KR102290621B1 - Curtain wall with seismic performance - Google Patents

Abstract

A curtain wall with seismic resistance in accordance with an aspect of the present invention comprises: a frame including vertical bars and horizontal bars in grid shape to form multiple compartments; a glass provided in the compartments of the frame; an insulating member made of a plastic material positioned between a pair of adjacent glasses and combined with one side of the frame on the outdoor side to increase thermal insulation performance; and a pair of elastic members made of a synthetic resin material fastened to both sides in a widthwise direction of the insulating member and coupled to the one side of the outdoor side of the frame, and having elasticity to absorb and reduce waves generated by earthquakes to minimize transmission of the waves to the frame. The elastic members may be provided in a separate form on the vertical bar and the horizontal bar forming the compartments to individually absorb the waves generated by the earthquake, thereby alleviating the torsional impact applied to the glasses.

Description

Curtain wall with seismic performance

The present invention relates to a curtain wall having earthquake-resistant performance, and more particularly, to a curtain wall having earthquake-resistant performance capable of having seismic resistance and improving thermal insulation performance.

The basic structure of the curtain wall is composed of a horizontal bar and a vertical bar for fixing the glass panel, and the glass panel is installed in the compartment composed of the horizontal bar and the vertical bar.

The size of the curtain wall is determined according to the installation area of the curtain wall of the building, and the section where the glass panel is installed is usually composed of a rectangle. It consists of a curtain wall and an unexposed curtain wall.

Meanwhile, according to the recent government policy, the standards for seismic design of schools and officetels have been strengthened than before, so structural safety standards are applied to small buildings with two or more stories. Rather, it is necessary to strengthen the earthquake-resistance performance by making the frame and window construction stronger, but the curtain walls installed in all buildings currently have a structure that is vulnerable to vibration caused by earthquakes. will have to

Republic of Korea Patent Publication No. 10-2012-0052068 (2012.05.23)

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a curtain wall having seismic resistance that can minimize the waves transmitted to the glass of the curtain wall when an earthquake occurs.

And to provide a curtain wall with seismic resistance that can alleviate the torsional impact applied to the glass of the curtain wall when an earthquake occurs.

In addition, it is to provide a curtain wall having seismic resistance that can improve thermal insulation performance by blocking the flow of heat generated inside and outside the building.

A curtain wall having seismic performance according to an embodiment of the present invention for achieving the above object includes a frame having a lattice-shaped vertical bar and a horizontal bar to form a plurality of partition spaces, and provided in the partition space of the frame. A heat insulating member made of a plastic material that is positioned between glass and a pair of adjacent glasses and is coupled to one side of the outdoor side of the frame to increase thermal insulation performance, and one side of the outside side of the frame that is fastened to both sides in the width direction of the heat insulating member. and a pair of elastic members made of a synthetic resin material for absorbing and reducing waves generated due to earthquakes by combining with and minimizing waves from being transmitted to the frame, the elastic members forming the partition space The bar and the horizontal bar are provided in a separate form to individually absorb the waves generated by the earthquake, thereby mitigating the torsional impact applied to the glass.

The heat insulating member is positioned between a pair of glass and a pair of first parts elongated in the direction of the elastic member, and located between the pair of elastic members, at one end of the frame side of the pair of first parts A pair of second portions extending in the frame direction and formed between the frame side end of the first portion and the first portion side end of the second portion, the pair of second portions A step portion for allowing the interval to be formed to be narrower than the interval between the pair of first portions, a protrusion provided to correspond to each other on the outer surfaces of the pair of second portions and fastened to the elastic member, and both ends of the pair of A pair of first connecting members connected to the first part to be integrated with the pair of first parts, and a second connecting member having both ends connected to the pair of second parts and integrated with the pair of second parts; , a third connecting member provided at a position spaced apart from the second connecting member in the frame direction to be integrated with a pair of second parts, and a third connecting member provided in the first connecting member and the second connecting member, respectively, in the frame direction It may be formed to be bent to be provided with a bent portion to increase the structural rigidity of the first connecting member and the second connecting member.

The elastic member includes a first surface provided perpendicular to the heat insulating member, a second surface extending vertically from one end of the first surface in the frame direction and facing the second portion, and the first surface a third surface extending vertically from the other end in the direction of the frame, and a pair of fourth surfaces extending to face each other vertically from the second surface and the third surface and coupled to the outdoor surface of the frame; A fifth surface extending in the glass direction from the other end of the first surface, a first projection extending vertically from one end of the first surface in the glass direction to contact the stepped portion, and the first projection, A fastening groove to which the protrusion is fastened; a second protrusion extending from the other end of the first surface to form a vertical direction with the third surface; It may include a third protrusion coupled to the side surface, and a fourth protrusion extending from the fifth surface to the other side.

The frame includes a first member extending from one surface of the outdoor side and positioned between a pair of fourth surfaces, a second member extending vertically from the first member and positioned inside the elastic member, and one surface on the outdoor side. It may include a third member extending to face the third surface, and a fourth member extending vertically from the third member and positioned between the second protrusion and the third protrusion.

A structural tape for increasing the bonding force between the glass and the elastic member is provided between the elastic member and the inner surface of the glass, and a structural sealant provided in the form of covering the structural tape to prevent external exposure of the structural tape is provided, A waterproof sealant for preventing external exposure of the heat insulating member and exhibiting a waterproof function may be provided between the pair of adjacent glasses.

On the other hand, a modified example of the curtain wall having seismic performance according to an embodiment of the present invention for achieving the above object is a frame having a grid-shaped vertical bar and horizontal bar to form a plurality of partition spaces, and the frame A heat insulating member made of a plastic material positioned between a glass provided in the partition space and a pair of adjacent glasses and combined with an outdoor side surface of the frame to increase thermal insulation performance, and an outdoor end end of the heat insulating member coupled to the above A cap made of a metal material to prevent external exposure of the heat insulating member, is fastened to both sides of the heat insulating member in the width direction, is coupled to the outdoor side of the frame, and has elasticity to absorb and reduce waves generated by earthquakes to prevent waves from the frame A pair of elastic members made of a synthetic resin material that minimizes the transmission to the surface is provided, and the elastic members are provided in separate forms on the vertical bars and the horizontal bars forming the partition space to individually absorb waves generated by earthquakes By doing so, the torsional impact applied to the glass can be alleviated.

The heat insulating member is positioned between a pair of glass and a pair of first parts elongated in the direction of the elastic member, and located between the pair of elastic members, at one end of the frame side of the pair of first parts A pair of second portions extending in the frame direction and formed between the frame side end of the first portion and the first portion side end of the second portion, the pair of second portions A step portion for allowing the interval to be formed to be narrower than the interval between the pair of first portions, a protrusion provided to correspond to each other on the outer surfaces of the pair of second portions and fastened to the elastic member, and both ends of the pair of A pair of first connecting members connected to the first part to be integrated with the pair of first parts, and a second connecting member having both ends connected to the pair of second parts and integrated with the pair of second parts; , a third connecting member provided at a position spaced apart from the second connecting member in the frame direction to be integrated with a pair of second parts, and a third connecting member provided in the first connecting member and the second connecting member, respectively, in the frame direction It is formed to be bent to increase the structural rigidity of the first connecting member and the second connecting member, and a coupling portion provided at one end of the outdoor side of the first portion to be coupled to the cap may be provided.

The elastic member includes a first surface provided perpendicular to the heat insulating member, a second surface extending vertically from one end of the first surface in the frame direction and facing the second portion, and the first surface a third surface extending vertically from the other end in the direction of the frame, and a pair of fourth surfaces extending to face each other vertically from the second surface and the third surface and coupled to the outdoor surface of the frame; A fifth surface extending in the glass direction from the other end of the first surface, a first projection extending vertically from one end of the first surface in the glass direction to contact the stepped portion, and the first projection, A fastening groove to which the protrusion is fastened; a second protrusion extending from the other end of the first surface to form a vertical direction with the third surface; It may include a third protrusion coupled to the side surface, and a fourth protrusion extending from the fifth surface to the other side.

The frame includes a first member extending from one surface of the outdoor side and positioned between a pair of fourth surfaces, a second member extending vertically from the first member and positioned inside the elastic member, and one surface on the outdoor side. It may include a third member extending to face the third surface, and a fourth member extending vertically from the third member and positioned between the second protrusion and the third protrusion.

The cap includes an inner cover coupled to the heat insulating member, and an outer cover positioned outside the inner cover and coupled to the inner cover, wherein the inner cover includes each end of the pair of glass and the heat insulating member. a pair of first coupling protrusions extending from the inner body toward the heat insulating member and fitted with the coupling portion, and extending from both ends of the inner body toward the outside to engage the outer cover; The outer cover includes an outer body corresponding to the inner body, a pair of second coupling protrusions extending from both ends of the outer body toward the indoor side and engaging the pair of first coupling protrusions, and the second coupling protrusions It may be provided with a bump that extends to the inside of the first coupling projection to prevent the insertion of more than a predetermined length.

A structural tape for increasing the bonding force between the glass and the elastic member is provided between the elastic member and the inner surface of the glass, and provided between the inner surface of the glass and the elastic member so as to cover the structural tape. A structural sealant provided between the outer surface of the glass and the cap may be provided.

According to the curtain wall having seismic performance according to the present invention, it is possible to minimize the wave transmitted to the glass of the curtain wall.

In addition, it is possible to alleviate the torsional impact applied to the glass of the curtain wall in the event of an earthquake.

In addition, it is possible to improve the insulation performance by blocking the flow of heat generated inside and outside the building.

1 is a front view showing a curtain wall having seismic resistance according to an embodiment of the present invention;
Figure 2 is a cross-sectional view of the curtain wall having the seismic performance shown in Figure 1,
3 is a cross-sectional view showing the frame, the heat insulating member and the elastic member shown in FIG.
Figure 4 is a cross-sectional view showing a modified example of the curtain wall having the seismic performance shown in Figure 1;
5 is a cross-sectional view showing the insulating member and the cap shown in FIG.

Hereinafter, a curtain wall having seismic performance according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view showing a curtain wall having seismic performance according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of the curtain wall having seismic performance shown in FIG. 1, and FIG. It is a cross-sectional view showing a heat insulating member and a pair of elastic members.

As shown in FIGS. 1 to 3 , the curtain wall 10 having seismic resistance according to an embodiment of the present invention has a frame 100 , a glass 200 , a heat insulating member 300 and an elastic member 400 . can be provided.

The frame 100 includes a plurality of vertical bars 110 and horizontal bars 120, and the plurality of vertical bars 110 are perpendicular to the ground and a plurality of horizontal bars 120 are horizontal to the ground to form a grid. It can be provided with a plurality of compartment spaces to be formed in the frame (100).

The glass 200 is provided in the partition space of the frame 100 to distinguish the indoor and outdoor areas of the building, and various types of glass 200 may be provided according to various effects such as lighting and heat insulation, double-layer glass, triple-layer glass It may be provided in various forms such as glass.

The heat insulating member 300 is made of a plastic material, and is located between the ends of a pair of adjacent glasses 200 and is combined with one surface of the outdoor side of the frame 100 to increase the heat insulating performance.

Looking at the insulating member 300 in detail, the insulating member 300 is largely composed of a first part 310 and a second part 320, and the first part 310 is a pair of It is positioned between the ends of the pair of glasses 200 and is provided long in the direction of the elastic member 400 , and the second part 320 is a pair in a state where the pair maintain a constant distance, like the first part 310 . Located between the elastic members 400 of the pair of first parts 310 extending from one end of the frame 100 side may be provided long in the frame 100 direction.

Here, between one end of the frame 100 side of the first part 310 which is a point divided into the first part 310 and the second part 320 and one end of the first part 310 side of the second part 320 . A stepped portion 330 is formed in the ridge, so that the interval between the pair of second portions 320 may be narrower than the interval between the pair of first portions 310 .

And a plurality of protrusions 340 are provided on the outer surfaces of the pair of second parts 320 to protrude so as to correspond to each other and are fastened to the elastic member 400, so that the heat insulating member 300 and the elastic member 400 are provided. can increase the clamping force.

In addition, between the pair of first parts 310, both ends are vertically connected to the pair of first parts 310 to form a pair of first connecting members 350 integrated with the pair of first parts 310. ) is provided, and between the pair of second parts 320 is vertically connected to the pair of second parts 320 and integrated with the pair of second parts 320, the second connecting member 360 and A third connecting member 370 integrated with the pair of second parts 320 may be provided at a position spaced apart from the second connecting member 360 in the direction of the frame 100 .

Structural rigidity is increased by providing the first connecting member 350 to the third connecting member 370 , and a plurality of the plurality of heat insulating members 300 are provided on the inside of the heat insulating member 300 by the first connecting member 350 to the third connecting member 370 . A hollow layer (unsigned) may be formed to increase thermal insulation performance.

In addition, bent portions 380 formed to be bent in the direction of the frame 100 are provided in the middle of the first connecting member 350 and the second connecting member 360 , respectively, so that the first connecting member 350 and the second connecting member 360 are provided. The effect of further improving the structural rigidity of the member 360 may be exhibited.

On the other hand, the elastic member 400 is made of a synthetic resin material having elasticity, is fastened to both sides in the width direction of the heat insulating member 300 , and may be combined with one surface of the outdoor side of the frame 100 .

Looking at the elastic member 400 in detail, the elastic member 400 has a first surface 401 and one end of the first surface 401 provided to be largely perpendicular to the heat insulating member 300 in the direction of the frame 100 . A third surface ( 403) may be provided in the form of an integrated 'C'.

And a pair of fourth surfaces 404 and first surfaces 401 extending from the second surface 402 and the third surface 403 to face each other vertically and coupled to the outdoor surface of the frame 100 , respectively. A fifth surface 405 extending from the other end of the glass 200 in the direction opposite to the third surface 403 may be provided.

In addition, the first surface 401 has a step portion 330 of the heat insulating member 300 extending from one end of the first surface 401 to the glass 200 direction, that is, in a direction opposite to the second surface 402 . A first protrusion 406 in contact with is provided, and a fastening groove 407 is provided in the first protrusion 406, and is fastened with the protrusion 340 of the heat insulating member 300, whereby the heat insulating member 300 and the elastic member ( 400) can exhibit the effect of increasing the fastening force of

In addition, the first surface 401 has a second protrusion 408 provided at the other end of the first surface 401 to form a perpendicular to the third surface 403 , that is, to be positioned side by side with the first surface 401 . It is provided on the fifth surface 405 and extends from the fifth surface 405 to one side to correspond to the second protrusion 408 and is coupled to the outdoor side surface of the frame 100 together with the second protrusion 408 . A third protrusion 409 and a fourth protrusion 410 extending from the fifth surface 405 to the other side may be provided.

The elastic member 400 as described above absorbs and reduces the wave generated by the earthquake to minimize the wave being transmitted to the frame 100, and in particular, the vertical forming the partition space in which the glass 200 is located. The bar 110 and the horizontal bar 120 are provided in separate forms to individually absorb the waves generated by the earthquake, thereby mitigating the torsional impact applied to the glass 200 .

On the other hand, the frame 100 extends vertically from the first member 130 and the first member 130 extending from one surface of the outdoor side and positioned between the pair of fourth surfaces 404 of the elastic member 400 . The second member 140 may be provided together with the first member 130 to form a 'L' shape and positioned inside the elastic member 400 .

And the frame 100 extends from one surface of the outdoor side and extends vertically from the third member 150 and the third member 150 facing the third surface 403 of the elastic member 400 to provide the elastic member 400 . A fourth member 160 positioned between the second protrusion 408 and the third protrusion 409 may be provided.

In this way, the frame 100 is provided with the first member 130 to the fourth member 160 to increase the coupling force by combining with the elastic member 400, and the elastic member 400 is removed from the frame 100 when an earthquake occurs. It is possible to effectively respond to earthquakes by preventing them from easily dislodging.

On the other hand, the curtain wall 10 having seismic resistance according to an embodiment of the present invention is provided between the elastic member 400 and the indoor surface of the glass 200, and the bonding force between the glass 200 and the elastic member 400 is provided. Structural tape 500, which is provided in the form of covering the structural tape 500 to prevent external exposure of the structural tape 500, and a pair of glasses 200 adjacent to each other. A waterproof sealant 700 that prevents external exposure of the heat insulating member 300 and exhibits a waterproof function may be provided.

Next, a modified example of the curtain wall 10 having seismic resistance according to an embodiment of the present invention will be described. In the following description, only parts different from the above-described embodiments will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

4 is a cross-sectional view showing a modified example of the curtain wall having seismic resistance shown in FIG. 1, and FIG. 5 is a cross-sectional view showing the insulating member and the cap shown in FIG.

1 to 5 , the curtain wall 10 having seismic resistance according to an embodiment of the present invention is provided with a lattice-shaped vertical bar 110 and a horizontal bar 120 to form a plurality of compartment spaces. The frame 100, the glass 200 provided in the partition space of the frame 100, and a plastic that is positioned between a pair of adjacent glasses 200 and is combined with one surface of the outdoor side of the frame 100 to increase thermal insulation performance In the width direction of the heat insulating member 300 of the material, the cap 800 and the heat insulating member 300 made of a metal material for preventing exposure of the heat insulating member 300 to the outside by combining with one end of the outdoor side of the heat insulating member 300 and An elastic member 400 made of a synthetic resin material that is connected and coupled with one surface of the outdoor side of the frame 100 and has elasticity to absorb and reduce waves generated by an earthquake to minimize the wave transmission to the frame 100 can be provided. have.

Here, the cap 800 is provided instead of the waterproof sealant 700 in the curtain wall 10 having seismic resistance according to an embodiment of the present invention, and the ends of a pair of adjacent glasses 200 are also outside. exposure can be prevented.

Looking at the cap 800 in detail, the cap 800 is located on the outside of the inner cover 810 and the inner cover 810 coupled with the heat insulating member 300 and the outer cover coupled with the inner cover 810 . 820 may be configured.

The inner cover 810 has an inner body 811 that is formed to be long enough to cover the ends of a pair of adjacent glasses 200 and is vertically provided with the heat insulating member 300, and the inner body ( 811) has a fitting protrusion 812 extending from one surface of the inner body 811 in the direction of the heat insulating member 300 and a pair of fitting protrusions 812 extending from both ends of the inner body 811 to the outside and coupled to the outer cover 820, respectively. A first coupling protrusion 813 may be provided.

Here, in the inner cover 810 and the heat insulating member 300 , the fitting protrusion 812 is fitted between the pair of coupling parts 390 of the heat insulating member 300 , and the pair of coupling parts 390 is the inner body. It can be fastened to each other against the 811 .

On the other hand, the outer cover 820 is provided with an outer body 821 corresponding to the inner body 811, both ends of the outer body 821 are respectively extended to the indoor side and coupled with a pair of first coupling protrusions (813) A pair of second coupling protrusions 822 may be provided.

Here, the pair of second coupling protrusions 822 are provided to each extend inwardly to face each other, and are provided with a barrier 823 facing one end of the first coupling protrusion 813 coupled to the second coupling protrusion 822 . Thus, when the first coupling protrusion 813 is coupled with the second coupling protrusion 822, it is possible to prevent the insertion of more than a predetermined length.

In the above, the curtain wall having seismic performance according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiments presented herein. And those skilled in the art who understand the spirit of the present invention will be able to easily propose other embodiments by addition, change, deletion, addition, etc. of components within the scope of the same spirit, but this is also said to be within the scope of the present invention. will be.

10: Curtain wall with seismic performance
100: frame 110: vertical bar
120: horizontal bar 130: first member
140: second member 150: third member
160: fourth member 200: glass
300: insulating member 310: first part
320: second portion 330: stepped portion
340: protrusion 350: first connection member
360: second connection member 370: third connection member
380: bent portion 390: coupling portion
400: elastic member 401: first surface
402: second side 403: third side
404: 4th page 405: 5th page
406: first projection 407: fastening groove
408: second projection 409: third projection
410: fourth projection 500: structural tape
600: structural sealant 700: waterproof sealant
800: cap 810: inner cover
811: inner body 812: fitting projection
813: first coupling protrusion 820: outer cover
821: outer body 822: second coupling projection
823: bump

Claims (11)

A frame having a lattice-shaped vertical bar and a horizontal bar to form a plurality of partition spaces;
a glass provided in the partition space of the frame;
A heat insulating member made of a plastic material that is positioned between a pair of adjacent glasses and is combined with one surface of the outdoor side of the frame to increase thermal insulation performance;
A pair of elastic members made of a synthetic resin material that is fastened to both sides of the heat insulating member in the width direction and is coupled to one side of the outdoor side of the frame and has elasticity to absorb and reduce waves generated by earthquakes to minimize the waves from being transmitted to the frame to provide
The elastic member is provided in a separate form on the vertical bar and the horizontal bar forming the partition space to individually absorb the waves generated by the earthquake to alleviate the torsional impact applied to the glass. own curtain wall.
The method of claim 1,
The heat insulating member is positioned between a pair of glass and a pair of first portions elongated in the direction of the elastic member;
a pair of second parts positioned between the pair of elastic members and extending from one end of the frame side of the pair of first parts to be elongated in the frame direction;
An end formed between one end of the frame side of the first part and one end of the first part side of the second part so that the distance between the pair of second parts is narrower than the distance between the pair of first parts chin and
a protrusion provided to correspond to the outer surfaces of the pair of second portions and fastened to the elastic member;
a pair of first connecting members, both ends of which are connected to the pair of first parts and integrated with the pair of first parts;
a second connecting member having both ends connected to the pair of second parts and integrated with the pair of second parts;
a third connecting member provided at a position spaced apart from the second connecting member in the frame direction and integrated with the pair of second portions;
Seismic resistance performance, characterized in that it is provided on each of the first connection member and the second connection member and is formed to be bent in the frame direction, and includes a bending portion to increase the structural rigidity of the first connection member and the second connection member. own curtain wall.
3. The method of claim 2,
The elastic member has a first surface provided to form a vertical position with the heat insulating member,
a second surface extending vertically from one end of the first surface in the frame direction and facing the second part;
a third surface extending vertically from the other end of the first surface in the frame direction;
A pair of fourth surfaces extending to face each other vertically from the second surface and the third surface and coupled to one surface of the outdoor side of the frame;
a fifth surface extending in the glass direction from the other end of the first surface;
a first protrusion extending vertically from one end of the first surface in the glass direction and in contact with the stepped portion;
a fastening groove formed in the first protrusion to which the protrusion part is fastened;
a second protrusion extending from the other end of the first surface to form a perpendicular to the third surface;
a third protrusion extending to one side from the fifth surface and corresponding to the second protrusion and coupled to one surface of the outdoor side of the frame;
Curtain wall with seismic resistance, characterized in that it has a fourth projection extending from the fifth surface to the other side.
4. The method of claim 3,
The frame includes a first member extending from one surface of the outdoor side and positioned between a pair of fourth surfaces;
a second member extending vertically from the first member and positioned inside the elastic member;
a third member extending from one surface of the outdoor side and facing the third surface;
Curtain wall having earthquake-resistant performance, characterized in that it extends vertically from the third member and includes a fourth member positioned between the second protrusion and the third protrusion.
5. The method of claim 4,
A structural tape for increasing the bonding force between the glass and the elastic member between the elastic member and the inner surface of the glass,
A structural sealant is provided to cover the structural tape to prevent external exposure of the structural tape,
A curtain wall with seismic resistance, characterized in that a waterproof sealant is provided between a pair of adjacent glasses to prevent exposure of the heat insulating member to the outside and to exhibit a waterproof function.
A frame having a lattice-shaped vertical bar and a horizontal bar to form a plurality of partition spaces;
a glass provided in the partition space of the frame;
A heat insulating member made of a plastic material that is positioned between a pair of adjacent glasses and is combined with one surface of the outdoor side of the frame to increase thermal insulation performance;
A cap made of a metal material coupled to an outdoor end of the heat insulating member to prevent exposure of the heat insulating member to the outside;
A pair of elastic members made of a synthetic resin material that is fastened to both sides of the heat insulating member in the width direction and is coupled to one side of the outdoor side of the frame and has elasticity to absorb and reduce waves generated by earthquakes to minimize the waves from being transmitted to the frame to provide
The elastic member is provided in a separate form on the vertical bar and the horizontal bar forming the partition space to individually absorb the waves generated by the earthquake to alleviate the torsional impact applied to the glass. own curtain wall.
7. The method of claim 6,
The heat insulating member is positioned between a pair of glass and a pair of first portions elongated in the direction of the elastic member;
a pair of second parts positioned between the pair of elastic members and extending from one end of the frame side of the pair of first parts to be elongated in the frame direction;
An end formed between one end of the frame side of the first part and one end of the first part side of the second part so that the distance between the pair of second parts is narrower than the distance between the pair of first parts chin and
a protrusion provided to correspond to the outer surfaces of the pair of second portions and fastened to the elastic member;
a pair of first connecting members, both ends of which are connected to the pair of first parts and integrated with the pair of first parts;
a second connecting member having both ends connected to the pair of second parts and integrated with the pair of second parts;
a third connecting member provided at a position spaced apart from the second connecting member in the frame direction and integrated with a pair of second portions;
a bending portion provided on each of the first connecting member and the second connecting member and bent in the frame direction to increase structural rigidity of the first connecting member and the second connecting member;
Curtain wall having seismic resistance, characterized in that it is provided at one end of the outdoor side of the first part and comprising a coupling part coupled to the cap.
8. The method of claim 7,
The elastic member has a first surface provided to form a vertical position with the heat insulating member,
a second surface extending vertically from one end of the first surface in the frame direction and facing the second part;
a third surface extending vertically from the other end of the first surface in the frame direction;
A pair of fourth surfaces extending to face each other vertically from the second surface and the third surface and coupled to one surface of the outdoor side of the frame;
a fifth surface extending in the glass direction from the other end of the first surface;
a first protrusion extending vertically from one end of the first surface in the glass direction and in contact with the stepped portion;
a fastening groove formed in the first protrusion to which the protrusion part is fastened;
a second protrusion extending from the other end of the first surface to form a perpendicular to the third surface;
a third protrusion extending to one side from the fifth surface and corresponding to the second protrusion and coupled to one surface of the outdoor side of the frame;
Curtain wall with seismic resistance, characterized in that it has a fourth projection extending from the fifth surface to the other side.
9. The method of claim 8,
The frame includes a first member extending from one surface of the outdoor side and positioned between a pair of fourth surfaces;
a second member extending vertically from the first member and positioned inside the elastic member;
a third member extending from one surface of the outdoor side and facing the third surface;
Curtain wall having earthquake-resistant performance, characterized in that it extends vertically from the third member and includes a fourth member positioned between the second protrusion and the third protrusion.
10. The method of claim 9,
The cap includes an inner cover coupled to the heat insulating member,
and an outer cover that is positioned on the outdoor side of the inner cover and is coupled to the inner cover,
The inner cover includes an inner body for covering each end of the pair of glass and the heat insulating member, a fitting protrusion extending from the inner body in the direction of the heat insulating member to fit the coupling part, and from both ends of the inner body toward the outside. and a pair of first coupling protrusions that extend and engage the outer cover,
The outer cover includes an outer body corresponding to the inner body, a pair of second coupling protrusions extending indoors from both ends of the outer body to engage the pair of first coupling protrusions, and the second coupling protrusion to the inside. Curtain wall with seismic performance, characterized in that it is extended and provided with a sill for preventing the first coupling protrusion from being inserted more than a certain length.
11. The method of claim 10,
A structural tape for increasing the bonding force between the glass and the elastic member between the elastic member and the inner surface of the glass,
Curtain having seismic resistance, characterized in that it is provided between one surface of the indoor side of the glass and the elastic member so as to cover the structural tape, and at the same time, a structural sealant that is provided between the outer surface of the glass and the cap month.

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