KR102187169B1 - Seismic retrofit of reinforced concrete columns with unbonded fastening structure - Google Patents

Abstract

A seismic reinforcement system without a column is disclosed, which improves workability by using a fastening member that is easy to tension and restrain the tension member, and that the seismic reinforcement effect can last for a long time. The present invention relates to a non-column seismic reinforcement system comprising a tension member surrounding the column in the transverse direction and a fastening member that is coupled to both ends of the tension member to adjust the tension force by rotation and fastens both ends of the tension member to each other. to provide.

Description

Seismic reinforcement technology of reinforced concrete columns with non-attachment fastening structure{SEISMIC RETROFIT OF REINFORCED CONCRETE COLUMNS WITH UNBONDED FASTENING STRUCTURE}

The present invention relates to a seismic reinforcement technology of a reinforced concrete column, and more particularly, to a seismic reinforcement technology of a column having a non-attachment fastening structure.

Conventional devices for constraining the structure in the transverse direction using a wire rope for reinforcement of the column structure had a problem in that the corner portion is damaged in the process of transferring the binding force as the binding force is concentrated on the angle installed only at the corner of the column. As the height of the pillar to be reinforced increases, the higher the height of the pillars to be reinforced, the higher the height of the pillars to be reinforced. There was a problem that this could fall somewhat.

In addition, the attachment-type seismic reinforcement method using adhesives such as epoxy for the installation of reinforcement materials can be constructed so that the corners of the pillars can be lifted according to the skill of the laborer during construction. It may cause a long-term dropout phenomenon. In addition, the improvement of the ductility of the column is limited due to the dropout of the reinforcement in the large deformation of the member. As described above, the seismic reinforcement method of the attachment type has its limitations in terms of improving the ductility of concrete for a long time.

Korean Patent No. 0641062 discloses a structural reinforcement system using a T-type strength-bearing material and wire rope as a method for reinforcing columns with excellent workability and efficiency, but the eye bolt and its connector are in the aspect of workability in the process of tensioning and restraining the wire rope. There are still problems.

The present invention is to provide a column-free seismic reinforcement system that is easy to restrain a tension member and thus improves workability and has excellent long-term strength reinforcement efficiency.

In order to solve the above problems, the present invention comprises a tension member surrounding the column in the transverse direction, and a fastening member coupled to both ends of the tension member to adjust the tension force by rotation and fastening both ends of the tension member to each other. Provides a seismic reinforcement system without a column.

In addition, the tension member provides a non-column seismic reinforcement system, characterized in that the fiber sheet or metal lath.

In addition, the fastening member is a housing formed with a pair of hollows for accommodating the body portions of the first and second hexagonal legs, the first and second hexagonal legs, to which both ends of the tension member are respectively fastened to the body portion , A cap covering and connecting an upper portion of the first and second hexagonal units to each other, and a fixing pin coupled to a fixing groove formed along a circumference of the upper or lower portion of the first and second hexagonal units, The hollow of the housing has a long hole on one side through which the tension member enters and exits in the longitudinal direction of the housing, and the cap is a circular rotating hole formed rotatably through the first hexagonal stand and the second hexagonal stand penetrates and is constrained. A lower cap including a hexagonal restraint hole formed to correspond to the cross section of the second hexagonal bar so as to be possible, a locking protrusion formed at regular intervals at the edge, and a rotation washer including a coupling hole formed in the center corresponding to the cross-section of the first hexagonal bar, A control cap including a rotation hole into which the rotation washer is inserted, and a constraint hole into which a second hexagonal rod passing through the restraint hole is inserted, and first and second through holes formed respectively corresponding to the rotation port and the restraint hole It provides a non-column seismic reinforcement system comprising a top cap, which is elastically supported on one side of the rotation hole and is in close contact with the locking protrusion to control the rotation of the rotation washer.

According to the present invention, it is possible to provide a non-column seismic reinforcement system capable of improving workability and maintaining a long-term seismic reinforcement effect by using a fastening member that is easy to tension and restrain the tension member.

1 is a view showing an exploded state of a fastening member according to an embodiment of the present invention.
2 is a view showing an exploded state of a fastening member according to another embodiment of the present invention.
3 is a view showing a combination of a fixing pin according to an embodiment of the present invention.
4A to 4D are views showing the construction sequence of a non-attachment reinforcement system according to an embodiment of the present invention.
5 is a view showing a first aspect of a column reinforced by the present invention.
6 is a view showing a second aspect of the column reinforced by the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known technology may obscure the subject matter of the present invention, a detailed description thereof will be omitted. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and similar reference numerals are assigned to similar parts throughout the specification, and detailed configuration directions of the present invention will be described with reference to the drawings. In addition, throughout the specification, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless otherwise stated.

In accordance with the present invention, a tension member 10 surrounding the column in the transverse direction and a fastening member that is coupled to both ends of the tension member 10 to adjust the tension force by rotation and fasten both ends of the tension member 10 to each other Disclosed is a seismic reinforcement system without a column including 100.

The tension member 10 is installed in a form that contacts the surface of the pillar and wraps it in the transverse direction, and a plurality of the tension members 10 may be disposed in the longitudinal direction of the pillar. In the present invention, the tension member 10 preferably has a certain thickness in the longitudinal direction of the column in order to reinforce the strength without a separate reinforcing member provided between the tension member 10 and the column, and the tension member 10 It is preferable to use a fiber sheet or metal lath such as ductile glass fiber or carbon fiber to adhere to the column.

The fastening member 100 is the amount of the tension member 10 so that the tension member 10 surrounding the column can be tightened and fixed at the same time in order to increase the tension without bonding the tension member 10 to the column. The tension member 10 is wound on the body portion of the fastening member 100 by rotation to be coupled to the end to adjust the tension, and both ends of the tension member 10 are fastened to each other to be fixed. The coupling of the fastening member 100 and the tension member 10 may be performed by welding the tension member 10 to the central part (body part) of the fastening member 100 or by other general methods used in the art.

1 is a view showing an exploded state of a fastening member 100 according to an embodiment of the present invention, Figure 2 is a view showing an exploded state of the fastening member 100 according to another embodiment of the present invention, Figure 3 It is a view showing the coupling of the fixing pin 150 according to an embodiment of the present invention.

1 to 3, the fastening member 100 includes a first hexagonal leg 110 and a second hexagonal leg 120 to which both ends of the tension member 10 are respectively fastened to the body portion, and the tension member (10) A pair of hollow housings 130 for accommodating the first hexagonal leg 110 and the second hexagonal leg 120, the first hexagonal leg 110 and the second hexagonal leg ( A cap 140 covering the upper portion of the 120) and connecting to each other, and a fixing pin 150 coupled to a fixing groove formed along the circumference of the upper or lower portion of the first hexagonal member 110 and the second hexagonal member 120 It can be provided.

The housing 130 has a long hole through which the tension member 10 enters and exits in the longitudinal direction of the housing 130 on one side, and the first hexagonal stand 110 and the second hexagonal stand to which the tension member 10 is wound. The base 120 is inserted through the upper or lower side of the housing 130 to expose the tension member 10 that is not wound to the outside through the long hole.

The cap 140 has a circular rotating sphere formed to be rotatable through the first hexagonal stand 110 and the second hexagonal stand 120 in a cross-section of the second hexagonal stand 120 so as to be constrained through it. A rotation washer 142 including a lower cap 141 including a hexagonal restraint hole formed correspondingly, a locking protrusion formed at regular intervals at the edge, and a coupling hole formed in the center corresponding to the cross section of the first hexagonal stand 110 ), a control cap 143 including a rotation hole 144 into which the rotation washer 142 is inserted and a restraint hole 145 into which the second hexagonal bar 120 is inserted through the restraint hole And an upper cap 147 including first and second through-holes formed respectively corresponding to the restraints, and the second hexagonal leg 120 rotates the first hexagonal leg 110 in a fixed state to increase tension. Can be easily adjusted.

On the other hand, in the present invention, the tension member 10 is wrapped around the column in order to prevent the tension member 10 from being pulled out from the housing 130 due to an earthquake and reduce the tension, and to close the tension member 10 to the column as much as possible. The stopper 146 is supported by a compression coil spring so that it can be easily wound by an operator in a state, but one side of the compression coil spring is fixed to a fixing groove formed in the inner circumference of the rotary hole 144 and the other side is the Protruding to the inside of the rotary hole, the outer circumference including the locking protrusion is in close contact with the inner circumference of the rotary hole 144, the locking protrusion is in contact with the other side of the compression coil spring and the one side It is preferable that the other protrusion adjacent to the protrusion of the coil spring is arranged to be in contact with the side surface of the coil spring, so that the rotation washer 142 can rotate only in one direction compressing the compression coil spring (see FIG. 1).

The fixing pin 150 is coupled to a fixing groove formed in the upper or/and lower portion of the first and second hexagonal bases 110 and 120 so that the hexagonal bases 110 and 120 are not separated vertically. It plays a role (see Fig. 3).

In addition, a stopper 146 that is elastically supported on one side of the rotary hole 144 and is in close contact with the locking protrusion to control the rotation of the rotary washer 142 is provided, so that the first hexagonal stand 110 rotates in reverse to reduce the tension. It is possible to control the tension force more finely by preventing it from becoming and adjusting the spacing of the locking projections.

The seismic reinforcement system without a column according to the present invention does not first apply an adhesive to the column and then attach the tension member, as in the conventional seismic reinforcement method, but pull the tension member tightly in a state where the adhesive is not applied using a fastening member. By constraining it at the same time, not only the workability is improved, but also phenomena such as edge lifting caused by pre-coating the adhesive and the detachment of the tension member due to thermal expansion can be improved. In addition, epoxy-based adhesives such as polyurethane and polyurea can be applied to the reinforcement area to improve the adhesion between the tension member and the column after the construction of the non-attached seismic reinforcement system.

Hereinafter, the construction procedure of the seismic reinforcement system according to the present invention will be described.

Figures 4a to 4d are views showing the construction sequence of the non-attachment reinforcement system according to an embodiment of the present invention, Figure 5 is a view showing a first aspect of a column reinforced by the present invention, Figure 6 is by the present invention It is a drawing showing the second aspect of the reinforced column.

4A to 4D, first, the reinforcing part of the column is set, and the reinforcing part is surrounded by metal lath 10 to which the first and second hexagonal bars 110 and 120 are welded at both ends. At this time, in a state in which the second hexagonal leg 120 is inserted into the hollow of one side of the housing 130 and fixed, the first hexagonal leg 110 rotates the column and inserts it into the hollow of the other side of the housing 130. At this time, the metal lath 10 enters and exits the long hole on one side of the housing 130. When the first and second hexagonal bars 110 and 120 inserted in the housing 130 are rotated to wind up the metal lath 10, the metal lath 10 is in close contact with the column by tension. Next, the cap 140 is installed on the upper part of the housing 130, and the fixing pins 150 are installed in the upper (not shown) and the lower part of the hexagonal bases 110 and 120, so that the first hexagonal base 110 and the second Fix the hexagonal bar 120. In addition, it is possible to further increase the tension by rotating the first hexagonal stand 110 bound to the rotating hole of the cap 140. Afterwards, polyurea is sprayed on the reinforced part of the metal lath to enhance adhesion.

As described above, the column reinforcement system according to the present invention improves the workability by using a fastening member that is easy to tension and restrain the tension member, and the seismic reinforcement effect can be sustained for a long time, and also depends on the width, height, etc. As shown in 5 and 6, several metal laths may be installed along the longitudinal direction of the column, or metal laths with a wide reinforcing part may be installed alone.

In the above, preferred embodiments of the present invention have been described in detail with reference to the drawings. The description of the present invention is for illustrative purposes only, and a person of ordinary skill in the art to which the present invention pertains will be able to understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention.

Accordingly, the scope of the present invention is indicated by the claims to be described later rather than the description of the invention, and all changes or modified forms derived from the meaning, scope and equivalent concepts of the claims are interpreted as being included in the scope of the present invention. Should be.

10: tension member 20: adhesive
100: fastening member 110: first hexagon
120: second hexagonal stand 130: housing
140: cap 141: lower cap
142: rotary washer 143: control cap
144: rotary hole 145: restraint hole
146: stopper 147: upper cap
150: fixing pin

Claims (3)

As a non-pillar seismic reinforcement system comprising a tension member surrounding the column in a transverse direction and a fastening member coupled to both ends of the tension member to adjust the tension force by rotation and fasten both ends of the tension member to each other,
The fastening member includes a first hexagonal stand and a second hexagonal stand to which both ends of the tension member are respectively fastened to the body part,
A housing having a pair of hollows for accommodating the body portion of the first hexagonal stand and the second hexagonal stand,
A cap covering and connecting the upper portions of the first hexagonal stand and the second hexagonal stand, and
And a fixing pin coupled to a fixing groove formed along a circumference in the upper or lower portion of the first hexagonal stand and the second hexagonal stand,
The hollow of the housing has a long hole at one side through which the tension member enters and exits in the longitudinal direction of the housing,
The cap is a lower cap including a circular rotating hole formed to be rotatable through the first hexagonal member and a hexagonal restraining hole formed corresponding to the cross-section of the second hexagonal member so that the second hexagonal member may penetrate and be constrained,
A rotation washer comprising a locking protrusion formed at a predetermined interval at the edge and a coupling hole formed in the center corresponding to the cross section of the first hexagonal belt,
A control cap including a rotation hole into which the rotation washer is inserted and a restraint hole into which a second hexagonal rod passing through the restraint hole is inserted, and
Including an upper cap including first and second through-holes formed respectively corresponding to the rotating sphere and the restraining sphere,
A non-column seismic reinforcement system comprising a stopper that is elastically supported on one side of the rotation hole and is in close contact with the locking protrusion to control the rotation of the rotation washer. The method of claim 1,
The tension member is a non-column seismic reinforcement system, characterized in that the fiber sheet or metal lath. delete

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