KR200340908Y1 - H-beam enlargement and reinforcing apparatus to the slab of girder bridge combining reinforcement of cross beam - Google Patents

Abstract

In order to reinforce the load capacity of the slab of the girder bridge, a tension line is installed on the H-beam to introduce a tension force, and an upward compression force is transmitted to the H-beam so that the upward compression force is transmitted to the slab to enhance the load capacity. The present invention relates to a longitudinal extension reinforcement device for girders and double slab load reinforcement.

In the girder bridge in which the horizontal beam is installed at regular intervals under the slab of the girder bridge and the horizontal beam is installed between the horizontal beam and the horizontal beam,

The strands are fixed to the cross beam stiffeners fixed and anchored by anchors, and the pair of strand wire anchors installed at a lower distance from the cross beam stiffeners at fixed intervals while being installed in close contact with both sides of the cross beams and the bottom surface of the slab installed on both sides of the cross beams. And, while installing the support bracket in the center between the horizontal beam installed at regular intervals to be fixed in close contact with the cross beam reinforcement and to install a screw jack on the top of the support bracket and to install the H-beam on the top of the slab to be in close contact with After installation, a pair of strand anchorages are installed at the lower part of the H-beam, a girder bridge slab longitudinal extension reinforcement device is installed and connected to the strand, and then the H-beam installed at the bottom of the slab is mounted on the slab using a screw jack installed on the support bracket. Adjust to be in close contact with the bottom surface and then cross beam A slab which introduces a tension force to the strands installed in the lower part of the steel and then setstles in the strands anchorage, and tensions the strands installed in the pair of strands anchorages installed in pairs on the lower portion of the H-beam to introduce upward tension to reinforce the load capacity of the slab. It relates to a load bearing reinforcement method.

Description

H-beam enlargement and reinforcing apparatus to the slab of girder bridge combining reinforcement of cross beam}

In order to reinforce the load capacity of the slab of the girder bridge, a tension line is installed on the H-beam to introduce a tension force, and an upward compression force is transmitted to the H-beam so that the upward compression force is transmitted to the slab to enhance the load capacity. A girder bridge longitudinal extension reinforcement device that combines cross beam reinforcement and a load bearing reinforcement method of the slab using the same,

Installed in close contact with both sides of the horizontal beam and the lower side of the slab installed on both sides of the horizontal beam on the lower surface of the slab of the girder bridge installed between the horizontal beam and the horizontal beam and the horizontal beam at regular intervals below the slab. While anchoring the cross beam stiffeners fixed and anchored with anchors at the lower portion of the cross beam stiffeners at fixed intervals, the strands are fixed to a pair of strand wire anchorages, and a support bracket is installed at the center between the horizontal beams installed at the regular intervals. It is fixed tightly and screw jacks are installed on the support bracket and H-beams are installed on them, and they are installed to be in close contact with the lower surface of the slab. Girder bridge slab vertical expansion reinforcement The H-beam installed on the surface is adjusted to be in close contact with the lower surface of the slab by using a screw jack installed on the support bracket, and then a tension force is applied to the stranded wire installed at the lower portion of the cross beam reinforcement, and then fixed to the stranded anchorage, and the The present invention relates to a slab load reinforcement method for reinforcing a load capacity of a slab by introducing an upward tension force by tensioning a stranded wire installed in a pair of strand wire anchorages installed at a lower portion thereof.

The purpose of the present invention is to install H-beams and lower strands in the lower part of the slab when the slab of the girder made of girder lacks the original planned load capacity of the slab as time passes or as the vehicle becomes heavy and heavy. The girder bridge slab vertical extension reinforcement system was installed to introduce tension force to the already installed strand and introduced upward compressive force to be transmitted to the slab, and the cross beam reinforcement was installed in the cross beam to reinforce the cross beam strength. It is an object of the present invention to provide a method for enhancing the load capacity of a slab by using a girder bridge slab vertical expansion reinforcement device installed to prevent the upward compression of the slab and to prevent the slab from sagging.

Conventionally, geosynthetic fibers are bonded to the lower part of the slab using resin or anchored steel plate to the lower surface of the slab, or H-beam is installed at the lower part of the slab, the strand is fixed to the lower part of the slab, Although it has been used to reinforce the load capacity on the slab, the method of attaching the geosynthetic fiber to the bottom of the slab using resin is not possible to realize the reinforcement of the planned slab due to the deviation of the geosynthetic fiber bonded by time and moisture and the frequent maintenance. The problem that excessive management cost is required and the method of reinforcing the steel plate by anchoring it to the lower part of the slab are corroded or attached to the slab, and the steel plate is attached to the slab due to the weight of the steel plate and the slump of the steel plate. Has a fatal effect on the lower part of the slab In the case of introducing an upward compressive force by the H-beam, there has always been a problem that the compressive force of the H-beam and the strands installed in the H-beam decreases with time, thereby preventing the slab from sagging.

The present invention is a technique proposed to improve the above problems, the horizontal beam reinforcement is installed on both sides of the horizontal beam installed between the horizontal beam installed at regular intervals on the lower surface of the slab and the steel wire is installed on the lower portion of the horizontal beam reinforcement, A support bracket is installed at the center between the horizontal beam and the horizontal beam, a screw jack is installed thereon, an H beam is installed thereon, a strand is installed at the bottom of the H beam, and the Fill the gap with epoxy resin so that the bottom surface is in close contact, adjust the H-beam to be in close contact with the bottom surface of the slab with a screw jack, introduce tension to the strand installed in the lower part of the cross beam stiffener, and fix it in the strand anchorage Tension force is applied to the strands installed in the lower part of the beam, and then settles in the strand anchorages so that the upward compressive force on the slab It is intended to provide a technology that can ensure the safety of the bridge while extending the endurance of the bridge by increasing the load capacity of the slab to be introduced.

1 is a view showing that installed the girder bridge slab vertical expansion reinforcement device of the present invention.

Figure 2 is a view showing a cross-section A-A installed the girder bridge slab vertical expansion reinforcement of Figure 1 installed.

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

10: girder bridge 11: slab

12: horizontal beam 13: horizontal beam

20: Vertical extension reinforcement device for girder bridge

21: support bracket 22: screw jack

23: strand strand anchor 24: cross beam reinforcement

25: anchor 26: stranded wire

27: H beam

The present invention provides a cross beam reinforcing material 24 on both sides of the cross beam 12 provided between the horizontal beam 13 provided at regular intervals on the lower surface of the slab 11 and a constant distance at the bottom of the cross beam reinforcing material (24) The strands 26 are fixed to the pair of stranded wire anchorages 23 installed in pairs, and the support brackets 21 are installed at the centers between the horizontal beams 13 installed at regular intervals, and are fixed in close contact with the cross beam reinforcement 24. Install the screw jack 22 on the support bracket 21 and install the H-beam 27 on the bottom surface of the support bracket 21, and install it in close contact with the lower surface of the slab 11, and then the lower portion of the H-beam 27. A pair of stranded wire anchorages (23) are installed on the girder bridge slab vertical extension reinforcement device (20) in which the stranded wires (26) are connected and fixed, and then the H-beam (27) installed on the lower surface of the slab (11) supports the bracket (21). Slab (11) using a screw jack (22) installed on the Adjusted to be in close contact with the lower surface and to fill with the epoxy between the lower surface of the slab and the upper portion of the H-beam 27 so that the slab and the H-beam is integrated, and then to the lower portion of the cross beam stiffener 24 Tension force is introduced into the installed strand 26 and then fixed to the strand anchorage 23, and the tension strand 26 provided in the pair of strand anchorage 23 installed in pairs in the lower portion of the H-beam 27 is tensioned upward. It is characterized in that the slab load-bearing reinforcement method to apply the rust preventive material to prevent corrosion to the girder bridge slab vertical expansion reinforcement device 20 to introduce a reinforcement of the load capacity of the slab.

Hereinafter, with reference to the accompanying drawings the configuration and operation of the present invention in detail as follows.

1 is a view showing the installation of the girder bridge slab vertical expansion reinforcement device of the present invention and Figure 2 is a view showing a cross-section A-A installed the girder bridge slab vertical expansion reinforcement device of FIG.

Hereinafter, the construction will be described in detail with reference to the accompanying drawings. Both sides and the slab 11 of the crossbeam 12 installed between the horizontal beam 13 installed at regular intervals under the girder bridge slab 11 of FIGS. 1 and 2. (2) The stranded wire (23) is installed in close contact with both sides of the lower surface and the cross beam 12, and the cross beam reinforcement member 24 fixed and fixed with the anchor 25 and the strand wire anchorage 23 installed in pairs at regular intervals under the cross beam reinforcement member 26, the support bracket 21 is installed in the center between the horizontal beams 13 installed at regular intervals so as to be fixed in close contact with the cross beam reinforcing material 24, and the screw jack (top) 22) and the H-beam 27 is installed on the bottom surface of the slab 11 to be in close contact with the lower surface of the slab 11, and then a pair of strand wire anchorages 23 are installed in the lower portion of the H-beam 27, and the stranded wire ( Girder bridge After installing the slab vertical expansion reinforcement device 20, the H-beam 27 installed on the bottom surface of the slab 11 is in close contact with the bottom surface of the slab 11 using the screw jack 22 installed on the support bracket 21. After the adjustment, the installation of girder bridge slab vertical expansion reinforcement device is completed by filling with epoxy between the lower surface of the slab 11 and the upper portion of the H-beam 27 so that the slab and the H-beam can work together. It is.

Load-bearing reinforcement method for reinforcing load-bearing force to the slab 11 by using the device 20 is introduced into the tension line 26 installed in the lower portion of the cross beam stiffener 24 and then fixed to the strand wire anchorage 23 After the tension wires 26 installed in the pair of the strand wire anchorages 23 installed in the lower portion of the H-beam 27 are introduced to raise upward tension, the girder bridge slab vertical expansion reinforcement device 20 prevents corrosion. By applying a rust preventive material to reinforce the load capacity of the slab.

The screw jack 22 is installed to support the H-beam 27 on the support bracket 21 and to be in close contact with the bottom surface of the slab (11).

The cross beam reinforcing member 24 is the entire surface of both sides of the cross beam 12 and both sides of the horizontal beam 13 and the lower surface of the slab 11 and the cross beam reinforcing member 24 of the cross beam 12 to prevent sagging of the cross beam 12. In order to fix and fix each other with the anchor (25) on the side in contact with each other on the side of the cross beam reinforcement (24) to install a pair of strand wire anchorage (23) and then connect the strands 26 to each other to introduce a tension force to the strand The deflection of the cross beam 12 and the upward force introduced to the slab 11 are installed to help the introduction enough.

In addition, the lower portion of the H-beam 27 and the lower cross beam reinforcement 24 is installed in the double when the tension is introduced by a pair of strand wire anchorage 23 deflection of the slab 11 and the device ( The deflection is caused by the self load of 20), so that it is impossible to introduce the upward force as originally planned, so that the tension force can be introduced twice so as not to impair the safety of the bridge due to the lack of load capacity of the bridge.

The present invention is to install the horizontal beam reinforcement to the horizontal beam installed on the bottom of the slab of the girder bridge and to install the support bracket to install the H-beam on the screw jack to be in close contact with the lower surface of the slab and then the lower portion of the H-beam and the cross beam reinforcement By installing the strands in the pair of stranded anchorages installed in the bridge, the compressive force of the upstream is introduced to prevent the slab from sagging to increase the load-bearing capacity of the bridges, thereby extending the durability of the bridges. It is a method to reinforce the load capacity of the girder bridge, which is very economical and secured to reduce the construction cost of new bridges to secure the safety of bridges by allowing the introduction of double upward compression force.

Claims (2)

The horizontal beam stiffener fixed and anchored with anchors and fixedly spaced at both sides of the horizontal beam installed between the horizontal beams installed at regular intervals on the lower part of the girder bridge slab and the lower surface of the slab and the horizontal beams, Set a pair of stranded wires in a pair of stranded wire anchorages, and install a support bracket in the center between the horizontal beams installed at regular intervals so as to be closely fixed to the cross beam reinforcement, and to install a screw jack on the top of the support bracket, and H-type thereon. A girder bridge longitudinal expansion reinforcement device having a cross beam reinforcement, characterized in that the beam is installed, but installed to be in close contact with the lower surface of the slab, and a pair of strand wire anchorages are installed at the lower portion of the H-beam, and the steel wires are connected and fixed. The method of claim 1, The screw jacks support the H beam on the support bracket and are in close contact with the lower surface of the slab so that the upward compressive force acting on the strand wire installed at the pair of strand wire anchorages installed in pairs at the bottom of the H beam can be transmitted well. And, the cross beam reinforcement is to prevent the sagging of the cross beam while the upper compressive force is transmitted to the cross beam by the upward compression force introduced in the strands installed in the strand anchorage installed in pairs on the lower portion of the cross beam reinforcement so that it is transmitted to the slab to the H Longitudinal extension reinforcement device for girder bridge slab with horizontal beam reinforcement characterized by assisting the introduction of upward compressive force by the stranded wire installed in the beam.