KR101860849B1 - Hinge Junction Lintel Type Steel Slit Damper - Google Patents

Abstract

The present invention relates to a damper installed inside a center portion of a hollow beam connecting adjacent two reinforced concrete shear walls, comprising: a pair of steel frame members 100 spaced apart from each other on both sides; A hinge hole 22 rotatably coupled to the upper end of each of the steel frame members 100 by a hinge bolt 33 is provided at both the left and right ends of the hinge hole 22 to connect the steel frame members 100 spaced apart from each other, (250); A hinge hole (22) rotatably coupled to a lower end of each of the steel members (100) by a hinge bolt (33) is provided at both left and right ends of the lower displacement displacement transmitting and contracting member (200); And a plurality of slits 310 in the vertical direction at a center portion concave as an I-shaped steel member, and an upper portion extending in the horizontal direction is provided with a coupling bolt 44 at a central portion of the upper displacement transducer 250, And a slit steel member 300 coupled to the lower portion of the lower displacement transducer 200 by a coupling bolt 44. The lower portion of the lower displacement transducer 200 is coupled to the upper portion of the lower displacement transducer 200 by a bolt 44.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hinge joint type slip steel damper,

The present invention relates to a hinge jointed ribbed slip steel damper with a reinforced concrete shear wall structure, wherein a minute shear displacement of the lower portion of the slab by the interlayer displacement is multiplied through the hinge joint structure and transmitted to the slit portion to attenuate seismic force , Minimizes the damage of the joint between the shear wall and the inferior beam and the plastic area under the shear wall when the earthquake occurs and prevents the phenomenon that the hinged joint is broken by the hinge joint structure even when the slit is broken due to repeated seismic forces, And property loss can be prevented.

Recently, due to the rapid industrialization of our country, the concentration of population in the city has intensified so that many of the general buildings including the apartment buildings are being built up due to the environmental impact of narrow urban papers (residential papers and commercial papers).

These high-rise buildings are generally sized by the load acting in the horizontal direction of the building. The horizontal load acting on the structure is the earthquake load and the wind load, and the building can secure the usability and sufficient safety of the building by securing the appropriate rigidity and strength against these horizontal loads.

In addition, wind loads and seismic loads acting on the buildings cause dynamic behavior in buildings with unpredictable directionality, so it is necessary to secure structural safety. Therefore, a variety of vibration control technologies including a conventional method through securing rigidity and strength are required.

Most of the high-rise buildings including the domestic apartment houses use the reinforced concrete shear wall as the main lateral resistance structural element. This is because the transverse stiffness is superior to the frame system and the displacement due to the major horizontal load of the building such as wind load and seismic load can be reliably controlled.

However, since it is difficult to control the horizontal displacement efficiently by the cantilever shape of the reinforced concrete reinforced concrete structure, it is difficult to control the horizontal displacement effectively. Therefore, the frame type shear wall structure connecting the two reinforced concrete shear walls .

Therefore, it is necessary to solve the problem of economical and construction inherent in the normal shear wall structure and the special shear wall structure which are indispensably required for the openings of domestic high-rise buildings, as well as to secure the structural safety against earthquake load or wind load, It is urgent to develop the technology for the shear wall girder beam.

In recent years, various helical type dampers such as a shear yield type slit steel damper, a frictional damper, and a shear yielding type steel damper have been developed and actively applied to the shear wall in Korea.

However, these existing dummy dampers need to be supplemented with some important parts.

First, existing friction dampers or steel dampers can only be installed at the center of the lower flange at the lower end of the slab because of their application characteristics. In general slabs, the shear displacement due to interlayer displacement is insufficient, It is practically impossible to expect the damping of the displacement and the seismic force of the damper.

Second, in the case of a conventional slit steel damper, when a displacement occurs repeatedly four to five times or more due to an earthquake, the slit portion is inevitably ruptured. In this case, there is a serious problem that the inward beam of the shear wall is broken have.

Third, when an earthquake occurs, the existing friction damper is displaced by a predetermined friction region, and the connection of the inward beam is loosened, so that unstable structural deformation may occur in the building.

Therefore, it is possible to expect the effective seismic damping by stable displacement of the ribbed damper by increasing the slight shear displacement at the center of the slab lower lobe. Also, even if the slit is broken due to earthquake, It is urgent to develop a vibration suppression device of a helical shape which does not cause a problem.

[Prior Art Literature]

Patent No. 10-1539577

Patent No. 10-1527600

In order to solve the above-mentioned problems, the object of the present invention is as follows.

The present invention provides a new slit steel damper capable of maximizing a damping efficiency of a horizontal load installed at a center portion of a lower slab where a bending moment hardly occurs in a lower slab, do.

Another object of the present invention is to provide a new slit steel damper capable of efficiently damping an input seismic load by maximally amplifying a relatively small amount of displacement under the slab by using a leverage property when the seismic load is inputted, .

Thirdly, another object of the present invention is to provide a new slit steel damper which can prevent fracture separation of the inward beam by the hinge joint structure even when the slit part is broken due to repeated seismic load input.

Fourthly, another object of the present invention is to provide a new slit steel damper excellent in economy and workability.

The present invention relates to a damper installed inside a center portion of a hollow beam connecting adjacent two reinforced concrete shear walls, comprising: a pair of steel frame members 100 spaced apart from each other on both sides; A hinge hole 22 rotatably coupled to the upper end of each of the steel frame members 100 by a hinge bolt 33 is provided at both the left and right ends of the hinge hole 22 to connect the steel frame members 100 spaced apart from each other, (250); A hinge hole (22) rotatably coupled to a lower end of each of the steel members (100) by a hinge bolt (33) is provided at both left and right ends of the lower displacement displacement transmitting and contracting member (200); And a plurality of slits 310 in the vertical direction at a center portion concave as an I-shaped steel member, and an upper portion extending in the horizontal direction is provided with a coupling bolt 44 at a central portion of the upper displacement transducer 250, And a slit steel member 300 coupled to the lower portion of the lower displacement transducer 200 by a coupling bolt 44. The lower portion of the lower displacement transducer 200 is coupled to the upper portion of the lower displacement transducer 200 by a bolt 44.

Technical effects of the configuration of the present invention are as follows.

First, it is possible to maximize the attenuation efficiency of the horizontal load applied to the center of the girder where the bending moment hardly occurs in the girder beam and the maximum shear deformation occurs.

Secondly, when inputting the seismic load, the input seismic load can be effectively damped by maximizing the relatively small amount of displacement under the slab and transmitting it to the slit site using the leverage property.

Thirdly, another object of the present invention is to provide a new slit steel damper which can prevent fracture separation of the inward beam by the hinge joint structure even when the slit part is broken due to repeated seismic load input.

Fourth, it is excellent in economy and construction.

Fig. 1 schematically shows the operation principle of the inward-facing type damper.
Figure 2 shows a specific embodiment of the present invention.
Figure 3 shows another specific embodiment of the present invention.
Figure 4 shows another specific embodiment of the present invention.
Fig. 5 shows a completed state in which concrete is installed by placing a mounted reinforcing bar using the present invention and installing it on a lower inward beam of a slab.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, specific embodiments of the present invention will be described with reference to the accompanying drawings.

The present invention relates to a damper installed inside a center portion of a hollow beam connecting two adjacent reinforcing concrete shear walls and includes a pair of steel members 100, an upper displacement increase / decrease transmission member 250, a lower displacement increase / decrease transmission member 200, and a slit steel member 300, and FIGS. 2 to 4 show respective embodiments.

The structure of the first embodiment shown in Fig. 2 is as follows.

The steel members 100 are spaced apart from each other on both sides of the left and right sides to form a line.

Each of the steel frame members 100 is a structure in which two pairs of the webs 110 of "[" Each of the webs 110 of the "[" section steel is provided with a concrete through hole 11 to allow the concrete to be poured to pass therethrough, and when the concrete is cured, the buried steel member 100 is fixed together with the concrete, .

The upper displacement transducer 250 is provided at its left and right ends with a hinge hole 22 rotatably coupled to the upper end of each of the steel frame members 100 by a hinge bolt 33. The upper displacement transducer 250 Serve to connect the separated steel members 100 together.

The lower displacement transducer 200 includes a hinge hole 22 rotatably coupled to a lower end of each of the steel frame members 100 by hinge bolts 33. The lower displacement transducer 200 Serve to connect the separated steel members 100 together.

The upper displacement increasing and decreasing transmitting member 250 and the lower displacement increasing and transmitting member 200 are engaged with the inner side surface between the webs 110 of the section steel constituting the steel member 100.

The slit steel member 300 is an "I" -shaped steel member and is provided with a plurality of slits 310 in the vertical direction at the concave central portion.

The upper portion of the slit steel member 300 extending in the horizontal direction is coupled with a plurality of coupling bolts 44 at a central portion of the upper displacement increase / decrease transmitting member 250.

The lower portion of the slit steel member 300 extending in the horizontal direction is coupled with a plurality of coupling bolts 44 at a central portion of the lower displacement transducer 200.

The slit steel member 300 is coupled to the front and rear surfaces of the upper displacement transducer member 250 and the lower displacement transducer member 200 in a pair.

As shown in FIG. 5, the hinge jointed helical type slit steel damper is assembled as shown in FIG. 2, and two walls (shear walls) facing each other installed inside the slab lower helical beam are connected .

The hinge jointed ribbed slit steel damper includes an upper displacement transducer 250 rotatably coupled to the upper and lower ends of the steel frame members 100 by a hinge bolt 33 when an earthquake load or a wind load acts in the horizontal direction, And the lower displacement transducer 200 are rotated around the respective hinge bolts 33 to amplify the displacement of the slit 310 of the slit steel member 300 and to deform and fracture the slit 310 It effectively damps seismic loads and wind loads.

In addition, even when the slit 310 is completely broken, the steel frame member 100 is maintained in a state of being connected by the upper displacement-increasing / transmitting member 250 and the lower displacement-increasing / transmitting member 200, Thereby preventing the problem.

3 shows another specific embodiment of the present invention.

3, each of the steel frame members 100 is made of "H" shaped steel, and each of the webs 110 of the "H" shaped steel is provided with a concrete through hole 11.

The upper displacement transducer 250 and the lower displacement transducer 200 are coupled to each other so as to abut the front and rear surfaces of the web 110 of the "H" shaped steel constituting the steel member 100, .

The upper part of the slit steel member 300 is coupled to the inner side surface between the upper displacement increase / decrease transmission members 250 constituting a pair so that the front and rear surfaces thereof are in contact with each other, and the lower part of the slit steel member 300 forms a pair of lower displacement increasing / And the front and rear surfaces abut on the inner surface between the transmitting members 200. [

3, the concrete block plate 500 is not limited to the structure shown in FIG. 3. In the case of FIGS. 2 and 4, the concrete block plate 500 is not limited to FIG. 500 may be provided.

The concrete block plate 500 has a rectangular plate shape to be mounted on each of the front and rear surfaces of the steel frame member 100 and can be made of various materials such as wood, synthetic resin, and styrofoam.

3, the concrete block plate 500 includes a part of each of the front and rear faces of the steel frame member 100, the upper displacement displacement increasing and transmitting member 250, the lower displacement increasing and transmitting member 200, and the slit steel member 300 The hinge bolt 33, the coupling bolt 44, and the slit 310 are blocked from being filled with concrete, so that the hinge action can be smoothly performed.

4 shows another specific embodiment of the present invention. The upper displacement transducer 250, the lower displacement transducer 200, and the slit steel member 300 are integrally manufactured using one steel material Each of the steel members 100 is coupled such that a pair of webs 110 of a steel having a pair are formed to face each other and the upper displacement increase and decrease transmission member 250 and the lower displacement increase and decrease transmission member 200 are Is joined to the inner surface between the webs 110 of the "[" section steel constituting the steel member 100. [

The concrete through holes 11 are provided in each of the webs 110 of the "[" section steel constituting the steel member 100, as in the case of Fig.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Addition or deletion of a technique, and limitation of a numerical value are included in the protection scope of the present invention.

100: Steel member
110: web
200: Lower displacement change transmission member
250: Upper displacement increase / decrease transmission member
300: slit steel member
310: slit
500: concrete block plate
11: Concrete penetration hole
22: Hinge hole
33: Hinge Bolt
44: coupling bolt

Claims (7)

The present invention relates to a damper installed inside a central portion of a hollow beam connecting two neighboring reinforcing concrete shear walls,
A pair of steel frame members 100 spaced apart from each other on the left and right sides;
A hinge hole 22 rotatably coupled to the upper end of each of the steel frame members 100 by a hinge bolt 33 is provided at both the left and right ends of the hinge hole 22 to connect the steel frame members 100 spaced apart from each other, (250);
A hinge hole (22) rotatably coupled to a lower end of each of the steel members (100) by a hinge bolt (33) is provided at both left and right ends of the lower displacement displacement transmitting and contracting member (200); And
A plurality of slits 310 are provided in the vertical direction at the center of the concave portion as an I-shaped steel member and an upper portion extending in the horizontal direction is coupled to the central portion of the upper displacement transitional member 250 by a coupling bolt 44 A slit steel member 300 having a horizontally extending lower portion coupled to a central portion of the lower displacement transitional member 200 with a coupling bolt 44;
And,
The upper displacement transducer 250, the slit steel member 300, and the lower displacement transducer 200 are integrally formed using one steel,
Each of the steel frame members 100 is composed of two pairs of webs 110 of a "["
Wherein the upper displacement transducer member 250 and the lower displacement transducer member 200 are respectively coupled between the webs 110 of the section steel members constituting the steel frame member 100. [ Slip steel slip dampers. The method of claim 1,
The upper displacement transducer 250, the lower displacement transducer 200, and the slit steel member 300 while enclosing a part of each of the front and rear surfaces of the steel frame member 100, the upper displacement transducer 250, the lower displacement transducer 200, 33), the coupling bolt (44), and the slit (310) are blocked from being filled with concrete, thereby facilitating the hinge action.
And a hinge jointed ribbed damper slit steel damper.
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