KR100926969B1 - Prestressed reinforced concrete girder and its construction method - Google Patents

Abstract

The present invention is a continuous bridge of prestressed reinforced concrete girders, the side fixing blocks are fixed to both sides of the outer abdomen of the outer span of the girder, a pair of sequential fixing anchorage for the secondary tension combined with the side fixing blocks and reinforcement Install a pair of fixing units, fix the side fixing blocks on both sides of the abdomen of the inner part of the outer span of the girder, and install a pair of reinforcing fixing fixing units on the side fixing blocks, and both ends of the inner span of the girder Fix the side fixing blocks on both sides of the abdomen, install only one pair of reinforcing fixing parts on the side fixing blocks, and pre-tension the prestressed reinforced concrete girders. After that, the secondary tension and sequential tensions are collectively performed in the secondary tension combined shunt fixing unit, and continually in the middle of the foreground. When manual reinforcement is required, insert steel fixing fixtures and PC steel wires into the reinforcing reinforcing fixing part, and reinforce each additional tension in short span unit to increase the construction efficiency of continuity, reduce the reinforcement construction cost, and facilitate the construction. The purpose of the present invention is to provide the prestressed reinforced concrete girder and its construction method to overcome the mechanical limitations of prestressed reinforced concrete girder, which are difficult to maintain low profile, long span and reinforcement, and to increase the service life. have.

Prestressed reinforced concrete girder according to the present invention for achieving the above object is a continuous bridge prestressed reinforced concrete girder, girder consisting of the upper, lower flange and the abdomen; Side fixing blocks protruding at both sides of the girder with a predetermined width and width; A secondary tension combined continuous fixing unit installed at the upper end of the side fixing block, respectively, for fixing secondary tension combined continuous tension, and fixing steel fittings, sheaths, and continuous PC steel wires; The lower side lateral fixing block of the secondary tension combined tension fixing unit is characterized in that it is composed of a reinforcing reinforcing fixing unit installed without fixing the steel fixture and the PC steel wire, only the reinforcing reinforcing sheath.

In addition, the prestressed reinforced concrete girder according to the present invention for achieving the above object is a simple bridge prestressed reinforced concrete girder, girder consisting of the upper, lower flange and the abdomen; Side fixing blocks protruding at both sides of the girder with a predetermined width and width; A secondary tension fixing unit in which an upper portion of the side fixing block is provided with steel anchors and sheaths and sheaths and secondary tension PC steel wires respectively installed for secondary tension; The lower side lateral fixing block of the secondary tension fixing unit is characterized in that it is composed of a fixing reinforcing fixing unit which is fixed to the reinforcing reinforcement sheath is not installed steel fittings and PC steel wire.

In addition, the prestressed reinforced concrete girder construction method according to the present invention for achieving the above object is a continuous bridge prestressed reinforced concrete girder construction method, the girder consisting of the upper, lower flange and abdomen; Side fixing blocks protruding at both sides of the girder with a predetermined width and width; A secondary tension combined tension fixing unit installed at the upper end of the side fixing block, respectively, for fixing the secondary tension combined continuous tension, and the steel anchoring hole, the sheath and the PC steel wire are fixed; The lower side lateral fixing block of the secondary tension sequential tension fixing unit is not provided with steel anchorage and PC steel wire, and the outer span of the prestressed reinforced concrete girder composed of a maintenance reinforcing fixing unit installed only with a supporting steel sheath. A pair of secondary tension sequencing tension fixing units and a pair of reinforcing fixing units are installed on the side fixing blocks on both sides of the outer part of the abdomen, and the reinforcing reinforcement blocks on the side fixing blocks on both sides of the abdomen of the inner side of the girder. Only a pair of fixing units are installed, and a pair of repair reinforcing fixing units are installed on both sides of the inner side of the girder on both sides of the abdomen, and a pair of repair reinforcing fixing units is installed. After the car is tensioned and shifted to the pier, the slab concrete is poured, followed by the secondary tension continuity tension anchorage. Tension and the second tension sequencing PC steel in bulk over the entire span of, and characterized in that each of the additional tension in the rehabilitation fixing section for a short span unit.

In addition, the prestressed reinforced concrete girder construction method according to the present invention for achieving the above object is a simple bridge prestressed reinforced concrete girder construction method, the girder consisting of the upper, lower flange and abdomen; Side fixing blocks protruding at both sides of the girder with a predetermined width and width; A secondary tension fixing unit in which an upper portion of the side fixing block is provided with steel anchors and sheaths and sheaths and secondary tension PC steel wires respectively installed for secondary tension; The lower side side fixing block of the secondary tension fixing unit has side fixing parts on both sides of both ends of the prestressed reinforced concrete girder, which are composed of a fixing reinforcing fixing unit in which only steel fixing holes and PC steel wires are not installed and fixing sheaths are fixed. The block is fixed, and a pair of secondary tension fixing units and a pair of maintenance reinforcing fixing parts installed only with a sheath for maintenance reinforcement without a steel fixing device and a PC steel wire are installed on the upper side of the side fixing block, and prestressed reinforcing bars are installed. After the first tension on the concrete girders, they are placed on the shifts, and after placing the bottom plate concrete, the second tension is performed on the secondary tension fixing unit. After the insertion into the pre-installed reinforcement sheath, it characterized in that the reinforcement tension.

Description

Prestressed reinforced concrete girder and it's construction method

The present invention relates to a prestressed reinforced concrete girder and a construction method thereof.

In general, prestressed reinforced concrete girders that have been introduced with reinforcement wires in reinforced concrete have a limit to the tension force that can introduce the stranded wires due to cracking due to tensile force on the upper part of the prestressed reinforced concrete girder when the tensioning force is introduced into the reinforcement wires. In addition, there is a problem that the height of the prestressed reinforced concrete girder is increased while the interval of the prestressed reinforced concrete girder is shortened.

In addition, the bridge is unable to withstand the tensile force generated by the moment applied to the prestressed reinforced concrete girder over time, causing cracks in the bottom plate concrete of the parent portion, or cracks in the lower part of the prestressed reinforced concrete girder. There is a problem that can not play a role as a bridge.

In addition, the bridge not only causes corrosion of reinforcing bars due to cracking, but also decreases the durability of the bridge by severely affecting the strength of prestressed reinforced concrete girder by reducing adhesion between concrete and reinforcing bars due to air pollution. Even in reinforcement, construction is difficult due to replacement of floor plates or reinforcement of external PC steel wires, and construction costs are too high, resulting in uneconomical problems.

Accordingly, the present invention has been made to solve the problems described above, in the continuous bridge of prestressed reinforced concrete girders, the side fixing blocks are fixed to both sides of the outer side of the outer section of the girder, the side fixing block, A pair of secondary tension combined tension fixing unit and a pair of reinforcing fixing unit are installed in the block, and side fixing blocks are fixed to both sides of the abdomen of the inner part of the outer span of the girder, and the repairing reinforcement is applied to the side fixing block. Install a pair of fixing units, and fix the side fixing blocks on both sides of the abdomen of both ends of the inner span of the girder, and install only a pair of reinforcing reinforcing fixing units on the side fixing blocks to prestress the reinforced concrete girder. After tensioning, placing on the alternating pier, placing slab concrete, and then sequencing in the secondary tension sequential tension fixing unit Secondary and sequential tensions are applied collectively throughout the span, and when maintenance reinforcement is required during common use, insert steel anchors and PC steel wires into the fixing reinforcement fixing part, and then reinforce and reinforce additionally in short span units, Increasing the construction efficiency of sequencing, reducing the cost of reinforcement construction, facilitating construction and improving the aesthetics, overcoming the mechanical limitations of low-strength, long span and difficult reinforcement of prestressed reinforced concrete girders, and extending the service life as much as possible. The purpose is to provide prestressed reinforced concrete girder and its construction method.

Prestressed reinforced concrete girder according to the present invention for achieving the above object is a continuous bridge prestressed reinforced concrete girder, girder consisting of the upper, lower flange and the abdomen; Side fixing blocks protruding at both sides of the girder with a predetermined width and width; A secondary tension combined continuous fixing unit installed at the upper end of the side fixing block, respectively, for fixing secondary tension combined continuous tension, and fixing steel fittings, sheaths, and continuous PC steel wires; The lower side lateral fixing block of the secondary tension combined tension fixing unit is characterized in that it is composed of a reinforcing reinforcing fixing unit installed without fixing the steel fixture and the PC steel wire, only the reinforcing reinforcing sheath.

In addition, the prestressed reinforced concrete girder according to the present invention for achieving the above object is a simple bridge prestressed reinforced concrete girder, girder consisting of the upper, lower flange and the abdomen; Side fixing blocks protruding at both sides of the girder with a predetermined width and width; A secondary tension fixing unit in which an upper portion of the side fixing block is provided with steel anchors and sheaths and sheaths and secondary tension PC steel wires respectively installed for secondary tension; The lower side lateral fixing block of the secondary tension fixing unit is characterized in that it is composed of a fixing reinforcing fixing unit which is fixed to the reinforcing reinforcement sheath is not installed steel fittings and PC steel wire.

In addition, the prestressed reinforced concrete girder construction method according to the present invention for achieving the above object is a continuous bridge prestressed reinforced concrete girder construction method, the girder consisting of the upper, lower flange and abdomen; Side fixing blocks protruding at both sides of the girder with a predetermined width and width; A secondary tension combined tension fixing unit installed at the upper end of the side fixing block, respectively, for fixing the secondary tension combined continuous tension, and the steel anchoring hole, the sheath and the PC steel wire are fixed; The outer side of the outer span of the prestressed reinforced concrete girder consisting of a reinforcing reinforcing fixing unit installed without fixing steel fittings and a PC steel wire to the lower side side fixing block of the secondary tension-use continuous tension fixing unit, but only a reinforcing reinforcing sheath is installed. A pair of secondary tension sequencing tension fixing units and a pair of reinforcing fixing units are installed in the side fixing blocks on both sides of the partial abdomen, and the reinforcing fixing units are fixed to the side fixing blocks on both sides of the abdomen of the inner part of the girder's outer span. A pair of parts is installed, and a pair of repair reinforcing fixing parts are installed on both sides of the inner side of the inner girder of the girder, and a pair of repair reinforcing fixing parts are installed on the side fixing blocks. After tensioning and alternating and placing on piers, after placing slab concrete on the slab, continuous at the tension fixing unit for secondary tension Tension and the second tension sequencing PC steel in bulk over the entire span of, and characterized in that each of the additional tension in the rehabilitation fixing section for a short span unit.

In addition, the prestressed reinforced concrete girder construction method according to the present invention for achieving the above object is a simple bridge prestressed reinforced concrete girder construction method, the girder consisting of the upper, lower flange and abdomen; Side fixing blocks protruding at both sides of the girder with a predetermined width and width; A secondary tension fixing unit in which an upper portion of the side fixing block is fixedly installed with steel anchors and sheaths and sheaths and secondary tension PC steel wires respectively installed for secondary tension; The lower side side fixing block of the secondary tension fixing unit has side fixing parts on both sides of both ends of the prestressed reinforced concrete girder, which are composed of a fixing reinforcing fixing unit in which only steel fixing holes and PC steel wires are not installed and fixing sheaths are fixed. Fix the block, and install a pair of secondary tension fixing unit and a pair of repairing fixing unit in which only the steel fixing device and the PC steel wire are installed without the steel fixing unit and the PC steel wire at the upper end of the side fixing block, and the prestressed reinforcing bars are installed. After the first tension on the concrete girders, they are placed on the shifts, and after placing the bottom plate concrete, the second tension is performed on the secondary tension fixing unit. After the insertion into the pre-installed reinforcement sheath, it characterized in that the reinforcement tension.

As described above, the prestressed reinforced concrete girder and its construction method according to the present invention is fixed to the side fixing blocks on both sides of the abdomen of the outer portion of the girder outer girder, the secondary tension combined continuous tension fixing on the side fixing blocks A pair of parts and a pair of reinforcement fixing parts are installed, side fixing blocks are fixed to both sides of the abdomen of the inner part of the outer span of the girder, and a pair of reinforcing fixing parts is installed on the side fixing blocks. After fixing the side fixing block on both sides of the inner part of the inner span of the inner span of the side, and only a pair of maintenance reinforcing fixing unit is installed on the side fixing block, the first tension on the prestressed reinforced concrete girder and placed in the alternating piers, and then the bottom plate After placing the slab concrete, the secondary tension and the batch are applied collectively across the foreground between the secondary tension continuity tension anchorages. In case of sequential tensioning and maintenance reinforcement is required during the common use, insert the steel anchoring hole and PC steel wire in the maintenance reinforcement fixing part, and reinforce each additional tension in the short span unit to increase the construction efficiency of the continuity, It enables long spans, reduces reinforcement construction costs, facilitates construction, improves aesthetics, overcomes the mechanical limitations of low-rise, prestressed reinforced concrete girders that are difficult to reinforce long spans, and extends the service life as much as possible. There is an advantage to that.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

1 is a side view showing a short span prestressed reinforced concrete girder according to the present invention, Figure 2 is a cross-sectional view taken along line AA of Figure 1, Figure 3 is a cross-sectional view taken along line BB of Figure 1, Figure 4 is a short-span prestress according to the present invention 5 is a side view showing a two-span continuous bridge prestressed reinforced concrete girder according to the present invention, FIG. 6 is a sectional view taken along line AA of FIG. 5, and FIG. 7 is a sectional view taken along line BB of FIG. 8 is a sectional view taken along line CC of FIG. 5, FIG. 9 is a side view showing a three-span continuous bridge prestressed reinforced concrete girder according to the present invention, FIG. 10 is a sectional view taken along line AA of FIG. 9, FIG. 11 is a sectional view taken along line BB of FIG. FIG. 12 is a cross-sectional view taken along line CC of FIG. 9, FIG. 13 is an enlarged view of portion "A" of FIG. 9, FIG. 14 is an enlarged view of portion "B" of FIG. 9, and FIG. Detailed view showing an enlarged portion "C", and FIG. 16 is an enlarged detailed view showing the "AA" line in FIG. All.

As shown in these figures, the prestressed reinforced concrete girder according to the present invention, in the continuous bridge prestressed reinforced concrete girder, the girder 10 consisting of the upper, lower flanges (12, 14) and the abdomen (16); Side fixing blocks 20 protruding at both sides of the girder 10 at a predetermined width and width; On the upper end of the side fixing block 20 is installed for the tension of the secondary tension combined serial tension PC steel wire 30, respectively, the steel fixture 44 and the sheath 42 and the secondary tension combined tension PC wire ( 30) fixed and installed secondary tension combined tension fixing unit 40; The lower side side fixing block 20 of the secondary tension combined tension fixing unit 40 is not provided with the steel fittings 44 and the PC steel wire (30-1), only fixing the sheath 50 for the reinforcement reinforcement It consists of a maintenance reinforcing fixing unit 60 is installed.

In addition, the prestressed reinforced concrete girder according to the present invention, in the simple bridge prestressed reinforced concrete girder, the girder 10 consisting of the upper, lower flanges (12, 14) and the abdomen (16); Side fixing blocks 20 protruding at both sides of the girder 10 at a predetermined width and width; On the upper end of the side fixing block 20 is a steel anchoring hole 44 and secondary tension combined tension sheath 42-1 and secondary tension PC steel wire (30-1) are respectively installed for secondary tension A secondary tension fixing unit 40-1 fixedly installed; The lower side fixing block 20 of the secondary tension fixing unit 40-1 is a fixing reinforcing fixing unit in which only the steel fixing fittings 44 and the PC steel wire are installed without fixing the sheath 50 for maintenance reinforcement. It consists of 60.

Here, a pair of secondary tension sequential tension fixing unit 40 and a pair of reinforcing fixing unit 60 are installed on both sides of the outer side abdomen 16 of the outer section of the girder 10. In addition, a pair of repair reinforcing fixing parts 60 are installed in the inner side of the inner portion of the outer portion of the girder 10 and the side surface fixing block 20 at both sides 16, and both ends of the inner portion of the girder 10 are provided. Both sides of the abdomen 16, the side fixing block 20 is provided with a pair of maintenance reinforcing fixing unit 60, respectively.

In addition, the side fixing block 20 is a concrete block of a rhombic shape on the basis of a plan view is installed on the abdomen 16 over the upper, lower flanges 12, 14 of the girder 10 to a predetermined thickness.

In addition, the reinforcing reinforcing fixing unit 60 has a concrete surface 48 formed of a steel fixture fitting form 46, and only the reinforcing reinforcing sheath 50 is inserted and fixed.

Hereinafter, the construction of the prestressed reinforced concrete girder according to the present invention having the configuration as described above.

Prestressed reinforced concrete girder construction method according to the present invention is a continuous bridge prestressed reinforced concrete girder construction method, the girder 10 consisting of the upper, lower flanges (12, 14) and the abdomen (16); Side fixing blocks 20 protruding at both sides of the girder 10 at a predetermined width and width; On the upper end of the side fixing block 20 is installed for the tension of the secondary tension combined sequencing tension PC steel wire 30, respectively, the steel fixture 44 and the secondary tension sequencing tension sheath 42 and the secondary tension A secondary tension combined tension fixing unit 40 having a combined continuous tension PC steel wire 30 fixed thereto; The lower side fixing block 20 of the secondary tension combined tension fixing unit 40 is not provided with the steel fixing hole 44 and the PC steel wire, the maintenance reinforcement fixing fixed installed only the sheath 50 for maintenance reinforcement A pair of secondary tension sequencing tension fixing parts 40 in the side fixing blocks 20 on both sides of the outer portion of the outer portion of the outer span of the prestressed reinforced concrete girder 10 constituted by the portion 60 and repaired A pair of reinforcing fixing units 60 is installed, and only a pair of reinforcing fixing units 60 are provided on the side fixing blocks 20 on both sides of the inner side abdomen 16 of the outer span of the girder 10. The pair of pre-stressed reinforced concrete girders 10 are installed on the side fixing blocks 20 at both ends of the inner part of the inner span of the girder 10 on both sides of the side fixing block 20. Primary tension PC steel wire (70) in the primary tension after the alternating, pier, slab concrete After pouring, tension the secondary tension combined continuous tensioning PC steel wire (30) collectively over the entire span that is continuous in the secondary tension combined continuous tension fixing unit (40), and fixing reinforcement unit (60) In addition, each additional strain in short span.

In addition, the prestressed reinforced concrete girder construction method according to the present invention is a simple bridge prestressed reinforced concrete girder construction method, the girder 10 consisting of the upper, lower flanges (12, 14) and the abdomen (16); Side fixing blocks 20 protruding at both sides of the girder 10 at a predetermined width and width; The upper portion of the side fixing block 20 is fixed to the steel fixtures 44 and secondary tension sheath 42-1 and secondary tension PC steel wire (30-1) are respectively installed for the secondary tension 2 A car tension fixing unit 40-1; The lower side fixing block 20 of the secondary tension fixing unit 40-1 is not provided with steel fixing holes and PC steel wires, and the fixing reinforcement fixing unit 60 is fixed and installed only with the reinforcing sheath 50. A side fixing block 20 is fixed to both sides of the abdominal both sides of the prestressed reinforced concrete girder 10 composed of a pair of secondary tension fixing units 40-1 at the upper end of the side fixing block 20. After installing a pair of reinforcing reinforcing fixing parts 60 installed only with the sheath 50 for the reinforcing reinforcement without the steel anchoring hole and the PC steel wire, and after preliminarily straining the prestressed reinforced concrete girder 10 to the shift , After placing the bottom plate concrete, the secondary tension in the secondary tension fixing unit (40-1), and if the maintenance reinforcement is required during the common reinforcing reinforcing fixing unit (40-1) and the steel anchorage (44) After inserting the PC steel wire (30-1) to the pre-installed reinforcement sheath 50, the reinforcement tension.

Here, only the sheath 50 is inserted into and fixed in advance in the maintenance reinforcing fixing unit 60, and the steel fixing fitting 44 is provided with a steel fitting fitting-shaped formwork 46 to pour and cure concrete, 46) to form the concrete surface 48 into which the steel fixture 44 is to be inserted, and if it is necessary to reinforcement in common, the steel fixture 44 is inserted into the concrete surface 48 and then epoxy Or after filling the clearance gap between the concrete surface 48 and the steel fittings 44 with the non-shrink mortar, the PC steel wire is inserted into the repair reinforcement tension.

In the continuous bridge of the prestressed reinforced concrete girder according to the present invention constructed by the above-described method, the primary tension corresponds to the weight of the girder 10, and the secondary tension combined sequential tension corresponds to the live load and at the same time the girder ( 10) can be realized by continuous bridges between low profile and long spans, and especially in the case of maintenance reinforcement during common use, if the statutory load condition is raised in the future, the load capacity decreases, or tensile cracking occurs in the girder 10, By simply reinforcing and repairing the steel fixing device without attaching it to the outside of the girder 10, it prevents damage to the girder 10 and damage to the appearance due to the attachment of the steel fixing device and the PC steel wire to the outside of the girder 10. In addition, it is the cheapest and simply effective reinforcement.

1 is a side view showing a short span prestressed reinforced concrete girder according to the present invention,

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional view taken along the line B-B of FIG.

4 is a plan view showing a short span prestressed reinforced concrete girder according to the present invention,

Figure 5 is a side view showing a two-span continuous bridge prestressed reinforced concrete girder according to the present invention,

6 is a cross-sectional view taken along the line A-A of FIG.

7 is a cross-sectional view taken along the line B-B of FIG.

8 is a cross-sectional view taken along the line C-C of FIG.

9 is a side view showing a three-span continuous bridge prestressed reinforced concrete girder according to the present invention,

10 is a cross-sectional view taken along the line A-A of FIG.

11 is a cross-sectional view taken along the line B-B of FIG.

12 is a cross-sectional view taken along the line C-C of FIG.

FIG. 13 is an enlarged detailed view of a portion “A” of FIG. 9;

14 is an enlarged detailed view of a portion “B” of FIG. 9;

15 is an enlarged detailed view of a portion “C” of FIG. 9;

FIG. 16 is an enlarged detailed view of the line “A-A” in FIG. 13;

Explanation of symbols on the main parts of the drawing

10: prestressed reinforced concrete girder 12: upper flange

14: lower flange 16: abdomen

20: side fixing block

30: PC tension wire for secondary tension continuity tension 30-1: PC wire for secondary tension

40: secondary tension combined tension fixing unit 40-1: secondary tension fixing unit

42: Secondary tensioning sheath 42-1: Secondary tensioning sheath

44: steel anchoring gate 46: formwork

48: concrete surface 50: sheath for repair reinforcement

60: maintenance reinforcing fixing unit 70: primary tension PC steel wire

Claims (8)

In continuous bridge prestressed reinforced concrete girder, A girder 10 including upper and lower flanges 12 and 14 and an abdomen 16; Side fixing blocks 20 protruding at both sides of the girder 10 at a predetermined width and width; The secondary tension combined stiffening fixing part installed at the upper end of the side fixing block 20 for the secondary tension combined sequential tension, respectively, the steel fixing holes 44 and the sheath 42 and the continuous PC steel wire 30 are fixed. 40; The lower side fixing block 20 of the secondary tension combined tension fixing unit 40 is not provided with the steel anchoring hole and PC steel wire, the maintenance reinforcement fixing unit 60 is installed fixed only the sheath 50 for maintenance reinforcement (60) Prestressed reinforced concrete girder, characterized in that consisting of). In the simple bridge prestressed reinforced concrete girder, A girder 10 including upper and lower flanges 12 and 14 and an abdomen 16; Side fixing blocks 20 protruding at both sides of the girder 10 at a predetermined width and width; The upper tension of the side fixing block 20 is fixed to the secondary tension anchoring hole 44 and the sheath 42-1 and secondary tension PC steel wire (30-1) are respectively installed for secondary tension fixing Section 40-1; The lower side fixing block (20) of the secondary tension fixing unit (40-1) is not a steel anchoring hole and PC steel wire is installed only maintenance reinforcement fixing unit (60) fixed fixing sheath 50 is not installed Prestressed reinforced concrete girder, characterized in that consisting of. The method of claim 1, A pair of secondary tension sequential tension fixing units 40 and a pair of reinforcing reinforcing fixing units 60 are installed on both side surface fixing blocks 20 on both sides of the outer section of the girder 10. In addition, only a pair of maintenance reinforcing fixing parts 60 are installed in the inner side abdominal portion 16 of the outer side section 16 of the girder 10, and both end portions of the inner girder 10 of the girder 10 are provided. (16) Prestressed reinforced concrete girder, characterized in that only one pair of both sides of the side fixing block 20 is installed in the reinforcement fixing unit 60. The method according to claim 1 or 2, The side fixing block 20 is a prestressed reinforced concrete, characterized in that the concrete block of the rhombic shape on the basis of the plan view on the abdomen 16 over the upper, lower flanges (12, 14) of the girder (10) Girder. The method according to claim 1 or 2, Prestressed reinforced concrete girder, characterized in that the concrete reinforcement is formed in the form of the steel fixing fixture 46, the only sheath 50 is inserted into the repair reinforcement fixing unit (60). In the continuous bridge prestressed reinforced concrete girder construction method, A girder 10 including upper and lower flanges 12 and 14 and an abdomen 16; Side fixing blocks 20 protruding at both sides of the girder 10 at a predetermined width and width; The secondary tension combined stiffening fixing unit installed on the upper end of the side fixing block 20 for fixing the secondary tension combined sequencing tension, respectively, the steel fixture 44, the sheath 42 and the PC steel wire 30 are fixed ( 40); The lower side fixing block 20 of the secondary tension combined tension fixing unit 40 is not provided with the steel anchoring hole and the PC steel wire, the maintenance reinforcement fixing unit 60 is installed only fixed to the reinforcement sheath 50 A pair of secondary tension sequencing tension fixing units 40 and a reinforcing reinforcing fixing unit on the side fixing blocks 20 on both sides of the outer portion of the outer section of the prestressed reinforced concrete girder 10 consisting of A pair of parts 60 is installed, and only a pair of maintenance reinforcing fixing parts 60 are installed in the side fixing blocks 20 at both sides of the inner side abdomen 16 of the outer span of the girder 10, A pair of repair reinforcing fixing units 60 are respectively installed in the side fixing blocks 20 at both end portions of the inner end of the girder 10 at both sides of the abdomen 16, and the first prestressed reinforced concrete girder 10 is installed. Tension PC steel wire (70) to the primary tension, after the alternating, pier, the slab concrete slab After the snow, the secondary tension and the continuous PC steel wire 30 is tensioned in a batch over the entire span that is continuous in the secondary tension combined sequencing tension fixing unit 40, and the short span in the fixing unit 60 for maintenance reinforcement. Prestressed reinforced concrete girder construction method characterized by additional tension in each unit. In the simple bridge prestressed reinforced concrete girder construction method, A girder 10 including upper and lower flanges 12 and 14 and an abdomen 16; Side fixing blocks 20 protruding at both sides of the girder 10 at a predetermined width and width; The upper tension of the side fixing block 20 is fixed to the secondary tension anchoring hole 44 and the sheath 42-1 and secondary tension PC steel wire (30-1) are respectively installed for secondary tension fixing Section 40-1; The lower side fixing block 20 of the secondary tension fixing unit 40-1 is not provided with steel fixing holes and PC steel wires, and the fixing reinforcement fixing unit 60 is fixed and installed only with the reinforcing sheath 50. A side fixing block 20 is fixed to both sides of the abdominal both sides of the prestressed reinforced concrete girder 10 composed of a pair of secondary tension fixing units 40-1 at the upper end of the side fixing block 20. After installing a pair of reinforcing reinforcing fixing parts 60 installed only with the sheath 50 for the reinforcing reinforcement without the steel anchoring hole and the PC steel wire, and after preliminarily straining the prestressed reinforced concrete girder 10 to the shift , After placing the bottom plate concrete, the secondary tension in the secondary tension fixing unit (40-1), and if the maintenance reinforcement is required during the common reinforcement fixing unit (40-1) and the steel anchoring hole (44) After the PC steel wire (30-1) is inserted into the pre-installed reinforcement sheath (50), the reinforcement tension is to be tensioned Prestressed reinforced concrete girder construction method according to claim. The method according to claim 6 or 7, Only the sheath 50 is inserted and fixed in advance in the repair reinforcing fixing unit 60, and the steel fitting hole 44 is provided with a steel mold fitting shape 46 to pour and cure concrete, and then form the mold 46. After removing the steel fixture 44 to form the concrete surface 48 to be inserted, if the need for maintenance reinforcement in common, after inserting the steel fixture 44 to the concrete surface 48, epoxy or no Prestressed reinforced concrete girder construction method characterized in that the reinforcement tension by inserting a PC steel wire after filling the gap between the concrete surface 48 and the steel fixing hole 44 by the shrinkage mortar.

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