KR20140073002A - Brace friction damper - Google Patents

Abstract

The present invention relates to brace friction damper including a support unit installed in a structure; a damping rod connected to the support unit; a connection unit connecting the support unit and the damping rod; and a friction pad which is connected between the support unit and the damping rod to be able to slide along the support unit while rubbed with the support unit while fixed to the damping rod. The brace friction damper can efficiently prevent a building from being transformed or damaged due to an earthquake by reducing an outer force applied to the structure as a plurality of the friction pads slips.

Description

{Brace friction damper}

The present invention relates to a brace friction damper, and more particularly, to a brace friction damper which is installed on a structure to effectively absorb a seismic force acting on the structure to prevent deformation of the structure itself.

Recently earthquakes have occurred in many parts of the world and earthquakes with a magnitude of 3.0 or more are increasing in Korea, raising concerns about earthquakes more than ever. When such an earthquake occurs, the building structure receives horizontal external force and torsion or similar horizontal movement occurs. Torsion, especially in building structures or towers, can seriously impact the condition of the structure and may even cause the collapse of the structure.

Therefore, various seismic retrofitting methods have been developed and used to increase seismic performance against external forces applied to building structures.

Seismic strengthening method using hydraulic damper, seismic strengthening method using a circular steel pipe damper, and seismic strengthening method using a steel damper have been used as seismic retrofitting methods for existing structures in domestic and overseas.

Among the existing technologies, the seismic strengthening method using the hydraulic damper is a technique mainly used in Japan where the earthquake is frequently occurred nationwide. The design is relatively improved so that the appearance environment is not rough, and the seismic strengthening performance is excellent, There is a possibility that the construction cost is excessively increased and the reinforcement is unnecessarily reinforced due to the frequency or progress of the earthquake in Korea.

Meanwhile, the seismic strengthening method using a steel damper has been developed in domestic and foreign countries and has been used recently, and it can be said that the construction cost is comparatively inexpensive. However, the seismic strengthening method has been developed mainly for reinforcement of steel structure, The seismic reinforced structure used is restricted to the inconvenient use of window and doorway, and the appearance of the product is coarse, which hinders the aesthetics of the structure and induces emotional anxiety. Also, the seismic strengthening of the RC structure There is a problem that it is difficult to apply it.

Therefore, there is a need for a new seismic retrofitting apparatus and method that can achieve an optimal seismic effect at a reasonable cost.

Korean Patent No. 10-0908863, a reciprocating slit steel damper Korean Patent No. 10-1142802, an anti-seismic steel damper Korean Patent Registration No. 10-0908864, a steel material damper using a load transfer plate and a slit steel plate Korean Patent No. 10-1052916, a reciprocating coil type steel material damper

SUMMARY OF THE INVENTION It is an object of the present invention to provide a brace frictional damper which minimizes deformation of a structure due to an earthquake and can simplify the structure and improve the damping efficiency.

According to an aspect of the present invention, there is provided a brace friction damper including: a support unit installed on a structure; A damping rod to which both ends of the support unit are coupled, respectively; A coupling unit coupling the support unit and the damping rod; And a friction pad slidably coupled to the support unit while rubbing against the support unit while being fixed to the damping rod between the support unit and the damping rod.

Wherein the coupling portion includes a bolt member provided to penetrate the support unit, the friction pad, and the damping rod, respectively, and a nut member coupled to the bolt member, wherein the damping rod has a predetermined length, The support bracket being fixed to the structure and having one end fixed to the fixing bracket and the other end being fixed to the damping rod from the outside of the friction pad so as to closely contact the friction pad with the damping rod, And a cover plate coupled to the damping rod, wherein the bolt member passes through the cover plate and slides along the length direction of the cover plate with respect to the cover plate with the damping rod and the friction pad interlocked with each other, The guide slit extending along the longitudinal direction of the cover plate is movable Characterized in that a.

Wherein the friction pad is formed to have a shape corresponding to the shape of the damping rod so as to surround the outside of the damping rod, and the cover plate is fixed to the friction pad and the damping rod so as to closely contact the friction pad with the outer circumferential surface of the damping rod. And is formed in a shape corresponding to the shape.

The damping rod is characterized by having a body having a hollow portion therein and an extending flange extending radially from a mutually opposite point with respect to the center of the body and having a through hole through which the bolt member can pass .

Wherein the damping rod has a flat plate-shaped body and an extending flange extending from one side or both sides of the body in a direction orthogonal to the body, the bolt member passing through the body and the extending flange, And a through hole is formed.

The brace friction damper according to the present invention can more effectively prevent deformation and breakage of a building due to earthquake by reducing the external force acting on the structure while a plurality of friction pads slip.

1 is a perspective view showing a state in which a brace friction damper according to a first embodiment of the present invention is installed on a structure.
Fig. 2 is a partially exploded perspective view of the brace friction damper shown in Fig. 1; Fig.
3 is a cross-sectional view of the brace friction damper shown in Fig.
Fig. 4 is a front view showing an operating state of the brace friction damper shown in Figs. 1 to 3. Fig.
5 is a sectional view of a brace friction damper according to a second embodiment of the present invention;
6 is a sectional view of a brace friction damper according to a fourth embodiment of the present invention;
7 is a sectional view of a brace friction damper according to a fifth embodiment of the present invention;
8 is a sectional view of a brace friction damper according to a sixth embodiment of the present invention.
9 is a sectional view of a brace friction damper according to a seventh embodiment of the present invention.
10 is a sectional view of a brace friction damper according to an eighth embodiment of the present invention.

Hereinafter, a brace friction damper according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 to 4 show a brace friction damper according to a first embodiment of the present invention.

1 to 4, a brace friction damper 1 of the present invention includes a support unit 100 installed on a structure 10; A damping rod 200 coupled to both ends of the support unit 100; A coupling unit for coupling the support unit 100 and the damping rod 200; A friction pad (not shown) coupled to the damping rod 200 so as to be slidable along the longitudinal direction of the support unit 100 while rubbing against the support unit 100 while being fixed to the damping rod 200 between the support unit 100 and the damping rod 200 400).

The structure 10 is a building structure 10 having beams and columns as shown in Fig. 1, and is briefly shown. Although not shown in the present embodiment, the structure 10 may be provided with a steel frame, and the brace friction damper 1 according to the present invention may be installed in the structure 10 or may be installed in a steel frame.

The support unit 100 is fixed to a fixing bracket (not shown) fixed to one corner of the corners at which the column 11 of the structure 10 and the beam 12 intersect and the other corner positioned diagonally to the corner And a cover plate 150 having one end fixed to the fixing bracket 110 and the other end coupled to the damping rod 200 to support the damping rod 200.

The fixing bracket 110 includes a base 111 fixed to the structure 10 and a coupling flange 130 protruding from the base 111 and coupled with the cover plate 150 to fix one end of the cover plate 150 112). The base 111 and the coupling flange 112 are formed with a plurality of holes 111a and 112a through which the fixing bolt 114 and the fastening bolt 115 for coupling with the structure 10 and the cover plate 150 respectively pass, .

Reference numeral 116 denotes a fastening nut that is screwed to the fastening bolt 115.

One end of the cover plate 150 is fixed to the coupling flange 112 through a fastening bolt 115 and the other end of the cover plate 150 is fixed to the outer side of the friction pad 400 so that the friction pad 400 can be brought into close contact with the damping rod 200 To the damping rod (200).

The cover plate 150 has a shape corresponding to the shape of the damping rod 200 and includes a cover portion 150 formed in a shape corresponding to the shape of the body 210 to enclose the body 210 of the damping rod 200 And a tight contact portion 155 extending from the upper and lower portions of the cover portion 151 to the upper and lower portions of the cover portion 151 to closely contact the friction pad 400 to the extension flange 250 of the damping rod 200. The cover plates 150 according to the present embodiment are provided with a pair, and the cover plates 150 may have a plurality of different cover plates.

The fastening part 155 is formed with fastening holes 156 so that the fastening bolt 115 can pass therethrough so that the bolt member 310 can pass through from the position spaced apart from the fastening hole 156, The cover plate 150 can be slidably moved along the longitudinal direction of the cover plate 150 with respect to the cover plate 150 in a state where the cover 200 and the friction pad 400 interlock with each other, (Not shown).

The damping rod 200 has a predetermined length and has a through hole to allow the bolt member 310 to pass therethrough, and one end and the other end are coupled to the cover plate 150, respectively. The damping rod 200 includes a body 210 having a hollow 211 formed therein and an extending flange 250 extending radially from a point opposite to the center of the body 210, A through hole 251 through which the bolt member 310 passes is formed in the flange 250.

The engaging portion includes a guide slit 157 of the cover plate 150, a friction pad 400, a bolt member 310 installed to penetrate the through hole of the damping rod 200, And a nut member 350 to be coupled.

The friction pad 400 has a rectangular strip shape in which the length of one side is several times longer than the length of the other side so as to be in contact with the one outer circumferential surface of the extension flange 250 and a diameter corresponding to the rod excluding the head of the bolt member 310 The bolt passing hole 401 is formed.

3, the friction pads 400 are respectively disposed on both sides of the extension flange 250 and the cover plates 150 are disposed on the outer sides of the friction pads 400. The bolt members 310, And the nut member 350, respectively.

Hereinafter, the operation of the brace friction damper 1 according to the present invention having the above-described configuration will be described in detail with reference to FIG.

One end of the cover plate 150 is fixed to the coupling flange 112 of the fixing bracket 110 by the fastening bolt And one end of the damping rod 200 is supported on the end side of the cover plate 150 through the bolt member 310 and the nut member 350.

Although not shown in the drawing, the damping rod 200 is fixed to the other corner of the structure 10 positioned diagonally to the fixed bracket 110. A frictional pad 400 is interposed between the cover plate 150 and the damping rod 200 so as to be slidable with respect to the cover plate 150. The frictional pad 400 is fixed to the damping rod 200 So that they can be moved together.

When an external force acts on the structure 10 due to a strong wind or an earthquake due to a typhoon, the structure 10 vibrates and the upper and lower sides of the structure 10 move in different directions in the horizontal direction, A tensile force and a compressive force are applied to the brace friction damper 1 according to the present invention, which is provided diagonally to the structure 10 at the same time as the deformation force acts.

4, when the tensile force acts on the brace friction damper 1, the damping rod 200 is fixed to one end of the fixing bracket 110 and the cover plate 150 on the structure 10, And the friction pad 400 moving in conjunction with the damping rod 200 by the bolt member 310 rubs against the cover plate 150 to generate heat. In other words, the external force applied to the structure 10 is diverted to the frictional heat from the friction pad 400, so that the damage to the structure 10 can be minimized.

The fixing bracket 110 and the cover plate 150 are coupled to the structure 10 so as not to move relative to each other even when a compressive force acts on the brace friction damper 1 according to the present invention So that the damping rod 200 slides in a direction in which the damping rod 200 approaches the structure 10 or the fixing bracket 110.

In this case, as well as when the tensile force acts on the brace friction damper 1, the friction pad 400 rubs against the cover plate while the damping rod 200 slides. That is, when tensile force and compressive force are applied to the brace friction damper 1 according to the present invention, both the friction force and the compressive force move in conjunction with the damping rod 200 and slide against the cover plate 150, The damage to the structure 10 can be minimized by dissipating the external force acting on the structure 10 through the pad 400 into the frictional heat.

Meanwhile, as shown in FIG. 5, the damping rod of the brace friction damper according to the present invention may have four extending flanges 250a extending in a mutually orthogonal direction from an outer peripheral surface of a body 210a having a cylindrical structure . Friction pads 400 are disposed on both sides of the extension flange 250a and the cover plates 150a are provided in a number corresponding to the number of the extension flanges 250. [ The cover plate 150a is formed so as to enclose a part of the outer circumferential surface of the body 210a and the extending flanges 250a adjacent to each other so that the respective friction pads 400 can be brought into close contact with both sides of the extending flange 250a .

The damping rod of the brace friction damper according to the present invention may be formed so that the body 210b has a rectangular tube structure as shown in FIG. On the four sides of the body 210b, there are provided a plurality of extending flanges 250b that extend in the direction away from the body from the center of the length of each side and extend in directions orthogonal to each other. A friction pad 400 is disposed on both sides of the extension flange 250b and a cover plate 150b is disposed between the adjacent extension flanges 250b and the body 210b between the adjacent extension flanges 250b. As shown in FIG.

7, the damping rod of the brace friction damper according to the present invention has an extension flange 250c (not shown) extending in a mutually orthogonal direction in the direction away from the body 210c from the four corners of the body 210c having a rectangular tube structure, . A friction pad 400 is disposed on both sides of the extension flange 250c and a cover plate 150c is disposed on the side of the body 210c between the adjacent extension flanges 250c and the adjacent extension flanges 250c As shown in FIG.

Also, the damping rod may be formed to have an 'L' shape or a 'C' shape as shown in FIG. 8 or 9. 8 and 9, the damping rod includes flat plate-like bodies 210d and 210e and an extension extending in a direction orthogonal to the bodies 210d and 210e from one side or both sides in the width direction of the bodies 210d and 210e. And the through holes 251 are formed in the bodies 210d and 210e and the extending flanges 250d and 250e so that the bolts 310 can pass through the bodies 210d and 210e. The pair of friction pads 400a and 400b are disposed so as to surround the outer circumferential surface of the damping rod and the pairs of frictional pads 400a and 400b can be in close contact with the outer circumferential surface of the damping rod. And is coupled toward the damping rod from the outside of the friction pads 400a and 400b.

As shown in FIGS. 1 to 4, the friction pads 400a and 400b are slidably mounted on the cover plates 150d and 150e so as to be frictionally engaged with the cover plates 150d and 150e, And a guide slit is formed so that the member 310 is movable to a predetermined length.

1, a structure in which the brace friction damper according to the present invention is installed is applied to the structure, but it is also possible to provide a plurality of brace friction dampers according to the present invention as shown in FIG. That is, in the case where an external force acts on the structure, a plurality of brace friction dampers may be provided so as to have mutually opposite inclination so as to resist both a tensile force and a compressive force.

The brace friction damper according to the present invention has a long guide slit formed only in the cover plate so that the friction pad is engaged with the cover plate while sliding in a state where the damping rod and the friction pad cooperate with each other. A long guide slit may be formed in the friction pad to fix the friction pad to the cover plate, and the damping rod may frictionally slide on the friction pad.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it should be understood that various changes and modifications may be made without departing from the spirit and scope of the invention as set forth in the appended claims. It is understandable.

Accordingly, the true scope of protection of the present invention should be defined by the appended claims.

10: Structure
11: Column
12: Bo
100: support unit
110: Fixed bracket
150: Cover plate
151:
155:
157: guide slit
200: damping rod
210: Body
250: Extension flange
310: Bolt member
350: Nut member
400: Friction pad

Claims (5)

A support unit mounted on the structure;
A damping rod coupled to the support unit;
A coupling unit coupling the support unit and the damping rod;
And a friction pad slidably coupled to the support unit while frictionally supporting the support unit while being fixed to the damping rod between the support unit and the damping rod. The method according to claim 1,
Wherein the engaging portion includes a bolt member provided to penetrate the support unit, the friction pad, and the damping rod, respectively, and a nut member coupled to the bolt member,
Wherein the damping rod has a predetermined length, a through hole is formed to allow the bolt member to pass therethrough,
The support unit includes a fixing bracket fixed to the structure, and a cover plate fixed to the fixing bracket at one end and coupled to the damping rod at an outer side of the friction pad to closely contact the friction pad with the damping rod. / RTI >
The bolt member passes through the cover plate and extends along the longitudinal direction of the cover plate so as to be slidable with respect to the cover plate along the longitudinal direction of the cover plate with the damping rod and the friction pad interlocked with each other Wherein a guide slit is formed in the guide groove. 3. The method of claim 2,
The friction pad is formed in a shape corresponding to the shape of the damping rod so as to surround the outside of the damping rod,
Wherein the cover plate is formed in a shape corresponding to the shape of the friction pad and the damping rod so as to closely contact the friction pad with the outer circumferential surface of the damping rod. The method of claim 3,
Wherein the damping rod includes a body having a hollow portion therein and an extending flange extending in a radial direction from a mutually opposing point with respect to a center of the body and having a through hole through which the bolt member can pass, Brace friction damper. The method of claim 3,
Wherein the damping rod has a flat plate-shaped body and an extending flange extending from one side or both sides of the body in a direction orthogonal to the body,
And a through hole is formed in the body and the extending flange so that the bolt member can pass through the through hole.

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