KR102109149B1 - Non-exposed bar type earthquake-proof curtain wall having shock absorbing structure - Google Patents

Abstract

The present invention relates to an unexposed bar-type earthquake-proof curtain wall having a shock absorbing structure. More specifically, the present invention is to provide an unexposed bar-type earthquake-proof curtain wall having a shock absorbing structure, which comprises: a main frame; a shock absorbing frame which is fastened with the main frame by being inserted into the same from a front side for absorbing vibration and insulating heat; and a shock absorbing member which is installed between the main frame and the shock absorbing frame to reduce a shock and increase insulation performance, thereby blocking thermal conduction in ordinary times and blocking or absorbing torsion shock or vibration when an earthquake occurs. According to the present invention, in the unexposed bar-type curtain wall, the unexposed bar-type curtain wall having an earthquake shock absorbing structure comprises: the main frame (1) which has a fastening groove unit (11) formed on an outdoor side surface; the shock absorbing frame (2) which is fastened with the fastening groove unit of the main frame for absorbing vibration and insulating heat; a first shock absorbing member (3a) and a second shock absorbing member (3b), which are located between the inside of the fastening groove unit (11) of the main frame (1) and the shock absorbing frame (2) to buffer; a fixer (4) which is inserted from a side direction to fix the main frame with the shock absorbing frame; a support (5) of which one side is fastened with the shock absorbing frame and the other side is fastened with an insulation cap (7) to support the load of glass; and the insulation cap (7) which is caught in and fastened with a fastening projection (54) on the other side of the support (5) while wrapping around the fastening projection.

Description

Non-exposed bar type earthquake-proof curtain wall having shock absorbing structure}

The present invention relates to a non-exposed bar-type earthquake-proof curtain wall having an earthquake shock absorbing structure, and in detail, it is provided with a frame structure made of an insulating material shock absorbing frame coupled to a metal main frame, and is normally blocked from multiple heat conductions transmitted to the main frame. When an earthquake occurs, it relates to a technique for absorbing torsional shock or vibration transmitted to the shock absorbing frame through the main frame.

Buildings made of reinforced concrete or steel frames are in charge of the vertical loads of buildings and horizontal loads caused by wind or earthquakes, etc., and the above frames are composed of pillars and beams, and the outer walls for protecting residents in the building from the external environment are usually curtain walls. ) Will be in charge.

The curtain wall is made of a non-bearing partition wall, and materials such as stainless steel, aluminum, and bronze are also used, but recently, curtain wall construction including glass is increasing.

Also, in general, the curtain wall refers to a lightweight exterior wall structure constructed to support a glass load constituting the exterior of a building.

The advantage of the curtain wall using glass is that it prevents rain or wind from the outside and blocks noise or heat, and has the advantage of improving indoor lighting.

The most common construction method for curtain walls using glass is to support the load of glass on a supporting structure (seating structure) projecting from the horizontal frame to the outside, and then attach a sealant such as silicone along the circumference of the glass to attach it to the frame. There is a way.

The structure as described above is a representative non-exposed bar type, and when viewed from the outside of the building, there is no structure visible between the glass and the glass, so that the outer wall is constructed only by glass.

As another method, there is a method of supporting the vertical load with the horizontal frame and using the cap and the anchor bolt on the outdoor side to horizontally press the glass toward the main frame and fix it. At this time, when the glass is pressed and fixed, the anchor bolt is directly penetrated through the hole formed in the glass and then coupled to the main frame.

Another method is to horizontally press the glass toward the main frame by using the cap and anchor bolts on the outdoor side while supporting the vertical load with the horizontal frame, and insulate the insulation such as polyamide or azone in the interior empty space when manufacturing the horizontal frame. Filling is also applied while increasing the insulation and bonding power.

The structure as described above is a structure in which a frame or a cap is exposed between the glass and the glass when viewed from the outside of the building in a representative exposure bar form.

However, the conventional curtain wall as described above has a problem in that it is vulnerable to thermal insulation due to heat conduction to the indoor side through a support structure (seating structure) exposed on the outdoor side in the case of a non-exposed bar type frame having a protruding structure in a single frame structure.

In addition, when an earthquake occurs, a torsional shock or a shock wave through the frame is directly transmitted to the glass, so that the glass without elasticity is damaged, or the support structure that holds the glass is deformed, and the glass may fall or break, which is disadvantageous in terms of safety.

Korean Registered Patent Publication No. 10-1483487 (2015.01.12.) Korean Registered Patent Publication No. 10-1247236 (2013.03.19.) Korean Registered Patent Publication No. 10-1218639 (2012.12.28.) Korea Registered Utility Model Publication No. 20-0448617 (2010.04.22.)

The object of the present invention for solving the above problems is to reduce the impact is installed between the main frame and the shock absorbing frame for vibration absorption and insulation fastened in a front-fitting manner to the main frame and the main frame and the shock absorbing frame. It is to provide a non-exposed bar-type seismic curtain wall having an earthquake shock absorbing structure capable of blocking heat conduction and preventing or absorbing torsional shock or vibration in the event of an earthquake by providing a shock absorbing member that increases insulation performance.

In addition, another object of the present invention is to provide a non-exposed bar type seismic curtain wall that can increase heat insulation performance by blocking heat conduction due to convection because a space portion is not formed at the bottom of the glass by directly supporting the load of the glass to support the load.

In addition, another object of the present invention is to provide a non-exposed bar-type earthquake-proof curtain wall that blocks heat conduction transmitted to the room by further comprising an insulating cover surrounding the main frame.

The present invention for achieving the object as described above and performing the task for removing the conventional defects in the non-exposed bar-type seismic curtain wall, the main frame formed with a fastening groove on the outdoor side; A shock absorbing frame for vibration absorption and heat insulation that is fastened to the fastening groove of the main frame; A first shock-absorbing member and a second shock-absorbing member positioned between the main groove of the main frame and the shock-absorbing frame to buffer; A fixture which is inserted in the lateral direction to fix the main frame and the shock absorbing frame; One side is fastened to the shock absorbing frame, the other side is fastened with an insulating cap and a support for supporting the load of the glass; It is composed of, including; a heat insulating cap that is fastened while surrounding the other fastening protrusion of the support;

The shock absorbing frame includes a locking jaw and a locking groove respectively formed at different points on the upper and lower sides corresponding to the locking groove and the locking jaw formed in the fastening groove of the main frame; A fastening groove formed in the upper and lower sides corresponding to the fastening groove formed in the fastening groove portion of the main frame for side insertion of the fastener; A storage unit formed to receive and support a second shock absorbing member in contact with the first shock absorbing member fitted in the fastening groove of the main frame; It is formed by providing a non-exposed bar-type seismic curtain wall with an earthquake shock absorbing structure, characterized in that it comprises; elastic projections formed on the front side, and the engaging piece formed on the upper and lower sides so that the support supporting the glass is fitted.

In a preferred embodiment, the main frame may be configured to further include an insulating cover having a 'c' cross section in which a locking groove is formed at the upper and lower ends of the outdoor side, and a locking jaw is hooked to the locking groove to elastically engage.

In a preferred embodiment, a condensation preventing groove formed in the longitudinal direction may be formed in multiple stages on the inner surface of the heat insulating cover.

In a preferred embodiment, the fastening groove portion of the main frame,

Locking grooves and locking jaws formed at different points on the upper side and the lower side, respectively, in order to prevent separation of the front shock absorbing frame;

Fastening grooves formed on the upper and lower sides for the side insert of the fixture;

The first shock absorbing member inserted in the front is supported, it can be configured to include; uneven support formed on the rear to distribute the vertical load.

In a preferred embodiment, the first shock-absorbing member is formed with a concave-convex support portion corresponding to the concave-convex support portion of the main frame on one side, and a contact support portion formed in contact with the contact support portion of the second shock-absorbing member on the other side,

The second shock-absorbing member may be formed on one side of a contact support part which is in contact with and supported by the contact support part of the first shock-absorbing member.

In a preferred embodiment, the support is made of a metal material,

An elastic groove part formed on one side and fitted with an engaging protrusion coupled to the elastic protrusion part of the shock absorbing frame;

A fastening protrusion formed on the other side and fitted into the fastening groove of the heat insulating cap;

It is formed on the upper side and the lower side and the support portion is interviewed and supported by the shock absorption frame;

It is formed on the other side of the support portion up and down can be configured to include; a locking groove to fasten the fastening projection of the insulating cap.

In a preferred embodiment, the insulating cap is formed of an insulating material, a fastening groove into which a fastening protrusion of the support is inserted is formed, and a fastening protrusion that is fastened by a locking groove of the support on the indoor side may be formed.

In a preferred embodiment, the main frame is made of a metal material, the shock absorbing frame is made of an insulating material, and the first shock absorbing member and the second shock absorbing member may be made of an insulating material having elasticity.

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Non-exposed bar type having a shock absorbing frame, which is an insulating material coupled to the main frame of a metal material according to the present invention having the above-described configuration, and a shock absorbing member installed between the main frame and the shock absorbing frame to increase insulation performance while reducing shock. The curtain wall normally blocks heat conduction transmitted to the main frame, and in the event of an earthquake, the shock absorbing frame and the shock absorbing member can reduce or absorb the torsional shock or vibration transmitted through the main frame.

In addition, the non-exposed bar-type curtain wall comprising a frame structure made of an insulating material shock-absorbing frame coupled to a metal mainframe does not form a separate space in the lower part of the glass by directly supporting and supporting the load of the glass so that heat conduction by convection And the advantage that insulation performance is dramatically increased by blocking

In addition, a non-exposed bar curtain wall made of an insulating material shock-absorbing frame coupled to a metal mainframe is fitted with a shock absorbing frame for vibration absorption and heat insulation that is fastened to the main frame, and fastened from the side to increase the fixing force. It is a useful invention with the advantage that the solid coupling structure and workability are improved by inserting, and it is an invention that is expected to be used in the industry.

1 is a partial cross-sectional example of a non-exposed bar curtain wall showing a fastening structure between a main frame and a shock absorbing frame according to an embodiment of the present invention,
Figure 2 is an exemplary cross-sectional view showing an exploded structure of a non-exposed bar curtain wall according to another embodiment of the present invention,
3 is an exemplary cross-sectional view showing a coupling structure of a non-exposed bar curtain wall according to another embodiment of the present invention,
Figure 4 is an exemplary view showing a coupling structure of a non-exposed bar type curtain wall further includes an insulating cover according to another embodiment of the present invention,
5 is an exemplary cross-sectional view showing a non-exposed bar-type curtain wall further including an insulating cover according to another embodiment of the present invention.

Hereinafter, a detailed description of an embodiment of the present invention in connection with the configuration and its operation is as follows. In addition, in the description of the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

Hereinafter, the term "longitudinal direction" refers to a direction in which a metal material, a synthetic resin material, or an insulating material constituting the curtain wall or frame according to the present invention is extruded.

The drawings exemplified below are cross-sectional views of a horizontal frame constituting the curtain wall and a cut state at one point of the frame representing the constitution according to the present invention.

Hereinafter, the material of the metal material is not limited to any one metal, but aluminum materials are commonly used as the metal material.

Hereinafter, the insulating material refers to a synthetic resin material, and is not limited to any synthetic resin, but PVC, polyurethane, and polyamide are commonly used.

1 is a partial cross-sectional view of a non-exposed bar curtain wall showing a fastening structure between a main frame and a shock absorbing frame according to an embodiment of the present invention.

As shown, a frame structure made of an insulating material shock absorbing frame coupled to a metal mainframe according to the present invention is applied to a non-exposed bar curtain wall installed in a building to support the load of glass.

The main frame 1 having a fastening groove 11 formed on the outdoor side is provided to form a frame structure made of an insulating material shock absorbing frame coupled to the metal main frame.

The main frame (1) is formed with a fastening groove (11) in the direction of the outdoor side, so that the shock absorbing frame (2) and the first shock absorbing member (3a) and the second shock absorbing member (3b) for vibration absorption and insulation are inserted. Is fastened. The fastening method is possible in the lateral direction, but is configured to be fitted directly in the front side (outdoor side).

In addition, between the shock absorbing frame (2) fastened to the main frame (1) from the front is provided in the lateral direction (longitudinal), the fixture (4) for fixing between the main frame (1) and the shock absorbing frame is provided. By configuring in this way, it is divided into an exposed bar type or a non-exposed bar curtain wall according to the type of the support 5 that is received and assembled in the fastening groove 11 formed in the main frame and assembled with the shock absorbing frame 2.

The main frame 1 is made of metal, and the material of the shock absorbing frame 2, the first shock absorbing member 3a, and the second shock absorbing member 3b is made of an insulating material. Insulating materials can be made of PVC, polyurethane, and polyamide materials. In particular, the material of the first shock absorbing member 3a and the second shock absorbing member 3b is preferably an insulating material having elasticity.

When configured with different materials as described above, the outdoor side heat conduction transmitted from the outdoor side is blocked by the shock absorbing frame 2 so that the outdoor temperature is not transmitted to the main frame 1 exposed to the interior side.

The main frame (1) and the shock absorbing frame (2) is composed of a separate structure that is fastened through a fastening part and a first shock absorbing member (3a) and a second shock absorbing member (3b), rather than one body. (1) The torsional shock or vibration transmitted through the shock absorbing frame (2), the first shock absorbing member (3a) and the second shock absorbing member (3b) is blocked or absorbed to prevent damage to the glass constituting the curtain wall. Will be prevented.

Of course, even if it is composed of a separation structure, such an effect can be halved if it is made of the same material. However, the present invention is made of different materials, so that physical properties are different, but even more, the effect of blocking torsional shock or vibration when an earthquake occurs is large.

That is, less distortion occurs due to the characteristics of the insulating material, which is a synthetic resin material, than the metal. Here, the insulating material is any one of PVC, polyurethane, and polyamide, and a PVC material is preferable for the structure of the shock absorbing frame 2.

In addition, the first shock absorbing member 3a and the second shock absorbing member 3b are positioned between both main frames 1 and the shock absorbing frame 2, while torsional shock transmitted through the main frame 1 while being cushioned. Alternatively, the vibrations are blocked or absorbed before being transmitted to the shock absorbing frame 2 to prevent breakage of the glass constituting the curtain wall.

Materials of the first shock absorbing member 3a and the second shock absorbing member 3b may be made of PVC, polyurethane, polyamide, and rubber for heat insulation and shock absorption. As the rubber used, natural or synthetic rubber materials having strong stiffness, durability, and elasticity may be used.

The fastening groove 11 of the main frame 1 has locking grooves 111 and locking jaws 112 formed at different points on the upper and lower sides, respectively, in order to prevent separation of the front shock absorbing frame 2. Is formed.

Specifically, a locking groove 111 is formed at an entrance side (outside) of the fastening groove 11, and a semicircular locking jaw 112 is formed at a rear portion (inside). The geomrim groove 111 is sufficient if it is formed into a groove structure such that the locking jaw 21 of the shock absorbing frame 2 to be described later is caught.

In addition, the fastening groove 113 corresponding to the shape of the fastener 4 is formed on the upper and lower sides for the side insert of the fastener 4. The fastening groove 113 is responsible for the groove-shaped area in half to form a single groove with the fastening groove 23 of the shock absorbing frame 2.

In addition, an uneven support 114 is formed on the rear vertical surface so that the first shock absorbing member 3a inserted in front is distributed to distribute the vertical load. Since the uneven support portion 114 is formed, the uneven support portion 31a of the first shock absorbing member 3a inserted and fastened to the fastening groove portion 11 of the main frame 1 is fastened and the load is supported. The shock of (1) is not transmitted to the shock absorbing frame (2), but is dispersed.

In addition, the shape of the uneven support portion 114 is made of uneven and serves as a reinforcing material to prevent local deformation of the main frame 1.

The main frame (1) of the fastening groove 11, the front side (outside) from the inside (inside the inside) is pressed into the shock absorbing frame 2 is fastened. The locking jaws 21 and the locking grooves 22 respectively formed at different points on the upper and lower sides corresponding to the locking grooves 111 and the locking jaws 112 formed in the fastening groove 11 of the main frame 1 are formed. do. The locking groove 22 has a semi-circular shape to correspond to the semi-circular locking jaw 112 formed in the fastening groove 11 of the main frame 1.

In addition, fastening grooves 23 formed on the upper and lower sides are formed corresponding to the fastening grooves 113 formed on the fastening grooves 11 of the main frame 1 for side insertion of the fastener 4.

In addition, the first shock absorbing member 3a supported by the uneven support 114 formed in the fastening groove 11 of the main frame 1 and the second shock absorbing member in contact with the uneven structure having the same cross section as the tooth structure ( 3b), the receiving portion 24 is formed at the rear so as to receive and support it, thereby supporting it multiplely.

In addition, an elastic protrusion 25 is formed in the front so that the support 5 for supporting the glass is fitted. The elastic protrusion 25 is configured up and down, and when the support 5 is pressed during the fastening, it is elastically contracted, and when the fastening is completed, it is expanded back to its original position to maintain the fastening.

Located between the main frame 1 and the shock absorbing frame 2, the first shock absorbing member 3a and the second shock absorbing member 3b positioned to buffer each other are shaped to be engaged with each other, that is, toothed or polygonal Contact support portions (32a, 31b) made of an upper concavo-convex structure are formed to insulate or buffer shocks transmitted while supporting each other.

Due to this, the shock transmitted through the main frame is primarily absorbed or buffered in the first shock absorbing member 3a, and is insulated due to the separated structure, so that the second shock absorbing member in the first shock absorbing member 3a When transmitted to (3b) is reduced again, the impact transmitted to the second shock absorbing member (3b) has a structure that is absorbed by being buffered in a more reduced state.

2 is an exemplary cross-sectional view showing an exploded structure of a non-exposed bar curtain wall according to another embodiment of the present invention, and FIG. 3 is an exemplary cross-sectional view showing a combined structure of a non-exposed bar curtain wall according to another embodiment of the present invention.

As shown, the fastening structure between the main frame and the shock absorbing frame 2 for vibration absorption and insulation is a frame structure made of an insulating material shock absorbing frame coupled to a metal main frame as described in FIG. 1 and the main frame 1 ) And the shock absorbing frame (2) has a configuration consisting of a first shock absorbing member (3a) and a second shock absorbing member (3b) to buffer the shock absorbing frame (2) coupled to the metal main frame The non-exposed bar-type support 5 is fastened to the part fastened to the non-exposed bar-type heat insulating cap 7, and has a structure to be fastened again.

The entire configuration including the frame structure made of the insulating material shock absorbing frame coupled to the metal mainframe is absorbed by vibration and absorbs shock for insulation in the fastening groove 11 of the main frame 1 with the fastening groove 11 on the outdoor side. After the frame 2 is pressed and inserted from the front, the fastening grooves formed on the upper and lower sides of the fastening groove portion 11 of the main frame 1 and the fastening grooves respectively formed on the upper and lower sides of the shock absorbing frame 2 are formed. The main frame assembly is completed by inserting the fixture 4 into the groove in the lateral direction (longitudinal direction).

In this case, the first shock absorbing member 3a and the second shock absorbing member 3b positioned between the main frame 1 and the shock absorbing frame 2 to buffer each other are the main frame 1 and the shock absorbing frame 2, respectively. ).

Here is provided with a non-exposed bar-type support (5) that is fastened to the other side of the shock absorbing frame to support the load of the glass.

In addition, an insulating cap 7 is fastened while surrounding the other fastening protrusion 54 of the support 5.

Hereinafter, only the rest of the configuration of the non-exposed bar-type curtain wall configuration except for the part illustrated in FIG. 1 will be described.

The non-exposed bar-shaped support 5 is made of a metal material, and is formed on one side, and is provided with an elastic groove portion 51 having a locking piece 51a formed on one side and fitted into the elastic protrusion 25 of the shock absorbing frame. The elastic groove portion 51 is composed of both sides of the upper and lower sides to correspond to the elastic projection portion 25 composed of both sides. The elastic groove portion 51 expands outward when the engaging pieces 51a located at the upper and lower sides of the inlet side of the elastic groove portion 51 move forward when pressed, and contact with the upper and lower engaging pieces 25a of the elastic protrusion 25 while being pressed forward. When the fastening is completed, it is contracted back to its original position to maintain the fastening.

In addition, a fastening protrusion 54 fitted into a fastening groove formed on the other side of the heat insulating cap 7 is provided. Since the diameter of the fastening projection 54 is small compared to the size of the glass, it is an important component to form a non-exposed type curtain wall because it is hardly visible from the outside.

In addition, a support portion 53 is provided which is supported in an interview with the shock absorbing frame 2 formed on the upper side and the lower side. The support portion 53 is loaded with an elastic guide portion 25 is fitted to the elastic groove portion 51, the assembled support (5) is held in contact with the other vertical surface of the shock absorbing frame (2) in the up and down position to maintain the horizontal guide while loading When it is applied, it disperses the load and prevents it from tilting.

In addition, the locking groove 55 is formed on the other side of the support portion and fastened by the fastening protrusion 72 of the heat insulating cap.

The non-exposed bar type heat insulating cap (7) is formed of a heat insulating material, a fastening groove (71) into which the fastening protrusion (54) of the support (5) is inserted is formed, and is fastened by a hooking groove (55) of the support on the indoor side The fastening protrusion 72 is formed. The insulating cap 7 is provided to block the heat conduction of the outdoor temperature to the indoor side. In addition, since the diameter of the insulating cap 7 is small compared to the size of the glass, it is almost invisible when viewed from the outside, which is an important component for forming a non-exposed type curtain wall.

4 is an exemplary view showing a coupling structure of a non-exposed bar-type curtain wall further including an insulating cover according to another embodiment of the present invention, and FIG. 5 is a non-exposed additional insulating cover according to another embodiment of the present invention It is a cross-sectional example showing a bar-shaped curtain wall.

As shown, the non-exposed bar curtain wall structure further including the heat insulating cover 8 is a heat insulating material that is coupled to a metal main frame including a main frame as described above and a shock absorbing frame 2 for vibration absorption and heat insulation. It is the same that the non-exposed bar type support 5 is fastened to the absorbent frame, and the non-exposed bar type heat insulating cap 7 is fastened again, and the metallic mainframe further includes an insulating cover for additional thermal insulation configuration. Have

First, in order to install the insulating cover (8), the main frame (1) is formed with a locking groove (12) at the upper and lower ends of the outdoor side of the main frame (1).

When the main frame 1 processed in the above-described shape is provided, the engaging jaw 81 of the heat insulating cover 8 having a cross section of 'C' which is elastically fastened by the engaging groove 12 of the main frame 1 is engaged. Is done.

In addition, the heat insulation cover 8 is formed with a multi-stage condensation preventing groove 82 formed in the longitudinal direction on the inner surface to prevent condensation that may occur due to surface contact between the metal material and the heat insulating material, or when the condensation occurs, follow the condensation preventing groove 82. Let it flow or gather to dry.

The material of the insulating cover 8 may be any one of PVC, polyurethane, and polyamide as a synthetic resin material, and preferably polyamide having good insulating power is good.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be implemented by anyone who has ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, such changes are within the scope of the claims.

(1): Main frame (2): Shock absorption frame
(3a): First shock absorbing member (3b): Second shock absorbing member
(4): Fixture (5): Support
(7): Insulation cap (8): Insulation cover
(11): Fastening groove (12): Hanging groove
(21): Hanging jaw (22): Hanging groove
(23): fastening groove (24): storage
(25): Elastic projection (25a): Hanging piece
(31a): uneven support (32a, 31b) contact support
(51): Elastic groove (51a): Hanging piece
(53): support (54): fastening projections
(55): Hanging groove (71): Fastening groove
(72): fastening projection (81): locking jaw
(82): Condensation prevention groove (111): Hanging groove
(112): locking jaw (113): fastening groove
(114): Uneven support

Claims (1)

In the non-exposed bar type seismic curtain wall,
A main frame 1 having a fastening groove 11 formed on the outdoor side; A shock absorbing frame (2) for vibration absorption and heat insulation that is fastened to the fastening groove of the main frame; A first shock-absorbing member (3a) and a second shock-absorbing member (3b) positioned between the inner side of the fastening groove (11) of the main frame (1) and the shock-absorbing frame (2) to buffer; A fixture 4 inserted in the lateral direction to fix the main frame and the shock absorbing frame; One side is fastened to the shock absorbing frame, the other side is fastened with an insulating cap (7) and support (5) for supporting the load of the glass; Insulating cap (7) is fastened while surrounding the other fastening protrusion 54 of the support (5); configured to include,
The shock absorbing frame 2, the locking jaws 21 and the locking jaws formed at different points on the upper and lower sides respectively corresponding to the locking groove 111 and the locking jaw 112 formed in the fastening groove 11 of the main frame A groove 22; A fastening groove 23 formed on the upper side and the lower side corresponding to the fastening groove 113 formed on the fastening groove portion of the main frame for side insertion of the fixture; A storage unit 24 formed to receive and support the second shock absorbing member 3b in contact with the first shock absorbing member 3a fitted in the fastening groove 11 of the main frame; It is configured to include, including; the elastic projection portion 25 is formed in the front, the engaging piece 25a is formed on the upper and lower sides so that the support (5) for supporting the glass is fitted,
The main frame (1) is made of a metal material, the shock absorbing frame (2) is a PVC material, the material of the first shock absorbing member (3a) and the second shock absorbing member (3b) is elastic polyurethane , Polyamide, non-exposed bar seismic curtain wall with seismic shock absorption structure characterized by one of rubber.

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