KR102246209B1 - Bridge Girder And Pier Steel Wire Reinforcement Method - Google Patents

Abstract

The present invention relates to a reinforcing method of a bridge girder or a bridge post, which can easily promote bridge safety and maintenance and repair. More specifically, the reinforcing method of a bridge girder or a bridge post comprises: an installation surface grinding step of grinding the surfaces of three sides of the symmetric ends in the direction of short surfaces in the cross section structure of a bridge post or a girder of a rectangular bridge; a mounting part fixing hole drilling step of drilling a hole for temporarily fixing a front mounting part and a rear mounting part leveled and installed on the three sides of the symmetric ends on the surface; a mounting part fixing step of temporarily fixing the front mounting part and the rear mounting part on the fixing hole by an anchor; a fixing anchor installation step of drilling the surface by corresponding to the position of the fixing hole drilled on the front mounting part and the rear mounting part to fix the front mounting part and the rear mounting part by an anchor; a steel strand installation step of connecting the front mounting part and the rear mounting part on both sides, installing a steel strand including screw threads in opposite directions on both ends, and fixing the steel strand portion of the front mounting part and the rear mounting part by using a nut; a steel strand tensioning step of installing a hydraulic tensioning device on the screw thread portion of the steel strand on both sides penetrating the front mounting part to tension the steel strand until reaching a user-set hydraulic pressure applied to the hydraulic tensioning device; a steel strand capping step of installing a cap on the screw threads of both ends of the steel strand to reinforce the tensile force; and a displacement measurement device installation step of installing a displacement measurement device to measure the displacement of the steel strand to store the displacement in a main control box.

Description

Bridge Girder And Pier Steel Wire Reinforcement Method}

The present invention relates to a bridge girder or pier reinforcement method, and more particularly, in the bridge girder or pier reinforcement method, the reinforcement method is a cross-sectional structure of a girder or pier of a rectangular bridge, and ends 3 symmetrical to each other in the short plane direction. An installation surface grinding treatment step of grinding the dog side surface; A mounting hole perforation step of drilling a hole for temporarily fixing the front and rear mounts respectively installed on the surface of the three side surfaces of the distal ends that are symmetrical to each other; A mounting hole fixing step of temporarily fixing the front mounting hole and the rear mounting hole in the fixing hole with an anchor; A fixing anchor installation step of perforating a surface corresponding to the positions of the fixing holes drilled in the front mounting hole and the rear mounting hole to fix the front mounting hole and the rear mounting hole with an anchor; A strand installation step of connecting the front and rear mounting ports on both sides, installing strands including threads in opposite directions at both ends, and fixing the strands of the front and rear fittings using nuts; A step of tensioning the stranded wire by installing hydraulic tensioning devices on the threaded portions of the stranded wires on both sides passing through the entire mounting hole to tension the stranded wire until the hydraulic pressure applied to the hydraulic tensioning device set by the user is reached; Capping step of reinforcing tensile force by installing a cap on the threaded portions of both ends of the stranded wire; And a displacement measuring device installation step of installing a displacement measuring device to measure the displacement of the stranded wire and store it in the main control box.

When cracks or breakages occur in bridge piers or girders, reinforcement of piers is required.

As such a pier or girder reinforcement method, conventionally, a cross-sectional enlargement method or a method of wrapping steel plates and fibers has been mainly used, but these methods were limited to the role of preventing additional cracks because they were insufficient to bear the reduced load bearing capacity of concrete.

To overcome this, the existing inventor Patent Registration No. 0575266 "Pier Reinforcement Device" (Patent Document 1) has been disclosed, and the prior invention includes a guide portion fixedly installed at both ends of the pier in a form surrounding both ends of the pier and ; A fixing unit fixedly installed at a front intermediate portion and a rear intermediate portion of the pier; One end is fixed to the fixing part of the front middle part, and the other end is fixed to the fixing part of the middle part of the rear after passing through the guide part therefrom, to a pier reinforcing device comprising a tension member that is tensionably installed in the longitudinal direction so that it can be wound around the pier and tightened. In the above, the fixing unit includes a fixing plate fixedly coupled in a state in close contact with the middle part of the pier, and a through hole provided on the fixing plate, through which the tension member penetrates, so that the tension member is fixed in a state through which the tension member passes. 'A pier reinforcement device, comprising a anchorage support plate and two or more reinforcing plates that are installed on the fixed plate between the two anchorage support plates to form a space for accommodating the ends of the tension member together with the anchorage support plate. I'm suggesting.

However, the prior invention has problems in terms of economical efficiency and workability such as a central reinforcement portion being installed, and in terms of maintenance when tension or tensile force is released.

In addition, the existing inventor Patent Registration No. 1974884 "A pier reinforcement device capable of adjusting the length with a fixing bracket" (Patent Document 2) is disclosed. The prior invention is a vertically formed first rear reinforcement plate and a first rear reinforcement plate. A side reinforcement plate that is vertically joined in a right-angled inward direction at one end of the first back reinforcement plate, an inner coupling plate that is vertically joined in a right angle outward direction at a point spaced a certain distance from the other end of the first rear reinforcement plate, and the other end is internally joined. A horizontal reinforcement plate formed in the horizontal direction of a letter B on the outer surface of the first rear reinforcement plate and the side reinforcement plate so as to be bonded to the inner side of the plate, and at a position spaced inward by a certain distance from the outer end of the inner side of the inner bonding plate. It is bonded to the inner side of the inner coupling plate and the outer side of the horizontal reinforcement plate at the same time and protrudes a certain length outward than one end of the first rear reinforcement plate to form a plurality of through holes in the protruding part, parallel to the first rear reinforcement plate. The second rear reinforcement plate is formed in a manner that is formed by interviewing the portion where the through hole of the second rear reinforcement plate further protrudes to the outside of the first rear reinforcement plate is formed, and the acupressure plate is formed with a through hole corresponding to the through hole. Fixing brackets that are respectively installed to be symmetrical to each other at both ends of the longitudinal direction; A plurality of steel wires configured in the longitudinal direction of the pier, and each of both ends of the pier passing through the upper and/or lower portions of the horizontal reinforcing plate of the fixing bracket, passing through one side of the second rear reinforcing plate, and being fixed to the outer surface of the acupressure plate; A high-strength steel rod that is configured in the width direction of the pier and has both ends penetrated through the inner coupling plates of the fixing brackets on both sides to adjust the length to be coupled; a fixing bracket and a pier reinforcing device configured to include a length adjustment are proposed.

However, the prior invention includes a high-strength steel bar 30 to compensate for the configuration that gives the tension of the side portion and the configuration that supports it is weak.When any one of these high-strength steel bars is damaged, the balance of the total tension is easily There is a problem of being destroyed, there is a problem that economical efficiency and workability are deteriorated due to the complicated configuration of the fixing bracket, and there is a problem that there is no solution in terms of maintenance when the tension or tensile force is released.

The technical problem to be achieved by the present invention is to provide a method of reinforcing an aging pier or bridge that has been damaged or damaged by a relatively simple time series configuration.

Another object of the present invention is to facilitate the safety and maintenance of the bridge, including a displacement measuring device that measures and stores the displacement of a strand as a safety device or maintenance means after the bridge reinforcement method is implemented.

Another object of the present invention is to provide a plurality of anti-loosening means for not lowering the tensile force or tension of a stretched strand to maintain the reinforcement of the pier or the bridge for a long period of time.

Bridge girder or pier reinforcement method according to an embodiment of the present invention for achieving the above-described problem

Installation surface grinding treatment step (S100) of grinding the surfaces of the three symmetrical ends of the girders of the rectangular bridge or the cross-sectional structure of the piers in the short plane direction (S100);

Mounting hole drilling step (S200) of perforating a hole for temporarily fixing the front mounting hole 100 and the rear mounting hole 200, which are respectively installed by aligning horizontally with each other on the symmetrical ends of the three side surfaces (S200);

Mounting fixture fixing step (S300) of temporarily fixing the front mounting hole 100 and the rear mounting hole 200 with an anchor in the perforated fixing hole;

A fixed anchor installation step of fixing the front mounting hole 100 and the rear mounting hole 200 with an anchor by drilling a surface corresponding to the position of the fixing hole drilled in the front mounting hole 100 and the rear mounting hole 200 (S400) );

The front mounting hole 100 and the rear mounting hole 200 are connected to each other from both sides, but a stranded wire 300 including threads in opposite directions is installed at both ends, and the front mounting hole 100 and the rear mounting hole 200 ) Of the stranded wire part is fixed using a nut and a washer (S500);

Hydraulic tensioning devices (HS) are installed on the threads of the strands 300 on both sides passing through the electric mounting hole 100, respectively, until the hydraulic tensioning devices (HS) set by the user reach the hydraulic pressure applied to the hydraulic tensioning devices (HS) set by the user. The step of tensioning the stranded wire (S600);

Stranded wire capping step (S700) of reinforcing tensile force by installing a cap on the threaded portions of both ends of the stranded wire 300 (S700); And

It consists of; a displacement measuring device installation step (S800) of installing a displacement measuring device to measure the displacement of the stranded wire and store it in the main control box.

The front mounting hole 100 is installed by passing through two front plate 110 on both sides of the strand 300 and a long support hole RH formed on the outside of the front plate 110. Doedoe consisting of a plate 120, each plate is preferably formed with a plurality of fixing holes formed in two or more rows through which the anchor can be fixed through the pier or the girder so as to be coupled.

The rear mounting hole 200 is a rear locking plate installed through two rear plate 210 on both sides on which the strand is installed and a long support hole RH formed on the outer side of the rear plate 210 ( 220), but it is preferable that each plate has a plurality of fixing holes formed in two or more rows through which the anchor can be fixed so as to be coupled with the pier or the girder.

In the front plate 110, the plate on the side sectional surface is formed in a'c' shape, and a strand support tool (HP) having a hole through which the strand thread passes through the middle plate is formed at the center and the inner side of the front plate 110. It is installed in succession.

The rear plate 210 is provided with a stranded wire supporter HP formed in a central portion of the front side plate 110 and a stranded wire supporter HP in a symmetrical shape.

It is preferable that a plurality of stranded wire supports (HP) installed on the front plate 110 and the rear plate 210 may be installed in one or more rows above and below according to a design corresponding to the size of the girder or pier.

An epoxy filling step (S450) of sealing the outer part of the mounting hole and the surface gap between the fixing anchor installation step (S400) and the stranding wire installation step (S500), and then injecting epoxy to fill it but curing for more than 24 hours (S450); This is desirable.

It is preferable that the anchor used in the fixing step (S300) of the mounting hole is fixed by injecting a resin-based adhesive before insertion using a chemical anchor and hardening the anchor.

The stranded wire 300 is composed of a central part (not given a sign) made of a steel cable, a sock end part made up of a threaded part (not given a sign) in opposite directions to each other, and a member part (not given a sign) connecting the steel cable and the threaded part do.

A nut and an anti-loosening washer are installed on each threaded portion as a set, and the stranded wire 300 is tensioned by fastening and installing in the outer portion of the hole through which the thread passes through each strand of strand support.

The displacement measuring device (not shown and not given a sign) is installed by connecting the central part of the stranded wire and a part of the bridge, but when displacement of the stranded wire 300 occurs, the displacement data converted into units of angle and length by a sensor is set by wireless communication. It is characterized in that it is stored in a main control box (not shown and not assigned a symbol) every time or every time a displacement occurs.

The present invention has the following effects.

(1) Deteriorated piers or bridges that are damaged or in progress can be reinforced economically and mechanically robustly by the present invention.

(2) The safety and maintenance of the bridge can be facilitated by including a displacement measuring device that measures and stores the displacement of the stranded wire as a safety device or maintenance means after the bridge reinforcement method is implemented.

(3) It is possible to maintain the reinforcement of piers or bridges for a long period of time by providing a plurality of anti-loosening means that do not reduce the tension or tension of the stretched strand.

1 is a flow chart showing a time-series sequence of a bridge girder or pier reinforcement method according to the present invention.
2 is a perspective view showing a bridge girder part constructed according to the present invention of the bridge girder or pier steel strand reinforcement method.
3 is a partial perspective view showing a hole in which a fixing anchor is to be installed is perforated on a surface of a girder portion in which a front mounting hole or a rear mounting hole is to be installed.
4 and 5 are partial perspective views showing that the front mounting or the rear mounting is fixed.
6 is a partial perspective view showing that a stranded wire is additionally installed and tensioned.
7 is a perspective view showing the installation of a cap at the end portion of the stranded wire.

First, prior to entering the detailed description of the present invention, if it is determined that a detailed description of a known technology or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of users or operators, so the definitions describe the "bridge girder or pier reinforcement method" according to the present invention. It should be made based on the contents throughout this specification.

The terminology used in this specification is for referring only to specific embodiments and is not intended to limit the present invention. Singular forms as used herein also include plural forms unless the phrases clearly indicate the opposite.

As used herein, the meaning of "comprising" specifies a specific characteristic, region, integer, step, action, element and/or component, and other specific characteristic, region, integer, step, action, element, component, and/or It does not exclude the presence or addition of the military.

All terms including technical and scientific terms used in the present specification have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. The terms defined in the dictionary are further interpreted as having a meaning consistent with the related technical literature and the presently disclosed content, and are not interpreted in an ideal or very formal meaning unless defined.

1 is a flow chart showing a time-series sequence of the bridge girder or pier strand reinforcement method of the present invention, FIG. 2 is a perspective view showing the bridge girder part constructed according to the bridge girder or pier strand reinforcement method of the present invention, and FIG. A partial perspective view showing a hole in which a fixing anchor is to be installed is perforated on the surface of a girder portion where the old or rear mounting hole is to be installed, and FIGS. 4 and 5 are partial perspective views showing that the front or rear mounting hole is fixed, and FIG. 6 is a partial perspective view showing that a strand is additionally installed and tensioned, and FIG. 7 is a perspective view showing a cap installed at an end portion of the strand.

Referring to Figure 1, the bridge girder or pier reinforcement method is

Installation surface grinding treatment step (S100) of grinding the surfaces of the three symmetrical ends of the girders of the rectangular bridge or the cross-sectional structure of the piers in the short plane direction (S100);

Mounting hole drilling step (S200) of perforating a hole for temporarily fixing the front mounting hole 100 and the rear mounting hole 200, which are respectively installed by aligning horizontally with each other on the symmetrical ends of the three side surfaces (S200);

Mounting fixture fixing step (S300) of temporarily fixing the front mounting hole 100 and the rear mounting hole 200 with an anchor in the perforated fixing hole;

A fixed anchor installation step of fixing the front mounting hole 100 and the rear mounting hole 200 with an anchor by drilling a surface corresponding to the position of the fixing hole drilled in the front mounting hole 100 and the rear mounting hole 200 (S400) );

The front mounting hole 100 and the rear mounting hole 200 are connected to each other from both sides, but a stranded wire 300 including threads in opposite directions is installed at both ends, and the front mounting hole 100 and the rear mounting hole 200 ) Of the stranded wire part is fixed using a nut and a washer (S500);

Hydraulic tensioning devices (HS) are installed on the threads of the strands 300 on both sides passing through the electric mounting hole 100, respectively, until the hydraulic tensioning devices (HS) set by the user reach the hydraulic pressure applied to the hydraulic tensioning devices (HS) set by the user. The step of tensioning the stranded wire (S600);

Stranded wire capping step (S700) of reinforcing tensile force by installing a cap on the threaded portions of both ends of the stranded wire 300 (S700); And

It consists of; a displacement measuring device installation step (S800) of installing a displacement measuring device to measure the displacement of the stranded wire and store it in the main control box.

In the bridge girder or pier reinforcement method of the present invention, the'pier' is preferably interpreted as meaning a wide portion of the upper part of the pier cap.

It goes without saying that the tension of the stranded wire is to simultaneously stretch the strands installed on both sides, but the pressure gauges of the hydraulic tensioning device (HS) must be equally adjusted to each other.

Referring to Figures 4 and 5, the front mounting hole 100 includes two front plates 110 on both sides on which the strands 300 are installed, and an elongated support hole (RH) formed on the outside of the front plate 110. Doedoe consisting of a front engaging plate 120 installed through the through, each plate is preferably formed with a plurality of fixing holes formed in two or more rows through which anchors can be fixed through piers or girders so as to be coupled.

4 and 5, the rear mounting hole 200 passes through two rear plates 210 on both sides on which the strand is installed and a long support hole RH formed on the outer side of the rear plate 210. It is composed of a rear locking plate 220 to be installed, and each plate is preferably formed with a plurality of fixing holes formed in two or more rows through which anchors can be fixed so as to be coupled to a pier or a girder.

These fixing holes must be accurately drilled with a core drill, and it is desirable that all plates constituting the front and rear mounting holes minimize thermal deformation but must be manufactured by welding procedures.

Referring to Figures 4 and 5, the front plate 110 has a plate on the side sectional shape of a'c' shape, and a strand support tool (HP) in which a hole through which the strands of the strand are passed through the middle plate is formed is a front plate ( 110) is continuously installed in the central and inner parts.

Referring to FIGS. 4 and 5, the rear plate 210 is provided with a strand support tool HP formed in a central portion of the front plate 110 in a symmetrical shape.

It goes without saying that the wire supports formed on the front side plate and the rear side plate should be constructed to be horizontally aligned with each other, and in particular, the holes through which the steel wires pass should be constructed so that they are exactly aligned with each other.

4 and 5, a plurality of stranded wire supports (HP) installed on the front plate 110 and the rear plate 210 are installed in one or more rows above and below according to the design corresponding to the size of the girder or pier. It is desirable that it can be.

Referring to Figure 1, between the fixing anchor installation step (S400) and the stranded wire installation step (S500), the outer part of the mounting hole and the surface gap is sealed, and then filled by injecting epoxy, but the epoxy filling step (S450) of curing for more than 24 hours (S450). ); is preferably added.

The epoxy serves as a buffer material between the mounting hole and the construction object or the surface thereof. In particular, it serves to prevent the surface of the construction object from being damaged by an external force when the strand is stretched.

Referring to Figures 4 and 5, it is preferable that the anchor used in the fixing step (S300) of the mounting hole is fixed by injecting a resin-based adhesive before insertion using a chemical anchor and hardening the anchor.

At this time, the anchor and the surroundings of the anchor are also filled with epoxy to be fixed, but prevent damage by buffering rust or external impact by avoiding contact with outside air.

6 and 7, the stranded wire 300 is a member portion connecting the steel cable and the threaded portion to the both ends consisting of a central portion (not given a sign) made of a steel cable and a threaded portion (not given a sign) in opposite directions to each other. It consists of (unsigned).

Referring to FIG. 7, a nut and an anti-loosening washer are installed as a set on each of the threaded portions, and the stranded wire 300 is tensioned by fastening and installing at the outer portion of the hole through which the thread passes through each strand of strand support.

The displacement measuring device (not shown and not given a sign) is installed by connecting the central part of the stranded wire and a part of the bridge, but when displacement of the stranded wire 300 occurs, the displacement data converted into units of angle and length by a sensor is set by wireless communication. It is characterized in that it is stored in the main control box (not shown and not given a sign) whenever time and displacement occurs.

It is preferable that the displacement measuring device uses a device capable of recognizing the displacement even by the neck.

This displacement data is regularly or irregularly checked by the user to determine the extent of the displacement of the strand, and accordingly, a maintenance plan can be specifically established.

The present invention has the following effects.

(1) Deteriorated piers or bridges that are damaged or in progress can be reinforced economically and mechanically robustly by the present invention.

(2) The safety and maintenance of the bridge can be facilitated by including a displacement measuring device that measures and stores the displacement of the stranded wire as a safety device or maintenance means after the bridge reinforcement method is implemented.

(3) It is possible to maintain the reinforcement of piers or bridges for a long period of time by providing a plurality of anti-loosening means that do not reduce the tension or tension of the stretched strand.

100: front mounting 200: rear mounting
300: stranded wire 110: front side plate
210: rear plate 120: front locking plate
220: rear locking plate HP: stranded wire support
RH: Support hole HS: Hydraulic tensioning device
Cap: Cap

Claims (6)

In the bridge girder or pier reinforcement method,
The reinforcement method,
An installation surface grinding treatment step of grinding the surfaces of the three symmetrical ends of the girders of the rectangular bridge or the cross-sectional structure of the piers in the short plane direction;
A mounting hole drilling step of drilling a hole for temporarily fixing the front and rear mounting holes respectively installed on the surface by aligning horizontally with each other on the three side surfaces of the distal ends that are symmetrical to each other;
A mounting hole fixing step of temporarily fixing the front mounting hole and the rear mounting hole in the fixing hole with an anchor;
A fixing anchor installation step of perforating a surface corresponding to the positions of the fixing holes drilled in the front mounting hole and the rear mounting hole to fix the front mounting hole and the rear mounting hole with an anchor;
A strand installation step of connecting the front and rear mounting ports on both sides, installing strands including threads in opposite directions at both ends, and fixing the strands of the front and rear fittings using nuts;
A step of tensioning the stranded wire by installing hydraulic tensioning devices on the threaded portions of the stranded wires on both sides passing through the entire mounting hole to tension the stranded wires until reaching hydraulic pressure applied to the hydraulic tensioning device set by the user;
Capping step of reinforcing tensile force by installing a cap on the threaded portions of both ends of the stranded wire; And
It consists of a displacement measuring device installation step of installing a displacement measuring device to measure the displacement of the stranded wire and store it in the main control box;
The front mounting is composed of two front side plates on both sides on which the strand is installed and a front engaging plate installed through an elongated support hole formed on the outside of the front side plate, and each plate can be coupled to a pier or a girder. There are a plurality of fixing holes formed in two or more rows through which the anchor can be fixed,
The rear mounting hole is composed of two rear plate on both sides on which the strand is installed and a rear engaging plate installed through an elongated support hole formed on the outer side of the rear plate, and each plate may be coupled to a pier or a girder. There are a plurality of fixing holes formed in two or more rows that can be fixed through the anchor so that
In the front plate, the plate on the side section is formed in the form of'C', and a stranded wire support having a hole through which the stranded wire thread passes through the middle plate is continuously installed at the center and the inner side of the front plate,
The rear plate is provided with a stranded wire support in a symmetrical shape with a stranded wire support formed in the center of the front plate,
A plurality of stranded wire supports installed on the front plate and the rear plate may be installed in one or more rows above and below according to a design corresponding to the size of the girder or pier,
The stranded wire is composed of a central part composed of a steel cable, an both end part composed of a threaded part in opposite directions, and a member part connecting the steel cable and the threaded part,
A bridge girder or pier reinforcement method characterized in that a nut and an anti-loosening washer are installed as a set in each threaded portion, and the strands are tensioned by fastening and installing at the outer part of the hole through which the thread passes through each strand support. delete The method according to claim 1,
The fixed anchor installation step; and an epoxy filling step of sealing the outer portion of the mounting hole and the surface gap between the installation step and the stranded wire, and then injecting epoxy to fill it, but curing for more than 24 hours; Stranded wire reinforcement method. The method according to claim 1,
The anchor used in the step of fixing the mounting hole is a bridge girder or pier reinforcement method, characterized in that a resin-based adhesive is injected before insertion using a chemical anchor, and the anchor is hardened and fixed. delete The method according to claim 1,
The displacement measuring device is installed by connecting the central part of the strand and a part of the bridge, but when the displacement of the strand occurs, the displacement data converted by the sensor into the angle and length unit is stored in the main control box at the time set by wireless communication and every time displacement occurs. Bridge girder or pier reinforcement method, characterized in that.

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