KR200313103Y1 - The supporting structure for fixing a walling panels - Google Patents

Abstract

The present invention relates to a support for fixing an exterior wall panel for building, which is exposed to the outside after being buried by cement around the exterior wall of the building to construct the exterior wall panel by the curtain wall method on the exterior wall of the building. The present invention relates to a support for fixing an exterior wall panel for building a building exterior wall simply by fastening with an outer wall panel and a bolt.

The present invention is a support for fixing the building exterior wall panel covering the outer wall of the building, the upper surface is coupled to the horizontal movement by the locking jaw T-bolt for fixing the outer wall panel, both outer end surface in the longitudinal direction Fixing the building exterior wall panel, characterized in that it comprises a vertical portion and a channel in which the stress distribution member is gradually inclined downward from the lower portion of the vertical portion and an anchor fixed in the vertical direction from the bottom surface of the channel. A support for the purpose is set forth.

Description

Supporting structure for fixing exterior wall panel for building

The present invention relates to a support for fixing an exterior wall panel for a building, which is buried by cement around the exterior wall of a building in order to construct the exterior wall panel on the exterior wall of the building, and then the externally exposed part is fastened with the exterior wall panel and the bolt. The present invention relates to a support for fixing an exterior wall panel for easy construction of an exterior wall.

In general, the outer wall of a large building is not usually piled up with blocks, but is usually finished by constructing glass or exterior wall panels. In order to install the outer wall panel on the outer wall of the building, the anchor bolt is embedded with cement around the outer wall, and after the cement is cured, the outer wall panel is fitted to the exposed part of the anchor bolt by tightening the nut. On the other hand, such a configuration in the art is called a cast-in channel anchor (CAST-IN CHANNEL ANCHOR).

1 is a view showing a support for fixing a conventional building exterior wall panel, Figure 2 is a view showing a state in which a conventional building exterior wall panel embedded by cement, the support for fixing a conventional building exterior wall panel is a channel (10), Tibolt (20), and anchor (30). Looking at each of the members below, the channel 10 has a cross-sectional shape of the declination shape, and adjusts the predetermined length in some cases, the locking step 11 is formed on both sides of the open upper end.

Tibolt 20 is composed of a nut 22 and Tibolt head 21, the Tibolt head 21 is coupled to move in the horizontal direction inside the channel (10). One head 32 part of the anchor 30 is formed by cold working, and the other welding part 31 is fixed by welding to the channel bottom 12 after being processed by hot working. The support for fixing the building exterior wall panel of this configuration is embedded by cement 40 as shown in FIG. Thereafter, after unscrewing the nut 22 of the protruding tibolt 20, the outer wall panel is assembled to the outer wall of the building by assembling the outer wall panel of the building for the tibolt 22 and then filling the nut 22.

On the other hand, the support for fixing the conventional building exterior wall panel has a direction of the stress acting on the channel 10 when the outer wall panel fastened to the Tibolt 20 is shaken by an external action or the stress acts in the upper vertical direction Even if the direction is the same or different in the A direction, the direction of the stress will be the same. Therefore, if these stresses are dispersed, more safety against external shocks can be ensured.

In addition, since the anchor 30 of the support for fixing the conventional building exterior wall panel is cold-worked on one side and welded on the other side after hot-working, both sides are highly likely to cause disorder and deformation of the metal structure due to heat. If the stress acts from the anchor (30) is likely to be cut. Therefore, it has been desired to develop a technology capable of minimizing thermal deformation occurring in the anchor 30 and dispersing stress generated in the channel 10.

The object of the present invention is to provide a support for fixing a building exterior wall panel that can enhance the safety by reducing the stress generated in the support for fixing the building exterior wall panel to reduce the thermal deformation of the anchor portion.

The above object is a support for fixing the building exterior wall panel covering the outer wall of the building, the upper surface is coupled to the horizontal movement by the locking jaw T-bolt for fixing the outer wall panel, both sides in the longitudinal direction The cross section is a building exterior wall panel comprising a vertical portion and a channel in which a stress distribution member is inclined gradually downward from the lower portion of the vertical portion, and an anchor fixed in the vertical direction from the bottom surface of the channel. Achieved by a support for fixing.

1 is a view showing a support for fixing a conventional building exterior wall panel.

2 is a view showing a state in which a conventional support is embedded with cement.

Figure 3 is a view showing a support for fixing the building exterior wall panel according to the present invention.

Figure 4 is a view showing a state in which the building exterior wall panel according to the present invention is embedded.

Figure 5 is a view showing a state of cutting an anchor that is part of the present invention. Figure 6 is a view showing a state of buried building exterior wall panel according to another embodiment according to the present invention. Figure 7 is a part of another embodiment according to the present invention A diagram showing a state of cutting an anchor.

<Description of the symbols for the main parts of the drawings>

10,70 channel 11,71: jamming jaw

12: channel bottom 20: tibolt

21: Tibolt Head 22: Nut

31, 51: weld 30, 50: anchor

A, B: direction of tensile stress 53: spare

60: I-shaped steel 40: cement

Hereinafter, the configuration and operation of the present invention will be described.

3 is a view showing a support for fixing the building exterior wall panel according to the present invention, Figure 4 is a view showing a state in which the building exterior wall panel according to the present invention buried support for fixing the building exterior wall panel according to the present invention. The channel 70, Tibolt 20, was composed of an anchor (50).

Looking at each member below, the upper surface of the channel 70 is open so that the Tibolt 20 can be inserted and at the same time the locking jaw 71 is formed on both sides. On the other hand, both longitudinal side surfaces of the channel 7 are divided into vertical portions 74 and stress distribution members 73, and the stress distribution members are inclined downward from the lower surface of each vertical portion 74 to the outside. 73 is formed. On the other hand, the anchor 50, which will be described later, is fixed to the bottom 72 surface of the channel 70 by welding. T-bolt 20 is composed of a nut 22 and the T-bolt head 21, the T-bolt head 21 is coupled to move in the horizontal direction in the interior of the channel (70).

5 is a view showing a state of cutting the anchor which is a part of the present invention, the anchor 50 according to the present invention will be produced by cutting the I-shaped section steel 60 using the glass. Therefore, there is an advantage that the thermal deformation that occurs in the conventional anchor 30 does not occur. Reference numeral 53 is a spare left after the cutting of the glass. After the anchor 50 is produced, the weld 51 of the anchor is brought into contact with the bottom 72 of the channel, and then completed by welding. Meanwhile, at least one support reinforcing hole 33 is formed in the anchor 30, and the support reinforcing hole 33 is filled with cement when the anchor 30 is embedded in cement. By the cement in the anchor 30 can be more firmly fixed to the cement.

The support for fixing the building exterior wall panel of this configuration is embedded by cement 40 as shown in FIG. Thereafter, the nut 22 of the Tibolt 20 protruding to the outside is assembled, and then the outer wall panel for building is assembled to the Tibolt 22, and then the outer wall panel is assembled to the outer wall of the building by filling the nut 22.

On the other hand, the support for fixing the building exterior wall panel according to the present invention is the direction of the stress acting on the channel 10 when the outer wall panel fastened to the Tibolt 20 is shaken by the external action or the stress acts in the upper vertical direction Due to the vertical portion 74, the stress distribution member 73 is dispersed in the A, B direction, thereby further improving the safety of the overall building exterior wall.

FIG. 6 is another embodiment of the present invention, and FIG. 7 is a view illustrating a state in which the anchor including the stress reinforcing member is further cut in the steel, extending from the upper portion of the welded portion 51 of the anchor to the stress distribution member 73. It is to further include a stress enhancing member 35 is formed. The stress reinforcing member 35 and the stress distribution member 73 are welded by welding. The anchor 30 further includes a stress reinforcing member 35 may be used to fix the outer wall panel to the building outer wall of the skyscraper.

The present invention has the following effects.

First, when the outer wall of the building shakes due to an external action or a stress acts on the upper vertical direction, the direction of the stress acting on the channel 10 is in the A and B directions due to the vertical portion 74 and the stress distribution member 73. It is dispersed into, thereby improving the safety of the entire building exterior wall.

Second, there is a very excellent effect to minimize the destruction and deformation of the metal structure due to heat inevitably generated in the manufacturing process of the support anchor for fixing the conventional building exterior wall panel and thereby increase the safety of the building.

Third, by forming at least one support strengthening hole in the anchor, there is an effect that can prevent the outer wall panel from falling off the outer wall of the building even when an earthquake occurs.

Fourth, there is an excellent effect that can be used to strengthen the safety of high-rise buildings by using an anchor that further includes a stress reinforcing member in the high-rise building.

Claims (5)

In the support for fixing the building exterior wall panel covering the outer wall of the building, The upper surface is coupled so that the T-bolt for fixing the outer wall panel is movable horizontally by the locking jaw, both the outer end surface in the longitudinal direction of the channel consisting of a stress distribution member formed in the vertical portion and the lower portion of the vertical portion, A support for fixing the building exterior wall panel, characterized in that it comprises at least one anchor fixed in the vertical direction from the bottom surface of the channel. The method of claim 1, The stress distribution member is a support for fixing the building exterior wall panel, characterized in that formed inclined gradually downward in the outward direction from the bottom of the vertical portion. The method of claim 1, The anchor is a support for fixing the building exterior wall panel, characterized in that to reduce the heat deformation by cutting the "I" shaped steel processing. The method according to claim 1 or 2, At least one support reinforcing hole is formed in the anchor support for fixing the building exterior wall panel. The method of claim 1, The anchor is a support for fixing the building exterior wall panel further comprises a stress reinforcing member is formed to extend from the outer wall of the portion where the anchor and the bottom of the channel contact the stress distribution member.