KR20230150535A - Seismic structure of curtain wall system - Google Patents

Abstract

The present invention is a curtain wall system that reduces construction costs and construction time by fixing the vertical frame using vibration absorbing members, and can prevent deformation and damage of the curtain wall by absorbing external shocks caused by typhoons and earthquakes. Regarding the earthquake-resistant structure of, in a curtain wall system consisting of a spandrel section made of a spandrel frame and spandrel panels, and a window section made of a vertical frame and double-layer glass, the lower side of the spandrel frame is connected to the upper side of the horizontal frame. The upper side of the vertical frame is fixed to the lower side of the horizontal frame, the lower side of the vertical frame is fixed to the horizontal frame coupled to the floor, and a vibration absorbing member capable of exerting elastic restoring force is coupled to the inside of the horizontal frame. The upper side of the vibration absorbing member is inserted and fixed into the inside of the vertical frame.
Therefore, the present invention does not use separate brackets, bolts, nuts, rivets, etc. when fixing the vertical frame, but uses a vibration absorbing member that can exert elastic restoring force, thereby significantly reducing construction costs and construction time. In addition, even when external shocks such as typhoons and earthquakes are applied, it is effective in preventing deformation and damage of the curtain wall by absorbing vibration as much as possible. In addition, by installing a support connected to the beam (B) on the spandrel frame, there is an advantage of being able to absorb vibrations applied to the spandrel section and appropriately respond to external shocks.

Description

Seismic structure of curtain wall system}

The present invention relates to a curtain wall system composed of a spandrel section and a window section, and more specifically, to reduce construction costs and construction time by fixing the vertical frame using a vibration absorbing member, and to reduce the construction cost and construction time, and to reduce external pressure caused by typhoons and earthquakes. This relates to an earthquake-resistant structure of a curtain wall system that can absorb shock and prevent deformation and damage of the curtain wall.

In general, a curtain wall refers to a non-load-bearing wall of a building that functions to protect residents from the external environment without supporting the load of the building. The vertical load applied to the building and the horizontal load caused by wind or earthquakes are supported by a frame made of columns and beams, and in this case, the curtain wall acts as a curtain to protect the occupants of the building from the external environment.

These curtain walls are largely classified into stick type and unitized type depending on the construction method. The stick type is mainly applied to low-rise areas by assembling and installing each member on site. On the other hand, the unit type is mainly applied to high-rise buildings by assembling each member at a factory and then transporting and installing them on site.

Meanwhile, materials such as stainless steel, aluminum, and bronze are also used as curtain wall materials, but the use of glass has been increasing recently. Glass curtain walls not only change the external image of a building to a modern one, but also have the advantage of improving lighting inside the building.

The outer skin of the curtain wall can be divided into a window section made of window panels and a spandrel section made of spandrel panels. The spandrel section is mainly formed on the outer surface of the building structure, and is usually prepared and installed using a spandrel panel with an integrated structure of insulating materials such as insulating glass or insulating panels.

The spandrel refers to a beam that supports the wall horizontally between pillars in a steel or reinforced concrete structure.

An example of such a spandrel window structure is disclosed in Patent Registration No. 10-1292702, and as shown in FIG. 1, a conventional spandrel window has upper and lower horizontal frames 110 and 120 and upper and lower protruding steps (S1, S2), a window panel (WP) is installed on the inner periphery, and the insulation material 220 and anchor frame 210 are attached to the outer surface of the building structure so that they protrude further outward than the upper and lower horizontal frames 110 and 120. It consists of an installed spandrel panel (SP) and an open joint frame (310, 320) that connects the window panel (WP) and the spandrel panel (SP).

However, this conventional curtain wall system had the disadvantage of being vulnerable to external shocks such as earthquakes and typhoons because the vertical frame and horizontal frame were joined by brackets and bolts.

The present invention is intended to solve the above problems, and its purpose is to provide an improved seismic structure of a curtain wall system that can absorb vibration as much as possible by fixing the vertical frame using a vibration absorbing member.

Another purpose of the present invention is to provide an earthquake-resistant structure for a curtain wall system that can absorb vibrations in the spandrel section by installing a support connected to the beam in the spandrel frame.

The earthquake-resistant structure of the curtain wall system according to the present invention is a curtain wall system consisting of a spandrel section made of a spandrel frame and spandrel panels, and a window section made of a vertical frame and double-layer glass, and the lower side of the spandrel frame is a horizontal frame. is coupled to the upper side of the horizontal frame, the upper side of the vertical frame is fixed to the lower side of the horizontal frame, and the lower side of the vertical frame is fixed to the horizontal frame coupled to the floor, and the inside of the horizontal frame is capable of exerting an elastic restoring force. The absorbing member is coupled, and the upper side of the vibration absorbing member is inserted and fixed inside the vertical frame.

According to the earthquake-resistant structure of the curtain wall system according to the present invention, when fixing the vertical frame, it is constructed by using a vibration-absorbing member that can exert elastic restoring force without using separate brackets, bolts, nuts, or rivets, etc. Not only can the cost and construction time be significantly reduced, but it is also effective in preventing deformation and damage to the curtain wall by absorbing as much vibration as possible even when external shocks such as typhoons and earthquakes are applied.

In addition, by installing a support connected to the beam (B) on the spandrel frame, there is an advantage of being able to absorb vibrations applied to the spandrel section and appropriately respond to external shocks.

Figure 1 is a side cross-sectional view of a conventional cut wall system,
Figure 2 is a side cross-sectional view of the curtain wall system according to the present invention;
Figure 3 is an enlarged view of mark III in Figure 2;
Figure 4 is an enlarged view of the IV mark in Figure 2;
Figure 5 is a side cross-sectional view showing the coupled state of the vibration absorbing member according to the present invention;
Figure 6 is a side cross-sectional view showing the combined state of the vertical frame according to the present invention;
Figure 7 is a side cross-sectional view showing the assembled state of the cover according to the present invention.

Preferred embodiments of the present invention will be described in detail with the accompanying drawings.

The earthquake-resistant structure of the curtain wall system according to the present invention is applied to a curtain wall system including a spandrel section and a window section, as shown in FIG. 2, so that the curtain wall absorbs vibration when external forces such as typhoons and earthquakes are applied. It is proposed to prevent deformation and damage.

The curtain wall of the present invention is installed on the front of a two-story building, and includes a spandrel section consisting of a spandrel frame (20) and a spandrel panel (25), and a window consisting of a vertical frame (40) and double-layer glass (60). It consists of sections.

The spandrel frame 20 is coupled to the front upper part of the building, and an insulating material 21 is coupled to the inside of the spandrel frame 20, and a lower bracket 22 is coupled to the inner surface, and the lower side bracket 22 is coupled to the spandrel frame 20. One side of the support 23 is coupled to the bracket 22, and the other side of the support 23 is coupled to the upper bracket 24 installed on the ceiling beam B.

The support 23 combined in this way connects the spandrel frame 20 and the spandrel panel 25 to the beam (B) and firmly supports it, thereby absorbing vibrations occurring in the spandrel section.

The upper side of the spandrel frame 20 is fixed with bolts to the horizontal frame 10 on the floor of the upper floor, and the lower side of the spandrel frame 20 is attached to the upper side of the vertical frame 40 as shown in FIG. 3. It is fixed with bolts to the combined horizontal frame (10).

Meanwhile, the vertical frame 40 is fixed on its lower side to the horizontal frame 10 coupled to the floor, and is fixed on its lower side to the horizontal frame 10 coupled to the lower side of the spandrel frame 20. At this time, a separate Not only is it easy to assemble because no connecting means such as brackets, bolts, nuts, or rivets are used, but it is also designed to absorb external shocks, allowing it to respond appropriately to typhoons and earthquakes.

On the lower side of the vertical frame 40, that is, on the upper side of the lower spandrel frame 20, a horizontal frame 10 is firmly coupled with a bolt as shown in Figure 4, and on the inside of the horizontal frame 10 The vibration absorbing member 30 and the lower side of the vertical frame 40 are inserted and fixed, and the cover 50 is coupled to the open upper side of the horizontal frame 10.

If the installation process of the window section according to the present invention is described in detail step by step, first, the vibration absorbing member 30 is coupled to the inside of the horizontal frame 10, as shown in FIG. 5.

In one embodiment of the present invention, the vibration absorbing member 30 is made of synthetic resin or metal material capable of exerting elastic force, and has a left-right symmetrical butterfly-shaped structure with a space formed on the inside to quickly deform and restore the shape. It is structured to make it happen.

In particular, on the lower side of the vibration absorbing member 30, coupling portions 31 are formed on the left and right sides so that they can be slidably coupled to the inside of the horizontal frame 10, and on the lower and upper sides of the vibration absorbing member 30. In order to double the elastic restoring force, the lower curved portion 32 and the upper curved portion 33 are formed to have concave shapes toward the upper and lower sides, respectively.

On the upper side of the vibration absorbing member 30 combined in this way, a vertical frame 40 in the shape of a square pipe is coupled, as shown in FIG. 6. At this time, the inner side of the horizontal frame 10 is inserted into the horizontal frame 10. By tightly inserting the vibration absorbing member 30, the vertical frame 40 is fixed to the horizontal frame 10.

The vibration absorbing member 30 not only serves to fix the vertical frame 40 to the horizontal frame 10, but also absorbs shock through elastic force when an external force is applied to the vertical frame 40, thereby supporting the double-layer glass 60. And damage to the vertical frame 40 can be prevented.

The vibration absorbing member 30 and the vertical frame 40 are installed in plural numbers at intervals in the longitudinal direction of the horizontal frame 10, and as shown in FIG. 7, each of the vibration absorbing members 30 and the vertical frame 40 is installed on the open upper side of the horizontal frame 10. A cover 50 made of aluminum is coupled between the vertical frames 40.

The upper side of the vertical frame 40 is fixed to the horizontal frame 10 coupled to the lower side of the spandrel frame 20 as shown in FIG. 3. At this time, the vibration absorbing member 30 can be combined or omitted, and is combined in this way. The curtain wall of the present invention is completed by combining the spandrel panel 25 and the double-layer glass 60 on the front of the spandrel frame 20 and the vertical frame 40, respectively.

The earthquake-resistant structure of the curtain wall system according to the present invention configured as described above includes a vibration-absorbing member that can exert elastic restoring force without using separate brackets, bolts, nuts, rivets, etc., when fixing the vertical frame 40. By using (30), not only can the construction cost and construction time be significantly reduced, but it is also effective in preventing deformation and damage of the curtain wall by absorbing vibration as much as possible even when external shocks such as typhoons and earthquakes are applied. .

In addition, by installing a support 23 connected to the beam B on the spandrel frame 20, there is an advantage of absorbing vibration applied to the spandrel section and appropriately responding to external shocks.

10: horizontal frame 20: spandrel frame
21: insulation material 22: lower bracket
23: support 24: upper bracket
25: Spandrel panel 30: Vibration absorbing member
31: coupling portion 32: lower curved portion
33: upper curved portion 40: vertical frame
50: Cover 60: Double-layer glass

Claims (5)

In a curtain wall system consisting of a spandrel section made of a spandrel frame and spandrel panels, and a window section made of a vertical frame (40) and double-layer glass (60),
The lower side of the spandrel frame 20 is coupled to the upper side of the horizontal frame 10, the upper side of the vertical frame 40 is fixed to the lower side of the horizontal frame 10, and the lower side of the vertical frame 40 is attached to the floor. It is fixed to the horizontal frame (10) coupled to the surface,
A vibration absorbing member 30 capable of exerting elastic restoring force is coupled to the inside of the horizontal frame 10, and the upper side of the vibration absorbing member 30 is inserted and fixed inside the vertical frame 40. Seismic structure of curtain wall system.
According to clause 1,
An earthquake-resistant structure of a curtain wall system, characterized in that coupling portions 31 are formed on the left and right sides of the vibration absorbing member 30 so that it can be slidably coupled to the horizontal frame 10.
According to clause 1,
An earthquake-resistant structure of a curtain wall system, characterized in that a lower curved portion 32 and an upper curved portion 33 are formed on the lower and upper sides of the vibration absorbing member 30 to exert elastic restoring force.
According to clause 1,
An earthquake-resistant structure of a curtain wall system, characterized in that one side of the support (23) is coupled to the spandrel frame (20), and the other side of the support (23) is coupled to the beam (B).
According to clause 1,
An earthquake-resistant structure of a curtain wall system, characterized in that a cover 50 is coupled to the open upper side of the horizontal frame 10.

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