KR100910163B1 - Bracket for fixing curtain wall - Google Patents

Abstract

The present invention discloses a curtain wall fixing bracket of a building.

The curtain wall fixing bracket of the present invention is composed of a first plate having an assembling hole near one end and a second plate having an assembling protrusion fitted into the assembling hole of the first plate to protrude at one end. The assembly protrusions are inserted into the holes to be integrally formed by welding around the contact portions of both the first and second plates in a preassembled state so as to be perpendicular to each other.

According to the present invention, the mechanical strength of the joint is greatly increased as compared with the related art by the assembling protrusion fitted together with the joint strength of the weld joint joining the first plate and the second plate. It can be stably supported.

Curtain Wall, Far-On, Bracket, Welding, Slab, Mounting Holes, Assembling Projection

Description

Curtain for fixing curtain wall {Bracket for fixing curtain wall}

The present invention relates to a bracket used to secure a curtain wall to a slab of a building. In particular, the mechanical strength of the welded portion of the horizontal plate and the vertical plate joined by mutual welding is very excellent. By being able to cope with the moment caused by the curtain wall's own weight and wind load, it is possible to stably support the high load curtain wall of high-rise buildings and to improve the structural stability of the building. It relates to a curtain wall fixing bracket.

As is well known, high-rise buildings are constructed of reinforced concrete structures in which each floor is partitioned by concrete slab in consideration of various factors such as structural stability and constructability. We build by installing curtain wall.

The curtain wall consists of lattice-shaped metal truss mounted vertically on the outside of the concrete structure, and outer wall panels such as glass or marble mounted on the outside of the metal truss. V) is prepared.

Although the curtain wall is a non-bearing wall, its own weight is considerable, and as the height of the building increases, the weight of the curtain wall increases with the weight of the building, so it must be firmly fixed to the concrete structure.

Figure 1 schematically shows an example of a typical curtain wall (W) fixing structure for this. As shown, the anchor channel (C) is buried near the edge of the slab (S) of the building so that the horizontal plate (2) of the angle-shaped support bracket (1) is bolted to the anchor channel (C) B) and fasten the connecting bracket K to the vertical plate 3 of the supporting bracket 1 with the bolt B, and then connect the connecting bracket K to the mullion of the curtain wall W. By attaching the bolts B to the M, the curtain wall W is attached to the building, and the load is transmitted to the slab S.

At this time, the error caused by the construction and deformation of the building and the fastening holes (2a) (3a) for fastening provided in the horizontal plate (2) and the vertical plate (3) of the support bracket (1) and bar-shaped anchor channel ( After adjusting the curtain wall (W) by moving up, down, left, and right through C), and completely fixed by welding so as not to flow.

Therefore, in the fixing of the curtain wall (W), the mechanical properties of the support bracket (1) for fixing the curtain wall (W) to the slab (S) of the reinforced concrete building is of paramount importance.

On the other hand, the curtain wall fixing support bracket 1 is composed of a horizontal plate 2 and a vertical plate 3 as shown in Figure 1 completely integrally, as shown in Figure 2 horizontal plate ( 2) and the perpendicular | vertical board 3 are mutually welded and integrated.

In the case of the integral support bracket (1), standardized section steel is used or a plate of appropriate thickness (12 t or more) is bent and used arbitrarily as needed. In the case of a section steel, the right angle of the horizontal plate (2) and the vertical plate (3) It has good mechanical properties, but it is common to bend flat plates because of limitations in product specifications.

However, when the support bracket 1 is manufactured by bending a flat plate, it is difficult to accurately match the right angles of the horizontal plate 2 and the vertical plate 3 due to the characteristics of the bending process, and the bent edge portion has an arc shape. This is not only easy to be deformed by external forces such as moments, but also due to the deformation of the tissue due to processing, resulting in weak physical properties.

In particular, in the case of high-rise buildings, the load of the curtain wall (W) also increases, but the flow width of the building due to the wind (strong wind and typhoon) increases greatly, so that the repeated loads of irregular size and direction act as the curtain wall (W). It is difficult to secure stable fixation.

This problem is more prominent when the thickness is increased to improve the mechanical strength of the support bracket 1, as well as the tensile stress increases toward the outside of the neutral plane of the material during bending, and the compressive stress increases toward the inside of the neutral plane. The bending process itself is also very difficult.

Accordingly, the curtain wall fixing support bracket 1 generally uses a welded product in which the horizontal plate 2 and the vertical plate 3 are integrally welded together as shown in FIG. 2.

However, the conventional welding support bracket 1 simply chamfers one of the two plates to be joined, for example, the joining end of the horizontal plate 2, to the side of the vertical plate 3, thereby forming a groove formed therebetween. It is difficult to secure structural stability when the support bracket (1) is subjected to a large load because the weld metal is joined to only: 4).

That is, in the case of the conventional welding support bracket 1, the load (self-weight and wind power) acting on the curtain wall W is the welding strength (welding bead) of the horizontal plate 2 and the vertical plate 3 (welding strength) The welded part 5 is supported only by cracks, blow holes, slag incorporation, under cut and pit due to welding residual deformation. This defect adversely affects the mechanical strength of the welding portion 5, for example, when the height of the building becomes high and the self weight and wind load of the curtain wall W become large, stress concentration is caused in the welding portion 5. The risk of breakage of the weld 5 is increased.

Of course, the thickness of the support bracket 1 and the area of the weld portion 5 may be increased to improve the welding strength. In this case, the weight of the support bracket 1 is too heavy, making handling and installation difficult and dangerous. In addition, the increase in welding strength is not so high that it is not a suitable solution.

That is, the welding strength is calculated as [permissible shear stress of the weld (welding bead) x welded area] so that the weld strength is ultimately determined by the welded area, and the welded area is the inclined surface of the welded part 5 as shown in FIG. Since it is determined by the neck length (h) resulting from the waterline (P) in S) and the length (L) of the welded portion (5), the problem of weight increase is greater than the strength improvement of the support bracket (1). It can't be done.

In addition, in the case of the conventional welding support bracket (1) is simply welding the horizontal plate 2 and the vertical plate (3) to be orthogonal to each other, it is also difficult to accurately match the right angle of both.

In particular, in recent years, as the height of the building gradually increases and the construction of high-rise buildings with more than 50 stories is increasing, a support bracket capable of supporting the curtain wall stably enough even under high loads is urgently required.

The present invention was devised in view of the above-mentioned conventional problems, and it is possible to easily match the perpendicularity of the horizontal plate and the vertical plate joined by welding, as compared to the conventional support brackets of the same standard, as well as the strength of both welds. The purpose of the present invention is to provide a curtain wall fixing bracket that can be very stably fixed and supported even in a heavy load curtain wall of a high-rise building in which large self-weight and irregular wind loads are applied.

In order to achieve the above object, the curtain wall fixing bracket according to the present invention has a first plate having an assembling hole near one end and an assembling protrusion fitted into the assembling hole of the first plate to protrude at one end. The second plate,

The assembling protrusion is inserted into this assembling hole, and in the state where the first and second plates are preassembled to be orthogonal to each other, welding is integrated around both contact portions.

According to one preferred feature of the curtain wall fixing bracket of the present invention, the assembling hole is composed of a plurality of long holes spaced horizontally, the assembling projections are composed of a plurality of spaced apart along the longitudinal direction of the corresponding end of the second plate, each The lengths of the assembling holes and the separation distance between two neighboring assembling holes are each formed the same.

According to the curtain wall fixing bracket according to the present invention, since the first plate and the second plate of the support bracket are welded at right angles to each other by the assembling holes and the assembling protrusions fitted with each other, the first and second plates are welded. Not only can the squareness of the plate be easily and accurately matched, but the joint strength of both is increased with the welding strength of the welded part, and the bending strength of the assembling protrusions fitted to each other is greatly increased compared to the conventional support bracket of the same standard.

Accordingly, the curtain wall of the high-rise building can be very stably supported on the concrete slab, and in particular, it is possible to stably support the high-load curtain wall of the high-rise building with large self-weight and wind.

Therefore, the present invention has a very excellent effect that greatly contributes to the improvement of the quality and reliability of the curtain wall fixing bracket as well as the safety of high-rise building.

Such specific features and other advantages of the present invention will become more apparent from the following description of the preferred embodiments with reference to the accompanying drawings.

4 to 6, the curtain wall fixing bracket 10 according to the present invention is bolted to the connecting bracket K joined by welding so as to form a right angle with each other and fastened to the far-on M of the curtain wall W. (B) the first plate (11: vertical plate) and the anchor channel (C) embedded in the slab (S) of the concrete building and the second plate (12: horizontal plate) fastened with bolts (B) It is composed.

In the first plate 11 and the second plate 12, a pair of fastening holes 11a and 12a for fastening the connecting bracket K and the slab S with the bolt B are respectively upward and downward; It is formed in the left and right directions, respectively.

These fastening holes (11a) (12a) is a fixed position of the curtain wall (W) in consideration of the error due to the construction and deformation of the building with a bar-shaped anchor channel (C) embedded in the slab (S). To ensure the correct positioning of the curtain wall (W) relative to the concrete structure.

On the other hand, in the support bracket 10 of the present invention, a plurality of, for example, two assembling holes 13 are spaced apart in the horizontal direction near the lower end of the first plate 11 joined to each other, and the second plate 12 Two assembling protrusions 14 fitted into the assembling holes 13 of the first plate 11 are formed at one end of each of the two ends and are spaced apart along the longitudinal direction of the end thereof. The first and second plates 11 and 12 are sandwiched with each other so as to be welded to each other in a state in which they are assembled so as to cross each other.

The assembling hole 13 and the assembling protrusion 14 may be configured in various forms. For example, as shown, the assembling hole 13 has a width s corresponding to the thickness t of the first and second plates 12. ), And the assembling protrusion 14 has the same thickness t at one end of the second plate 12 and is equal to the thickness t of the first plate 11. It is formed with a protruding length (d).

In this case, preferably, each of the assembly holes 13 of the first plate 11 and each of the assembly protrusions 14 of the second plate 12 is formed of the same length (l ₁ ), and two adjacent assembly holes The intervals p ₁ of the 13 and the assembling protrusions 14 are also configured to ensure uniform bending strength and assemblability of each of the assembling protrusions 14.

Here, the length l ₂ of the assembling hole 13 and the gap p ₁ between the two assembling holes 13 and the gap p ₁ between the two assembling holes 13 and both ends of the first plate 11 are provided. The interval p ₂ to the adjacent assembly holes 13 may not necessarily be the same.

The welding of the first plate 11 and the second plate 12 may be performed only at the inner corners formed by the first and second plates 11 and 12 assembled to be orthogonal, but preferably the corners between the first and second plates 11 and 12 are formed. In addition, both the contact line 15 and each plate 11 and 12 formed on the outer surface (left side in the drawing) of the first plate 11 by fitting the assembly holes 13 and the assembly protrusions 14. Are also made at the outer corners (lower in the drawing).

Accordingly, the support bracket 10 of the present invention has several welded portions 16a, 16b, 16c inside and outside the first plate 11 and the second plate 12 that are perpendicular to each other.

Such a support bracket 10 of the present invention, the first plate 11 and the second plate 12 is a plurality of assembling holes 13 and the assembling protrusions 14 formed to correspond to each other to be fitted to each other. Since the welds are fitted in the orthogonal state through each other, the right angles of the first plate 11 and the second plate 12 can be easily and accurately matched, and the strength of the joint against the external force is simply by welding. Compared with the conventional bonded, it is greatly increased.

That is, in the conventional welding support bracket 1, the strength of the joint is determined only by the welding strength of the welded portion 5 in the state where the horizontal plate 2 is simply welded against the side of the vertical plate 3, The support bracket 10 is welded in a tightly matched state by the assembling holes 13 and the assembling protrusions 14 formed so that the first plate 11 and the second plate 12 correspond to both. When the weight of the curtain wall W and the wind load are applied to the first plate 11, several of the second plates 12 inserted into the assembly holes 13 together with the welding strength of the welded portions 16a to 16c. At the same time supported by the assembling protrusion 14, the strength against the external force is greatly increased compared to the prior art that only depends on the welding strength.

Furthermore, the welding spot is also increased compared to the conventional support bracket 1 due to the structural characteristics of the first and second plates 11 and 12 fitted together by the assembly holes 13 and the assembly protrusions 14. In addition, the increase of the welding spot also acts in combination with the assembly protrusion 14 to improve the strength of the joint of the support bracket 10, thereby contributing to the improvement of strength.

Therefore, the support bracket 10 of the present invention can support the curtain wall (W) to the concrete slab (S) extremely stably compared to the conventional, as well as the high load of high-rise buildings, especially large self-weight and irregular wind action The curtain wall W is also able to withstand sufficiently without increasing the size of the support bracket (10).

1 is a perspective view schematically showing an example of a typical curtain wall fixing;

Figure 2 is a cross-sectional view showing a conventional curtain wall fixing bracket,

Figure 3 is a perspective view showing an extract of the fillet welding portion of the curtain wall fixing bracket,

Figure 4 is an exploded perspective view showing a curtain wall fixing bracket according to the present invention,

5 is a bottom perspective view of the curtain wall fixing bracket according to the present invention;

Figure 6 is an excerpt sectional view of the curtain wall fixed to the building slab using the bracket according to the present invention.

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

10: Support Bracket 11: First Plate

12: Second Plate 13: Assembly Hole

14: Assembled projection 16a, 16b, 16c: welded part (welding beads)

W: Curtain wall M: Faron

S: Slab C: Anchor Channel

K: connecting bracket B: bolt

Claims (2)

As a bracket for fixing the curtain wall to the slab of reinforced concrete buildings, A first plate having an assembling hole near one end, and a second plate having an assembling protrusion to be fitted into the assembling hole of the first plate to protrude at one end; A curtain wall fixing bracket, wherein the assembly protrusion is inserted into the assembly hole, and the first and second plates are preassembled to be orthogonal to each other, whereby the peripheral portions of the curtain wall are welded and integrated. According to claim 1, wherein the assembly hole is composed of a plurality of long holes spaced apart horizontally, the assembly protrusion is composed of a plurality of spaced apart along the longitudinal direction of the corresponding end of the second plate, the length and neighbors of the respective assembly holes Curtain wall fixing brackets, characterized in that the separation distance between the assembly holes to be formed the same.

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