KR100665877B1 - 2nd tension and the point part continuation method at pre-stressed concrete beam used by 2nd tension combination continuation reinforcement steel materials - Google Patents

Abstract

A method for tensioning secondarily and continuing supports on the top of a prestressed concrete beam using a steel reinforcement for secondary tension and continuation is provided to continue bridges with excellent constructability and structural efficiency by tensioning a secondary tension PS strand using a secondary tension anchorage and a steel reinforcement and continuing beams using the steel reinforcement. A method for tensioning secondarily and continuing supports on the top of a prestressed concrete beam using a steel reinforcement for secondary tension and continuation comprises the steps of manufacturing a PSC beam(10) using a steel reinforcement(24) for secondary tension and continuation and putting on a support, block-outing the top of both flanges where a secondary tension anchorage(20) of the PSC beam is located in the rectangular shape and placing a floor slab, inserting and tensioning a secondary tension PS strand(22) to the secondary tension anchorage on the flange of the block-out PSC beam and placing the block-out part with non-shrinkage compensating concrete, and then curing the surface. Hereon a steel reinforcement for secondary tension and continuation is used for the inner support and a steel reinforcement for secondary tension anchorage is used for the outer support.

Description

Second tension and the point part continuation method at pre-stressed concrete beam used by 2nd tension combination continuation reinforcement steel materials}

1 is a plan view showing the secondary tension and the point continuity structure in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention 1,

Figure 2 is a side view showing the secondary tension and the point continuity structure in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention 1,

3 is a plan view showing a secondary tensile anchorage and a continuous connection steel of the secondary tensile and branched continuous structure in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention 1,

4 is a detailed side view showing the secondary tension and the point continuity structure in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention 1,

Figure 5 is a plan view showing a secondary tension and the point continuity structure in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention 2,

Figure 6 is a side view showing the secondary tension and the point continuity structure in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention 2,

7 is a plan view illustrating a secondary tensile anchorage and a continuous connection steel of the secondary tensile and branched continuous structure in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention;

8 is a detailed side view showing the secondary tension and the point continuity structure in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention 2,

9 is a side view illustrating a state in which a reinforcing steel having a secondary tensile anchorage and a recess formed in a short span prestressed concrete beam according to the present invention is installed;

FIG. 10 is a plan view illustrating a reinforcing steel having a secondary tensile anchorage and a recess of FIG. 9;

FIG. 11 is a side view illustrating a reinforcing steel having a secondary tensile anchorage and a recess of FIG. 9 formed therein; FIG.

12 is a side view showing a state in which a reinforcing steel having a secondary tensile anchorage and a convex part is installed in a short span prestressed concrete beam according to the present invention;

FIG. 13 is a side view illustrating a reinforcing steel having a secondary tensile anchorage and a convex portion of FIG. 12; FIG.

14 is a side view illustrating a state in which a reinforcing steel having a secondary tensile anchorage and a recess formed in a prestressed concrete beam according to the present invention is continuously connected with a continuous connecting steel;

FIG. 15 is a plan view illustrating a state in which a reinforcing steel having a secondary tensile anchorage and a recess formed in a prestressed concrete beam according to the present invention is continuous with a continuous connecting steel; FIG.

FIG. 16 is a side view illustrating a state in which a reinforcing steel having a secondary tensile anchorage and a recess formed in FIG. 14 is continuous with a continuous connecting steel; FIG.

FIG. 17 is a side view illustrating a state in which a reinforcing steel having a secondary tensile anchorage and a convex portion formed in a prestressed concrete beam according to the present invention is continuous with a continuous connecting steel; FIG.

18 is a plan view illustrating a state in which a reinforcing steel having a secondary tensile anchorage and a convex portion formed in a prestressed concrete beam according to the present invention is continuously connected to a continuous connecting steel;

FIG. 19 is a side view illustrating a state in which a reinforcing steel having a secondary tensile anchorage and a convex portion of FIG. 17 is continuous with a continuous connecting steel; FIG.

Explanation of symbols on the main parts of the drawing

10: PSC Beam 12: Host Settlement

14: Host PS Steel Wire 20: Second Seal Anchor

22: secondary tensile PS steel wire 24: secondary tensile continuous steel

24a: secondary tension anchor reinforcing steel 25a: recess

25b: Convex portion 30: Continuous anchorage

32: continuous PS steel wire 34: continuous anchorage reinforcing steel

35a: recessed portion 35b: straight portion

40: continuous connecting steel 50: branch portion

60: epoxy 70: blockout

80: non-concrete concrete 90: continuous connection

B: Prestressed concrete beam using continuous tensioned reinforcement steel for secondary tension

The present invention relates to a secondary tension and point continuity method in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel, in particular, by installing a secondary tensile anchor and reinforcing steel on the upper flange of the PSC beam The present invention relates to a secondary tensile and point continuous method on the upper surface of a prestressed concrete beam which tensions the secondary tensile PS steel and continues the beam using the reinforcing steel.

Generally, the point sequencing method of prestressed concrete beams (hereinafter, referred to as "PSC beams") can be largely divided into a flexible connection method and a rigid connection method.

First, the PSC beam flexible connection method of electrons has a styrofoam or rubber plate on the top of the PSC beam and the PSC beam, and the slab is continuous on the top, and the crack induction joint is placed on the upper part of the point, and the space between the PSC beam and the PSC beam is left blank. .

The PSC beam flexible connection method is a concept that only the slab is continuously constructed to reduce only the expansion joint.

On the other hand, the latter PSC beam rigid connection method is a slab continuous, filled with reinforced or reinforced concrete between the PSC beam and the PSC beam to form a continuous, TRB (Transportation Research Board) method, PCA (Portland Cement Association) Or a method of reinforcing a slab of a branch or a PSC beam with a steel wire or a steel bar.

Here, the TRB method is the AASHTO standard method, which is currently used mainly in Korea, and the PCA method is the same as the TRB method, but the hook reinforcing bar is used to resist the static moment generated at the bottom of the PSC beam when the branch part is continuous. Although it is an effective method compared to the TRB method, it is not currently used well because of the inconvenience of hook rebar construction due to its effect.

In addition, neither the TRB method nor the PCA method described above inevitably causes cracks in the continuous portion after construction, and thus is not a method of completely continuous branching.

That is, the PSC beam and the PSC beam are separated due to the through cracks in the axial direction of the continuous portion of the branch portion, and thus there is a problem of acting as a simple beam instead of a continuous beam.

Therefore, the present invention was devised to solve the problems described above, and the secondary tension is applied to the upper surface of the upper flange of the PSC beam by using the secondary tensile combined continuous reinforcing steel, structurally continuous at the inner point portion It is an object of the present invention to provide a secondary tensile and point continuous method on the upper surface of a prestressed concrete beam using a secondary tensile combined continuous reinforcing steel.

In the upper tension of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention for achieving the above object, the secondary tension and point continuity method in the secondary tension and continuity method of the PSC beam, the PSC A host anchorage fixing unit installed at both ends of the beam and having a PS steel wire fixed thereto; A secondary tensile anchorage reinforcing steel fixedly installed on an upper surface of both ends of the flange of the PSC beam and configured to reinforce and support the secondary tensile anchorage in which the PS steel wire is fixed; One side secondary tension anchorage reinforcing steel and the other side secondary tension anchorage reinforcing steel of the PSC beam is characterized in that it consists of a continuous connection steel connecting the high tension bolt or welding over the upper and lower portions.

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

As shown in Figures 1 to 19, the secondary tension and the point sequencing method on the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention is the secondary tension and continuity method of the PSC beam In certain embodiments, and fixed to both sides of the abdominal cross-section of the PSC beam 10, the host holder anchorage 12 to which the host PS steel wire 14 is fixed; A secondary tension anchorage reinforcement is installed on the upper surface of the flange of both ends of the PSC beam 10 and the secondary tension anchorage 20 to which the secondary tension PS steel wire 22 is fixed and the secondary tension anchorage 20 to reinforce and support the secondary tension anchorage 20. Steel material 24a; Consists of a continuous connection steel 40 which faces one side of the secondary tensile anchorage reinforcing steel 24a and the other side of the secondary tensile anchorage reinforcing steel 24a of the PSC beam 10 and connects the high tension bolt or welding over the upper and lower portions thereof. do.

Here, the secondary tensile anchorage reinforcing steel (24a) is not only the continuous connection of the PSC beam 10, but also the point portion (2) to perform the secondary tension corresponding to the live load after slab casting on the upper surface of the flange of the PSC beam (10) 50 is fixed to the upper surface of the flange of both ends of the PSC beam 10 from the position out of position, and the concave down portion 25a having a triangular cross-sectional shape to enable secondary tension or The convex portion 25b is formed to be bent upward, and the width of the secondary tensile anchorage reinforcing steel 24a is formed to be wider or the same as that of the point portion 50 continuous connection steel 40.

The secondary tensile anchorage reinforcing steel 24a is also provided in the short span PSC beam 10.

In addition, one or more secondary tensile fixing members 20 are fixed to the secondary tensile fixing member reinforcing steel material 24a.

In addition, the secondary PS reinforcing steel 24a is a continuous PS steel wire anchorage 30 to support the continuous PS steel wire anchorage 30 and the continuous PS steel wire anchorage 30 to which the continuous PS steel wire 32 is fixed at one side 34 ) Is fixedly installed.

That is, the secondary tension and the point continuity method in the upper surface of the prestressed concrete beam using the secondary tension combined continuous reinforcing steel according to the present invention uses the secondary tension combined continuous reinforcing steel 24 for the inner point 50. And, the outer point portion 50 or the short span is characterized in that the secondary tensile anchorage reinforcing steel 24a is used.

Hereinafter, the secondary tension and the point continuity method on the upper surface of the prestressed concrete beam using the secondary tension combined continuous reinforcing steel according to the present invention having the configuration as described above will be described.

In the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention, the secondary tensile and branched continuous method is to produce a PSC beam 10 using the secondary tensile combined continuous reinforcing steel 24, After mounting on the point portion 50, the block-out 70 in a rectangular shape on the upper surface of the flange of both ends on which the secondary tension anchorage 20 of the PSC beam 10 is located, and then casts the bottom plate slab Then, the secondary tensile PS steel wire 22 is inserted and tensioned from the secondary tension anchorage 20 of the flange upper surface of the PSC beam 10 blocked out 70, and the block-out portion is made of non-concrete concrete 80. Pour, cure and construct.

In this case, the inner point portion 50 uses a secondary tensile combined continuous reinforcing steel 24, and the outer point portion 50 uses a secondary tensile anchorage reinforcing steel 24a.

The secondary tension and point continuity method on the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel having the above-described configuration overcomes the mechanical limitations of the conventional PSC beam 10 and at the same time, Simple, by effectively installing the fixing fixtures 12, 20, 30 in various spans or combined spans, there is an effect that can be tensioned later.

As described above, in the upper surface of the prestressed concrete beam using the secondary tensile combined continuous reinforcing steel according to the present invention, the secondary tensioning and point continuous method uses a secondary tensile anchorage and a reinforcing steel on the upper surface of the upper flange of the PSC beam. By installing and tensioning the secondary tensile PS steel wire and continuing the beam by using the reinforcing steel, it is possible to make the continuity of the bridge as a method having excellent constructability and structural efficiency. There is an effect that can be applied regardless.

Claims (8)

A host anchorage fixture fixedly installed at both ends of the abdomen of the PSC beam, and having a PS steel wire; A secondary tensile anchorage reinforcing steel fixedly installed on an upper surface of both ends of the flange of the PSC beam and configured to reinforce and support the secondary tensile anchorage in which the PS steel wire is fixed; Prestress using a secondary tensile combined continuous reinforcing steel composed of a continuous connection steel which is connected to the secondary tension anchor reinforcement steel of the PSC beam and the secondary tension anchor reinforcing steel of the other side and connected by high tension bolt or welding over the upper and lower parts thereof In the method of secondary tension and point sequencing on the upper surface of the concrete beam, The secondary tensile anchorage reinforcing steel is not only the continuous connection of the PSC beam, but also the end of the PSC beam at the position beyond the continuous connection portion of the point so that the secondary tension corresponding to the live load after slab casting on the flange top surface of the PSC beam It is fixedly installed on the upper surface of the flange and bent into a concave down concave or convex concave portion having a triangular cross-sectional shape so as to enable secondary tension, and the width of the secondary tensile anchorage reinforcing steel is branched continuous steel A secondary tensile and point continuous method on the upper surface of a prestressed concrete beam using a secondary tensile combined continuous reinforcing steel, characterized in that the width is formed more than or equal to the width. delete delete The method of claim 1, The secondary tensile anchorage reinforcing steel is a secondary tensile anchorage method of the secondary tension and the point at the upper surface of the prestressed concrete beam using the secondary tensile continuous continuous reinforcing steel, characterized in that at least one secondary tensile anchorage fixed installation. The method according to claim 1 or 4, The secondary anchorage reinforcing steel is a secondary tension combined continuous reinforcing steel, characterized in that one side is fixedly installed to the continuous PS steel wire anchorage in which the continuous PS steel wire is fixed and the continuous anchorage reinforcing steel supporting the continuous PS steel wire anchorage integrally. Secondary tension and point continuity method on the upper surface of prestressed concrete beam. A host anchorage fixture fixedly installed at both ends of the abdomen of the PSC beam, and having a PS steel wire; A secondary tensile anchorage reinforcing steel fixedly installed on an upper surface of both ends of the flange of the PSC beam and configured to reinforce and support the secondary tensile anchorage in which the PS steel wire is fixed; Prestress using a secondary tensile combined continuous reinforcing steel composed of a continuous connection steel which is connected to the secondary tension anchor reinforcement steel of the PSC beam and the secondary tension anchor reinforcing steel of the other side and connected by high tension bolt or welding over the upper and lower parts thereof In the method of secondary tension and point sequencing on the upper surface of the concrete beam, In addition to the continuous connection of the PSC beam, the continuous connection part of the point is fixed to the upper surface of the flange of both ends of the PSC beam at a position out of position so that the secondary tension corresponding to the live load can be made after slab casting on the upper surface of the flange of the PSC beam. The cross-sectional shape is bent into concave downward concave or convex upward convex to allow tension, and the width of the secondary tensile anchorage reinforcing steel is formed to be wider or the same as the width of the point continuous connection steel. After fabricating the PSC beam using the secondary tensile combined continuous reinforcing steel, and mounting it on the point portion, block out the upper surface of the flange of both ends where the secondary tensile anchorage of the PSC beam is located in a square shape, and then the bottom plate slab. Curing, insert and pull the secondary tensile PS steel wire from the secondary tension fixing port on the flange of the blocked out PSC beam, Secondary tension and the fulcrum portion sequencing method on the upper surface of the prestressed concrete beam with the second tensile Combine sequencing reinforcing steel to the section, characterized in that the curing by placing a non-shrinking concrete. delete delete

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