the present invention.

As shown in Figure 5, the side frame 6 of the embodiment used in the curtain wall according to the present invention comprises an inner sidebar (6a) and the outer sidebar (6b), the inner sidebar (6a) The inner side bar 6a and the outer side bar 6b are connected to each other by inserting a heat insulating material 4c into each of the protrusions 40 of the outer side bar 6b.

The inner side bar 6a of the side frame 6 is substantially the same as the inner center bar 1a of the center frame 1 on one side in the width direction of the fixing bar 60a having a rectangular pipe shape. By attaching the detachable bar (60b) of the same shape is configured in the form that is divided in the longitudinal direction. That is, the fitting protrusion P formed in the widthwise one side surface of the detachable bar 60b is inserted into the fitting groove H formed in the widthwise one side surface of the fixing bar 60a of the inner side bar 6a. They are joined together to form a larger rectangular pipe.

The outer side bar 6b of the side frame 6 is bisected in the longitudinal direction by attaching a detachable bar 61b having the same shape to one side in the longitudinal direction of the fixing bar 61a having a small rectangular pipe shape. It consists of a form. That is, this also fits the fitting protrusion (P) formed on the longitudinal side of the detachable bar (61b) in the fitting groove (H) formed in the longitudinal side of the fixing bar (61a) like the inner side bar (6a) It consists of a long rectangular pipe that is joined together in a slotted form.

The connecting pipes 3a and 3b are spaced apart from each other in such a manner as to sandwich the laminated glass between the longitudinal side surface of the inner side bar 6a and the width side surface of the outer side bar 6b. Arranged so as to face each other, the inner sidebar 6a and the outer sidebar 6b are connected to each other by inserting a heat insulating material 4c made of high strength polyurethane through the connecting pipes 3a and 3b. ).

In the space between the inner side 6a and the outer sidebar 6b into which the multilayer glass is sandwiched in the side frame 6, the inner side bar 6a and the outer sidebar 6b are respectively inserted into the space. A third packing material 5c made of an elastic material such as rubber is provided to cover the multilayer glass.

Although the shape of the fixing bar 60a of the inner sidebar 6a divided in the longitudinal direction is different from that of the fixing bar 10a of the inner center bar 1a, the inner sidebar detachable from the fixing bar 60a ( The detachable bar 60b of 6b) is configured in the same manner as the detachable bar 10b of the inner center bar 1a.

That is, the inside of the fixing bar 60a of the inner side bar 6a constituting the side frame 6 while being bisected in the longitudinal direction is filled with an elastic material R made of high elastic rubber material, and the outer side bar 6b. The inside of one fixing bar 61a is filled with an elastic material R of high elastic rubber material, and the fixing bar 60a of one side of the inner side bar 6a is divided into two parts at regular intervals in the longitudinal direction and separated. The fastening bar 60a of the said inner side bar 6a is integrally formed by connecting and sandwiching between the one side by the long fixture 7.

The side frame 6 configured as described above has a lattice shape when the fixing bar 60a of the inner side bar 6a filled with the elastic material R is installed in close contact with both walls of the outer wall of the building. The center frame 1 forming the furnace frame is connected and installed to complete the curtain wall for installing the double-layer glass on the outer wall of the building, but the detailed configuration will be described later.

In the curtain wall composed of the center frame 1 and the side frame 6, even if the fixing bar 60a of the inner side bar 6a filled with the elastic material R is in close contact with both walls of the outer wall of the building, there is no impact on the building. When applied, the shock absorbed by the elastic material (R) and at the same time the vibration caused by the impact is the inner side bar (6a) connected to each other because the fixing bar (60a) of the inner side bar (6a) is divided in the longitudinal direction Half of the fixing bar (60a) and the removable bar (60b) and the center frame (1) is not delivered.

Figure 6 shows a cross-sectional view of a side frame of another embodiment used for the curtain wall according to the present invention.

As shown in FIG. 6, the side frame 60 of another embodiment also has the outermost side that is the same as the outer side bar 6b to the outside of one side of the outer side bar 6b like the center frame 10 of the other embodiment. The bar 6bb is formed by connecting the heat insulating material 4d and the fourth packing material 5d together to fix the inside of the fixing bar 61a of the outer sidebar 6b as well as the outermost sidebar 6bb. The bar 60aa is filled with an elastic material R made of a high elastic rubber material, and a detachable bar 60bb is attached to the fixing bar 60aa.

In this case, the vacuum state between the double-layered glass is doubled, and between the double-layered glass and the double-layered glass, the vacuum is also tripled, resulting in a triple vacuum cutoff. do.

Figure 7 is a perspective view of the center frame fixing member used for the curtain wall according to the present invention, Figure 8 shows a cross-sectional view of the center frame fixing member used for the curtain wall according to the present invention.

As shown in Figure 7 and 8, the center frame fixing member (8) is a device for fixing the center frame (1) when the outer wall is composed of only two-layer glass without pillars between both walls of the building outer wall.

The center frame fixing member 8 is fixed by facing each other at a predetermined interval from the bent sides of the two A-shaped bent plates 8a and 8b of the A-shape, facing the B-shaped bending plate 8a. The center frame 1 is fixedly installed between the bent sides of 8b, and each of the L-shaped bending plates 8a and 8b of the center frame fixing member 8 is elastically made of a high elastic rubber material. Ash (R) is attached.

The center frame fixing member 8 configured as described above has the other side bent while facing the bent side of the B-shaped bending plates 8a and 8b at regular intervals between both walls of the building without pillars on the outer wall. Is fixed to the outer wall of each floor of the building with the shock absorbing spring (9a) by fixing means (B), such as bolts and nuts, is inserted and installed between the bent other sides of the L-shaped bending plate (8a) (8b) The center frame 1 is also fixed together with the shock absorbing spring 9b by fixing means B such as bolts and nuts.

Therefore, in a building having no pillars between both walls of the building outer wall, the side frame 6 is fixedly installed on both wall surfaces of the building outer wall, and the center frame 1 fixed between the center frame fixing members 8 therebetween. Is installed in a horizontal frame to connect the side frame (6) to complete the curtain wall, when the impact is applied to the building, the elastic material (R) primarily reduces the impact and secondary shock absorbing spring (9a (9b) reduces the impact.

Figure 9 is a partial perspective view of the installation state of the curtain wall according to the present invention, Figure 10 shows a perspective view of the connecting member used to configure the curtain wall according to the present invention.

As shown in FIG. 9, the center frame 1 of the embodiment intersects horizontally and vertically to form a lattice-shaped frame, and a side frame 6 is connected to one side of the center frame 1 to form an outer wall of the building. The curtain wall is configured in the connection between the center frame 1 and the center frame 1 and the side frame 1 to use the connecting member 11.

As shown in FIG. 10, the connecting member 11 has a U-shape formed by inserting an elastic member R made of a high elastic rubber material on one side and an upper and lower surface of the U-shape so that the elastic member R is upper and lower sides. It is attached to the surface of the.

When cross-connecting the center frame (1) horizontally and vertically, in the width direction one side of the fixed bar (10a) of the inner center bar (1a) first vertically erected among the center frame (1) to be installed on the outer wall of the building One side of the connecting member 11 to which the elastic member R is attached is fixed by fixing means B such as a bolt or a piece, and the upper and lower surfaces of the connecting member 11 to which the elastic member R is attached are fixed. Cover with a fixed bar (10a) of the other inner center bar (1a) extending horizontally and fixed with fixing means (B) such as bolts or pieces from the outside to complete the installation of the grid-shaped fixing bar (1a).

Next, by inserting the detachable bar 10b of the inner center bar 1a into one side and the upper surface of the fixing bar 10a of the inner center bar 1a connected in a square shape in a lattice shape, the B shape is formed in the square shape. The two sides of the fixed bar (10a) and the removable bar (10b) can be coupled or separated at all times, the shape of the two sides of the grid-shaped square of the grid-shaped square bar (10a) and the entire shape of the outer wall of the building The grid-shaped frame for installing the multilayer glass in a form in which the detachable bar 10b is repeatedly coupled is completed by the center frame 1.

Thus, when the side frame 6 installed on both walls of the outer wall of the building to the frame of the grid consisting of the center frame 1 of the embodiment by the connecting member 11, the side frame 6 is also fixed bar ( 60a) and the detachable bar 60b, so that the side frame 6 also plays the same role as the inner center burr 1a, which is vertically erected, so that two sides of the b-shape are always fixed bars 10a and 60a. Detachable bars (10b) and (60b) can be coupled or separated in this way, when the center frame (1) of the lattice-shaped frame is connected to the side frame (6) is installed one multilayer glass on the outer wall of the building You will complete the curtain wall.

On the other hand, the center frame 10 of another embodiment of the present invention also constitutes a lattice-shaped frame by connecting crosswise and vertically using the connecting member 11 in the same manner as described above, and the center frame of another embodiment. By connecting the side frame 60 by using the connecting member 11 to the frame of the grid form by 10 to complete the curtain wall for installing the double-glazed glass on the outer wall of the building.

Of course, the center frame 10 and the side frame 60 of another embodiment also have two sides of the N-shape in the square shape among the frame of the lattice form, the detachable bar is always coupled to or detached from the fixing bar.

11 is a cross-sectional view showing the installation state of the curtain wall of the present invention using the center frame fixing member.

As shown in FIG. 11, when there are no pillars between the walls of the building outer wall, the side frames 6 are fixed to both wall surfaces 12 of the outer wall, and are installed on the outer wall 13 of each floor of the building. After installing the same center frame fixing member (8), and installed and fixed to the center frame (1) standing vertically to the center frame fixing portion (8), connecting member to the center frame (1) standing vertically By using (11) to connect another center frame (1) horizontally in the above-described manner by forming a grid-like frame to the center frame (1) on the outer wall of the building by the center frame fixing member (8). .

Thus, by connecting the frame of the grid form consisting of the center frame (1) with the side frame (6) and the connecting member 11 of both walls to complete the same curtain wall as when not using the center frame fixing member (8) The multilayer glass (W) is installed, and the inner center bar (1a) and the inner side bar (6a) of the center frame (1) and the side frame (6) is a letter c in the shape of a grid of the frame as described above The two sides of the shape are always attached to or detached from the fixing bar (60a) removable bar (10b) (60b).

12 is a perspective view for separating one side of each center frame intersecting each other of the curtain wall according to the present invention.

As shown in FIG. 12, when it is necessary to separate the laminated glass from the curtain wall due to repair and replacement after the installation of the curtain wall on which the laminated glass is installed, the center frame 1 and the side frame 6 Between the inner center bar 1a and the inner center bar 1a and the inner sidebar 6a, which cross each other in a curtain wall composed of a grid-shaped frame, The detachable bars 10b and 60b are separated from the fixing bars 10a and 60a.

As such, when the detachable bars 10b and 60b are separated from the fixing bars 10a and 60a in the interior of the building, separation of the multilayer glass from the curtain wall is made very easy.

On the other hand, the construction and replacement of the multi-layer glass is possible in the outdoor of the building, in this case, detachable bar (11b) from the fixed bar (11a) of the outer center bar (1b) of the center frame (1) shown in Figs. ) And to remove the detachable bar (61b) from the fixing bar (61a) of the outer sidebar (6b) of the side frame (6).

In addition, in the case of the curtain wall of another embodiment in which the multilayer glass shown in Figs. 4 and 6 is provided in double, the outermost center bar (1bb) and the outermost sidebar ( The detachable bars 11bb and 60bb are separated from the fixing bars 11aa and 60aa of 6bb.

Figure 13 illustrates a cross-sectional view of a center frame of another embodiment for use in a curtain wall according to the present invention.

As shown in FIG. 13, the center frame 100 according to another embodiment has detachable bars 20b and 30b on both sides of the fixing bars 20a and 30a of the inner center bar 100a and the outer center bar 100b. ) Are attached to each other, except that the detachable bars 20b and 30b are attached to each other, and are connected by a heat insulating material 4e made of high-strength polyurethane in the same way as the center frame 1 of the embodiment. 5 Packing material 5d is installed to function the same.

As such, when the detachable bars 20b and 30b are installed on both sides of the fixed bars 20a and 30a, the curtain wall is installed in a grid-like frame, the center frame 100 is formed. In the grid-shaped square shape, it is possible to couple or detach the detachable bars 20b and 30b to the fixing bars 20a and 30a on all four sides.

The material of the center frame 1 and the side frame 6 is preferably aluminum (AL).

Figure 14 shows a cross-sectional view of one embodiment when the center frame used in the curtain wall according to the present invention made of PVC.

As shown in Figure 14, the curtain wall can be configured only in the center frame 110 in the seismic structure curtain wall installed on the outer wall of the building that can replace the multilayer glass in the indoor and outdoor according to the present invention, in this case As shown in FIG. 15, since the center frame 110 is made of a polyvinyl chloride (PVC) material, the PVC itself is a heat insulating material, so that the inner center bar 110a and the outer center bar of the center frame 110 are formed. There is no need for a heat insulator to connect the 110b to each other.

Therefore, the inner center bar 110a and the outer center bar 110a are directly connected to the protrusion 40 so that the center frame 110 is integrally formed and does not need the side frame because it is not a seismic structure.

As such, when only the center frame 110 is used, only the insulation is not used, and the rest of the configuration is the same as that of the center frame using aluminum (AL), and the same reference numerals are used as the connecting member 11 and the center frame fixing member. The same applies to the use of (9).

Figure 15 shows a cross-sectional view of another embodiment when the center frame used in the curtain wall according to the present invention made of PVC.

As shown in FIG. 15, in the curtain wall in this case, the outermost center bar 1bb that is the same as the outer center bar 110b to the outside of one side of the outer center bar 110b of the center frame 110 is insulated. Without direct connection, the inner center bar (110a) and the outer center bar (110b) and the outermost center bar (1bb) is directly connected to each protrusion 40, the center frame 110 is integrally formed, The configuration and the use of the connection member 11 and the center frame fixing member 9 are the same as described above.

When constructing the center frame 110 without a heat insulating material, polyvinyl chloride (PVC) is mainly used as a material, but in addition to PVC, aluminum (AL) or steel or stainless steel (SUS) may be used as a material.

Figure 16 shows a cross-sectional view of one embodiment when using the glass exposure type without the outer center bar in the center frame used in the curtain wall according to the present invention.

As shown in FIG. 16, the center frame 1 is configured of only the inner center bar 1a without the outer center bar, and has a protrusion 40 at one end of the fixing bar 10a of the inner center bar 1a. ) Is formed.

Figure 17 shows a cross-sectional view of another embodiment when using the glass exposure type without the outer center bar in the center frame used in the curtain wall according to the present invention.

As shown in FIG. 17, only the configuration in which the heat insulating material 4a is inserted into the protrusions 40 separated from each other in the center frame 1 of FIG. 16 is different.

Figure 18 shows a cross-sectional view of one embodiment when using the glass exposure type without the outermost center bar in the center frame used in the curtain wall according to the present invention.

As shown in FIG. 18, the center frame 10 is composed of only the inner center bar 1a and the outer center bar 1b directly connected to the protrusion 40 without the outermost center bar, and the outer center bar. Another protruding portion 40 is formed at one end of (1b).

19 is a cross-sectional view of another embodiment when using the glass exposure type without the outermost center bar in the center frame used for the curtain wall according to the present invention.

As shown in FIG. 19, only the configuration in which the heat insulating materials 4a and 4b are inserted into the protrusions 40 separated from each other in the center frame 10 of FIG. 18 is different.

Figure 20 shows a cross-sectional view of one embodiment when using the glass exposure without the outer sidebar in the side frame used in the curtain wall according to the present invention.

The side frame 6 is composed of only the inner sidebar 6a without the outer sidebar, and a protrusion 40 is formed at one end of the fixing bar 60a of the inner sidebar 6a. Another fixing bar 61a is connected to one end of the 40 to insert the elastic material R therein.

Figure 21 shows a cross-sectional view of another embodiment when using the glass exposure without the outer sidebar in the side frame used in the curtain wall according to the present invention.

Only the configuration in which the heat insulator 4c is inserted into the protrusions 40 separated from each other in the side frame 6 of FIG. 20 is different.

Figure 22 shows a cross-sectional view of one embodiment when using the glass exposure type without the outermost sidebar in the side frame used in the curtain wall according to the present invention.

As shown in FIG. 22, the side frame 60 is composed of only the inner sidebar 6a and the outer sidebar 6b directly connected to the protrusion 40 without the outermost sidebar, and the outer sidebar. Another protruding portion 40 is formed at one end of 6b, and another fixing bar 60aa is connected to one end of the protruding portion 40 to insert the elastic material R therein.

Figure 23 shows a cross-sectional view of another embodiment when using the glass exposure without the outermost sidebar in the side frame used in the curtain wall according to the present invention.

As shown in FIG. 23, only the configuration in which the heat insulating materials 4c and 4d are respectively inserted into the protrusions 40 separated from each other in the side frame 60 of FIG. 22 is different.

24 is a cross-sectional view of one embodiment of the case of using the glass exposure type without the outer center bar when the detachable bars on both sides of the fixed bar in the center frame used in the curtain wall according to the present invention.

As shown in FIG. 24, similar to the configuration of the center frame 1 of FIG. 16, two detachable bars 20b are provided on both sides of the fixing bar 20a of the inner center bar 100a of the center frame 100. Are different only in that they are removable.

FIG. 25 is a cross-sectional view of another embodiment in the case of using the glass exposure type without the outer center bar when the detachable bars are attached to both sides of the fixed bar in the center frame used for the curtain wall according to the present invention.

As shown in FIG. 25, the configuration is the same as that of FIG. 24, except that only the configuration in which the heat insulating material 4e is inserted into the protrusions 40 formed at one end of the fixing bar 20a and separated from each other is shown.

The curtain wall of the present invention shown in FIGS. 16 to 25 is a curtain wall for fixing the multilayer glass using only silicon without a frame such as an outer center bar supporting the multilayer glass in the exterior of the building, and the exterior of the building. Since there is no frame, such as the outer center bar, there is an advantage in aesthetic view when viewed from the outside, of course, the curtain wall can be freely replace the laminated glass in the interior or exterior of the building.

In addition, the other components of the curtain wall of the present invention shown in Figs. 16 to 25 are the same as the other curtain wall of the present invention and are given the same reference numerals, the selection of materials and the connection member 9 and the center. The use of the frame 11 is also the same as the other curtain walls of the present invention described above, and is almost the same in terms of the effects of heat insulation, windproofing, and soundproofing.

As described above with reference to the drawings illustrated for the seismic structure curtain wall installed on the outer wall of the building according to the present invention, the present invention is not limited by the embodiments and drawings disclosed herein, of the present invention Various modifications can be made by those skilled in the art within the scope of the technical idea.

1,10,100,110: Center frame 1a, 100a, 110a: Inner center bar
1b, 100b, 110b: outer center bar 1bb: outermost center bar
3a, 3b: connection pipe 4a, 4b, 4c, 4e: insulation
5a: 1st packing material 5b: 2nd packing material
5c: third packing material 5d: fourth packing material
5e: 5th packing material 6,60: side frame
6a: inner sidebar 6b: outer sidebar
6bb: outermost sidebar 7: fixture
8: center frame fixing member 8a, 8b: angled bending plate
9a, 9b: shock absorbing spring 40: protrusion
10a, 11a, 20a, 30a, 60a, 61a, 11aa, 60aa: fixed bar
10b, 11b, 20b, 30b, 60b, 61b, 60aa, 60bb: detachable bar
11 connection member B fixing means
H: fitting groove P: fitting protrusion
R: elastic material

Claims (27)

In the curtain wall installed on the outer wall of the building,
The curtain wall is composed by combining the center frame of the grid with the outer wall of the building,
The center frame is bisected in the longitudinal direction and consists of an inner center bar which is formed as a fixed bar and a detachable bar, respectively, and is configured to detachably attach and detach a bar to one side of the fixed bar of the inner center bar, and form a protrusion at one end of the fixed bar. And
Connect between the fixed bar and the fixed bar of the center frame crossing each other with a connecting member,
In order to install the multilayer glass between the center frame and the center frame, one end of the center frame is configured so that the packing material is coupled to seismic structure is installed on the outer wall of the building, characterized in that to replace the multilayer glass indoors and outdoors. Curtain wall.
The method of claim 1,
Side frame coupled to the center frame and the grid,
The side frame is bilaterally formed in each of the longitudinal side bar is formed of a fixed bar and a detachable bar, and configured to be detachable to the removable bar on one side of the fixed bar of the inner side bar, a protrusion formed on one end of the fixed bar Another fixing bar is formed at one end of the protrusion, and each of the fixing bars in close contact with both walls of the building outer wall is filled with an elastic material.
Connecting between the fixed bar of the center frame and the fixed bar of the side frame with a connecting member,
Seismic structure curtain is installed on the outer wall of the building, characterized in that the packing material is coupled to one end of the side frame to install the laminated glass between the center frame and the side frame to replace the laminated glass indoors and outdoors month.
The method of claim 1,
Further comprising an outer center bar which is integrally formed by being connected to the inner center bar with the protrusion of the fixed bar of the center frame therebetween, wherein the outer center bar is composed of a fixed bar and a detachable bar, each bisecting in the longitudinal direction, the outer center bar Detachable bar is configured to be detachable on one side of the fixing bar of, to form a protrusion on one end of the fixing bar,
The packing material is configured such that the packing material is coupled to one end of the inner center bar between the inner center bar and the outer center bar, and the packing material is coupled to one end and the other end of the outer center bar to replace the multilayer glass indoors and out. A seismic structure curtain wall installed on the outer wall of the building characterized in.
The method of claim 3, wherein
Side frame coupled to the center frame and the grid,
The side frame includes an inner sidebar and an outer sidebar, and the inner sidebar and the outer sidebar are connected to each other with a protrusion formed therebetween, and the inner sidebar and the outer sidebar are fixed bars and detachable portions bisected in the longitudinal direction, respectively. It is formed respectively, the detachable bar of the outer side bar is configured to be detachable to one side of the fixed bar formed with a protrusion on one end, another fixing bar is formed on one end of the protrusion of the outer side bar, Each of the fixing bars in close contact with both walls is filled with an elastic material,
Connecting between the fixing bar of the inner center bar of the center frame and the fixing bar of the inner sidebar of the side frame with a connecting member,
In order to install the multilayer glass between the center frame and the side frame, a packing material is coupled to one end of the inner side bar between the inner side bar and the outer side bar of the side frame, one end and the other end of the outer side bar Seismic structure curtain wall is installed on the outer wall of the building, characterized in that the packing material is configured to be combined to replace the multi-layer glass in the indoor and outdoor.
The method of claim 1,
Seismic structure curtain wall is installed on the outer wall of the building, characterized in that the insulating material is configured to be inserted into the protrusion formed in the fixed bar of the inner center bar to replace the multilayer glass indoors and outdoors.
The method of claim 2,
Seismic structure curtain wall is installed on the outer wall of the building, characterized in that the insulating material is configured to be inserted into the protrusion of the side frame to replace the multilayer glass indoors and outdoors.
The method of claim 3, wherein
The protrusions formed on the inner center bar of the center frame are separated and formed on the inner center bar and the outer center bar, respectively, and an insulation is inserted between the protrusions so that the inner center bar and the outer center bar are connected to each other, and the heat insulating material is formed in the protrusions formed on the outer center bar. The seismic curtain curtain wall is installed on the outer wall of the building, characterized in that it is configured to be inserted so that the multilayer glass can be replaced indoors and outdoors.
The method of claim 4, wherein
The protrusions formed on the inner sidebar of the side frame are separated and formed on the inner sidebar and the outer sidebar, respectively, and an insulating material is inserted between the protrusions so that the inner sidebar and the outer sidebar are connected to each other, and the heat insulating material is formed in the protrusion formed on the outer sidebar. The seismic curtain curtain wall is installed on the outer wall of the building, characterized in that it is configured to be inserted so that the multilayer glass can be replaced indoors and outdoors.
The method of claim 1,
The outer center bar is connected to the protruding portion of the inner center bar of the center frame, but is integrally formed, and the packing material is coupled to one end of the outer center bar so that the multilayer glass can be replaced indoors and out. Seismic curtain wall installed on the outer wall of the building.
The method of claim 2,
The fixing bar is connected to the protruding portion of the side frame, and the removable bar is configured to be detachable to the fixing bar, and the packing material is coupled to one end of the detachable bar so as to replace the multilayer glass indoors and outdoors. Seismic curtain wall installed on the outer wall of the building.
The method of claim 3, wherein
It is configured to connect the outermost center bar to the protrusion of the outer center bar of the center frame to be integrally formed, and to combine the packing material at one end of the outermost center bar to replace the multilayer glass indoors and outdoors. Seismic structure curtain wall installed on the outer wall of the building.
The method of claim 4, wherein
The fixing bar is connected to the protruding portion of the outer sidebar of the side frame, and the fixing bar is detachably attached to the fixing bar to configure the outermost sidebar with the fixing bar and the detachable bar, and at one end of the detachable bar of the outermost sidebar. Seismic structure curtain wall is installed on the outer wall of the building, characterized in that the packing material is configured to be combined to replace the multi-layer glass in the indoor and outdoor.
The method of claim 5, wherein
The outer center bar is connected to the protrusion of the inner center bar of the center frame, and the inner center bar and the outer center bar are configured to be integrally formed, and the packing material is coupled to one end of the outer center bar to replace the multilayer glass indoors and out. A seismic curtain wall is installed on the outer wall of the building, characterized in that it is made to be.
The method according to claim 6,
Fixing bar is connected to the protruding portion of the side frame, the detachable bar is configured to be detachable to the fixing bar, the packing material is coupled to one end of the detachable bar, the outer wall of the building that can replace the double-layer glass in the indoor and outdoor. Seismic structure curtain wall installed on the.
The method of claim 7, wherein
Connect the outermost center bar to the protruding portion of the outer center bar of the center frame, the outer center bar and the outermost center bar is configured to be integrally formed, and the packing material is coupled to one end of the outermost center bar to form a multilayer glass indoors and outdoors Seismic structure curtain wall is installed on the outer wall of the building, characterized in that to replace the.
The method of claim 8,
The fixing bar is connected to the protruding portion of the outer sidebar of the side frame, and the fixing bar is detachably attached to the fixing bar to configure the outermost sidebar with the fixing bar and the detachable bar, and at one end of the detachable bar of the outermost sidebar. Seismic structure curtain wall is installed on the outer wall of the building, characterized in that the packing material is configured to be combined to replace the multi-layer glass in the indoor and outdoor.
The method according to any one of claims 1, 3, 5, 9, 11, 13, and 15,
The center frame is installed on the outer wall of the building, characterized in that made of any one of polyvinyl chloride (PVC), aluminum (AL), steel, stainless steel (SUS) to replace the multilayer glass indoors and outdoors. Seismic structure curtain wall.
The method according to any one of claims 2, 4, 6, 8, 10, 12, 14, and 16,
The center frame and the side frame is made of aluminum (AL) material, seismic structure curtain wall is installed on the outer wall of the building, characterized in that to replace the multi-layer glass in the indoor and outdoor.
The method according to any one of claims 2, 4, 6, 8, 10, 12, 14, and 16,
Seismic structure curtain is installed on the outer wall of the building, characterized in that the fixing bar of the side frame filled with the elastic material is bisected in the longitudinal direction is configured to be connected to each other by the fixing fixture so that the laminated glass can be replaced indoors and outdoors. month.
The method according to any one of claims 1 to 16,
The seismic structure curtain wall is installed on the outer wall of the building, characterized in that the other side of the fixed bar of the center frame is configured to be detachably attached to each other detachable glass in the indoor and outdoor.
The method according to any one of claims 1 to 16,
The two B-shaped bending plates are fixed to the outer wall of each floor of the building so as to face each other at a predetermined interval, and further comprises a center frame fixing member fixed by inserting the inner center bar of the center frame between the L-shaped bending plates. Seismic structure curtain wall is installed on the outer wall of the building, characterized in that to replace the multi-layer glass indoors and outdoors.
22. The method of claim 21,
The inner center bar of the center frame is in close contact with each other and the inner surface of the angled bending plate facing each other is installed on the outer wall of the building characterized in that the elastic material of the rubber material is attached so as to replace the multilayer glass indoors and outdoors. Seismic structure curtain wall made.
22. The method of claim 21,
Each L-shaped bending plate of the center frame fixing member is configured to be fixed to the inner wall of each floor and the inner center bar of the center frame together with the shock absorbing spring as a fixing means to replace the multilayer glass indoors and outdoors. Seismic structure curtain wall installed on the outer wall of the building.
The method according to any one of claims 1, 3, 5, 9, 11, 13, and 15,
The connecting member has a U-shape, one side is fixed to the fixed bar of the inner center bar of the center frame is vertically erect, and the upper and lower sides are configured to cover and fix the fixed bar of the inner center bar of the center frame connected horizontally Seismic structure curtain wall is installed on the outer wall of the building, characterized in that to replace the glazing in the building.
The method according to any one of claims 2, 4, 6, 8, 10, 12, 14, and 16,
The connecting member has a U-shape, one side is fixed in close contact with the fixing bar of the inner center bar of the center frame and the inner side bar of the side frame vertically erected, the upper and lower inner center bar of the center frame connected horizontally The seismic structure curtain wall is installed on the outer wall of the building, characterized in that it is configured to be fixed by the fixing bar of the interior and exterior to replace the multilayer glass.
The method of claim 24,
An earthquake-proof curtain wall is installed on the outer wall of the building, characterized in that the elastic member is attached to one side and the upper and lower surfaces of the connection member so as to replace the multilayer glass indoors and outdoors.
The method of claim 25,
An earthquake-proof curtain wall is installed on the outer wall of the building, characterized in that the elastic member is attached to one side and the upper and lower surfaces of the connection member so as to replace the multilayer glass indoors and outdoors.

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