KR100966943B1 - Reinforcement Structure of External Tendon Anchorage Part with Fiber Sheet and Construction Method Thereof - Google Patents

Abstract

The present invention relates to a fixing portion reinforcing structure of an external tension member to improve the durability of the fixing portion by disposing a fiber sheet on the surface of the fixing portion concrete in order to prevent cracking of the fixing portion of the external tension member, and a construction method thereof.

The fixing unit reinforcing structure of the present invention is installed on the surface of the concrete fixing unit for fixing the external tension member of the prestressed concrete girder, the fiber sheet integrally with the fixing unit, and is bonded to the fiber sheet embedded in the fixing unit concrete And a fixing pin, wherein the fiber sheet is integrally connected to the surface of the fixing unit by the concrete forming the fixing unit and the fixing pin embedded in the fixing unit, thereby preventing cracks from occurring on the surface of the fixing unit. It is characterized by preventing.

 External tension material, fixing part, uncured fiber sheet, fixing pin

Description

Reinforcement Structure of External Tendon Anchorage Part with Fiber Sheet and Construction Method Thereof}

The present invention relates to a fixing part reinforcing structure of the external tension member using the fiber sheet and a construction method thereof. Specifically, in order to prevent cracks from occurring in the fixing part of the external tension member, the fiber sheet is disposed on the concrete surface of the fixing part. The present invention relates to a fixing unit reinforcing structure of an external tension member for improving durability of the fixing unit, and a construction method thereof.

In the case of the prestressed concrete bridge, as shown in FIG. 1, in order to fix the tension member or to change the tension direction, the fixing unit 101 including the sheath tube 111 is generally provided at the end or the middle of the girder 100. In such a fixing part, the tension force acts as a large concentrated load on the concrete, causing cracking. In the related art, in order to solve the problem, a large amount of reinforcing bars are disposed in the fixing part. However, such reinforcement alone does not fundamentally prevent cracking of the anchorage part.

In addition, a method of suppressing the occurrence of cracking is used by constructing the fixing unit by using special concrete such as concrete containing glass fiber.However, when girder is manufactured, when special concrete is locally placed only on the fixing unit, the interface with other concrete There is a possibility of new cracks caused by dry shrinkage in the case of, and there is an uneconomical problem when the entire girder is made of special concrete.

In addition, a method of attaching a composite fiber such as glass fiber and carbon fiber to the surface of the cracked concrete fixing part to reinforce the crack occurrence part is used.However, this method does not have great surface adhesion between the concrete and the composite fiber. Destruction easily occurs, and when the fixing unit protrudes, there is a problem that the fixing failure of the composite fiber can not be secured due to insufficient fixing length. In particular, when the composite fiber is attached to the concrete fixing unit by using an adhesive such as epoxy, it may hinder the aesthetics of the bridge, and the concrete and the composite fiber cannot be integrated, so the amount of expansion and contraction according to the temperature change is different. There is a fear that the composite fiber may fall off or corrode over time.

The present invention was developed in order to overcome the limitations and problems of the prior art as described above, it is to suppress the occurrence of cracks by reinforcing the fiber sheet integrally with the surface of the fixing unit according to the shape of the fixing unit.

In addition, the present invention improves the adhesion between the concrete and the fiber sheet, and by increasing the length of fixing by connecting the fiber sheet on the adjacent member and the fiber sheet on the surface of the fixing unit, to prevent the fixing failure on the surface of the fixing unit, separate maintenance · To provide a reinforcement structure for the fixing part which requires no repair.

In order to achieve the above object, in the present invention, the fiber sheet is formed on the surface of the concrete fixing unit for fixing the external tension member of the prestressed concrete girder and integrally with the fixing unit, and the fiber sheet is coupled to the fixing unit in the concrete And a buried fixing pin, wherein the fiber sheet is integrally connected to the surface of the fixing unit by the concrete forming the fixing unit and the fixing pin embedded therein, thereby resisting the stress generated on the surface of the fixing unit. It provides a fixing part reinforcing structure of the prestressed concrete girder external tension member, characterized in that to prevent the occurrence.

In addition, a fiber sheet having a fixing pin coupled to the surface of the girder around the fixing unit is installed, and the fiber sheet installed on the surface of the girder around the fixing unit has a fiber sheet fixed at an end thereof on the surface of the fixing unit. By being connected, it provides a fixing portion reinforcing structure of the prestressed concrete girder external tension member, characterized in that to integrally reinforce the surface of the fixing unit and the girder around the fixing unit.

In addition, as a construction method of the fixing unit for fixing the external tension member of the prestressed concrete girder, by installing the fiber sheet coupled with the fixing pin inside the formwork and fixed, and placing the formwork at the position where the fixing unit is to be formed, the fixing After the sheath pipe and the reinforcing bars are arranged in the space to be formed, the concrete is poured and the fixing sheet is bonded to the exposed concrete to the upper surface of the fixing unit where the formwork is not installed. Integrating the fiber sheet integrally with the surface of the part, to provide a fixing unit construction method of the prestressed concrete girder external tension member characterized in that it resists the tensile force generated on the surface of the fixing unit.

In addition, by installing a fiber sheet with a fixing pin coupled to the surface of the girder around the fixing unit, and connecting the end of the fiber sheet installed on the surface of the girder around the fixing unit to the fiber sheet fixed to the fixing unit surface In addition, the fusing unit construction method of the prestressed concrete girder external tension member characterized in that the reinforcing unit and the girder surface surrounding the fixing unit integrally.

According to the present invention, the fiber sheet can be arranged in any shape before the fixing part concrete hardening, and the surface of the fixing part can be reinforced and constructed in various forms.

In addition, in the present invention, cracks can be suppressed without inhibiting the aesthetics of the bridge, such as an adhesive such as epoxy, and the fiber sheet is integrally connected with the concrete forming the fixing part, thereby preventing the breaking of the interface of the fixing part. The durability of the part can be improved.

Hereinafter, the configuration of the present invention will be described by referring to specific embodiments of the present invention with reference to the accompanying drawings.

2A and 2B show schematic and cross-sectional perspective views showing the girder 1 fixing unit 10 of the present invention. The surface of the tension member fixing unit 10 of the present invention is reinforced with a fiber sheet 20, by arranging and fixing the fiber sheet 20 to surround the surface of the concrete body constituting the fixing unit 10, the fixing unit (10) It is possible to suppress the occurrence of cracking due to the concentrated load that is likely to occur on the surface.

2A to 5, the present invention has been described using the fixing unit 10 formed inside the concrete box girder 1 and reinforced by the fiber sheet 20 as an example, but the present invention is not limited thereto. It can be applied to various types of tension fixing unit 10.

As the fiber sheet 20 of the present invention, various kinds of fiber sheets 20 such as carbon fiber sheets, glass fiber sheets, aramid fiber sheets, and the like may be used.

The fiber sheet 20 is impregnated with an adhesive capable of controlling the degree of curing of the fiber sheet is mixed with the curing agent or retardant prior to being disposed in the mold 40, it is preferably disposed in an uncured state. As such, when the fiber sheet 20 is disposed on the inner surface of the formwork 40 before the concrete 13 is poured, the fiber sheet 20 can be bent or folded, so that the fiber sheet 20 can be bent or folded. It may be disposed in the mold 40 in accordance with the shape of. In addition, when the formwork 40 is removed, the fiber sheet 20 is in a state of being hardened integrally on the surface of the concrete 13 forming the fixing unit 10, so that the work of disassembling the formwork 40 is easy. Can be done.

Although the fixing unit 10 of the external tension member described above may be manufactured integrally at the time of manufacturing the girder 1, after the shear connection member is installed in advance in the position where the fixing unit 10 is to be formed, the girder 1 may be manufactured. In addition, the additional concrete 13 may be poured to form the fixing unit 10.

3A to 3F are schematic perspective views and cross-sectional views showing a process of constructing the fixing unit 10 reinforced with the fiber sheet 20 of the present invention in order. First, as shown in Figure 3a, to form the formwork 40 is peeled off the inner side in accordance with the appearance of the fixing unit (10). At this time, as shown in the inner surface of the mold 40, the inner surface of the mold 40 may be peeled off by laying a synthetic resin cover 50 such as vinyl or applying a release agent. On the inner surface of the peeling form 40, as shown in FIG. 3b, the fiber sheet 20 can be laid in a state in which the fixing pin 30 is pre-coupled to the fiber sheet 20, and the fixing pin 30 is It is preferably arranged to protrude above the fiber sheet 20. The fiber sheet 20 to which the fixing pin 30 is coupled may be fixed to the upper surface of the synthetic resin cover 50 disposed on the inner surface of the formwork 40 or the inner surface of the formwork 40 by an adhesive or the like.

The fixing pin 30 may be formed in various forms that can be fixed and coupled to the fiber sheet 20, as shown in Figure 3b, when side-by-side portion is formed of U-shaped material having irregularities, later poured Friction with the concrete 13 to be increased can be increased, and thus the fiber sheet 20 and the concrete 13 can be integrally connected. That is, the fixing pin 30 serves as a shear connector so that the fiber sheet 20 and the concrete 13 can be integrally bonded when the concrete 13 is poured onto the fiber sheet 20 as described below. can do. In addition, the fixing pin 30 is formed longer than the concrete coating thickness, and is connected to the reinforcing bar 12 disposed in the fixing unit 10, when the concrete 13 constituting the fixing unit 10 It may serve to fix the position of the fiber sheet 20 coupled to the fixing pin (30).

As such, after the fiber sheet 20 is installed and the fixing pins 30 are coupled to each other, as shown in FIG. 3C, the reinforcing steel 12 and the sheath pipe are disposed in the space where the concrete 13 forming the fixing unit 10 is to be placed. (11) can be arranged. Next, as shown in FIG. 3d, the concrete 13 is poured into the formwork 40. At this time, as shown in Figure 3e, the mold 40 is not installed on the upper surface of the fixing unit 10, before the concrete 13 is solidified to install the fiber sheet 20, the fixing pin 30 is coupled in advance It may be. As such, when the fiber sheet 20 is installed before the concrete 13 is cured, the fiber sheet 20 and the fixing pin 30 may be integrally coupled to the surface of the concrete 13 forming the fixing unit 10. In this case, the fibrous sheet 20 controls the stress generated on the surface of the fixing unit 10, thereby suppressing the occurrence of cracks.

At this time, the fiber sheet 20 in consideration of the degree of curing of the concrete 13 and the degree of adhesion of the concrete 13 and the fiber sheet 20, after pouring the concrete 13, within 30 minutes to 1 hour It is desirable to install.

3f is a schematic perspective view showing a state in which the fixing unit 10 concrete surface is reinforced with the fiber sheet 20 and the concrete 13 is cured to complete the fixing unit 10.

In the present invention, the fiber sheet 20 reinforcing the fixing unit 10 may be disposed in the girder 1 around the fixing unit 10 in addition to the fixing unit 10 in which the end of the external tension member is directly fixed. 4A to 4D, a process in which the periphery of the fixing unit 10 and the fixing unit 10 are integrally reinforced by the fiber sheet 20 will be described. First, as shown in Figure 4a, in order to pour the concrete 13 constituting the girder 1 and the fixing unit 10, the inner surface is peeled, the fixing sheet 30 is coupled to the fiber sheet 20 The laid form and fixed formwork 40 is arranged in accordance with the shape of the girder 1 and the fixing unit 10. At this time, it is preferable to arrange the sheath tube 11 or reinforcing bar 12 in advance in the portion where the fixing unit 10 is to be formed. In addition, the fiber sheet 20 which is installed at the position where the fixing unit 10 is to be installed in the girder 1 is installed to further extend toward the position where the fixing unit 10 is to be installed, and the extended portion may be a fixing unit (for convenience). 10) may be temporarily folded or placed outside the location where it will be installed.

Next, as shown in Figure 4b, at the position where the fixing unit 10 is to be formed, it can be installed on the inner surface side formwork 40, the fiber sheet 20, the fixing pin 30 is coupled. The fiber sheet 20 which is installed on the inner surface of the mold 40 of the fixing unit 10 is also provided with a length that extends beyond the end of the side mold and extends out of the mold 40. Can be temporarily folded or laid out.

As such, after arranging the formwork part 10, the reinforcing bar 12, and the sheath pipe 11, the fixing pin 30 and the reinforcing bar 12 are connected to each other, and the fiber sheet 20 After fixing the position of), the concrete 13 is poured into the formwork 40. The reinforcing bar 12 disposed in the space in which the concrete 13 is poured is extended not only to the position of the fixing unit 10 but also to the girder 1 around the fixing unit 10, whereby the concrete 13 is poured. Preferably, the girder 1 and the fixing unit 10 are integrally formed. In addition, as shown in Figure 4c, before the concrete 13 is cured, the fixing sheet 30 is installed on the upper surface of the fixing unit 10, the mold 40 is not installed, the fiber sheet 20 is coupled to the fixing unit The upper surface of (10) can be reinforced.

After curing of the concrete 13, the formwork 40 is separated and the end of the fiber sheet 20 of the girder 1 installed to extend further than the portion contacting the fixing part 10 is fixed to the fixing part 10. When the fiber sheet 20 is connected to the fiber sheet 20 on the side surface, the fiber sheet 20 can be continuously installed on the surface of the fixing unit 10 and the girder 1, and thus the surroundings of the fixing unit 10 and the fixing unit 10 The stress generated in the girder 1 can be controlled. In addition, the fiber sheet 20 fixed to the side formwork 40 of the fixing unit 10 and laid so that the end thereof extends is also connected to the fiber sheet 20 installed on the upper surface of the fixing unit 10. Can be processed.

In the above, the structure and construction method of the fixing unit 10 have been described as an example of manufacturing the fixing unit 10 integrally at the time of manufacturing the girder 1, but the present invention is not limited thereto. 10) is installed so that the shear connector is exposed in advance in the position where it will be installed, and then the girder 1 is constructed first, and then using the side formwork 40 and the fiber sheet 20 on the upper surface of the part where the shear connector is installed. The fixing unit 10 may be constructed.

FIG. 5 is a schematic cross-sectional view showing an example in which the fiber sheet 20 around the girder 1 fixing unit 10 is disposed, and as shown, the fiber sheet 20 is formed of the girder 1. As well as the cross-sectional surface, it is disposed in the thickness direction of the girder and integrally embedded in the concrete, it is possible to reinforce the tensile force around the fixing unit 10.

1 is a schematic perspective view of a conventional girder fixing unit.

2A and 2B are schematic perspective and cross-sectional perspective views showing the girder fixing unit of the present invention.

3A to 3F are schematic perspective views and cross-sectional views showing a process of constructing the girder fixing unit of the present invention in order.

Figures 4a to 4d is a schematic cross-sectional view showing a process of connecting the girder fixing unit and the surrounding fiber sheet of the present invention in order.

5 is a schematic cross-sectional view showing an example of the arrangement of the fiber sheet around the girder fixing unit.

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

1 girder 10 fusing unit 11 sheath tube

12 Rebar 13 Concrete

20 Fiber Sheet 30 Fixing Pin

40 formwork 50 synthetic resin cover

Claims (4)

A fiber sheet 20 installed on the surface of the concrete fixing unit 10 for fixing the external tension member of the prestressed concrete girder 1 to be integral with the fixing unit 10; And A fixing pin (30) embedded in the concrete (13) forming the fixing unit (10) in a state of being bonded to the fiber sheet (20); The fiber sheet 20 is integral with the concrete 13 forming the fixing unit 10 by the concrete 13 forming the fixing unit 10 and the fixing pin 30 embedded therein. By combining with, the reinforcing unit reinforcing structure of the prestressed concrete girder external tension member, characterized in that it prevents cracking in response to the stress generated on the surface of the fixing unit (10). The method of claim 1, A fiber sheet 20 having a fixing pin 30 coupled to the surface of the girder 1 around the fixing unit 10 is installed. The fiber sheet 20 installed on the surface of the girder 1 around the fixing unit 10 has an end portion connected to the fiber sheet 20 installed and fixed on the surface of the fixing unit 10, thereby providing the fixing unit ( 10) and the reinforcing unit reinforcing structure of the prestressed concrete girder external tension member, characterized in that the reinforcing surface of the girder (1) around the fixing unit (10) integrally. As a construction method of the fixing part 10 for fixing the external tension member of the prestressed concrete girder 1, The fiber sheet 20 to which the fixing pin 30 is coupled is installed and fixed inside the formwork 40, The formwork 40 is disposed at the position where the fixing unit 10 is to be formed, After placing the sheath pipe 11 and the reinforcing bar 12 in the space where the fixing unit 10 is to be formed, the concrete 13 is poured, By installing the fiber sheet 20 in which the fixing pin 30 is coupled to the concrete 13 exposed to the upper surface of the fixing unit 10 in which the formwork 40 is not installed, the fixing unit 10 Method of constructing the fixing portion of the prestressed concrete girder external tension member, characterized in that the fiber sheet 20 is integrally bonded to the surface to resist the tensile force generated on the surface of the fixing portion (10). The method of claim 3, The fiber sheet 20 having the fixing pin 30 coupled to the surface of the girder 1 around the fixing unit 10 is installed, By connecting the end of the fiber sheet 20 installed on the surface of the girder 1 around the fixing unit 10 to the fiber sheet 20 installed and fixed on the surface of the fixing unit 10, the fixing unit 10 ) And a method of constructing a fixing part of the prestressed concrete girder external tension member, characterized in that the reinforcing surface of the girder (1) around the fixing part (10) integrally.

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