KR100448441B1 - Bracing type steel frame construction with slited damper - Google Patents

Abstract

An object of the present invention is to provide a bracing type steel structure having a slit damper capable of realizing excellent resistance to lateral loads such as earthquake loads by installing a slit plate type damper in a bracing type steel structure building.

According to the present invention, in a steel structure having a column 2, a beam 3, and braces 40a and 40b, a pair of first horizontal plates 51H and 51L and a pair of first vertical plates ( A structure 50 which forms a lattice space by fixing 52R and 52L to cross each other, and a plurality of slits 54 which are located in the internal space of the structure 50 and are parallel to the first vertical plates 52R and 52L. ) Includes a damper 53 formed in a longitudinal direction, one end of the braces 40a and 40b is connected to the pillar 2 and the beam 3 and the other end of the braces 40a and 40b is connected to the structure 50. Steel structure is provided.

Preferably, the second vertical plates 56R and 56L parallel to the first vertical plates 52R and 52L are fixed to each of the outer upper and lower surfaces of the structure 50, and the second vertical plates 56R and 56L positioned on each side thereof. The second horizontal plates 58H, 58L connect vertically.

Description

Bracing type steel frame construction with slited damper}

The present invention relates to a brace-type steel structure, and more particularly, to a bracing-type steel structure having a slit damper provided with a damper at the brace interconnection portion of the brace frame, thereby improving resistance to lateral loads such as earthquake loads by the damper. It is about.

In general, in the case of buildings made of steel structures, the steel structure has a small cross section, so that the deformation of the steel structure occurs largely against horizontal loads such as earthquakes and wind. Brace is installed to secure rigidity in the transverse direction of the steel structure.

1 is a front view of a steel structure having a brace according to the prior art, Figure 2 is a front view showing a state in which the steel structure is displaced according to the horizontal load applied to the steel structure shown in FIG.

As shown in Figure 1, the brace frame (1) method installs the brace (4) in the X-shape in the steel structure consisting of the column (2) and the beam (3). Then, the portion where the brace 4 is in contact with the pillar 2 and the beam 3 is provided with a gusset plate 5 to reinforce the brace 4. When a horizontal load such as an earthquake or wind is applied to the brace frame 1, the brace 4 resists in the axial direction, and because the axial rigidity of the brace 4 is large, the width of the brace frame 1 is transverse. Stiffness becomes large. Therefore, it is possible to realize a stable steel frame structure in which the deformation in the lateral direction with respect to the lateral load is small.

However, as shown in FIG. 2, when an earthquake with a high magnitude occurs and a force equal to or greater than the buckling load of the brace 4 acts in the horizontal direction, the brace 4b provided in the direction of the force receives a tensile force and receives a maximum load. It can withstand, but the other brace (4a) subjected to the compressive force is sharply lowered by the compression buckling, so the brace frame (1) has an unstable structure. In addition, since the load due to the earthquake repeatedly acts in the left and right directions by the steel frame structure, the horizontal load repeatedly acts in the opposite direction to the horizontal load shown in FIG. 2. At this time, the tensioned brace 4b is subjected to a compressive force again, and the tensioned brace 4b causes compression buckling.

Thus, since the braces 4a and 4b share and support the horizontal load acting on the brace frame 1 together with the main members, which are the pillars 2 and the beams 3, after the braces are buckled, There is also a disadvantage that the deformation is very difficult to recover.

The present invention is provided to solve the problems of the prior art as described above, by applying a slit plate-type damper to the brace frame to improve the structural performance of the brace frame against the force acting on the brace frame and easy to repair and reinforce It is an object of the present invention to provide a bracing type steel frame structure having a slit damper.

1 is a front view of a steel structure having a brace according to the prior art,

2 is a front view showing a state in which the steel structure is displaced according to the horizontal load applied to the steel structure shown in FIG.

Figure 3 is a perspective view showing a bracing steel structure having a slit damper according to an embodiment of the present invention,

4 is a detailed view illustrating a slit plate damper in the bracing steel frame structure having the slit damper shown in FIG.

FIG. 5 is a hysteresis curve showing a load-strain relationship in which a bracing type steel structure having a slit damper according to an embodiment of the present invention is displaced according to the action of a horizontal load.

♠ Explanation of symbols on the main parts of the drawing ♠

1: brace frame 2: pillar

3: Bo 4: Brace

5: gusset plate 50: structure

51, 58: horizontal plate 52, 56: vertical plate

53: slit plate type damper 54: slit

According to the present invention for achieving the object as described above, in the steel structure having a column, beams and braces, a pair of first horizontal plate and a pair of first vertical plate fixed to cross each other to form a grid And a damper disposed in the interior space of the structure and having a plurality of slits in the longitudinal direction, the dampers having a lengthwise direction, wherein one end of the brace is connected to the pillar and the beam. The other end of the brace is provided with a steel structure connected to the structure.

Preferably, a second vertical plate parallel to the first vertical plate is fixed to each of the outer upper and lower surfaces of the structure, and the second horizontal plate vertically connects the second vertical plate located on each surface thereof.

More preferably, the other end of the brace is fixed to the outside of the second horizontal plate fixed to the first horizontal plate of the structure.

The brace connected to the pillar and beam of the present invention is preferably a gusset plate is fixed to reinforce the brace.

In the following, with reference to the accompanying drawings a preferred embodiment of a bracing type steel structure having a slit damper according to the present invention will be described in detail.

3 is a perspective view showing a bracing type steel structure with a slit damper according to an embodiment of the present invention, Figure 4 is a slit plate type in a bracing type steel structure with a slit damper shown in FIG. Detailed diagram showing a damper.

As shown in Figures 3 and 4, the bracing-type steel structure 100 with a slit damper is a brace 40a connecting the pillars 2 and the beams 3, which are main members of the steel structure, in a diagonal X-shape. 40b and a lattice structure which is located in the middle of the space connected by the pillars 2 and the beams 3 and is connected to the ends of the braces 40a and 40b connected to the columns 2 and the beams 3. 50, and a slit plate type damper 53 located inside the lattice structure 50.

In the rectangular steel frame structure in which the pillars 2 and the beams 3 are interconnected, one end of the braces 40a and 40b is fixed by welding or bolting to the inner four corner portions. The pillars 2 and beams 3 to which these braces 40a and 40b are fixed are provided with a gusset plate 5 to support four braces 40a and 40b connected to the pillars 2 and the beams 3. .

The other ends of the four braces 40a and 40b are located toward the center of the steel structure connected by the pillars 2 and the beams 3, and the other ends of the four braces 40a and 40b are grid-like structures 50. Is fixed by welding or bolting.

The grid-like structure 50 includes two parallel first horizontal plates 51H and 51L, and two parallel first vertical plates 52R and 52L connecting both ends of the first horizontal plates 51H and 51L. Second vertical plates 56R and 56L fixed to the upper and lower surfaces of the two first horizontal plates 51H and 51L, respectively, perpendicularly to the upper and lower surfaces thereof, and the two first horizontal plates 51H and 51L. It includes a damper 53 is formed with a slit 54 is fixed to the inner surface. In addition, second horizontal plates 58H and 58L positioned in parallel with the first horizontal plates 51H and 51L are welded to the second vertical plates 56R and 56L which are positioned up and down, respectively.

The other ends of the four braces 40a and 40b are welded or bolted to the outer four points of the second vertical plates 56R and 56L fixed to the first horizontal plates 51H and 51L of the lattice structure 50. It is fixed by fastening.

On the other hand, the slit plate-type damper 53 is a plate shape, the upper and lower sides of the damper 53 is fixed to the inner surface of the first horizontal plate (51H, 51L), a plurality of slits 54 on the front surface It is formed in parallel with the vertical plates 52R, 52L.

In the bracing type steel structure having a slit damper having such a configuration, the hysteresis relation to the horizontal load will be described in detail.

First, since the slit 54 formed in the slit plate type damper 53 can bend with respect to the shear force, the plastic deformation is performed so that stress concentration does not occur at both ends of the strut forming the slit 54. It takes the form of improving ability. In addition, the second horizontal plates 58H and 58L located above and below the lattice structure 50 prevent the first vertical plates 52R and 52L from being deformed by the tensile or compressive force acting on the braces 40a and 40b. The first vertical plates 52R and 52L not only fix the grid portion including the slit plate type damper 53, but also serve to prevent out-of-plane deformation of the slit plate type damper 53. .

Therefore, the performance of the entire frame to the action of the horizontal load such as earthquake load, wind load acting on the steel structure with the slit plate type damper 53 is the slit plate type damper installed at the intersection of the braces 40a, 40b ( 53).

FIG. 5 is a hysteresis curve showing a load-strain relationship in which a bracing type steel structure having a slit damper according to an embodiment of the present invention is displaced according to the action of a horizontal load.

As shown in FIG. 5, when a horizontal load such as an earthquake load is applied, the slit plate-type damper 53 first yields, and even after yielding, the yield strength continues to rise while showing stable hysteresis characteristics. In addition, even if the load was repeatedly applied in the horizontal direction and the opposite direction due to an earthquake or the like, excellent plastic deformation capability was shown in both directions, and finally, structural performance was determined by breaking of the damper 53.

As described in detail above, the bracing-type steel frame structure having the slit damper of the present invention does not have to bear the horizontal load applied to the main structural members such as columns and beams, and bears only the vertical load by the weight of the building, and the earthquake For the horizontal load such as wind, the slit plate type damper can be designed to bear entirely, and since the vertical load and the horizontal load can be designed completely, there is an advantage of making the design simpler and clearer.

In addition, the bracing type steel frame structure having the slit damper of the present invention, since the main structural members such as columns and beams only need to bear the vertical load, the size of the cross section can be reduced and economical design is possible, and stable against the horizontal load. By the burden of the slit plate type damper having hysteresis characteristics, the hysteresis characteristics of the whole structure can exhibit very stable characteristics.

In addition, the bracing type steel frame structure having the slit damper of the present invention is almost all energy is absorbed by the plastic deformation of the damper even if a high earthquake occurs, so if only the damper is replaced, it is a healthy frame before the earthquake damage. It can be simply reversed and repair is easy. In addition, in the future, the members such as pillars and beams may be left intact for various demands of strength, and by simply changing the size of the damper and simply changing the size of the damper, it is possible to easily cope with the enhanced design method.

Although the technical idea of the bracing-type steel frame structure having the slit damper of the present invention has been described above with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (4)

Steel structure with columns, beams and braces, A structure in which a pair of first horizontal plates and a pair of first vertical plates are cross-installed to form a lattice void space, A damper disposed in an inner space of the structure and having a plurality of slits arranged in a width direction parallel to the pair of first vertical plates; A second vertical plate extending in parallel with the pair of first vertical plates at upper and lower portions of the structure, and A second horizontal plate disposed on the second vertical plate in parallel with the first horizontal plate to form another empty space; One end of the brace is connected to the pillar and the beam and the other end of the steel structure, characterized in that connected to the structure. delete The method of claim 1, Steel frame structure, characterized in that the other end of the brace is fixed to the outside of the second horizontal plate fixed to the first horizontal plate of the structure. The method of claim 1, Steel frame structure, characterized in that the brace connected to the pillar and beam is fixed to the brace is reinforced gusset plate.