KR101924293B1 - Construction process for correcting distortion of PSC beam - Google Patents

Abstract

The present invention relates to a reinforcing method of a refractive beam, and more specifically relates to the reinforcing method of a refractive beam which is for constructing a bridge or the like by correcting a PSC beam having refraction (distortion) in a wire insertion or extension process by using a vertical fastening member and a horizontal fastening member. According to the present invention, the method for constructing a durable PSC beam by reinforcing and correcting the refractive beam at a high altitude is provided to perform easy construction and prevent loss of resources, and can be used for extremely easily installing and uninstalling an equipment including the vertical fastening member and the horizontal fastening member accompanied in such construction such that the construction can be implemented in an economic way.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

More particularly, the present invention relates to a method for reinforcing a refracting beam, and more particularly, to a method of reinforcing a refracting beam by using a PSC beam generated by bending in the process of inserting or pulling a steel wire by using a vertical fastening member and a horizontal fastening member, To a reinforcement method of a refracting beam for constructing a refracting beam.

In general, bridges, which are high-priced structures constructed to be able to cross over rivers, lakes, straits, gulfs, canals, jerseys or other transportation routes or structures, are classified into various types according to materials, structures or manufacturing methods. Especially in recent years, as the traffic volume through the bridges has increased and the area of the upper slab concrete has been enlarged, various methods having various advantages such as strength and strength have been developed, which are advantageous for construction and maintenance. There is a girder.

A girder is also called a beam. It is an upper structure that supports the upper slab of a bridge by being placed between a pier and a pier of a bridge or an overpass. Typically, a pre-stressed concrete (PSC) ) Material is used.

These PSCs are pre-stressed to compensate tensile stresses occurring in concrete. By fixing PC steels (PC steels, PC steels, etc.) to concrete with tensile strength, it is possible to reduce the tensile strength of reinforced concrete (Reinforced Concrete) And the use of PS steel has been actively developed and various construction methods have been developed so that the construction of the PSC structure is widely carried out.

The PSC girder is constructed by placing a sheath tube (post-tensioning method) inside a mold using the formwork, or curing (pre-tensioning) the concrete in a state where pre-tensioned tension material (PS steel or strand) Next, in case of the post-tension type, it is necessary to disassemble the form to insert the tension material into the sheath tube, and to fix the end of the tension material to the end of the PSC girder after the tension so as to introduce the necessary prestress into the PSC girder. And the prestressing is introduced into the PSC girder by cutting the prestressed material.

A PSC girder (or PSC beam) that is pre-fabricated at the site adjacent to the site of the factory or bridge construction is constructed by transporting the first tenon after it is tense and then installing the PSC girder on the top of the pier using a crane .

The PSC girder is connected continuously over the entire span along the longitudinal direction of the PSC girder which is mounted on the temporary support, and the transverse beam connecting the PSC girder in the orthogonal direction of the throttle and the upper end of the intermediate point connecting in the longitudinal direction The site joints are structurally connected to each other by reinforcing bars, and then the cast concrete is placed and cured, and a part of the secondary continuous tenons is tensed to structurally connect the PSC girder, and the bottom plate concrete is placed on the PSC girder and the transverse beam After putting the section into a composite state, the remaining secondary continuous tenon is tensed and prestressing is introduced to the upper deck to complete the continuous bridge over the entire section.

The PSC girder is an I-shaped cross-section and consists of an upper flange, an abdomen, and a lower flange, and is formed with a tension member formed therein. The PSC girder is mounted such that its both ends are supported by a bridge support (SHOE) , And a total length of extension in accordance with the distance (span, SPAN) between alternations (or bridge).

However, bending, twisting, and refraction of the PSC beam may occur during concrete curing or wire insertion or tensioning. If such a refraction phenomenon occurs, it is difficult to dispose of the expensive beam, and if the construction is forced due to overstress, there is a possibility of construction failure, but there is no alternative construction method deserved.

Registration No. 10-1336518 (Registration date November 27, 2013) Registration No. 10-14404360 (Registration date: Sep. 04, 2014

As a result of extensive researches for solving all problems associated with a refracting beam at a construction site such as a bridge, the present inventors have found that when a vertical fastening member and a horizontal fastening member are fastened to a beam including a refracting beam, The present inventors have found that the above problems can be solved when the refraction phenomenon of the refraction beam can be temporarily solved and the subsequent construction rapidly proceeds in a state in which such refraction is solved to some extent, .

Therefore, the object of the present invention as described above is, in one aspect,

a) tightening the vertical fastening member and the horizontal fastening member at one or more points on the upper or lower end of the refraction beam and finely adjusting the fastening interval;

b) tightening the vertical and horizontal fastening members and finely adjusting the fastening spacing at one or more points on the top or bottom of the beam, as well as the non-deflected beams;

c) connecting the horizontal fastening members of step b);

d) connecting the tensioning means between the horizontal clamping member of the refraction beam and the rear end of the non-refracted beam;

e) tensioning the refracting beam at one or more points using the tensioning means to minimize the refracting portion;

f) welding the cross beam spot and the beam top slab portion with a rebar with the refracting portion minimized;

g) installing a crossbeam with the refracting portion minimized; And

and h) casting concrete onto the slab to form a slab, which can be accomplished by a reinforcement method of a refracting beam.

The above object of the present invention is achieved, in a further aspect,

An apparatus for use in a method of reinforcing a refracting beam, the apparatus comprising: a vertical fastening member and a horizontal fastening member,

The vertical coupling member 100 includes an upper bracket 110; A lower bracket 120 screwed with the upper bracket 110 to allow the upper bracket 110 to move up and down; A support portion 160 including a fixing hole 180 to which the vertical fastening member 100 is vertically fixed and supports the horizontal member guide portions 170 on both sides; And is supported by the supporting portions 160 at both sides to receive a part of the horizontal fastening member 200 so that the forward and backward movement of the horizontal fastening member 200 can be externally And a horizontal member guide portion 170 guiding the horizontal member 170,

The horizontal coupling member 200 includes a horizontal member guide unit 170 for supporting the beam contact member 240 as a common component overlapping with the vertical coupling member 100; A beam contact member 240 provided on the upper side or the lower side of the horizontal member guide part 170 and brought into close contact with the beam 20 by the rotation of the handle part 260; A fine adjustment knob 260 provided at one side of the horizontal member guide unit 170 and horizontally moving the horizontal member guide unit 170 by screw rotation; A plurality of grooves 250 are formed at the ends of the horizontal bar 210 and are fastened by the fixing pins 320. The plurality of grooves 250 are formed on the outer surface of the fine adjustment knob 260, And the other end of which is threaded in a predetermined length to be rotatably engaged with the fine adjustment clip 220; One end of the fine adjustment pin 220 is provided with a plurality of grooves 250 which are fastened by the screw rod 230 and the fixing pin 320 and the other end of the fine adjustment pin 220 is seated on the outer side, And a horizontal bar 210 which can be horizontally inserted into the horizontal bar 210. The vertical joining member and the horizontal joining member of the PSC beam can be achieved.

According to the present invention, the present invention provides a method of durably constructing a PSC beam by reinforcing and calibrating a refracted beam at high altitudes, thereby facilitating construction and preventing loss of resources, It is economical to install and disassemble the equipment including the member and the horizontal fastening member very easily.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a view for explaining a method of reinforcing a refracting beam according to an embodiment of the present invention; FIG.
Figs. 2 and 3 are views for explaining the arrangement of the beams. Fig.
4 is a view for explaining fastening of a vertical fastening member and a horizontal fastening member according to an embodiment of the present invention.
Figs. 5 and 6 are enlarged views of the areas A and B of Fig.
7 is a view showing a state where the vertical and horizontal fastening members are fastened to the PSC beam.
8 is a view showing a configuration of a vertical fastening member.
Fig. 9 is a view showing a disassembled state of the vertical fastening member of Fig. 8. Fig.
10 is a side view showing a state of engagement of the vertical fastening members.
11 is a plan view showing the shape of the vertical coupling member support.
12 and 13 are views for explaining the engagement state of the horizontal joining member.
Figs. 14 and 15 are views for explaining fastening of the horizontal fastening member. Fig.
16 is a view for explaining a tensile state of the refraction beam by the tension means.
17 is a view for explaining the fastening of the PSC beam and the cross beam.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the overall structure and operation of a method of reinforcing a refracting beam according to the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention. Therefore, it should be understood that the embodiments described herein and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and that various equivalents and modifications may be substituted for them at the time of the present application shall.

In particular, the term "upper" or "lower" as used in the present invention does not necessarily mean the end or end of the beam, but rather needs to be understood as a relative term in the sense of "upper" or "lower".

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a view for explaining a method of reinforcing a refracting beam according to an embodiment of the present invention; FIG.

The method of reinforcing a refracting beam according to the present invention

a) tightening the vertical fastening member and the horizontal fastening member at one or more points on the upper or lower end of the refraction beam and finely adjusting the fastening interval;

b) tightening the vertical and horizontal fastening members and finely adjusting the fastening spacing at one or more points on the top or bottom of the beam, as well as the non-deflected beams;

c) connecting the horizontal fastening members of step b);

d) connecting the tensioning means between the horizontal clamping member of the refraction beam and the rear end of the non-refracted beam;

e) tensioning the refracting beam at one or more points using the tensioning means to minimize the refracting portion;

f) welding the cross beam spot and the beam top slab portion with a rebar with the refracting portion minimized;

g) installing a crossbeam with the refracting portion minimized; And

and h) casting concrete onto the slab to form a slab.

Since such construction methods are mainly performed in the pier-shaped air space, it is necessary to strictly apply construction standards and management because inadvertent construction or erroneous construction can cause large-scale accidents.

In addition, bending, twisting, and bending (hereinafter referred to as " bending ") of the PSC beam can occur during concrete curing or steel wire insertion or tensioning. If such a refraction phenomenon occurs, it is difficult to dispose of the expensive beam, and if the construction is forced due to overstress, there is a possibility of construction failure, but there is no alternative construction method deserved.

The present invention is characterized in that a bridge 20 is securely and efficiently installed by correcting or reinforcing the refraction in the field by using the beams 20 in which the refraction beam 21 is not refracted.

2 and 3 are diagrams for explaining the arrangement of beams. In the PSC beam 20, a plurality (for example, a plurality of As a structure to be installed, after the proper reinforcing bars 50 are installed and the cross beam 30 is installed, the slabs 40 are formed to pour the concrete.

In order to reinforce or modify the refracted beam according to the method of the present invention, it may be preferable to perform a step of fixing the uninflected beams to the reinforcing bars 23 by welding or the like.

It may be more desirable to perform such an operation of fixing the reinforcing bars 23 at both ends of the beam 20. [

Next, in the step a), the vertical fastening member and the horizontal fastening member are fastened at one or more points of the upper or lower end of the refraction beam, and the tightening interval is finely adjusted. Particularly preferably, it may be more efficient to perform at three points A, B and C in Fig.

FIG. 4 is a view for explaining fastening of a vertical fastening member and a horizontal fastening member according to an embodiment of the present invention, FIGS. 5 and 6 are enlarged views of regions A and B of FIG. 4, 8 is a view showing a configuration of a vertical fastening member, Fig. 9 is a view showing a disassembled state of the vertical fastening member in Fig. 8, Fig. 10 is a view showing a state in which a horizontal fastening member is fastened to a PSC beam, 12 and 13 are views for explaining a state of engagement of the horizontal joining member, and Figs. 14 and 15 are views for explaining the joining state of the horizontal joining member And Fig.

4 to 15, the fastening members for the PSC beams 20, 21 are fastened in conformity with the shape of the beam 20 or the shape including the beam and the telescope 22, as shown in the preferred embodiment.

By securing the beams 20 and the journals 22 using the fastening device in this way, it is possible to secure the prevention of deviation and stability of the entire beams, and such fastening devices can be easily changed and modified without departing from the spirit of the present invention .

In addition, according to a preferred embodiment of the present invention, such a fastening member is described as being divided into a vertical fastening member 100 and a horizontal fastening member 200, which are separately described for ease of explanation, And this fastening member is preferably fastened tightly to match the shape of the beam comprising the journals 22 located at the bottom of the beam 20. [

The vertical fastening member 100 includes an upper bracket 110; A lower bracket 120 screwed with the upper bracket 110 to allow the upper bracket 110 to move up and down; A support portion 160 including a fixing hole 180 to which the vertical fastening member 100 is vertically fixed and supports the horizontal member guide portions 170 on both sides; And is supported by the supporting portions 160 at both sides to receive a part of the horizontal fastening member 200 so that the forward and backward movement of the horizontal fastening member 200 can be externally And a horizontal member guide unit 170 guiding the guide member 170 in the horizontal direction.

The upper bracket 110 includes an upper coupling part 114 bent at a predetermined angle in accordance with the shape of the beam, a vertical length adjustment rod 112 integrally coupled to the upper coupling part 114, A connection part 111 between the upper coupling part 114 and the length adjusting rod 112 and a rotary knob 113 provided below the length adjusting rods 112.

The support portion 160 may have a groove for fastening the tension means on the outer side.

The lower bracket 120 receives the upper end of the upper bracket 110 and the upper and lower length control rods 112 connected to the upper bracket 110 so that the length of the upper bracket 110 can be adjusted by rotating the upper and lower brackets 110, And a horizontal member guide portion 170 corresponding to the outer diameter of the horizontal fastening member 200 is formed on the lower side of the fastening member 121 And the first length fixing nut 112 is integrally installed.

This structure is for finely adjusting the vertical portion so that the upper engaging portion 114 is conformed to the shape of the beam to be fastened by the rotation of the tab 113, and the present invention is not limited to such a preferred embodiment .

The horizontal coupling member 200 includes a horizontal member guide unit 170 that supports the beam contact member 240 as a common component that overlaps the vertical coupling member 100 in one embodiment. A beam contact member 240 provided on the upper side or the lower side of the horizontal member guide part 170 and brought into close contact with the beam 20 by the rotation of the handle part 260; A fine adjustment knob 260 provided at one side of the horizontal member guide unit 170 and horizontally moving the horizontal member guide unit 170 by screw rotation; A plurality of grooves 250 are formed at the ends of the horizontal bar 210 and are fastened by the fixing pins 320. The plurality of grooves 250 are formed on the outer surface of the fine adjustment knob 260, And the other end of which is threaded in a predetermined length to be rotatably engaged with the fine adjustment clip 220; One end of the fine adjustment pin 220 is provided with a plurality of grooves 250 which are fastened by the screw rod 230 and the fixing pin 320 and the other end of the fine adjustment pin 220 is seated on the outer side, And a possible horizontal bar 210.

The screw thread formed on the outer side of the threaded bar 230 is for adjusting the horizontal distance of the beam contact member 240 by the rotation of the horizontal adjustment knob 260, The horizontal adjustment of the horizontal bar 210 is finely adjusted.

The horizontal bar 210 is fastened at one side by the threaded bar 230 and the fixing pin 320 through the grooves 250 and 290 and at the other side by the fine adjustment clip 220 to the threaded bar 230 do.

The fine adjustment clip 220 has a generally cylindrical shape and is formed in the head portion so that the fine adjustment clip 220 is seated in the groove formed along the outer circumferential surface of the horizontal bar 210. The fine adjustment clip 220 is formed on the outer side of the body portion, The horizontal movement of the horizontal bar 210 can be finely adjusted by rotating in correspondence with the thread.

The fixing pin 320 simultaneously joins the horizontal bar 210 and the holes 250 and 290 formed in the screw bar 230 with each other.

Such a structure can finely adjust the horizontal portion so that the horizontal joining member 200 conforms to the shape of the beam to be clamped by the rotation of the fine adjustment knob 260, And the present invention is not limited to these preferred embodiments.

As described above, the vertical fastening member and the horizontal fastening member are fastened to the refracting beam 21, and then, in the step b), the beams that have not undergone refraction are similarly screwed to the vertical fastening member 100 and the horizontal fastening member 100, (200) and fine adjustment of the fastening interval can be performed.

More preferably, the beams that are not refracted at the side of the refracting beam are localized at predetermined intervals (after being arranged to one side), and then the vertical fastening member 100 and the horizontal fastening member 200 It may be more efficient to perform the step of tightening and finely adjusting the fastening interval.

Next, in step c), the horizontal fastening members of step b) are connected using the horizontal bar 210 or the like.

Next, d) is performed to connect the tensile means between the horizontal coupling member 200 of the refraction beam and the rear end of the non-refracted beam 20.

As the tension means, a hydraulic jack, a chile block, a lever block, a turnbuckle, a pulley, a hydraulic cylinder, or the like can be used.

FIG. 14 is a view for explaining a step of connecting and pulling the beams by the tensioning means. For example, in the connecting portion of the fixing pin 320 used for connecting the support member 160 and the horizontal bar 210, The connecting members 310 are simultaneously fastened and tensioned between them using the turnbuckle 330 or the hydraulic jack 350.

On the other hand, it is possible to improve the work efficiency by performing the reinforcement fixing work in advance by welding or the like to the beams which have not undergone refraction and then tensioning the refraction beams.

E) Using the tensioning means, the refracting beam 21 is stretched at one or more points in the direction of the non-refracted beams until the refracting portion is minimized.

On the other hand, in step e), pushing from the rear of the refracting beam simultaneously with tension may improve the efficiency of the tunneling.

Further, the step of fixing the beams between the beams with the reinforcing bars in the state that the tension is completed after the step e) can further improve the work efficiency.

Then, f) the cross-beam spot and the beam upper slab portion are welded and fixed by reinforcing bars, while maintaining the refracted portion as minimized.

G) installing a crossbeam in a state in which the refracting portion is minimized, and h) casting the concrete in situ to form a slab.

15 is a view for explaining the fastening of the PSC beam and the cross beam.

Finally, when the concrete is sufficiently cured after the concrete site is laid, the vertical joining member 100 and the horizontal joining member 200 may be sequentially removed to reuse the related equipment. Further, in the course of curing, the fastening member can compensate for the restoring force of the refracting beam 21 to further ensure stability.

Accordingly, the present invention provides a method of durably constructing a PSC beam by reinforcing and correcting a refracted beam at a high angle, thereby preventing loss of resources, and also including a vertical fastening member and a horizontal fastening member It is economical because it is very easy to install and dismantle equipment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, it is intended that the scope of the invention be defined by the claims appended hereto, and that all equivalent or equivalent variations thereof fall within the scope of the present invention.

10: Pier 20: Beam
21: refraction beam 22:
23: Rebar
30: Cross beam 40: Slab
100: Vertical fastening member 110: Upper bracket
120: lower bracket 200: horizontal fastening member
210: horizontal bar 220: fine adjustment clip
230: screw rod 240: tight contact member
250, 290: hole 260: fine adjustment handle

Claims (7)

a) tightening the vertical fastening member and the horizontal fastening member at one or more points on the upper or lower end of the refraction beam and finely adjusting the fastening interval;
b) tightening the vertical and horizontal fastening members and finely adjusting the fastening spacing at one or more points on the top or bottom of the beam, as well as the non-deflected beams;
c) connecting the horizontal fastening members of step b);
d) connecting the tensioning means between the horizontal clamping member of the refraction beam and the rear end of the non-refracted beam;
e) tensioning the refracting beam at one or more points using the tensioning means to minimize the refracting portion;
f) welding the cross beam spot and the beam top slab portion with a rebar with the refracting portion minimized;
g) installing a crossbeam with the refracting portion minimized; And
h) casting concrete onto the slab to form a slab
Performing a reinforcing bar fixing operation in advance for the beams that have not been refracted prior to the step a)
Further comprising the step of securing the beams between the beams in a state that the tension is completed after step e)
The vertical coupling member includes an upper bracket 110; A lower bracket 120 screwed with the upper bracket 110 to allow the upper bracket 110 to move up and down; A support portion 160 including a fixing hole 180 to which the vertical fastening member 100 is vertically fixed and supports the horizontal member guide portions 170 on both sides; And is supported by the supporting portions 160 at both sides to receive a part of the horizontal fastening member 200 so that the forward and backward movement of the horizontal fastening member 200 can be externally And a horizontal member guide portion 170 guiding the horizontal member 170,
The horizontal coupling member includes a horizontal member guide portion 170 for supporting the beam contact member 240 as a common component overlapping with the vertical coupling member 100; A beam contact member 240 provided on the upper side or the lower side of the horizontal member guide part 170 and brought into close contact with the beam 20 by the rotation of the handle part 260; A fine adjustment knob 260 provided at one side of the horizontal member guide unit 170 and horizontally moving the horizontal member guide unit 170 by screw rotation; A plurality of grooves 250 are formed at the ends of the horizontal bar 210 and are fastened by the fixing pins 320. The plurality of grooves 250 are formed on the outer surface of the fine adjustment knob 260, And the other end of which is threaded in a predetermined length to be rotatably engaged with the fine adjustment clip 220; One end of the fine adjustment pin 220 is provided with a plurality of grooves 250 which are fastened by the screw rod 230 and the fixing pin 320 and the other end of the fine adjustment pin 220 is seated on the outer side, And a horizontal bar (210) as far as possible. The method according to claim 1,
The vertical fastening member and the horizontal fastening member are fastened in correspondence with the shape of the beam 20 or fastened to the shape including the beam 20 and the juxtaposition 22 located at the lower portion of the beam 20. A method of reinforcing a refraction beam. delete The method according to claim 1,
Further comprising the step of pushing the refraction beam from behind the refraction beam simultaneously with the tension in the step e). delete delete delete

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