KR200222329Y1 - External prestressing device for tension distribution of continuous bridge - Google Patents

Abstract

The present invention relates to an external steel wire reinforcement device of a continuous bridge capable of distributing and fixing the tension force by dispersing the anchoring position of the steel wire so that it can be applied to the continuous bridge requiring reinforcement, and the outside of the continuous bridge capable of distributing and fixing the tension force of the present invention. The steel wire reinforcement device, in constituting the external steel wire reinforcement device of the continuous bridge, is provided with a fixing device, a fixing member which is installed at the shortest both ends of the beam connected to at least two neighboring, and the fixing device is installed, each beam connected At least one saddle installed at a central portion of the beam, a fixing device is installed, at least one divider installed near a connection portion between the connected beam and the beam, and a fixing device of the fixing member of one side beam of the neighboring beam. From the fixing device of the saddle of the first outer steel wire and one side beam connected to the fixing device of the divider, the neighbor It is characterized in that it comprises a second external steel wire connected to the fixing device of the saddle of the plurality of external steel wires connecting the respective beams by scattering and fixing the effect of enabling a sufficient continuous bridge reinforcement even with a shorter wire Have

Description

External prestressing device for tension distribution of continuous bridge

The present invention relates to an external steel wire reinforcement device of a continuous bridge capable of distributing and fixing a tension force capable of distributing and fixing tension, and more particularly, a continuous that can disperse and fix a tension force that can be applied to a continuous bridge requiring reinforcement. It relates to the external steel reinforcement of bridges.

In general, there are various reasons for reinforcing existing structures (beams), but if they are classified by type, they can be classified into the following three cases.

First, it is the case that it seems to be missing due to damage or damage, second, it is the case to raise the load capacity class, and third, the case where the load capacity problem is caused by the design or construction error.

Currently, there is a method for rebuilding the top plate for this reinforcement, a method for reinforcing steel sheet and a method using an external steel wire.

Among these methods, the reinforcement method of the existing structure using the external steel wire is actively applied to the reinforcement of various structures because of its high adaptability and reinforcement efficiency.

However, the existing structure reinforcement method using the external steel wire is applied to each beam independently, it is applied only to the simple beam, and the structure is provided with the external steel wire and the saddle installed in the middle of the beam in the case of the continuous bridge There was a problem that it was difficult to apply because the end fixing device could not be installed.

In addition, in the case of reinforcing the external steel wire of continuous bridges, the same number of steel wires are arranged in the center part of the girder or the connection part of the girder, and the steel wire is tensioned by the reinforcing amount of the connection part of the girder, which actually requires a lot of reinforcement. There was a problem of over-reinforcement.

An object of the present invention for solving the above problems, the continuous bridge that can be distributed to the fixed tension can be distributedly fixed to the tension to enable the reinforcement of the continuous bridge by distributing a plurality of external steel wires connecting each beam It is to provide an external steel wire reinforcement device.

1 is a view showing a state in which the external steel wire reinforcing device of the continuous bridge capable of dispersing and fixing the tension force according to an embodiment of the present invention is mounted on the continuous bridge.

2A, 2B and 2C are views illustrating the end fixing member of FIG. 1.

3A, 3B, 3C and 4A, 4B, 4C are diagrams showing the first birds and the second birds of FIG. 1.

5A, 5B, and 5C are diagrams illustrating the aviator of FIG. 1.

6A, 6B, and 6C are views illustrating other embodiments of the end fixing member of FIG. 2.

FIG. 7 is a view illustrating a fixing position of steel wires when reinforcing external steel wires of two span continuous beams. FIG.

8 is a side cross-sectional view illustrating dispersing of wires in a divider.

The external steel wire reinforcement device of the continuous bridge capable of dispersing and fixing the tension force of the present invention for achieving the above object, in the configuration of the external steel wire reinforcement device of the continuous bridge, the fixing device is installed, at least two neighboring beams A fixing member installed at both ends of the shortest; At least one saddle in which a fixing device is installed and installed in the center of each connected beam; At least one divider installed with a fixing device and installed near the connection between the connected beams and the beams; A first external steel wire connected from the fixing device of the fixing member of the one side beam to the fixing device of the divider of a neighboring beam; And a second outer steel wire connected from the fixing device of the birds of one side beam to the fixing device of the birds of a neighboring beam. In addition, the saddle, the fixing plate is fixed to the anchor bolt or steel bar on the lower surface of the beam; A support plate protruding from the fixing plate, supporting the upper surface of the external steel wire, and having a curvature formed at one side according to an incident angle of the external steel wire; A guide plate formed at a side of the support plate and guiding the outer steel wire from being separated from the support plate; A connecting plate connecting the fixing plate in contact with the left side of the beam and the fixing plate in contact with the right side of the beam to surround the lower end of the beam; And a fixing stand protruding from the fixing plate and having a fixing device installed thereon to fix the second external steel wire.

In addition, the divider, and the fixing plate which is fixed to the anchor bolt or steel bar on one side of the beam; A support plate protruding from the fixing plate, supporting the lower side of the outer steel wire, and having a curvature formed at one side according to an incident angle of the outer steel wire; A guide plate formed on a side of the support plate and guiding the outer steel wire from being separated from the support plate; And a fixing stand protruding from the fixing plate and having a fixing device for fixing the first external steel wire or the second external steel wire.

In addition, the first outer steel wire is at least one outer steel wire that is connected from the end fixing device of the end fixing member of the one side beam to the fixing device of the navigator of the neighboring beam, the second outer steel wire is the fixing device of the saddle of one side beam At least one external steel wire is connected to the anchoring device of the birds of the neighboring beams from.

Hereinafter, an external steel wire reinforcement device of a continuous bridge capable of dispersing and fixing tension force according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, as shown in Figure 1, the external steel wire reinforcement device of the continuous bridge capable of dispersing and fixing the tension force according to an embodiment of the present invention, not simple beams, but two or more beams are connected to each other, or simple to connect As applied to the case of the bridge, the drawing shows the external steel wire reinforcement of the continuous bridge applied to the two beams. In the case of the simple bridge, the bridge is filled with mortar or concrete before tensioning the external steel wire, and the bridge is first sequential.

That is, the external steel wire reinforcement device of the continuous bridge capable of dispersing and fixing the tension force according to an embodiment of the present invention, the outer steel wire 10, the saddle 20, the divider 30 and the fixing member The outer steel wire 10 is composed of a first outer steel wire connecting the fixing member and the divider 30 and a second outer steel wire connecting the saddle 20 and the saddle 20. That is, the first outer steel wire is fixed to one end of the fixing device 12 of the one end of Figure 1 installed in the fixing member, the fixing of the divider 30 of the neighboring beam via the middle saddle 20 of the beam The other end of the device is fixed to the tension can be adjusted, it serves to connect at least two beams (1).

Here, the steel wire is made of individual steel wire, it is preferable that the coating is coated to protect the steel wire from external exposure. On the other hand, the second outer steel wire, when a plurality of birds are installed in a configuration that connects the saddle 20 of the side beams and the saddle 20 of the neighboring beams, the plurality of second outer steel wires are mutually staggered so that the dispersion force is distributed It is a connected configuration.

Therefore, the anchoring positions of the outer steel wires 10 are not concentrated only on the fixing member but are distributed and fixed to each bird and the divider so that the tension force can be distributed.

On the other hand, the fixing device 12 of the present invention can be used for all kinds of fixing devices used in the existing simple bridge, in the present invention, as shown in Figure 2a, 2b, 2c, the beam 1 shows a leaflet fusing device for supporting one end of the end portion.

The fixing unit 18 formed in the fixing unit 12 is installed in accordance with the number of the external steel wire 10 is fixed to the divider 30 to distribute the concentration of load generated in the fixing unit 18 position It is preferable to make it.

In addition, the saddle 20, when the tension force is applied to the outer steel wire 10 to fix the outer steel wire 10 so that the outer steel wire 10 to lift the central portion of each beam (1), A body having a cross-section 'c' shape as a whole may be used by fixing the anchor bolt to the beam, but preferably, as shown in FIGS. 3A, 3B, and 3C, the fixing plate 22, the supporting plate 24, and the guide. It is the structure comprised by the board 26, the connection board 28, and the fixing base 29. As shown in FIG.

These saddles 20 are installed at the point where the load capacity becomes maximum according to the moment diagram of the beam or symmetrically on both sides of the vicinity of the point where the load capacity becomes maximum, as shown in FIG. It is preferable to install the first saddle 20a installed near 3 and the second saddle 20b installed near 2/3 of the beam.

Here, the fixing plate 22 is a plate that is fixed to the anchor bolt 2 or a steel bar on one side of the beam, the support plate 24 is formed to protrude to the fixing plate 22, the outer steel wire 10 It is in contact with the upper side of the plate material, the curvature is formed on one side in accordance with the angle of incidence of the outer steel wire 10, the guide plate 26 is formed on the side of the support plate 24, the outer steel wire 10 It is a board | plate material which guides so that it may not separate | separate from this said support plate 24.

In addition, the fixing unit 29 is formed to protrude on the fixing plate 22, the plate for fixing the external steel wire 10 is fixed to the saddle 20, the connecting plate 28, The fixing plate 22 in contact with the left side of the beam 1 and the fixing plate 22 in contact with the right side of the beam 1 are connected to each other so as to surround the lower end of the (1) in a 'c' shape as a whole.

Also, the birds shown in FIGS. 4A, 4B, and 4C are second birds 20b neighboring the first birds 20a shown in FIGS. 3A, 3B, and 3C, and are symmetrical to each other, and the outer steel wire ( It comprises a support plate 24 formed with a curvature on one side according to the incident angle of 10).

These saddles 20 may be one, not necessarily two, for each beam in a set of outer steel wire, and may be a plurality, each of the birds 20 is not necessarily installed at equal intervals of the beam (1) Depending on the moment diagram, a plurality may be installed symmetrically in the vicinity of the point where the load capacity becomes the maximum or the point where the load capacity becomes the maximum.

On the other hand, the divider 30 according to a preferred embodiment of the present invention, as shown in Figures 5a, 5b, 5c, when the tension force is applied to the outer steel wire 10, the outer steel wire 10 is the beam Fixing the outer steel wire 10 to support the connection portion connecting the (1) and the beam (1), the fixing plate (32a) fixed to one side of the beam with an anchor bolt (2) or steel bar, bottom plate The fixing plate 32b fixed to the bottom surface and protruding from the fixing plate 32a, and are in contact with the lower surface of the outer steel wire 10, the curvature is formed on one side according to the incident angle of the outer steel wire 10 It is formed on the side of the support plate 34 and the support plate 34, protrudes to the guide plate 36 and the fixing plate 32a for guiding the outer steel wire 10 from being separated from the support plate 34 and A fixing stand 38 for fixing the steel wire 10 fixed to the divider 30. A configuration formed in comparison.

Here, the divider 30 is installed so as to face each other symmetrically facing the connection portion connecting the beam (1) and the beam (1), and serves to support and settle the outer steel wire 10, the divider The fixing stand 38 formed in the 30 is preferably installed in accordance with the number of steel wires 10 fixed to the divider 30 to distribute the concentration of load generated at the fixing stand 38 position. .

When explaining the external steel wire reinforcement method of the continuous bridge using the external steel wire reinforcement device of the continuous bridge of the present invention, the external steel wire reinforcement method of the continuous bridge of the present invention, the fixing device on both ends of the existing continuous bridge that needs to be reinforced with at least two beams And installing the saddle and the divider in a continuous bridge in which the fixing device is installed, and connecting the external steel wire to the fixing device, the saddle and the divider, wherein the external steel wire is connected to the fixing device, the saddle and the divider. It is installed in the actuator, and using the fixing device, the saddle and the divider is made of the step of tensioning the external steel wire.

That is, in the step of installing the fixing device, after the fixing device is manufactured, the fixing device is installed in the beam with the anchor bolt, the contact portion is welded, and epoxy is injected.

Subsequently, the fixing apparatus is installed in the fixing apparatus so that there is no tendency of the steel wire, and the external steel wire is connected.

Subsequently, the step of installing the saddle and the aviator, the groove to be fixed to the saddle and the aviator in the concrete of the installation position of the saddle and the aviator, drilled a hole for the installation of the anchor bolt, and then the saddle and the aviator Position and fix with anchor bolt.

Subsequently, epoxy is injected so that no bubbles are generated at the connecting portion.

At this time, the saddle and the aviator is installed at the correct angle of incidence in order to prevent the rupture of the external steel wire due to the friction of the end portion during the tension of the steel wire, and reinforcement exploration to prevent damage to the existing beam steel wire when installing the anchor bolt Construct thoroughly.

After tensioning, a protective cap is installed to prevent corrosion near the wedge of the fixing unit, filled with grease and preserved for retension.

6 is a view showing a fixing device usable at the end shown in FIG. 6, where the installation position of the fixing device may be located at the neutral axis of the beam or at the bottom of the beam, which only affects the moment between the saddles close to the fixing device. There is no effect on the moment at the center of the beam or at the connection where necessary.

FIG. 7 is a view illustrating a fixing position of each steel wire when reinforcing two-stage continuous external steel wire, and shows various fixing members. In FIG. 7C, each first outer steel wire 10 must span two beams. If the length of the steel wire is too short, a lot of losses occur immediately due to the action of the fixing device, and if too long, the loss caused by the creep and drying shrinkage of the concrete, the relaxation of the steel wire, so that the fixing position of each steel wire shown in FIG. It is preferable to install according to.

FIG. 8 is a diagram illustrating distributing steel wires in order to prevent tangling of steel wires in a divider where all steel wires are collected when reinforcing two-wire continuous external steel wires as shown in FIG. 7.

That is, as shown in Figure 8, the first external steel wire is a plurality of first external steel wires (first steel wire, first connected to the fixing device of the end of the fixing member of the side beam to the fixing device of the divider of the neighboring beam) Steel wire, fifth steel wire, and sixth steel wire). In addition, the second outer steel wire is a plurality of second outer steel wire that is connected from the fixing device of the bird of one side beam to the fixing device of the bird of the neighboring beam, the second outer steel wire is a neighbor from the fixing device of the first bird of the one side beam The first saddle outer steel wire (third steel wire) connected to the first saddle fixing device of the beam and the second saddle outer steel wire connected from the fixing device of the second birds of one beam to the fixing device of the second birds of the neighboring beam ( Fourth steel wire).

Optimal embodiments have been disclosed in these figures and in the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

As described above, according to the external steel reinforcement device of the continuous bridge capable of dispersing and fixing the tension force of the present invention, by distributing a plurality of external steel wires connecting the beams, the effect of enabling sufficient continuous bridge reinforcement even with a shorter steel wire To have.

Claims (6)

In constructing the external steel reinforcement device of continuous bridge, Fixing device is installed, the fixing member is installed on the shortest both ends of the beam connected to at least two neighboring; At least one saddle in which a fixing device is installed and installed in the center of each connected beam; At least one divider installed with a fixing device and installed near a connection between the connected beams and the beams; A first external steel wire connected from the fixing device of the fixing member of the one side beam to the fixing device of the divider of a neighboring beam; And A second outer steel wire connected from the fixing device of the birds of one side beam to the fixing device of the birds of a neighboring beam; External steel wire reinforcement device of the continuous bridge capable of dispersing and fixing the tension force, characterized in that consisting of. The method of claim 1, wherein the birds, A fixing plate fixed to one side of the beam by anchor bolts or steel bars; A support plate protruding from the fixing plate, supporting the upper side surface of the outer steel wire, and having a curvature formed at one side according to an incident angle of the outer steel wire; A guide plate formed on a side of the support plate and guiding the outer steel wire from being separated from the support plate; A connecting plate connecting the fixing plate in contact with the left side of the beam and the fixing plate in contact with the right side of the beam to surround the lower end of the beam; And A fixing unit protruding from the fixing plate and provided with a fixing device for fixing the second external steel wire; External steel wire reinforcement device of the continuous bridge capable of dispersing and fixing the tension force, characterized in that consisting of. The method of claim 1, wherein the birds, External steel wire reinforcement device of the continuous bridge capable of dispersing and fixing the tension force, characterized in that it is installed at the point where the load capacity is the maximum according to the moment of the beam or symmetrically installed on both sides of the vicinity of the point where the load capacity is the maximum. The method of claim 1, wherein the divider, A fixing plate fixed to one side of the beam and a bottom plate or a cross beam by anchor bolts or steel bars; A support plate protruding from the fixed plate, supporting the lower side of the outer steel wire, and having a curvature formed at one side according to an incident angle of the outer steel wire; Is formed on the side of the support plate, the outer steel wire is separated from the support plate Guide plate to guide so as not to; And A fixing unit protruding from the fixing plate and provided with a fixing device for fixing the first external steel wire or the second external steel wire; External steel wire reinforcement device of the continuous bridge capable of dispersing and fixing the tension force, characterized in that consisting of. The method of claim 1, The first outer steel wire is at least one outer steel wire connected from the end fixing device of the end fixing member of the one side beam to the fixing device of the divider of the neighboring beams, the second outer steel wire is neighboring from the fixing device of the saddle of one side beam An external steel wire reinforcement device of a continuous bridge capable of dispersing and fixing tension force, characterized in that at least one external steel wire connected to the fixing device of the beam. The method of claim 5, The second outer steel wire is a first saddle external steel wire and a second saddle of a neighboring beam connected from the first saddle fixing device of the one side beam to the fixing device of the first beam of the neighboring beam from the first saddle fixing device of the neighboring beam. An external steel wire reinforcement device of a continuous bridge capable of dispersing and fixing tension force, characterized in that it comprises a second saddle outer steel wire connected to the fixing device of the.