KR100493514B1 - Maintenance and reinforcing apparatus for section enlargement for reinforcing bearing power of pier in reinforced concrete bridge and construction method of repairing and reinforcing for section enlargement using the apparatus - Google Patents

Abstract

        The present invention relates to a cross-sectional enlargement reinforcement construction method using a cross-sectional enlargement reinforcement device for reinforcing the bearing capacity in reinforced concrete bridges to increase the load bearing capacity by expanding the cross-section of the bridge bridge of the existing bridge structure, the outer peripheral surface of the bridge Install a plurality of base iron plate having a constant size in the pier length at regular intervals, attach the acupressure iron plate at regular intervals on the base iron plate, and install the "c" shaped fixing device to cross the upper and lower portions of the acupressure plate. However, the grooves formed by the two wing parts are installed to face outwards so that the vertical reinforcing bars are installed in the longitudinal direction of the piers in the grooves, and the strand is installed on the vertical reinforcing bar installed in the acupressure device and the upper and lower parts of the acupressure device. It is installed on the outer circumferential surface of the piers on the vertical reinforcing bars installed between the grooves, and one end of the strand is in the form of a letter After fixing the strand by using the anchorage in the anchoring hole formed in the protrusion of one side of the bidirectional strand anchorage of the device, the other anchorage penetrates one end of the stranded wire installed over the outer circumferential surface of the piers and anchored by the anchorage. After installing the device and connecting the stranded tension hydraulic jack to the stranded wire penetrating at one end of the stranded wire fixing device, tensioning the stranded wire, and then fixing the stranded wire through the anchoring hole throughout the piers, It is related to repair reinforcement to increase the load bearing capacity of bridge piers by expanding the cross section of existing piers by installing and pouring concrete.

Description

        Section maintenance and reinforcing apparatus for section enlargement for reinforcing bearing power of pier in reinforced concrete bridge and construction method of repairing and reinforcing for section enlargement using the apparatus}

         The present invention relates to a cross-sectional enlargement repair reinforcement construction method using a cross-sectional extension repair reinforcement device for reinforcing the bearing capacity of reinforced bridges in order to increase the load bearing capacity by expanding the cross section of the bridge bridge of the existing bridge structure, the outer peripheral surface of the bridge Install a plurality of base iron plate having a predetermined size in the pier length direction at regular intervals, attach the pressure plate to the base plate at regular intervals, and cross the "c" shaped fixing device on the upper and lower parts of the steel plate It is installed so that the groove formed by the two wings to the outer side to install the vertical reinforcing bars in the longitudinal direction in the groove, and the strand is fixed on the vertical bar installed in the shiatsu device and installed in the upper and lower portions of the shiatsu device It is installed over the outer circumferential surface of the piers in the vertical reinforcing bars installed between the grooves of the device, After fixing the strand by using the anchorage in the anchoring hole formed in the protrusion of one side of the "d" shaped bidirectional strand strand anchoring device, the other anchorage penetrates one end of the stranded wire that is installed over the outer circumferential surface of the piers and anchored by the anchorage Install the section expansion repair reinforcement device, connect the stranded tension hydraulic jack to the stranded line penetrated at one end of the bidirectional stranded anchorage device, tension the stranded line, and then fix the stranded line to the anchoring hole using the anchorage. After the implementation, the formwork on the outside, and the concrete is poured into a repair reinforcement to increase the load bearing capacity of the pier by expanding the cross section of the existing pier.

        The present invention is composed of a reinforcing wire and a vertical reinforcing bar serving as a horizontal reinforcing bar to extend the cross-section of the bridge piers pre-stressed by introducing a tensile force to the steel wire to enhance the load bearing capacity of the bridge structure.

        Another object of the present invention is to improve the structural performance, such as load capacity, toughness and ductility, deformation performance by combining the strands and vertical reinforcement and concrete than the conventional structure enlarged reinforcement reinforced with conventional reinforced concrete, and also the vertical reinforcement It is possible to improve the performance of existing structures by providing compressive force to the structure and to improve the required structural performance without making the cross section of the pier larger than necessary, and the conventional methods apply a large amount of perforations to install anchors in structures. The disadvantage of damaging the structure is to provide the construction method by minimizing the damage of the structure by applying the compressive force through the tension of the strand to the vertical reinforcing bar to play the role of anchor and the reinforcing bar for horizontal and reinforcement. have.

        It is another object of the present invention to provide a construction method that can secure the seismic resistance to the damage elements such as earthquakes applied from the outside by expanding the cross section of the bridge to improve the strength and performance of the structure.

        Conventional technology is a method of expanding the cross section using anchors and reinforcing bars, and drilling anchor holes in the existing concrete piers by filling and filling the fixing filler to fix the anchors, and then reinforcing the reinforcing bars around the piers and placing concrete. Is done. In order to anchor anchors in existing structures, the corresponding number of anchor holes must be drilled. Therefore, the increase in the number of anchor holes will damage existing structures, inject fixing anchors into anchor holes, and reinforce reinforcing bars. Is quite cumbersome and requires a lot of work. In addition, the reinforcement structure consisting of only reinforcing steel and concrete is increased in order to secure sufficient required structural performance, resulting in loss of material and cost, and applied in the case of following paper and work restrictions such as bridges in urban areas. Difficult to do

        Another conventional technique is a method of fixing steel fixing plate and reinforcing plate made in the form of covering the whole structure around the outer circumferential surface of the structure by installing anchors, and by reinforcing the concrete by applying tension after installing the strand. However, there is no application for actual construction, and the steel fixing plate is in contact with all areas of the pier between the existing structure and the newly placed concrete, so that the adhesive strength of new and old concrete is reduced, which may cause the degradation of crack and reinforcement performance due to material separation. As a relationship, there is a problem that is difficult to apply to actual construction.

        The present invention has been proposed to solve the problems as described above, by installing a cross-sectional extension repair reinforcement device consisting of the reinforcement line and the vertical reinforcement of the tension material that acts as a horizontal reinforcement and pouring the concrete after introducing the tensile force to the strands By expanding the cross section of the bridge, it can be repaired while reinforcing the load bearing capacity of the bridge, and also by applying the compressive force to the vertical reinforcing bar to improve the performance of the existing structure and secure the required structural performance without increasing the enlarged cross section. However, the conventional conventional method damages the structure by applying a large number of perforations in order to install the anchor in the structure. By applying the compressive force through the tension of the strand to the vertical reinforcing bar, the role of anchor and drawing force and the role of horizontal rebar In order to minimize damage to the structure. Future technology is to provide a larger cross-section and construction constraints and cost using a rehabilitation apparatus of the structure through a cross-sectional close-up method that can be effectively applied to structures who can not be performed due to a decrease in workability.

        In order to achieve the above object, the present invention relates to a repair reinforcement construction method using a cross-sectional enlargement repair reinforcement device for improving the structural performance by expanding and reinforcing the cross-section of the existing structure, such as piers, a certain size on the outer peripheral surface of the piers (11) Install a plurality of base iron plate 23 having a pier length at regular intervals, and install the pressure device 40 attached to the base iron plate 23 with a pressure plate (41) at regular intervals, the pressure plate The upper and lower portions of the 41 are provided with the "c" shaped fixing device 50 to cross each other, and the grooves 51 formed by the two wing portions 52 are installed to face outwards so that the vertical reinforcing bars in the grooves 51 are provided. (22) is installed in the longitudinal direction of the piers, the strand 21 is the groove of the fixing device 50 is installed on the vertical bar 22 and the upper and lower portions of the acupressure device (40) installed in the acupressure device (40) ( 51) on the outer circumferential surface of the piers (11) on the vertical reinforcing bars (22) installed between The one end of the strand 21, the strand 21 using the fixing hole 32 in the fixing hole 31 formed in the projection 33 of the one side of the bi-directional strand strand fixing device 30 of the "-" shape. After fixation, the other fixing unit 32 penetrates one end of the strand 21 provided over the outer circumferential surface of the bridge 11 and is fixed by using the fixing unit 32 to install the cross-sectional enlargement reinforcing reinforcement device 20. After connecting the strand wire tension hydraulic jack 60 to the strand wire 21 installed at one end of the bidirectional strand wire fixing device 30 to tension the strand wire 21, and then to the fixing hole 31 using the fixing hole 32. After the fixing work is carried out over the entire piers, the formwork is installed on the outside, and the concrete is poured to enlarge the cross section of the existing piers to increase the load bearing capacity of the piers.

        The construction method of the present invention is as follows.

        Installing a base iron plate (23) having a predetermined width on an outer circumferential surface of the bridge (11), and installing the base iron plate (23) in the entire longitudinal direction of the bridge (11) at regular intervals;

        Acupressure apparatus 40 for installing welding the acupressure iron plate 41 at a predetermined interval on the base iron plate 23;

        Installing a fixing device (50) alternately adjacent the acupressure device (40);

        Installing a vertical reinforcing bar (22) on the entire outer circumferential surface of the piers (11) on the groove (51) of the fixing device (50) and the acupressure iron plate (41) of the acupressure device (40);

        Installing a strand 21 over an outer circumferential surface of the piers 11 to overlap the vertical reinforcing bars 22;

        Fixing one end of the strand 21 to the fixing hole 31 of the protrusion 33 formed on one side of the bidirectional strand fixing apparatus 30 using a fixing tool 32;

        Fixing another end of the strand 21 to the fixing hole 31 of the protrusion 33 formed at the other side of the bidirectional strand fixing apparatus 30 by using the fixing tool 32;

        The stranded wire 21 is fixed to the anchoring hole 32 of the fixing hole 31 formed in the protruding portion 33 of the one side using a stranded wire tension hydraulic jack 60, and then the stranded wire 21 is fixed to the anchoring hole 32. Fixing to fixed;

        Installing formwork on the outside of the strand 21 provided on the outer circumferential surface of the piers 11 and pouring concrete;

        It is a construction method characterized in that the curing work of the concrete is completed, consisting of steps to remove the formwork and cleanly the appearance.

        Hereinafter, the configuration and operation of the present invention will be described in detail by the accompanying drawings.

        1 is a view showing the installation of the cross-sectional enlarged reinforcing reinforcement device of the present invention in the pier as a base iron plate 23 having a predetermined size on the outer circumferential surface of the pier 11 over a plurality of intervals over the entire length of the pier 11 And the acupressure device 40 to which the acupressure iron plate 41 is attached to the base iron plate 23 at a predetermined interval, and the fixing device 50 is intersected above and below the acupressure iron plate 41. The vertical bar 22 is installed in the longitudinal direction of the piers 11 on the shiatsu steel plate 41 and the fixing device 50, and the strand 21 is vertically installed on the shiatsu steel plate 41 of the shiatsu device 40. On the rebar 22 and the vertical reinforcing bar 22 installed in the fixing device 50 installed in the upper and lower portions of the shiatsu device 40 is installed at regular intervals over the outer peripheral surface of the piers 11, the stranded wire 21 Settlement of the bidirectional strand wire fixing device 30 to be in one place, the bidirectional steel The work of fixing the strand wire 21 by connecting the strand wire tension hydraulic jack 60 to the strand wire 21 installed through one end of the wire fixing device 30 and fixing the strand wire 21 to the fixing hole 31 using the fixing hole 32. After carrying out the whole over the pier (11) to install the formwork on the outside and to pour concrete to expand the cross section of the existing pier.

        The strand 21 serves as a horizontal reinforcement, and the installation interval and the acupressure device 40 and the fixing device 50 are installed at regular intervals in the longitudinal direction of the piers 11 of the base iron plate 23 is installed The horizontal spacing is generally the same as the spacing of the horizontal and vertical rebars when the rebars are assembled and installed. The strand 21 is installed on the outside of the vertical reinforcing bar 22 when the tension is transmitted to the vertical reinforcing bar 22 and the acupressure iron plate 41 to compress the reinforcing effect and the vertical reinforcing bar 22 by the compressive force in the concrete structure The compressive force is the strand 21 is itself fixed to the vertical rebar 22 and serves as a horizontal reinforcement as a horizontal reinforcing material.

        In addition, the tensile force is introduced into the strand 21 to compress the vertical reinforcing bar 22 so that the compressive force of the vertical reinforcing bar 22 and the stranded wire 21 is introduced into the acupressure plate 41 to serve as an anchor, and the strand This is to allow the prestress to be introduced into the piers 11 by the tensile force introduced in (21) so as to exert the required supporting force without expanding the cross section more than necessary.

        The fixing device 50 is installed in the upper and lower portions of the shiatsu steel plate 41 to prevent the movement of the vertical bar 22. In order to prevent such movement, if the fixing device 50 is installed adjacent to the upper portion of the shiatsu steel plate 41, the next shiatsu steel plate 41 is provided with the fixing device 50 adjacent to the lower portion of the shiatsu steel plate 41. The work is repeatedly installed over the outer circumferential surface of the piers 11 and the entire length of the piers, thereby preventing the movement of the vertical reinforcing bars 22 provided on the shiatsu steel plate 41.

        The stranded wire tension hydraulic jack is specially designed to fix the stranded wire 21 in one place by the bidirectional stranded wire fixing device 30 so as to fix the stranded wire 21 and introduce a tensile force in a narrow place. It is to tension by using the 60 and fixed to the bidirectional strand wire fixing device 30.

       Since the acupressure device 40 and the fixing device 50 are installed on the base steel plate 23, the vertical rebar 22 and the strand 21 play a role of reinforcing bars, and thus the left and right behaviors of the reinforcing bars are prevented. It will play the role of fixing material to prevent the departure of the anchor and the strand.

        The portion where the base plate 23 is not installed on the outer peripheral surface of the piers is chipped or scratched to improve adhesion to the piers when casting concrete is completed after the installation of the cross-sectional extension repair reinforcement apparatus 20 is completed. .

        FIG. 2 is an enlarged view of a portion “A” of FIG. 1, and a plurality of base iron plates 23 having a predetermined size are installed on the outer circumferential surface of the piers 11, and a predetermined interval is provided on the base iron plates 23. Place the acupressure device 40 attached to the acupressure iron plate 41, and install the "c" shaped fixing device 50 to the upper and lower portions of the acupressure iron plate 41 to cross, both wings 52 It is installed so that the groove 51 formed by the toward the outside to install a vertical reinforcing bar 22 in the longitudinal direction of the bridge 11 in the groove 51, the strand 21 is a vertical reinforcing bar installed in the shiatsu device 40 (22) It is installed over the outer peripheral surface of the pier to the vertical reinforcing bar 22 provided between the groove 51 of the fixing device 50 installed alternately above and below the shiatsu device 40.

        FIG. 3 is an enlarged view showing a detail "B" of FIG. 1, and FIG. 4 is a detailed view showing the bidirectional strand wire fixing device of FIG. 3, and the base iron plate 23 having a predetermined size on the outer circumferential surface of the piers 11. Install a plurality of, the acupressure apparatus 40 to which the acupressure iron plate 41 is attached to the base iron plate 23 at a predetermined interval, and the "c" shape is fixed to the upper and lower portions of the acupressure iron plate 41. The device 50 is installed to cross, but the grooves 51 formed by the two wing portions 52 face outwards so that the vertical reinforcing bars 22 are installed in the grooves 51 in the pier longitudinal direction, and the stranded wire ( 21 is a pier circumferential surface of the vertical reinforcing bar 22 installed between the grooves 51 of the fixing device 50 installed in the upper and lower portions of the acupressure device 40 and the vertical reinforcing bar 22 installed in the acupressure device 40 Installed over, the fixing of the strand 21 is to use a bidirectional strand wire fixing device 30 in one place After connecting the strand wire tension hydraulic jack 60 to the strand wire 21 installed at one side end of the bidirectional strand wire fixing device 30 to tension the strand wire 21, the fixing hole 32 is used to fix the hole 31. To settle in.

        The bidirectional strand wire fixing device 30 has a protrusion (33) is formed in the upper and lower portions in the shape of the letter "d", the fixing holes 31 are formed in different directions of the strand wire 21 installed on the outer peripheral surface of the piers (11) When the one end is fixed to the fixing hole 31 of the protrusion 33 of the upper portion of the bidirectional strand wire fixing device 30 by using the fixing tool 32, the fixing hole 31 is formed in the fixing hole 31 formed in the lower protrusion 33. After fixing the strand 21 using the 32, the strand wire tension hydraulic jack 60 is connected to tension the strand 21, and then fixed to the fixing hole 31 by using the anchoring hole 32 again. At this time, the tension and settlement of the strand 21 is made at the same time in both directions.

        5 and 6 are cross-sectional views of a unit structure of a strand guide tube of a strand tension hydraulic jack for applying a tensile force to a strand of the present invention, having a cylindrical body portion 82 and a spherical protrusion 81 integrally formed on the front surface thereof. Is formed, but the insertion groove 83 is formed in the cylindrical body portion 82 and the strand line through hole 84 is formed in the center of the spherical protrusion (81).

        FIG. 7 is a view illustrating the formation of the strand conductor guide tube by combining the unit structure 80 of the present invention. The unit structure 80 described with reference to FIGS. 5 and 6 is assembled to each other to form the strand conductor guide tube 70. It is flexible so that the strand 21 can be inserted into the strand through hole 84 of the unit assembly 80 forming the strand guide tube 70 in a narrow place so that the strand 21 can be placed at a desired position. This is to easily introduce the tensile force to the strand 21 using the strand wire tension hydraulic jack (60).

        The spherical protrusion 81 of the unit structure 80 is repeatedly inserted into the insertion groove 83 to assemble the strand wire guide tube 70 of a desired length.

        When the assembly is connected to each other so that the spherical protrusion 81 is inserted into the insertion groove 83 to have fluidity, the assembled strand guide tube 70 will have flexibility.

        8 is a view illustrating a stranded tension hydraulic jack of the present invention, wherein the stranded tension hydraulic jack 60 is a strand anchoring head 64 for fixing a hydraulic jack body portion 61 and a stranded wire 21 connected to a stranded wire guide tube 70. ) Is an integrally connected device, the hydraulic jack body 61 is formed with a dismantling hydraulic inlet 63 and the tension hydraulic inlet 62 to tension and release the stranded wire while injecting the hydraulic pressure into the respective inlet. .

        The strand wire tension hydraulic jack 60 is intended to be used when it is difficult to use the existing hydraulic jack due to the narrow working range when introducing the tensile force to the strand 21, in particular the strand guide pipe installed on the tip of the hydraulic jack body 61 The flexibility of 70 allows the strand 21 to penetrate the strand strand guide tube 70 even in a place where it is difficult to access directly, and then to introduce a tensile force using hydraulic pressure after bending the strand strand to a predetermined position.

The present invention is to provide a repair and reinforcement method of the structure by expanding the cross section that can improve the performance of the structure by expanding and reinforcing the cross section of the structure, such as a concrete pier consisting of a stranded steel and a vertical reinforcement of the tension material, which is constructed of reinforced concrete It is possible to improve the structural performance required such as load capacity, toughness, ductility, deformation performance, etc., compared to the conventional section expansion reinforcement, and can be effectively applied to structures in which urban bridges and lower spaces are limited because the enlarged section can be minimized. . In addition, when the present invention is applied to the lower structure of the bridge, it is possible to secure the resistance against damage factors given from the earthquake, etc. through the improvement of the strength performance, so that the construction can be easily applied for the purpose of seismic reinforcement, and the amount of field work is reduced. It is an efficient and economical construction method that can expect shortening of air and air.

        1 is a view showing that the sectional enlargement maintenance reinforcement device of the present invention installed on the piers.

        FIG. 2 is an enlarged view of detail "A" of FIG. 1; FIG.

        3 is an enlarged view of a detail "B" in FIG.

        4 is a view showing in detail the bidirectional strand wire fixing device of FIG.

        Figure 5 is a view showing a unit structure of the strand guide pipe of the strand tension hydraulic jack for giving a tensile force to the strand of the present invention.

        6 is a cross-sectional view of the unit structure of FIG.

        7 is a view showing the combination of the unit structure of the present invention to form a strand guide pipe.

        8 is a view showing a stranded hydraulic jack of the present invention.

<Description of the symbols for the main parts of the drawings>

        10 ... reinforced concrete bridge 11 ... bridge

        12 ... Upper slab of bridge 13 ... Bridge system

        20 ... Sectional extension reinforcement device 21 ...

        22. Vertical rebar 23 ... Base steel plate

        30 ... two-way strand anchorage 31 ... anchorage

        32 ... Fixture 33 ... Overhang

        40 ... Acupressure Unit 41 ... Acupressure Sheet

        50 ... Retainer 51 ... Groove

        52 ... wing 53 ... support

        60 ... Strand tension hydraulic jack 61 ... Hydraulic jack body

        62 ... Tension hydraulic inlet 63 ... Dismantling hydraulic inlet

        64 ... strand fixing head

        70 ... Lecturer's Guide

        80 ... Unit structure 81 ... Spherical protrusion

        82.Body part 83.Insert groove

        84. Strand through hole

Claims (8)

        On the outer circumferential surface of the piers, a plurality of base iron plates having a predetermined size are installed at regular intervals over the entire length of the piers, and a shiatsu device is attached to the base iron plates at regular intervals and attached with a pressure plate. The fixing device is installed crosswise, vertical bars are installed in the lengthwise direction of the steel plate and the anchoring device, and the strand is installed on the fixing device installed on the vertical bar and the upper and lower parts of the pressure device. Installed at a certain interval outside the vertical reinforcing bar, and settles the strand with a bi-directional strand anchoring device to fix the strand in a certain place, the strand strand guide tube and the hydraulic jack body portion on the strands installed through one end of the bidirectional strand anchoring device And the stranded wire by connecting the stranded hydraulic jack connected with the stranded wire fixing head integrally. Cross section for reinforcement of bridge piers in reinforcement concrete bridges, characterized in that the anchors are fixed in the anchoring holes using the anchorages and the formwork is installed on the outside. Extended repair reinforcement device.         The method of claim 1,         The base plate and the acupressure device and the fixing device are installed to maintain a constant interval, so that the strands and the vertical rebars are arranged at regular intervals to serve as guides for the arrangement of the reinforcing bars and to prevent the left and right movement of the fixing material and the separation of the stranding wire. Sectional expansion reinforcement device for reinforcing bearing capacity of pier in reinforced concrete bridges, characterized in that for.         The method of claim 1,         When the strand is installed outside of the vertical reinforcing bars, when the tension is applied, the compressive force is transmitted to the vertical reinforcing bars and the acupressure steel plate, so that the reinforcing effect by the compressive force in the concrete structure and the compressive force compressing the vertical reinforcing bar are fixed by the reinforcing bar itself. Sectional expansion reinforcement device for reinforcing bearing capacity of pier in reinforced concrete bridge, characterized in that to act as a reinforcing bar.         The method of claim 1,         The fixing device is a bridge in the reinforced concrete bridge, characterized in that the groove is formed in the base plate so that the grooves formed by the wing portions on both sides toward the outside and the vertical reinforcement in the groove longitudinally installed in the groove, the "L" shape Sectional reinforcement system for reinforcing bearing capacity.         The method of claim 1,         The bidirectional strand anchoring device has a protrusion formed on the upper and lower sides of the "d" shape, and the anchoring holes are formed in different directions, so that the strands installed on the outer peripheral surface of the bridge are anchored in the anchoring holes formed in both directions, and the tension and fixation of the stranded wire are fixed. Cross section enlargement reinforcement device for reinforcing bearing capacity of pier in reinforced concrete bridges, characterized in that made in both directions.         The method of claim 1,         The strand guide pipe is a reinforced concrete bridge characterized in that the unit structure is connected to each other to have flexibility by inserting the strand into the strand guide pipe to introduce the tensile force in the desired place, such as narrow space where the strand tension force was not introduced. Sectional reinforcement system for reinforcing bearing capacity of bridge piers.         The method according to claim 1 and 6,         The unit structure of the strand guide pipe has a cylindrical body portion, and a spherical protrusion is integrally formed on the front surface thereof, and a spherical insertion groove is formed at the center of the cylindrical body portion so that the spherical protrusion is inserted, and the through-hole is provided at the center of the spherical protrusion. Cross section enlargement reinforcement device for reinforcement of bearing capacity in reinforced concrete bridge, characterized in that formed.         a) installing a base iron plate having a predetermined width on an outer circumferential surface of a bridge;         b) acupressure apparatus installation step of welding and installing the acupressure iron plate at a predetermined interval on the base iron plate;         c) arranging the fixing device in the vicinity of the shiatsu device;         d) installing vertical reinforcing bars on the entire outer circumferential surface of the piers on the groove of the fixing device and the acupressure iron plate of the acupressure device;         e) installing a stranded wire over the pier outer circumferential surface to overlap the vertical rebar;         f) fixing one end of the stranded wire to a fixing hole of a protrusion formed on one side of the bidirectional stranded wire fixing device by using a fixing tool;         g) fixing another end of the strand using a fixing tool in the fixing hole of the protrusion formed on the other side of the bidirectional strand fixing apparatus;         h) fixing the strand to the anchor after introducing the tensile force by using a strand tension hydraulic jack to the strand of the strand anchored in the anchorage of the anchoring hole formed in the one side;         I) installing the formwork on the outer side of the strand wire installed on the outer peripheral surface of the piers and pouring concrete; And         j) The method of reinforcing and reinforcing the section using a section enlargement reinforcement device for reinforcing bearing capacity in reinforced concrete bridges, characterized in that the step of removing the formwork and cleanly trim the appearance by completing the curing of the concrete. .