KR20050024804A - Section increasing and reinforcing apparatus for reinforcing section of the lower part of slab between girder and cross beam in girder bridge and installing method thereof - Google Patents

Abstract

       The present invention anchors and supports the support H beam to the girder while installing the support H beams at regular intervals between the girders installed on the lower surface of the slab of the girder bridge, and a pair of tension brackets are provided below the respective support H beams. After installation, connect the pair of tension brackets with PC strands to fix the PC strands with anchorages, and install the H beams between the cross beams and the cross beams on the support H beams and the bottom of the slab installed between the girders. While being fixed to the bottom of the slab while being anchored and fixed to the bottom of the H beam and the slab, the deck plate is installed over the entire area on the bottom of the H beam, the rubber pad in the portion where the supporting H beam and the H beam contact each other Insert a to absorb the shock acting on the bridge and install a pair of tension brackets on the lower surface of the H beam, The space between the bottom of the slab and the deck plate installed in the plurality of H beams is filled with concrete or high-strength mortar, and the PC installed in the respective tension brackets. The tension force is introduced to the strand, so that the upward compressive force is transmitted to the expanded section of the slab, and the entire slab is transmitted to the whole of the slab, thereby improving the load bearing capacity of the slab to improve the durability of the bridge.

Description

        Section increasing and reinforcing apparatus for reinforcing section of the lower part of slab between girder and cross beam in girder bridge and installing method kind}

        The present invention relates to a method for installing a cross-sectional extension reinforcing device for a bridge to extend the endurance of the bridge by increasing the cross-section of the slab of the girder bridge to increase the bearing capacity of the bridge.

        The cross-sectional reinforcement device installs the support H beams at anchors at regular intervals between the girders installed on the lower surface of the slab of the girder bridge, anchors the support H beams to the girders, and then pairs the lower portions of the respective support H beams. Install a tension bracket of the wire and connect the pair of tension brackets with a PC strand, then fix the PC strand with a fixing device, and between the cross beam and the cross beam at the support H beam and the lower surface of the slab installed between the girder. While installing the H beam to be in close contact with the lower surface of the slab, while anchoring and fixed to the H beam and the lower surface of the slab, the deck plate is installed on the lower surface of the H beam over the entire area and the support is installed on the lower portion of the H beam A rubber pad is inserted into a portion where the H beam and the H beam contact each other to absorb a shock applied to the bridge. Install a pair of tension brackets on each of them, and then connect the PC strands to each other, and fix the PC strands with anchorages.The space between the bottom of the slab and the deck plate installed on the plurality of H beams is concrete or high-strength mortar. After filling with the tension force is introduced into the PC strands installed in each of the tension bracket is to be transmitted to the whole of the slab as a whole, while the upward compressive force is transmitted to the cross-section of the expanded section of the slab.

        By increasing the cross section by using the apparatus for expanding the cross section of the slab to increase the load capacity of the bridge to prevent the aging of the bridge while extending the life of the bridge to prevent unnecessary waste of the cost of bridge construction.

        Conventionally, the aging and load-bearing capacity of bridges have been improved by attaching geosynthetic fibers to the lower surface of the slab by using resin or by anchoring the steel plate to the lower surface of the slab. The problem is that peeling is easily caused by external temperature and temperature, and the reinforcing effect of bridge is greatly decreased as time passes. The method of attaching steel plate to the lower surface of the slab is for anchoring the slab to attach the steel plate. The damage is very severe and the steel sheet is corroded by the external moisture, and the strength of the steel sheet is sharply lowered, which is insufficient to reinforce the strength of the slab.

        The present invention has been proposed to improve the above problems, by expanding the slab cross section of the girder bridge to reinforce the load bearing capacity of the slab to enhance the load-bearing capacity of the bridge as described above in the reinforcement of existing bridges or newly established bridges It is to provide a method of installing a cross-sectional reinforcement device to extend the service life of the bridge by applying the method.

        The present invention anchors the support H beam 20 to the girder 16 while providing the support H beam 20 at regular intervals from the girder 16 installed on the bottom surface of the slab 11 of the girder bridge 10. Fixing with (12) and installing a pair of tension brackets (15) in the lower portion of each of the supporting H beams (20) and then connected to the pair of tension brackets (15) with a PC strand (14) H beam 13 between the cross beam 21 and the cross beam 21 on the lower surface of the support H beam 20 and the slab 11 installed between the girder 16 and fixed to the PC strand line 14. While mounting so as to be in close contact with the lower surface of the slab (11) while fixing the anchor 12 to the lower surface of the H beam 13 and the slab (11) and the deck plate (17) on the lower surface of the H beam (13) ) Is installed over the entire area and a rubber pad 22 is inserted into a portion in contact with the support H beam 20 installed below the H beam 13. To absorb the shock acting on the bottom of the H-beams (13) and a pair of tension brackets (15) are respectively installed, then the PC strands (14) are connected to each other and the PC strands (14) to the anchorage (18) After fixing and fixing the space portion between the lower surface of the slab (11) and the deck plate (17) installed in the plurality of H-beams 13, the concrete or high-strength mortar (19) is filled in the cross-section reinforcement device (A) After the installation, the tension force is introduced into the PC strands 14 installed on the respective tension brackets 15 so that the upward compressive force is transmitted to the expanded section of the slab 11 while being transmitted to the entire slab as a whole. .

        Hereinafter, the configuration and operation of the present invention will be described in detail by the accompanying drawings.

        1 is a view showing the installation of the cross-sectional reinforcement device of the present invention in the girder, Figure 2 is a view showing the installation of the cross-sectional reinforcement device of the present invention in a cross beam, pier and shift for installing bridges (not shown) The cross-section reinforcement device on the lower surface of the slab (11) between the girders (16) installed at regular intervals in the longitudinal direction of the bridge and the horizontal beams (21) installed horizontally between the girders (16) and the girders (16). (A) is provided, the support H beam on the girder 16 while providing the support H beam 20 at regular intervals between the girder 16 provided on the lower surface of the slab 11 of the girder bridge 10. (20) anchors (12) and then sets up a pair of tension brackets (15) at the bottom of each of the supporting H beams (20), and then a pair of tension brackets (15) with PC strands (14). Connect and fix the PC strand 14 to the anchorage 18 Close contact with the lower surface of the slab 11 while installing the H beam 13 between the cross beam 21 and the cross beam 21 on the lower surface of the support H beam 20 and the slab 11 provided between the girder 16. While installing so that the anchor 12 is fixed to the lower surface of the H beam 13 and the slab 11, the deck plate 17 is installed on the lower surface of the H beam 13 over the entire area and the H beam ( 13, a rubber pad 22 is inserted into and installed in contact with the support H beam 20 installed at the lower part of the bottom 13, and a pair of tension brackets 15 are respectively installed on the bottom surface of the H beam 13, and then the PC strand The space between the bottom surface of the slab 11 and the deck plate 17 installed on the plurality of H-beams 13 installed thereon. The section is filled with concrete or high-strength mortar (19) to install a cross-sectional extension reinforcement device (A) and then the respective tension bar As the compression force of the upward tensile force by introducing a jacket PC strand 14 is provided in (15) transmitted to the expansion section of the slab cross-section is such that the overall transmission of the entire slab.

       The H beam is installed on the support H beam and the lower surface of the slab, and uses a low profile, and uses a light weight H beam that is lighter than the weight of a general H beam.

       In addition, in addition to the concrete or high-strength mortar filled in the space between the deck plate and the lower surface of the slab may be filled with a foaming resin.

        The above-mentioned section reinforcement reinforcing device is installed on the lower surface of the slab to increase the load bearing capacity of the bridge to extend the endurance life of the bridge. Therefore, it is a very effective and economical installation method that can reduce the budget required for the construction of the bridge.

      1 is a view showing that the sectional expansion reinforcement device of the present invention installed in the girder.

      2 is a view showing that the cross-sectional reinforcement device of the present invention installed on the cross beam.

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

        10: girder bridge 11: slab

        12: anchor 13: H beam

        14: PC strand 15: tension bracket

        16: girder 17: deck plate

        18: anchorage 19: concrete or high strength mortar

        20: support H beam 21: cross beam

        22: rubber pad

Claims (3)

        In the device for section expansion to increase the load capacity of the bridge,         The support H beam is anchored and fixed to the girder while the support H beam is provided at regular intervals between the girders installed on the lower surface of the slab of the girder bridge, and a pair of tension brackets are installed below the respective support H beams. Next, connect the pair of tension brackets with the PC strands, then fix the PC strands with anchorages, and install the H beams between the cross beams and the cross beams on the lower surface of the slab and the supporting H beams installed between the girders. While anchoring to the lower surface of the H beam and the slab while being installed in close contact with the lower surface of the H beam to install the deck plate over the entire area and the rubber pad in the portion where the support H beam and H beam contact each other Insert and install a pair of tension brackets respectively on the lower surface of the H beam, connect the PC strands to each other, and connect the PC to the anchorage. After fixing the strand, the space between the slab lower surface and the deck plate installed in the plurality of H beams is filled with concrete or high-strength mortar. Cross section reinforcement device to reinforce the cross section of slab lower surface.         The method of claim 1,        The cross section of the bottom surface of the slab between the girder of the girder bridge and the cross beam is characterized in that the H beam is a lightweight H beam having a low weight and light weight, and filling the space portion of the deck plate and the bottom surface of the slab is a foam resin. Cross section reinforcement device to reinforce.     In the installation method of the device for section expansion to increase the load capacity of the bridge,        a) anchoring and fixing the support H beam to the girder while installing the support H beam at regular intervals from the girder installed on the lower surface of the slab of the girder bridge;        b) installing a pair of tension brackets at the bottom of each of the supporting H beams, and then connecting the pair of tension brackets with PC strands and then fixing the PC strands with anchorages;        c) anchoring to the H beam and the bottom of the slab while being fixed to the bottom of the slab while installing the H beam between the cross beam and the cross beam between the support H beam and the slab bottom installed between the girder step;         d) installing a deck plate over the entire area of the lower surface of the H beam;        e) Rubber pad is inserted and installed at the portion where the supporting H beam and the H beam are in contact with each other, and a pair of tension brackets are respectively installed on the lower surface of the H beam, and then the PC strands are connected to each other, and the PC strands are fixed and fixed by the anchorage. step;        f) filling the space between the lower surface of the slab and the deck plate installed in the plurality of H beams to fill concrete or high-strength mortar to complete the installation of the cross-sectional extension reinforcement device;         g) the girder of the girder bridge characterized in that the step of introducing a tension force to the PC strands installed in each of the tension brackets so that the upward compressive force is transmitted to the entire section of the slab while being transferred to the entire section of the slab. A method of installing a cross section reinforcement device for reinforcing a section of a slab lower surface between cross beams.