KR101986819B1 - Reinforcement assembly of girder and construction method thereof - Google Patents

Abstract

In order to solve the above problems, the reinforcing structure of the present invention, which is installed on the lower surface or the side surface of the bridge 100 in use and introduces an upward force to the girder 100, includes a tension member 200; A pair of inner fixing members 310 coupled to the inner region of the girder 100 to fix the inner portion 210 of the tensile member 200 into which the primary tensile force P1 is introduced; An outer fixing member formed on the outer side of the inner fixing member 310 and coupled to the outer side of the inner fixing member 310 to fix the outer side 220 of the tension member 200 into which the secondary tension force P2 is introduced 320).
In this case, since the tension member 200 is tensed using the inner fixing member 310 and the outer fixing member 320, different tensile forces are applied to the inner portion 210 and the outer portion 220 of the tension member 200 .
Through this, it is possible to introduce different tensile forces according to the damaged portion of the girder through one tensile member.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforcing structure,

The present invention relates to a construction field, and more particularly, to a girder reinforcing structure and a construction method thereof.

Bridges are classified into piers (alternating), girders, and bottom plates (bottom plate slabs). As the period of use increases, the piers (girders), girders, and bottom plates are damaged and damaged.

The girder used as a bending member is subjected to various types of damage (cracks, peeling, peeling, fatigue cracks, etc.) over the period of use, and the upward force or compressive force is introduced into the girder by using a tensile member Technology is being used.

Damage to the girder is divided into the case where it occurs in some area and the case which occurs in the whole area. In case of the former, it is preferable to introduce different upward force (or compressive force) to the damaged part and the upper part of the deflection.

This is because if the upward force is applied based on the upper part of the bison, the damage may advance.

Therefore, the undamaged portion that does not cause damage introduces an upward force (or compressive force) that can resist the undamaged section, and the portion where the damage is severe introduces an upward force (or compressive force) Effective maintenance is required.

In addition, since it is difficult to install many tensile members in the repair of the girders, it is necessary to introduce different upward forces (or compressive forces) for each section using one tension member.

However, the prior art for repairing and reinforcing a girder or a bottom plate is a technique of introducing the same load to one tension member, and there is a limit in that different tension forces can not be introduced into one tension member depending on the installation position.

Korean Utility Model No. 20-2002-0033713 'A girder bridge slab reinforcement device using a stranded wire' is a device in which a tension bracket is fixed to an underside of a slab by an anchor bolt, a tension wire is inserted through a through hole formed in a tension bracket, After inserting the stranded wire into the bracket, it is fixed by using the fixture respectively, and the designed tensile force is introduced into the strand and then fixed on the tension bracket.

Korean Patent No. 10-2002-0053102 'Apparatus for reinforcing the upper structure of a girder bridge' is formed in an approximately 'H' shape so as to be seated at the lower center of the longitudinal direction of the girder so as to improve the supporting force and to simplify installation and adjustment. A saddle having a fixing piece formed at both ends in the longitudinal direction of the outer surface thereof, a fixing rod passing through the fixing piece of the saddle, and a fixing nut for fixing the fixing rod to the fixing piece, And a pair of curved plates which are formed on the upper surface of the bottom plate and which form a parabolic shape which becomes convex toward the longitudinal end portion of the girder and a cover plate which covers the upper portion of the curved plate and which are symmetrically installed on both ends of the girder The supporting member and the curved plate of each of the supporting members are curved at a central portion by 180 degrees so that both ends of the curved plate are fixed to the fixing rod toward the corresponding supporting member of the fixing device A top reinforcing structure of the girder bridge device comprising a pair of strands that result.

Korean Patent No. 10-2013-0135362 'girder cross section reinforcing apparatus and method for manufacturing a bridge' includes girders installed between shifts and shifts; Girders connecting girders horizontally; A slab connecting upper portions of the girders; First and second fixing ports provided on the beams each located on both sides of the reference line relative to the longitudinal center of the girder; And a stranded wire whose one end is fixed to the first fixing port, the other end is fixed to the second fixing port, the middle portion is located inside the lower portion of the girder, and a tension is applied to the girder.

The technical structure, name and drawing number of the above-mentioned prior art are limited to the description of the prior art.

Korean Patent No. 10-2002-0053102 Korean Patent No. 10-2013-0135362

Korean Utility Model No. 20-2002-0033713

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a reinforcing structure and a method of constructing the same using a single tensile member, This is possible.

In order to solve the above problems, the reinforcing structure of the present invention, which is installed on the lower surface or the side surface of the girder 100 in use and introduces an upward force into the girder 100, includes a tension member 200; A pair of inner fixing members 310 coupled to the inner region of the girder 100 to fix the inner portion 210 of the tension member 200 into which the primary tensile force P1 is introduced; The outer side of the inner fixing member 310 is connected to the outer side of the inner fixing member 310 to fix the outer side 220 of the tension member 200 into which the secondary tension force P2 is introduced. And a fixing member (320).

It is preferable that the inner side portion 210 is fixed so that both directions are fixed in the introduction direction and the introduction direction of the primary tensile force P1 introduced by the inner fixing member 310. [

The inner portion 210 is preferably fixed by a fixing wedge 330 installed on the left and right sides of the inner fixing member 310, respectively.

The outer side 220 is preferably fixed by the outer side fixing member 320 so as to be fixed in a direction opposite to the direction in which the secondary pulling force P2 is introduced.

It is preferable that the primary tensile force P1 introduced into the inner portion 210 and the secondary tensile force P2 introduced into the outer portion 220 are different from each other.

The outer portion 220 includes a left outer portion 221; And the second extensional force P2 is introduced into the left outer portion 221 and the right outer portion 222. In this case,

Preferably, the tension members 200 are installed on both side portions of the girder 100.

The outer fusing member 320 may be installed at a position higher than the inner fusing member 310 so that the tension member 200 is bent.

The reinforcing structure construction method according to an embodiment of the present invention includes the steps of installing a reinforcing structure for installing the tension member 200, the inner fixing member 310, and the outer fixing member 320 on the girder 100; A primary tensile force introducing step of introducing the primary tensile force P1 to the inner portion 210; Fixing the inner portion 210 using the inner fixing member 310 so that both directions are fixed in the introduction direction and the opposite direction of the first tension force P1; A secondary tensile force introducing step of introducing the secondary tensile force P2 to the outer side portion 220; And fixing the outer portion 220 using the outer fixing member 320 so that the secondary tension force P2 is fixed in a direction opposite to the introduction direction.

The reinforcement structure and the construction method of the present invention use one tension member, but different tensile forces can be introduced depending on the damage occurrence region of the girder.

Further, since a fixing member whose both directions are fixed in the introduction direction of the tensile force and in the opposite direction of the introduction is used, one tension member can be re-tensioned.

1 is a sectional view of a slab incorporating a reinforcing device of Korean Utility Model No. 20-2002-0033713.
2 is an assembled perspective view of a superstructure reinforcing device of Korean Patent No. 10-2002-0053102.
3 is a cross-sectional view of a girder incorporating a reinforcement device of Korean Patent No. 10-2013-0135362.
Figure 4 is a side view of a bridge incorporating a reinforcing structure in accordance with an embodiment of the present invention.
5 is a side elevation view of a girder incorporating a reinforcing structure in accordance with an embodiment of the present invention.
6 is an exploded view of an inner fixing member according to an embodiment of the present invention;
7 is an inner fixing member coupling diagram according to an embodiment of the present invention.
FIG. 8 is an outer fixing member coupling diagram according to an embodiment of the present invention; FIG.
FIG. 9 is a side view of a reinforcement structure showing a tensile force introduction direction according to an embodiment of the present invention. FIG.
10 is a side view of a tension member having different tensile forces introduced therein according to an embodiment of the present invention.
11 is a side elevation view of a girder incorporating a reinforcing structure in accordance with another embodiment of the present invention.
12 is a side view of a girder to which a reinforcing structure according to another embodiment of the present invention is coupled.
13 is a view showing a step of introducing a primary tensile force according to an embodiment of the present invention;
14 is a view showing a process of introducing a secondary tensile force according to an embodiment of the present invention;
15 is a girder perspective view of a plurality of reinforcing structures coupled together according to an embodiment of the present invention.
16 is a girder perspective view in which a pair of reinforcing structures are combined according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, an embodiment of a reinforcement structure according to the present invention will be described in detail with reference to the accompanying drawings. In the following description with reference to the accompanying drawings, the same or corresponding components are denoted by the same reference numerals, A duplicate description will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

Hereinafter, a reinforcement structure according to an embodiment of the present invention and a construction method thereof will be described in detail with reference to the accompanying drawings.

In order to solve the above problems, the reinforcing structure of the present invention, which is installed on the lower surface or the side surface of the bridge 100 in use and introduces an upward force to the girder 100, includes a tension member 200; A pair of inner fixing members 310 coupled to the inner region of the girder 100 to fix the inner portion 210 of the tensile member 200 into which the primary tensile force P1 is introduced; An outer fixing member formed on the outer side of the inner fixing member 310 and coupled to the outer side of the inner fixing member 310 to fix the outer side 220 of the tension member 200 into which the secondary tension force P2 is introduced 320).

In this case, since the tension member 200 is tensed using the inner fixing member 310 and the outer fixing member 320, different tensile forces are applied to the inner portion 210 and the outer portion 220 of the tension member 200 .

Through this, it is possible to introduce different tensile forces according to the damaged portion of the girder through one tensile member.

The inner side portion 210 is preferably fixed so that both directions are fixed in the introduction direction and the introduction direction of the primary tensile force P1 introduced by the inner side fixing member 310. [

Conventional fixing devices can not be re-tensioned only at the end of the tension member that is fixed in the opposite direction of the tension force introduction.

In this case, however, the inner side portion 210 can be re-tensioned by the inner side fixing member 310 because both directions are fixed in the introduction direction and the introduction direction of the tensile force P1.

The inner side portion 210 is preferably fixed by a fixing wedge 330 installed to the left and right sides of the inner side fixing member 310, respectively.

In this case, as shown in FIG. 7, a pair of fixing wedges 330 are provided on the left and right sides of the inner fixing member 310 to fix the tension members in both directions.

The inner fixing member 310, which is installed in a pair, may be provided in a plurality of tension members.

The outer side portion 220 is preferably fixed by the outer side fixing member 320 so as to be fixed in the opposite direction of introduction in which the secondary pulling force P2 is introduced.

In this case, the outer fixing member 320 provided on both edge portions of the girder is fixed in the opposite direction of introduction in which a tensile force is introduced as shown in Fig.

It is preferable that the first tensile force P1 introduced into the inner portion 210 and the second tensile force P2 introduced into the outer portion 220 are different from each other.

The lateral portion 220 includes a left lateral portion 221; And a second secondary tensile force P2 is introduced into the left outer portion 221 and the right outer portion 222. In this case,

In this case, different tensile forces can be introduced depending on the degree of damage and the condition of the girder.

The tension members 200 are preferably installed on both side portions of the girder 100.

If it is difficult to install reinforcement structures on the bottom of the girder, it is possible to install reinforcing structures in the lower area of both sides of the girder.

In addition, depending on the degree of damage of the girder and the amount of tensile force introduced, reinforcement structures can be installed simultaneously on the lower and the side.

The outer fixing member 320 may be installed at a position higher than the inner fixing member 310 and the tension member 200 may be bent.

In this case, an upward force can be effectively introduced into the center portion of the girder.

A method of constructing a reinforcing structure according to an embodiment of the present invention includes the steps of installing a reinforcing structure for installing a tensile member 200, an inner fixing member 310, and an outer fixing member 320 on a girder 100; A primary tensile force introducing step of introducing a primary tensile force P1 to the inner side 210; An inner side fixing step of fixing the inner side portion 210 using the inner side fixing member 310 so that both directions are fixed in the introduction direction and the introduction direction of the first tensile force P1; A secondary tensile force introducing step of introducing a secondary tensile force P2 to the outer side portion 220; And fixing the outer portion 220 using the outer fixing member 320 so that the secondary tension force P2 is introduced in a direction opposite to the introduction direction.

In this case, different tensile forces can be introduced along the girder longitudinal direction through the first tensile force introduction step and the second tensile force introduction step.

P1: primary tensile force P2: secondary tensile force
100: girder 200: tensile member
210: inner side 220:
221: left lateral portion 222: right lateral portion
300: fixing member 310: inner fixing member
320: outer fixing member 330: fixing wedge

Claims (9)

A reinforcement structure installed on a lower surface or a side surface of the girder 100 of the bridge in use and introducing an upward force to the girder 100,
A tension member (200);
A pair of inner fixing members 310 coupled to the inner region of the girder 100 to fix the inner portion 210 of the tension member 200 into which the primary tensile force P1 is introduced;
An inner fixing member 310 formed on the outer side of the fixing member 310,
And an outer fixing member 320 coupled to the outer side of the inner fixing member 310 to fix the outer side 220 of the tension member 200 into which the secondary tensile force P2 is introduced,
The inner portion 210
The primary tensile force P1 introduced by the inner fixing member 310 is introduced to the left and right sides of the inner fixing member 310 by the fixing wedge 330, Direction and a direction opposite to the introduction direction,
The first tensile force P1 introduced into the inner part 210 and the second tensile force P2 introduced into the outer part 220 are different in size from each other,
The outer portion 220
The fixing member 320 is fixed so as to be fixed in a direction opposite to the direction in which the secondary tensile force P2 is introduced,
A reinforcing structure installing step of installing the tensile member 200, the inner fixing member 310, and the outer fixing member 320 on the girder 100;
A primary tensile force introducing step of introducing the primary tensile force P1 to the inner portion 210;
Fixing the inner portion 210 using the inner fixing member 310 so that both directions are fixed in the introduction direction and the opposite direction of the first tension force P1;
A secondary tensile force introducing step of introducing the secondary tensile force P2 to the outer side portion 220;
And fixing the outer portion (220) using the outer fixing member (320) so that the secondary tension force (P2) is fixed in a direction opposite to the introduction direction of the secondary tension force (P2).
delete delete delete delete The method according to claim 1,
The outer portion 220
A left lateral portion 221;
And a right lateral portion 222,
Wherein the second extensional force (P2) is introduced into the left outer portion (221) and the right outer portion (222).
The method according to claim 1,
The tension member (200)
Wherein the reinforcing structure is installed on both sides of both side portions of the girder (100).
8. The method of claim 7,
The outer fixing member 320
Wherein the tensile member (200) is installed at a higher position than the inner fixing member (310), and the tensile member (200) is bent. delete

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