KR102292294B1 - Construction method of internal reinforcement of bridge girder - Google Patents

Abstract

An objective of the present invention is to reinforce the inside of an existing steel box girder (G) in a bridge (Br) structure while in use or in a construction process, and provide the effect of increasing the stiffness of the girder and extending the service life of the girder. Specifically, an inside reinforcement method of a steel box girder comprises: a step of segmenting and manufacturing a main reinforcing member and a first auxiliary reinforcing member for reinforcing the inside of an existing steel box girder in an easy-to-transport size; a step of transporting the segmented main reinforcing member and first reinforcing member into the steel box girder; a step of welding and installing the segmented main reinforcing member in a longitudinal direction from a negative moment region to a positive moment region of the steel box girder in the form of vertically dividing the width-direction middle area of the inside of the steel box girder; a step of welding the first auxiliary reinforcing member to be extended from the main reinforcing member in both width directions in the form of horizontally dividing the inside of the steel box girder, and installing and connecting the first auxiliary reinforcing member to the main reinforcing member; and a step of depositing and curing concrete in an area including a lower flange of the steel box girder among four areas formed by the main reinforcing member and the first auxiliary reinforcing member. The present invention can provide the effect of improving the bending resistance performance in a negative moment region and a positive moment region of an existing steel box girder, and maximize the work efficiency of workers when constructing the steel box girder to easily reinforce the girder.

Description

{Construction method of internal reinforcement of bridge girder}

The present invention is to reinforce the inside of the steel box girder (G) during use of the bridge (Br) structure during use or reinforce it during the construction process, which aims to extend the life of the girder and increase the rigidity of the girder at the point.

Patent Invention 001 proposes a steel box-type cast beam reinforcement construction method for a bridge and its structure in which a number of PC steel wires can be tensioned to reinforce the entire cast beam by tensioning the steel box-type cast beam, which is the tension part of the bridge.

Patent Invention 002 relates to the reinforcement structure of a steel box bridge, and more particularly, it relates to a reinforcement structure of a steel box bridge in which a filler material is used as a rigid material between the outer steel box and the inner steel box to resist external force. A technique for improving the structural rigidity of a bridge is proposed by pouring fillers such as concrete between both boxes of a bridge consisting of an outer box and an inner box for the role of the reinforcing material without installing a reinforcing material such as a shaped bridge.

Patent Invention 003 relates to a strength-reinforced steel box girder, and is intended to prevent deformation due to expansion or upper load due to temperature change and to improve the safety of a bridge structure by reinforcing the rigidity of the steel box girder.

Patent Invention 004 is applied to a pier part (B) where a negative moment occurs in a steel composite girder bridge, a steel girder having side walls formed on the bottom and both sides; Two support blocks to be installed Concrete girder to be poured on top of the support block; And, it proposes a technical feature comprising a floor concrete poured under the support block 10 of the other side under the support block of the one side.

KR 10-0466017 B1 (Registration date January 03, 2005) KR 20-0320444 B1 (Registration Date July 07, 2003) KR 10-2016-0127863 A (published on November 07, 2016) KR 10-2019-0119715 A (published on October 23, 2019)

The present invention is to reinforce the inside of the steel box girder (G) during use of the bridge (Br) structure during use or reinforce it during the construction process, which aims to extend the life of the girder and increase the rigidity of the girder at the point.

In order to solve the problems of the prior inventions, the present invention relates to a reinforcing method for reinforcing the inside of a steel box girder during public use, and more particularly, to a method of reinforcing the inside of a steel box girder formed with an upper flange and a plurality of abdomens and lower flanges. In the method, the method comprising: segmenting the main reinforcing member and the first auxiliary reinforcing member for reinforcing the inside of the steel box girder in common use to a size that is easy to transport; and transporting the segmented main reinforcing member and the first reinforcing member into the steel box girder; welding and installing the segmented main reinforcing member along the longitudinal direction from the negative moment region to the positive moment region of the steel box girder in a form of vertically dividing the inner width direction central region of the steel box girder; Welding the first auxiliary reinforcing member so as to expand in both width directions from the main reinforcing member in the form of horizontally dividing the inside of the steel box girder and connecting and installing the main reinforcing member; and pouring and curing concrete in an area including the steel box girder lower flange among the four areas formed by the main reinforcing member and the first auxiliary reinforcing member.

The present invention provides a reinforcing method for reinforcing the inside of a steel box girder during public use, the method comprising: connecting and installing the first auxiliary reinforcing member; and curing by pouring concrete; and installing one or more second auxiliary reinforcing members in the form of vertically dividing each of the first auxiliary reinforcing members extending in the width direction of both sides of the main reinforcing member therebetween.

The present invention provides a method of reinforcing the inside of a steel box girder during public use, a main reinforcing member slit formed on one side of the main reinforcing member for insertion of a first auxiliary reinforcing member; and at one side of the first auxiliary reinforcing member. A first auxiliary reinforcing member main slit formed and provided in a shape corresponding to the main reinforcing member slit of the main reinforcing member is provided and integrated by mutual coupling.

The present invention further comprises a method for reinforcing the inside of a steel box girder during common use, wherein one or more slits and/or through holes for pouring concrete are provided at the lower end of the main reinforcing member.

The present invention provides a method of reinforcing the inside of a steel box girder during common use, wherein the main reinforcing member is formed by welding a plurality of articulated members in the steel box girder, and the first auxiliary reinforcing member is one or more segmented members. It further comprises forming by welding in the steel box girder.

The present invention further comprises in the method of reinforcing the inside of a steel box girder during common use, the main reinforcing member further comprises forming a vertical cross-sectional area to gradually decrease from a negative moment area to a positive moment area.

By utilizing the internal reinforcement method of the steel box girder in common formed by the upper flange and a plurality of abdomen and lower flanges according to the present invention, the bending resistance performance in the negative moment and positive moment area of the steel box girder in common is improved, and it is constructed In this case, it is possible to provide the effect of easily reinforcing the girder by maximizing the work efficiency of the worker.

1 is a perspective view of a reinforcement target girder of the present invention.
Figure 2 is a perspective view in which the reinforcement member is installed at the end of the reinforcement target girder of the present invention.
Figure 3 is an exploded perspective view of the reinforcement member and the girder end of the present invention.
Figure 4 is an exploded perspective view of the installation step of the reinforcement member of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to describe in detail enough that a person of ordinary skill in the art to which the present invention pertains can easily carry out the present invention.

The numbers cited in the examples below are not limited only to the objects of reference, and may be applied to all examples. Objects exhibiting the same purpose and effect as the configuration presented in the examples correspond to equivalent replacement objects. The higher-level concept presented in the examples includes sub-concept objects that are not described.

[Embodiment 1-1] The present invention relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge (Br) girder (G) in common use, in detail, an upper flange 130 and a plurality of In the internal reinforcement method of the steel box girder 100 formed of the abdomen 120 and the lower flange 110 of dogs, the main reinforcing member 200 and the first auxiliary reinforcing member for reinforcing the inside of the steel box girder 100 in common use The step of segmenting the 300 to a size that is easy to transport; and transporting the segmented main reinforcing member 200 and the first reinforcing member into the steel box girder 100; Welding and installing the segmented main reinforcing member 200 along the longitudinal direction from the negative moment area to the positive moment area of the steel box girder 100 in the form of vertically dividing the inner width direction central area of the steel box girder 100 step; In the form of horizontally dividing the inside of the steel box girder 100, the first auxiliary reinforcing member 300 is welded to expand in the width direction on both sides from the main reinforcing member 200 and connected to the main reinforcing member 200. step; And the main reinforcing member 200 and the first auxiliary reinforcing member 300 is formed by pouring concrete (C) in the area including the lower flange 110 of the four areas formed by the steel box girder 100 to cure step; includes being provided with.

The present invention (Example 1-1) relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a public bridge girder. In order to implement the internal reinforcement method of the steel box girder 100 in common formed by the upper flange 130, the plurality of abdomens 120, and the lower flange 110, the segment of a size that can enter the steel box girder 100 is possible. The reinforcing member, that is, the main reinforcing member 200 and the first auxiliary reinforcing member 300 are manufactured. This is to facilitate the reinforcement work through welding in the inside of the girder by forming the steel box girder 100 to an optimal size for the worker to transport the reinforcing member plate to the inner space. To this end, the reinforcement target steel box girder 100 may be pre-installed with temporary facilities for the work and movement of the worker. After transporting the segmented reinforcing member into the steel box girder 100, installing the main reinforcing member 200 in the form of vertically dividing the width direction central area of the steel box girder 100 is included. Reinforcement of the steel box girder 100 may be installed in the longitudinal direction of the girder to be reinforced up to the positive moment region, including the negative moment region, which is the end region of the girder. After the main reinforcing member 200 is installed, the first auxiliary reinforcing member 300 is installed in the form of horizontally dividing the inside of the steel box girder 100 . The first auxiliary reinforcing member 300 is provided in a form extending in both sides in the width direction around the main reinforcing member 200, which is also transported in a segmented form and joined through welding inside the girder, and the main reinforcing member ( 200) and is installed. According to the installation of the vertical main reinforcing member 200 and the horizontal first auxiliary reinforcing member 300, the steel box girder 100 and the lower flange 110 of the four areas partitioned inside the steel box girder 100 are Concrete (C) is poured and cured in the included area. The concrete (C) may be conventional filling concrete (C), and polymer concrete (C) (or mortar) may be used to improve the effect of elastic resistance against bending.

[Embodiment 1-2] The present invention relates to a method for reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder during public use. In Example 1-1, the first auxiliary reinforcing member 300 ) to connect and install; and curing by pouring concrete (C); Installing one or more second auxiliary reinforcing members 400 in the form of vertically dividing each of the first auxiliary reinforcing members 300 extending in the width direction of both sides of the main reinforcing member 200 therebetween; further comprising include that

The present invention (Example 1-2) relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder in public. In Example 1-1, in order to implement the internal reinforcement method of the steel box girder 100 in common formed of the upper flange 130, the plurality of abdomens 120, and the lower flange, the first auxiliary reinforcing member 300 After the installation step, the step of installing the second auxiliary reinforcing member 400 in the form of vertically dividing each of the first auxiliary reinforcing members 300 extended in the width direction around the main reinforcing member 200 may be further included. This is added to improve the internal reinforcing performance of the steel box girder 100, and the second auxiliary reinforcing member 400 may also be segmented to a size that is easy to transport into the steel box girder if necessary. In addition, the third auxiliary reinforcing member may be horizontally installed in addition to the second auxiliary reinforcing member 400 , and in addition, the fourth auxiliary reinforcing member may be vertically installed to the third auxiliary reinforcing member.

[Embodiment 2-1] The present invention relates to a method for reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder in public. The main reinforcing member slit 210 formed on one side for insertion of the first auxiliary reinforcing member 300; and the main reinforcing member formed on one side of the first auxiliary reinforcing member 300 and of the main reinforcing member 200 A first auxiliary reinforcing member main slit 310 provided in a shape corresponding to the slit 210; further includes being provided and integrated by mutual coupling.

The present invention (Example 2-1) relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a public bridge girder. In embodiment 1-1, in implementing the steel box girder 100 reinforcing structure according to the reinforcing method for reinforcing the steel box girder 100, the main reinforcing member 200 has a first auxiliary reinforcing member 300 ) is provided with a main reinforcing member slit 210 for insertion of the first auxiliary reinforcing member 300 to the main reinforcing member 200 in order to connect and install, and the first auxiliary reinforcing member 300 is also a main reinforcing member slit ( A first auxiliary reinforcing member main slit 310 having a width and a length corresponding to 210); may be provided. These slits are provided to facilitate insertion and coupling between members, and may be formed in various widths and lengths for fastening and fixing effects. As a result, since the main reinforcing member 200 and the first auxiliary reinforcing member 300 each have the same coupling form so as not to be biased toward any one member for coupling, a balanced improvement in reinforcing performance of the reinforcing member according to the coupling can be expected.

[Embodiment 2-2] The present invention relates to a method for reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder during public use. In Example 2-1, the first auxiliary reinforcing member 300 ) is formed on one side of the first auxiliary reinforcing member auxiliary slit for insertion of the second auxiliary reinforcing member 400; and the first auxiliary reinforcing member 300 is formed on one side of the second auxiliary reinforcing member 400 ) of the second auxiliary reinforcing member 400 provided in a shape corresponding to the auxiliary slit of the first auxiliary reinforcing member is provided with a slit to be integrated by mutual coupling.

The present invention (Example 2-2) relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder in public. In embodiment 2-1, in implementing the reinforcement structure of the steel box girder 100, the first auxiliary reinforcing member 300 has a first auxiliary reinforcement for coupling with the second auxiliary reinforcing member 400, respectively. A member auxiliary slit and the second auxiliary reinforcing member 400 may be provided with a slit to improve the effect of reinforcing support by combining them. In this way, the third and fourth auxiliary reinforcing members may be extended and installed by providing a slit in the reinforcing member.

[Embodiment 2-3] The present invention relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder in public. It further includes one or more slits and/or through holes 500 for pouring concrete (C).

The present invention (Example 2-3) relates to a method of reinforcing the inside of the steel box girder 100 for improving the bending resistance performance of the public bridge girder. In Example 2-1, in implementing the steel box girder 100 reinforcement structure rule, the main reinforcing member 200 is provided in the form of vertically dividing the inside of the steel box girder 100. The steel box girder 100 ) The inner lower surface, that is, the lower end of the main reinforcing member 200 in contact with the upper surface of the lower flange 110 includes a through hole 500 and/or a slit for future concrete (C) pouring. The movement and bonding properties of the concrete C filled through the through holes 500 and slits are ensured. Additionally, reinforcing bars may be reinforced to improve the bondability of the concrete C through the through holes 500 and the slits implemented in the main reinforcing member 200 .

[Embodiment 2-4] The present invention relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder during public use. In Embodiment 2-1, the first auxiliary reinforcing member 300 ) further includes that one or more through-holes 500 for injection of concrete (C) are provided.

The present invention (Example 2-4) relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a public bridge girder. In Example 2-1, in implementing the reinforcement structure of the steel box girder 100, one or more through-holes 500 for concrete (C) injection are further formed in the first auxiliary reinforcing member 300 . The first auxiliary reinforcing member 300 is horizontally coupled to the main reinforcing member 200 and has an independent space between the lower flange 110 and the steel box girder 100 for securing compression resistance against bending. Including providing a through hole 500 for concrete (C) injection in order to provide the concrete.

[Embodiment 2-5] The present invention relates to a method for reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder during public use. In Example 2-1, the main reinforcing member 200 includes Formed by welding a plurality of articulated members in the steel box girder 100, the first auxiliary reinforcing member 300 further includes forming by welding one or more segmented members in the steel box girder 100 do.

The present invention (Example 2-5) relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder in public. In Example 2-1, in implementing the reinforcement structure of the steel box girder 100, the main reinforcing member 200 and the first auxiliary reinforcing member 300 may enter the steel box girder 100. The steel box girder 100 is manufactured in a segmented form of as much size as possible so that the worker transports the reinforcing member plate to the inner space of the steel box girder 100, and welding is easily provided inside the girder.

[Embodiment 3-1] The present invention relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder in public. In Example 2-1, the main reinforcing member 200 includes The method further includes forming a vertical cross-sectional area to gradually decrease from the negative moment region to the positive moment region.

The present invention (Example 3-1) relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder in public. In embodiment 2-1, in implementing the reinforcement structure of the steel box girder 100, the main reinforcing member 200 formed inside the steel box girder 100 is provided from the negative moment region to the positive moment region. However, in order to efficiently support the girder bending resistance of the reinforcing member, the vertical cross-sectional area of the main reinforcing member 200 may be gradually reduced toward the positive moment region.

[Embodiment 3-2] The present invention relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a bridge girder in public. The longitudinal one side further includes being provided in a curved shape.

The present invention (Example 3-2) relates to a method of reinforcing the inside of a steel box girder 100 for improving the bending resistance performance of a public bridge girder. In Embodiment 2-1, in implementing the reinforcement structure of the steel box girder 100, the main reinforcing member 200 may be formed in a curved shape along the longitudinal direction of the girder. This is for efficient load distribution support between the positive moment region and the negative moment region applied to the steel box girder 100 . Accordingly, the main reinforcing member 200 is supported in a curved shape between the positive moment region and the negative moment region in the inner center of the steel box girder 100 . In detail, the main reinforcing member 200 is mounted in a curved shape having an arcuate shape, and effectively supports the shear and buckling pressure applied to the steel box girder 100 . Accordingly, as the main reinforcing member 200 is provided in an arcuate shape, the deflection of the steel box girder 100 can be controlled and the load can be effectively distributed.

Br : Bridge G : Girder
P : Pier S : Slab
100: steel box girder
110: lower flange 120: abdomen
130: upper flange
200: main reinforcing member
210: main reinforcing member slit
300: first auxiliary reinforcing member
310: first auxiliary reinforcing member main slit
400: second auxiliary reinforcing member
500: through hole
C: Concrete

Claims (6)

In the steel box girder internal reinforcement method formed with an upper flange and a plurality of abdomens and lower flanges,
manufacturing the main reinforcing member and the first auxiliary reinforcing member for reinforcing the inside of the shared steel box girder to a size that is easy to transport;
transporting the segmented main reinforcing member and the first reinforcing member into the steel box girder;
welding and installing the segmented main reinforcing member along the longitudinal direction from the negative moment region to the positive moment region of the steel box girder in a form of vertically dividing the inner width direction central region of the steel box girder;
Welding a first auxiliary reinforcing member so as to expand in both width directions from the main reinforcing member in the form of horizontally dividing the inside of the steel box girder and connecting and installing the main reinforcing member;
and curing by pouring concrete into an area including the steel box girder lower flange among the four areas formed by the main reinforcing member and the first auxiliary reinforcing member.
Between the step of connecting and installing the first auxiliary reinforcing member and the step of pouring and curing the concrete, each of the first auxiliary reinforcing members extended in the width direction of both sides of the main reinforcing member is vertically divided into one or more second auxiliary installing a reinforcing member; provide more,
The step of installing the second auxiliary reinforcing member is
a first auxiliary reinforcing member auxiliary slit formed on one side of the first auxiliary reinforcing member 300 for insertion of the second auxiliary reinforcing member 400;
A second auxiliary reinforcing member 400 slit formed on one side of the second auxiliary reinforcing member 400 and having a shape corresponding to the first auxiliary reinforcing member auxiliary slit of the first auxiliary reinforcing member 300 is provided. Including; step of being integrated by mutual coupling;
One or more slits and/or through holes for pouring concrete are provided at the lower end of the main reinforcing member,
The first auxiliary reinforcing member is provided with one or more through-holes for concrete injection,
A method of reinforcing the inside of a steel box girder for improving the bending resistance performance of a bridge girder in the public, the one side of the main reinforcing member in the longitudinal direction is provided in a curved shape.
delete The method according to claim 1,
A main reinforcing member slit formed on one side of the main reinforcing member for insertion of a first auxiliary reinforcing member; and a main reinforcing member slit formed on one side of the first auxiliary reinforcing member and provided in a shape corresponding to the main reinforcing member slit of the main reinforcing member The first auxiliary reinforcing member main slit being provided; the steel box girder internal reinforcement method for improving the bending resistance performance of the public bridge girder further comprising being integrated by mutual coupling.
delete 4. The method according to claim 3,
The main reinforcing member is formed by welding a plurality of articulated members in the steel box girder, and the first auxiliary reinforcing member is formed by welding one or more articulated members in the steel box girder. A method of reinforcing the inside of a steel box girder to improve the bending resistance performance of the girder.
4. The method according to claim 3,
In the reinforcing structure for reinforcing a steel box girder, the main reinforcing member further comprises forming a vertical cross-sectional area to gradually decrease from a negative moment region to a positive moment region. How to reinforce the inside of the girder.

Images