KR200400041Y1 - steel pipe girder connecting steel pipes by steel brackets and installing the upper plate of a bridge onto the steel pipes - Google Patents

Abstract

The present invention interconnects the lower parts of the steel pipes installed in pairs with steel brackets at regular intervals so that they can be applied to small bridges with small bridges or small working loads, and then welds and attaches the bridge tops to the upper parts of the steel pipes, and both sides of the bridge tops. Steel pipe girder with railing support is installed on the part, and then the steel pipe girder is mounted on the bridge piers and the railings are installed.In the case of overpass, stairs are installed to allow traffic to both sides of the steel pipe girder. It is.

Description

        Steel pipe girders connecting steel pipes with steel brackets {steel pipe girder connecting steel pipes by steel brackets and installing the upper plate of a bridge onto the steel pipes}

The present invention interconnects the lower parts of the steel pipes installed in pairs with steel brackets at regular intervals so that they can be applied to small bridges with small bridges or small working loads, and then welds and attaches the bridge tops to the upper parts of the steel pipes, and both sides of the bridge tops. A steel pipe girder with railing support is installed in the section, and the bridge is arranged with railings while the steel pipe girder is mounted on a pier that is already installed.If the bridge is an overpass, traffic is allowed to pass on both sides of the steel pipe girder. It is to install the stairs.

        In order to prevent corrosion in the inside of the steel pipe, the bridge top plate and the steel bracket and to alleviate the shock transmitted to the bridge, the steel pipe and the steel bracket are filled with lightweight fillers or rustproofed inside the steel pipe. .

Install the anchorages at both ends of the steel pipe and then install the steel wire and introduce tension force to the steel wire and then settle in the anchorage, or at the same time to fill the lightweight filler in the steel pipe inserted steel wire.

     The purpose of the present invention is to install the bridges simply assembled using steel pipes and steel plates, so that they can be applied to overpasses or small bridges or temporary bridges by floods, and to shorten the installation period to reduce construction costs. To provide a way to install a steel pipe girder bridge.

     Conventionally, in the case of an overpass, even if a pedestrian overpass is installed on the pier, the box is made and the bridge tops are installed on the left and right sides of the bridge. Even if a small bridge with a small load acting on the bridge has to be installed by a general bridge construction method, there has been a problem of excessive bridge installation cost.

The present invention is proposed to improve the above problems, the interconnection of the lower portion of the steel pipe installed in pairs at regular intervals with a steel bracket and then welded to the top of the steel pipe bridge, and both sides of the bridge top plate It is a construction method for manufacturing a steel pipe girder with a railing support installed on the part, and then simply install the bridge with railings while mounting the steel pipe girder on the bridge piers.

     The present invention interconnects the lower portion of the steel pipe 31 installed in pairs at regular intervals with a steel bracket 33, and then weld-attach the bridge top plate 20 on the upper portion of the steel pipe 31, the bridge top plate 20 Steel pipe girder 30 is installed on both sides of the railing support 32 is installed, and then the bridge 10 is placed on the bridge 11 while the steel pipe girder 30 is installed. It is characteristic of one thing.

    When the bridge 10 to be installed is an overpass, the stairs 40 may be installed to allow passage to both sides of the steel pipe girder 30.

    Filling the inside of the steel pipe 31 and the inside of the bridge top plate 20 and the steel bracket 33 by filling a lightweight filler to absorb the shock transmitted to the bridge after the bridge is installed to prevent the bridge from swaying and at the same time corrosion To prevent or to prevent corrosion by the steel pipe 31 and the steel bracket 33 and the bridge top plate 20 to prevent corrosion.

   Install anchorages (not shown) at both ends of the steel pipe (31), and then install steel wires (not shown) and introduce tension to the steel wires to settle them in the anchorages or light steel in the steel pipes (31) inserted therein. Charge the filler at the same time.

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 bridge using the steel pipe girder of the present invention, in consideration of the width of the bridge by the steel bracket 33 to the lower portion of the steel pipe 31 installed in pairs at regular intervals by welding After the interconnection, the bridge top plate 20 is welded and attached to the upper portion of the steel pipe 31, and the steel pipe girder 30 is installed on both sides of the bridge top plate 20, and then the While installing the steel pipe girder 30 on the bridge 11, which is already installed, the bridge 10 on which the railing 34 is disposed is installed.

    Steel brackets (33) attached to the upper and lower portions of the steel pipe (31) and the plurality of shear reinforcement plate 35 to be provided at regular intervals on the inner surface of the bridge top plate 20 to resist bending.

    In addition, the steel bracket 33 installed in the lower portion of the steel pipe 31 has a beautiful aesthetic while installing in a structure capable of resisting the bending of the steel pipe girder 30 by using a steel plate made convex upward from the center. Be sure to

    When the bridge 10 is an overpass, the stairs 40 are installed to allow passage to both sides of the steel pipe girder 30.

    Filling the lightweight filler in the steel pipe 31 to absorb the shock delivered to the bridge 10 to prevent the bridge from swaying or to prevent corrosion, or in the steel bracket 33 and the bridge deck 20 Antirust treatment to prevent corrosion.

    Install anchorages (not shown) at both ends of the steel pipe (31), and then install steel wires (not shown) and introduce tension to the steel wires to settle them in the anchorages or light steel in the steel pipes (31) inserted therein. Charge the filler at the same time.

   2 and 3 is a view showing the steel pipe girder of the present invention in front and premise, as described in FIG. 1, the steel pipe girder 30 is manufactured in a batch and mounted on a bridge 11 that is already installed. ) Or or by using a unit steel pipe girder made of a predetermined unit length to connect the unit steel pipe girder with a connecting bracket (not shown) to install a bridge (10), or to connect the unit steel pipe girder (not shown) Insert the steel wire into the steel pipe 31 while interconnecting with the bracket, and then introduce a tension force and connect and assemble the unit steel pipe girder to fix and fix the steel pipe to the anchorage (not shown) installed at both ends of the steel pipe 31 bridge ( 10) can also be installed prefabricated.

The appearance of the steel pipe girder 30 is made in a form that can safely resist the load acting while taking into consideration the aesthetics as possible, so that the steel bracket (33) to interconnect the steel pipe (31) to be made of a curve Considering aesthetics and structurally safe.

4 and 5 is a view showing the steel pipe girder as another embodiment of the steel pipe girder of the present invention in front and premise, the steel pipe girder 30 described in FIG. 1 is spaced apart so that the steel pipe 31 corresponding to the width of the bridge Later, the steel pipe girder 30 is manufactured by attaching and connecting the upper and lower bridges 20 and the steel brackets 33 to the upper and lower portions of the steel pipe 31 so that the steel pipe 31 of the steel pipe girder 30 is installed in the bridge width. On the other hand, in this figure, the steel pipes 31 are arranged at regular intervals, and then the steel pipes 31 and the lower portions of the steel pipes 31 are mutually upwardly convex with steel brackets 33 formed in the center thereof. After connecting the steel bracket 33 to the left and right sides of the lower portion of the steel pipe (31) to extend to a certain length of "C" shape, the end of the steel bracket 33 is extended to the left and right sides of the steel pipe (31) Steel pipe girders 30 to be attached to the top of the bridge plate 20 )

     The end of the steel pipe girder 30 to minimize the cross-section so as to resist the shear force acting on the steel pipe girder 30 is a steel bracket 33 installed to a predetermined length of the left and right sides of the steel pipe girder 30 The steel brackets 33 are attached to the steel pipes 31 installed on the outside and the outside to form a “C” shape, and the steel brackets 33 connecting the steel pipes 31 and 31 to the center are convex upward. The steel bracket 33 of the raised form to be connected to each other.

     The external appearance of the steel pipe girder 30 is manufactured in a form that can safely resist the load acting while taking into consideration the aesthetics as much as possible, the steel bracket (33) attached to the bridge top plate 20 while interconnecting the steel pipe (31) ) Is also structurally safe, taking into account the aesthetics of a flying flying chevron.

   That is, the steel pipe girder 30 of Figures 2 and 3 is that the steel bracket 33 and the bridge top plate 20 is directly connected to the upper and lower portions of the steel pipe 31, the steel pipe girder 30 of Figure 4 is a steel bracket The bridge top plate 20 is installed at regular intervals from the upper portion of the steel pipe 31 interconnected using the 33.

   Inside the steel bracket 33, a plurality of shear reinforcing plates 35 are installed at regular intervals to resist bending and shearing.

   The steel pipe girder 30 mentioned in FIGS. 2 and 3 is to be applied to a bridge with a small width while the load is relatively small, such as an overpass, and the steel pipe girder 30 mentioned in FIGS. It works great and can be applied to large bridges.

The steel pipe girder 30 mentioned in FIG. 1 to FIG. 5 is manufactured in one length and placed in a bridge where the bridge 10 is installed, or the unit steel pipe girder is manufactured by a predetermined unit length. To install the bridge (10) by interconnecting the connection brackets,

     Alternatively, the steel pipe girder connects the unit steel pipe girder to each other by connecting brackets, inserts a steel wire into the steel pipe 31, introduces a tension force, and connects and assembles a unit steel pipe girder to fix and fix the steel wire to the anchorages installed at both ends of the steel pipe. It is also possible to install (10) prefabricated.

     The bridge 10 may be installed by interconnecting the unit steel pipe girders or by connecting a steel wire to introduce a tension force and then filling a light filler in the steel pipe 31.

     The reason for charging with the filler is to charge for the same reason as described above.

FIG. 6 is a view showing the stairs installed on the bridge using the steel pipe girder of the present invention as a whole, and FIGS. 7 and 8 are cross-sectional views AA and BB of the stairs of FIG. 6, and the steel pipe girder 30 is applied to the overpass. If it is, it is a staircase 40 for use as a sidewalk.

 As shown in FIG. 1, in order to install stairs on both sides of the steel pipe girder 30, one steel pipe 31 is connected to the installed steel pipe girder 30, and FIGS. 7 and 8 described later on the upper portion of the steel pipe 31 installed. The steel bracket (33) of the steel pipe 31 is connected to the left and right in the shape of the "C", the steel bracket 33 is a staircase (40) having a steel plate (33) arranged on the step portion 43.

      A plurality of shear stiffeners 35 are installed in the lower portion of the step portion 43.

In another embodiment, the steel wire is made of a lattice-shaped steel grid like weaving fibers, and a plurality of shearing materials are installed on the steel wire to improve adhesion, and then the geotextiles impregnated in the resin on the upper and lower sides of the steel grid. It is to construct a bridge using the fiber resin pipe that can replace the steel pipe by stacking and curing multiple layers, the fiber resin bridge plate to be installed on the bridge plate, and the fiber resin bracket to replace the steel bracket.

In addition, by using the fiber resin tube, fiber resin bridge top plate and fiber resin bracket to produce a unit girder to interconnect them with a connecting bracket to install a bridge.

     The fiber resin pipe, the fiber resin bridge deck and the fiber resin were released by connecting the tensioning device to each steel wire of the steel wire grid and introducing the tension force, stacking and curing the civil fiber impregnated in the resin, and then releasing the tensioning device connected to the steel wire. It is also possible to pre-stress the brackets and then use them to install the bridges.

Interconnect the lower parts of the steel pipes installed in pairs at regular intervals with steel brackets, and then weld and attach the bridge tops to the tops of the steel pipes, and fabricate the steel pipe girders with railing supports installed on both sides of the bridge top plate. It relates to a construction method that is mounted on the bridge piers already installed, and installs bridges with railings, and is an economically advantageous construction method that is easy to manufacture and install, thus shortening the construction period.

        1 is a view showing the bridge is installed using the steel pipe girder of the present invention.

        Figure 2 is a view showing the steel pipe girder of the present invention from the front.

        Figure 3 is a view showing the steel pipe girder of the present invention as a whole.

        Figure 4 is a view showing a steel pipe girder another embodiment of the steel pipe girder of the present invention.

        5 is a view showing a steel pipe girder as another embodiment of the steel pipe girder of the present invention.

        Figure 6 is a view showing an overall step installed on the bridge using a steel pipe girder of the present invention.

        FIG. 7 shows a cross section A-A of the stairs of FIG. 6; FIG.

        8 shows a section B-B of the staircase of FIG. 6.

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

          10; Bridge 11; pier

          20; Bridge tops

          30; Steel pipe girder 31; Steel pipe

          32; Handrail support 33; Steel Bracket

          34; Handrail 35; Shear reinforcement plate

          40; Staircase 42; iron plate

          43; Staircase

Claims (6)

The steel pipe girders are manufactured by connecting the lower parts of the steel pipes installed in pairs at regular intervals with steel brackets, then welding and attaching the bridge tops to the tops of the steel pipes, and installing handrail supports on both sides of the bridge tops. Steel pipe girders with bridge tops installed on top of steel pipes with steel brackets. The method of claim 1,      The steel bracket is to be convex in the center, the steel pipe girder is installed on the bridge top plate and the bridge top plate is connected to the steel pipe characterized in that the plurality of shear reinforcement plates at regular intervals arranged inside the steel bracket and the steel bracket. The method of claim 1,      Steel pipe girder is installed on the top of the bridge and the top of the bridge is connected to the steel pipe girder attached to the steel pipe girder attached to the steel pipe girder. The method of claim 1,      The steel pipes arranged at regular intervals are interconnected by a steel bracket with a central convex upward, and the shears are arranged at regular intervals on the top of the steel bracket with a certain length extension connection in a “C” shape on the left and right of the steel pipe. Steel pipe girder with steel bridge girder installed on top of connecting steel pipe with steel bracket, characterized by the steel pipe girder attached to bridge top plate with reinforcement plate to be a certain distance between steel pipe and bridge top plate. The method of claim 1,      Filled with lightweight filler between the inside of the steel pipe and between the steel bracket and the bridge top plate, or after placing the steel wire in the steel pipe, the tension force is introduced to settle in the anchorage and then filled with the light filler, or the steel bracket and the bridge top plate and the steel pipe. Steel pipe girder with bridge bracket installed on top of steel pipe with steel bracket which is characterized by anti-corrosion treatment to prevent corrosion inside. The method of claim 1,      The steel pipe, bridge top plate and steel bracket is a fiber resin tube, fiber which laminated and hardened several layers of civil fibers impregnated in resin on the upper and lower sides of the steel wire lattice frame made in a lattice form as weaving the steel wire with a plurality of shear materials. Resin bridge top plate and fiber resin bracket, or a fiber which allows pre-stress to be introduced by releasing the steel wire after laminating and curing the civil fiber impregnated in resin while introducing tension force to each steel wire of the steel wire frame using a tension device. Steel pipe girder with bridge deck installed on top of steel pipe with steel bracket characterized by resin pipe, fiber resin bridge top and fiber resin bracket.