KR100547488B1 - Negative moment reducing apparatus installed in the steel box girder so as to decrease magnitude of negative moment occurred at the continuous supporting points in a steel box continuous bridge, and construction method of a steel box continuous bridge using the apparatus - Google Patents

Abstract

The present invention in the steel box continuous bridge, while installing a device that can reduce the size of the bending moment that is acting on the steel box girders to be mounted on the continuous point portion, the part moment, while reducing the height of the existing steel box girders It is possible to increase the length, and also to the installation of the parent box reduction device and the steel box continuous bridge using the installed to reduce the amount of steel.

       The longitudinal ribs are installed on the inner lower flange of a certain range from left to right around the bulkhead installed inside the steel box girders to be mounted at the continuous point, and the stud bolts are installed at regular intervals, and then the rebar is assembled and installed. After welding the double flanges made of steel plate on the upper side of the lateral ribs, the concrete is filled with epoxy while casting the concrete, and the supports are respectively provided at the longitudinal ends of the double flanges respectively installed on the steel box girders. Install the fixing brackets on both sides of the double flanges in contact with the support, respectively, and install the auxiliary fixing brackets at the intermediate positions, and drill holes in the partition walls provided inside the steel box girder to penetrate the steel bars. After fixing to the fixing bracket and auxiliary fixing bracket installed on both sides,

       After the fixing brackets are installed on the left and right outer upper flanges centering on the partition wall installed inside the steel box girder, respectively, the fixing brackets are connected to the fixing unit by using steel bars or strands, and the inner lower flanges are disposed on the inner upper flanges immediately below them. The longitudinal ribs are installed in the same position as the double flanges installed in the pipe, and the double flanges are welded on the double flanges. Then, the support brackets are installed at both ends of the double flanges in the longitudinal direction and adjacent to each other. After installation, the hole is drilled in the bulkhead installed inside the steel box girder and connected to the fixing brackets installed on both sides through the steel rod or the stranded wire, and then the tensioner is introduced into the steel rod or the steel strand installed on the inner and outer upper flanges. Fixation by using the It is to install the continuous bridge by mounting the installed steel box girders on the bridge point of the continuous point.

Description

In the steel box continuous bridge, the parent moment reduction device installed in the steel box girder to reduce the size of the parent moment generated in the continuous point portion and the method of installing the steel box continuous bridge using the same {Negative moment reducing apparatus installed in the steel box girder so as to decrease magnitude of negative moment occurred at the continuous supporting points in a steel box continuous bridge, and construction method of a steel box continuous bridge using the apparatus}             

        1 is a view showing the installation of the parent moment reduction device of the present invention to the steel box girders installed in the continuous point piers.

        Figure 2 is a view showing the installation of the parent moment reduction device of the present invention on the inner lower flange of the steel box girder.

       Figure 3 is a view showing the installation of the parent moment reduction device of the present invention on the outer upper flange of the steel box girder.

       Figure 4 is a view showing the installation of the parent moment reduction device of the present invention on the inner upper flange of the steel box girder.

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

       10 ... steel box girder 11 ... outer upper flange

       12 ... inner upper flange 13 ... inner lower flange

       14 ... bridge system 15 ... bridge

       16 ... bulkhead 17 ... through hole

       20 ... Parental reduction device 21 ... Lateral rib

       22 ... translator section steel 23 ... settling bracket

       24 ... anchorage 25 ... support

       26 ... Auxiliary settling bracket 27 ... Steel rod or strand

       27-1.Steel rod

       28 ... double flange 29 ... longitudinal rib

       30 ... Epoxy 31 ... Rebar

       32 ... concrete 33 ... stud bolt

The present invention is a steel box continuous bridge, the method of installing a steel box continuous bridge using a parent moment reduction device that can reduce the amount of bending moment acting on the steel box girders mounted on the continuous point portion pier, that is, the sub-moment As for

       The longitudinal ribs are installed in a certain range on the inner lower flange on the left and right sides of the bulkhead installed inside the steel box girder installed at the pier at the continuous point, and the stud bolts are installed at regular intervals, and then the rebar is assembled and installed. Weld and install double flanges of steel plate on the upper part of the ribs, and fill the space completely with epoxy while pouring concrete, and double flanges respectively installed on the left and right sides of the bulkhead installed inside the steel box girder. Install the supporting brackets at both ends of the longitudinal direction, and install the fixing brackets at both sides of the double flanges in contact with the supports, respectively, and install the auxiliary fixing brackets at the intermediate positions where the fixing brackets are adjacent to each other. Drill holes through the bulkhead installed inside the girder to penetrate the steel bar Fixed to both sides of the fixing bracket and the auxiliary fixing bracket,

       After the fixing brackets are installed on the outer upper flanges on the left and right sides of the bulkheads installed inside the steel box girders, respectively, the fixing brackets are connected to the fixing unit by using steel bars or strands, and the inner lower flanges are disposed on the inner upper flanges immediately below them. The longitudinal ribs are installed in the same position as the double flanges installed in the joints, and the double flanges are welded on the horizontal ribs, and the support members are installed on both longitudinal ends of the double flanges, and the upper flanges are fixed to the upper sides of the double flanges. After the brackets are installed, the holes are drilled in the bulkheads installed inside the steel box girders, and they are connected to the fixing brackets installed on both sides through the steel bars or the strands, and then the tension bars are introduced into the steel bars or the strands installed on the inner and outer upper flanges. The part which was fixed and fixed later using the fixing unit By installing a steel box girder installation for cement reduction device for continuous fulcrum portion piers constructed a continuous bridge.

      The present invention is to install a centerment reduction device in the inner and outer upper and lower flanges on the left and right around the bulkhead installed inside the steel box girders mounted on the continuous point portion pier of the steel box continuous bridge to the center by the parent moment acting on the center point By reducing the impact on the steel box girders installed at the point, it is possible to lengthen the span while reducing the weight of the existing steel box girders, thereby extending the endurance of the bridge, and also reduce the amount of steel. The purpose is to provide a method for constructing a continuous bridge by installing a steel box girder with a parent reduction device to be installed in a continuous point pier.

       Conventionally, to reduce the moment by placing concrete or resin in the steel box girders or by welding the ribs, the attachment of the steel or steel and the steel or steel placed in the steel box over time, due to the cumulative load Cracks are generated in concrete or resin, which is separated from steel sheets, so that the original effect does not occur, or it is not enough to handle the stress caused by the load acting on the bridge with ribs alone. As a result, problems such as management costs and time wasted, and problems such as sag due to inadequate response to working loads have been generated, which has caused problems that fall short of the required service life of the bridge.

In order to solve the above problems, the present invention is to install double flanges using steel plates and install concrete between them by using steel bars or strands on the inside and outside of the left and right around the partition wall installed inside the steel box girder. The steel box girders with the parent reduction device are installed in the pier at the continuous point to reduce the size of the parent moment acting on the continuous point of the bridge, thereby reducing the size of the existing girder and increasing the span. In order to reduce the amount of steel required, it is possible to provide a method for installing continuous bridges by using steel box girders with effective and efficient parent reduction devices by using structurally safe and economical materials. do.

The present invention is to install the longitudinal and horizontal ribs in a predetermined range on the inner lower flange 13 on the left and right centered on the partition wall installed inside the steel box girders 10 to be installed in the continuous point portion piers, and the stud bolts 33 at regular intervals. After installing the reinforcing bars 31, the double flanges 28 made of steel are welded to the upper portions of the horizontal ribs 29 and 21, and the concrete 32 is poured and epoxy is formed in the space part. Full support by using the 30, and each support 25 is installed at both ends of the longitudinal direction of the double flange 28 respectively installed in the steel box girder 10, the double in contact with the support 25 The fixing brackets 23 are installed on both sides of the flange 28, respectively, and the auxiliary fixing brackets 26 are respectively installed at the intermediate positions where the fixing brackets 23 are adjacent to each other. Sphere on the partition wall 16 installed inside Perforated therethrough to securely fixed to the fixing bracket 23 and the auxiliary fixing bracket 26 provided on both sides of the bar (27-1) and a,

       After the fixing brackets 23 are respectively installed on the outer upper flanges 11 of the steel box girder 10, the fixing unit 23 is connected to the fixing unit 24 by using a steel rod or a strand 27, and the inner upper portion immediately below it. The longitudinal ribs 29 and 21 are installed at the same position as the range in which the double flanges 28 installed on the inner lower flange 13 are installed on the flanges 12, and then the double flanges 28 are welded onto the horizontal ribs. The support box 25 is installed at both ends of the double flange 28 in the longitudinal direction, and after the fixing brackets 23 are respectively installed on the upper part of the double flange 28 in contact with the support 25, the steel box girders ( 10) the steel rods installed on the inner and outer upper flanges 11 and 12 after the holes are drilled in the partition wall 16 installed in the interior thereof and fixed to the fixing brackets 23 installed on both sides through the steel rods or the strands 27. After the tension force is introduced into the strand 27, the anchorage 24 is The steel box girders installed with the fixed momentum reduction device 20 fixed by using a continuous point portion is characterized in that the construction of a continuous bridge.

       The method for constructing the continuous bridge by installing the parent reduction device 20 in the steel box girder 10 is as follows.

       (a) Reinforcing bar 31 while installing longitudinal and horizontal ribs in a predetermined range on the inner lower flange 13 on the left and right centers on the partition wall installed inside the steel box girder 10 and at regular intervals. Assembling);

       (b) welding the double flanges 28 made of steel to the upper portions of the installed horizontal ribs 21;

       (c) pouring concrete (32) between the double flange and the inner lower flange (13) to completely fill the space with epoxy (30);

       (d) Fixing brackets 25 are respectively provided at both ends of the longitudinal direction of the double flange 28 provided on the inner lower flange 13 and are fixed to the upper part of the double flange 28 in contact with the support 25. Installing auxiliary fixing brackets 26 at intermediate positions in which the fixing brackets 23 are adjacent to each other, while installing 23 at both sides;

       (e) Drilling holes in the partition wall 16 installed in the steel box girder 10 to penetrate the steel bar 27-1 to the fixing bracket 23 and the auxiliary fixing bracket 26 installed on both sides of the steel bar. Fixing and fixing 27-1;

       (f) After the fixing brackets 23 are respectively installed on the left and right outer upper flanges 11 around the partitions installed inside the steel box girders 10, the fixing holes 24 are formed by using steel bars or strands 27. Connecting to a fixed installation;

       (g) The longitudinal ribs 29 and 21 are installed on the inner upper flange 12, and the double flanges 28 are welded on the horizontal ribs, and then the supports 25 are provided at both ends in the longitudinal direction of the double flange 28. Installing the fixing brackets 23 on top of the double flanges 28 so as to be in contact with the support 25;

       (h) drilling a hole in the partition wall 16 installed inside the steel box girder 10 and penetrating the steel rod or the strand 27 to fix the fixing bracket 23 installed at both sides;

       (i) Steel box girders provided with a tension reduction device 20 fixed and fixed using a fixing device 24 after introducing a tension force into steel bars or strands 27 provided on the inner and outer upper flanges 12 and 11. It is installed through the step of constructing the steel box continuous bridge by installing in the continuous point piers.

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

       Figure 1 is a cross-sectional view showing the overall installation of the parent moment reduction device of the present invention in the steel box girders installed in the continuous point portion piers, partition walls installed on the inside of the steel box girders 10 mounted on the pier 15, which is a continuous point portion. The longitudinal ribs are installed in a predetermined range on the inner lower flange 13 on the left and right sides, the stud bolts 33 are provided at regular intervals, and after the reinforcing bars 31 are assembled and installed, the horizontal ribs 21 Double flange 28 made of steel plate is welded on the upper part, while concrete 32 is poured, the space is completely filled with epoxy 30, and double flanges are respectively installed in the steel box girder 10. The support brackets 25 are respectively provided at both ends of the longitudinal direction of the 28, and the fixing brackets 23 are provided at both sides of the fixing brackets 23 on the upper sides of the double flanges 28, respectively, in contact with the support 25. ) Auxiliary fixing brackets 26 are respectively installed at adjacent intermediate positions, and holes are installed in the partition walls 16 provided in the steel box girder 10 to penetrate the steel bars 27-1 to be installed at both sides. Fixed to the bracket (23) and auxiliary fixing bracket (26),

       After the fixing brackets 23 are respectively installed on the left and right outer top flanges 11 around the partitions installed in the steel box girder 10, the fixing rods 27 are connected to the fixing holes 24 using the steel rods or the strands 27. During installation, the longitudinal flanges 29 and 21 are installed at the same position as the range in which the double flange 28 installed on the inner lower flange 13 is installed on the inner upper flange 12 immediately below and the double flange on the transverse rib. (28) and then install the support (25) at both ends in the longitudinal direction of the double flange (28) and the fixing bracket (23) on top of the double flange (28) in contact with the support (25), respectively After installation, a hole is formed in the partition wall 16 installed in the steel box girder 10 to penetrate the steel rod or the stranded wire 27 to be fixed to the fixing bracket 23 installed at both sides, and then the inner and outer upper flanges ( Steel rods or lectures installed in 12,11) After the introduction of tensile force to 27 it is characterized in that a fixed installation a reduced cement fixation parent device 20 with the anchorage (24).

       When the upward force of the parent moment generated at the central point is applied to the steel box girder 10 by introducing a tension force to the steel rods or the strands 27 installed on the inner and outer upper flanges 12 and 11. In order to reduce the size by the tension force introduced in the 27), and to install the longitudinal ribs (29, 21) on the inner upper flange 12 and to install the double flange 28 on the upper portion of the transverse ribs, The steel rods or strands 27 to play a role to perform.

       On the other hand, the inner lower flange 13 is provided with longitudinal ribs 29 and 21, stud bolts are installed, and double flanges 28 installed by the transverse ribs 21 after assembling and installing the reinforcing bars 31. Placing concrete 32 in between and installing the steel bar (27-1) in the upper portion of the double, but not to introduce a tension force to the fixed force by acting at the central point of the lower portion of the inner bottom flange (13) The parental reduction device 20 installed in the first resistance, and then the parental reduction device 20 installed on the inner and outer upper flanges (12, 11) to be in charge.

       It is assumed that there is a gap between the upper surface of the concrete 32 and the lower surface of the double flange 28 so that the gap is tightly filled using the epoxy 30 at the lower portion of the double flange 28. To be able to act integrally under load.

       In addition, the parent moment reduction device 20 is installed over a predetermined range of the inner lower flange of the steel box girders 10 installed in the continuous point portion pier, which is the effect of the parent moment on the steel box girders 10 in the continuous point portion Calculate the range to receive the installation of the parent reduction device 20, the total parent reduction device 20 is the total length of the parent reduction device to the left and right around the partition wall installed inside the steel box girder (10). Install the half of each and connect them to each other using the steel bar (27-1). The steel bar (27-1) by drilling a hole in the partition wall 16 installed inside the steel box girder (10) these steel bars (27) -1) is inserted into and fixed to the fixing unit 24 installed in the fixing bracket 23 or the auxiliary fixing bracket 26 so as to work integrally.

        Figure 2 is a plan view showing the installation of the parent moment reduction device of the present invention on the inner lower flange of the steel box girder, the fixing attached to the double flange 28 installed in the steel box girder 10 installed in the continuous point pier While fixing and fixing the bracket 23 with the steel bar 27-1, the auxiliary fixing bracket 26 is installed between the fixing bracket 23 and the fixing bracket 23, respectively, to use the steel bar 27-1. Connect and secure to each other.

       3 is a plan view showing the installation of the parent moment reduction device of the present invention on the outer upper flange of the steel box girder, respectively installed on the outer upper flange 11 of the steel box girder 10 to be installed in the continuous point piers. It shows that the fixing using the steel bar or strand wire 27 to the fixing bracket (23).

       The tension is introduced into the steel bar or the strand 27 to reduce the size of the parent.

       4 is a plan view showing the installation of the parent moment reduction device of the present invention on the inner upper flange of the steel box girder, longitudinal ribs 29 and 21 installed on the inner upper flange 12 of the steel box girder 10. The fixing rod 23 is installed on the double flange 28 installed on the side ribs and the transverse ribs, and these are fixed and fixed using the steel bar or the strand 27, and then the tension bar is introduced to the steel bar or the strand 27 of FIG. To play a role.

       The double flange 28 and the inner upper flange 12 are not filled with a material such as concrete 32. The reason for not filling the material such as the concrete 32 is that the tensile force acts as the upper portion of the steel box girder 10 so that when the tensile force acts on the concrete 32, cracks are generated, rather than placing concrete. It is advantageous not to pour, so do not fill.

The present invention reduces the influence of the parent moment acting on the steel box girder by using the parent moment reduction device installed around the bulkhead of the steel box girders installed in the continuous point portion to reduce the mold height of the girder and to make the span longer. It is a device that is suggested to reduce the amount of steel used, and it is a very useful device that can manage the bridge economically and efficiently by using it.

Claims (5)

    Longitudinal ribs are installed on the inner lower flange and the upper upper flange over a certain range on the left and right sides of the bulkhead installed inside the steel box girders to be mounted on the pier, which is a continuous point, and the stud bolts are installed on the inner lower flange at regular intervals. While assembling and installing the reinforcing bars, the steel flanges are welded and installed on the upper portions of the horizontal ribs installed on the inner upper and lower flanges, and support members are respectively provided on both longitudinal ends of the double flanges respectively provided on the steel box girders. Drill holes in the bulkhead installed inside the steel box girder to fix the fixing brackets on both sides of the steel box girder through the steel rods or strands, and then install the fixing brackets on the outer upper flanges of the steel box girder. Installation of parental reduction device In the continuous steel box bridges,       The support brackets are respectively provided at both ends of the longitudinal direction of the double flange installed over a predetermined range on the inner lower flange, and the fixing brackets are installed adjacent to each other while the fixing brackets are respectively installed on both sides of the double flange in contact with the support. Each of the auxiliary fixing brackets are installed at the intermediate position, and the steel box is continuously connected to the fixing brackets and the auxiliary fixing brackets installed at both sides by drilling holes in the partition wall installed inside the steel box girder and penetrating the steel rods. In the bridge, the reduction of the parent moment installed in the steel box girders to reduce the size of the parent moment generated in the continuous point portion delete        The method of claim 1,        Filling the space between the inner lower flange and the double flange to fill the space while filling the space between the concrete upper and the lower double flange tightly filled with epoxy using an empty space between the inner upper flange and the double flange is maintained A steel box continuous bridge characterized in that it is characterized in that to be installed in the steel box girders to reduce the size of the parent generated in the continuous point portion.         The method of claim 1,        Steel rods or strands connected to the fixing brackets installed on the upper part of the double flanges installed on the inner lower flange and the steel rods connected to the auxiliary fixing brackets are fixed and fixed without introducing tension, while the steel bars or strands connected to the fixing brackets installed on the outer upper flanges and the inner upper flanges. In the steel box continuous bridge, characterized in that it is fixed and settled by introducing a tension force, the parent moment reduction device installed in the steel box girders to reduce the size of the parent moment generated in the continuous point.       (A) installing longitudinal and horizontal ribs in a predetermined range on the inner lower flange centered on the partition wall installed on the inner side of the steel box girders to be mounted on the pier as a continuous point portion, and assembling and installing the reinforcing bars while installing stud bolts at regular intervals;        (b) welding a double flange of steel plate on top of the lateral rib;       (c) completely filling the gap formed in the upper part of the concrete and the lower part of the double flange with epoxy while pouring concrete between the double flange and the inner lower flange;       (d) Intermediate positions in which the fixing brackets are adjacent to each other while supporting supports are respectively provided at both ends of the longitudinal direction of the double flange installed on the inner lower flange and fixing brackets are provided on both sides of the upper part of the double flange in contact with the support. Installing each of the auxiliary fixing brackets;        (e) fixing the steel rods to the fixing brackets and the auxiliary fixing brackets installed at both sides by drilling holes in the partition wall installed inside the steel box girder;        (f) fixing fixing brackets to the fixing unit by using steel bars or strands after installing the fixing brackets on the outer upper flanges of the steel box girders, respectively;        (g) A longitudinal rib is installed on the inner upper flange, and a double flange is welded on the horizontal rib, and then a support is installed at both ends of the longitudinal direction of the double flange, and a fixing bracket is provided on the upper part of the double flange in contact with the support. Installing;        (h) drilling a hole in a partition wall provided inside the steel box girder and fixing the connection to fixing brackets installed at both sides through a steel bar or a stranded wire; And        (i) constructing a steel box continuous bridge by installing a steel box girder with a fixed moment anchoring device installed in a fixed point using a fixing device after introducing a tension force into steel bars or strands installed on the inner and outer upper flanges Steel box continuous bridge characterized in that the step consisting of, the method of installing a steel box continuous bridge using a parent moment reduction device installed in the steel box girders to reduce the size of the parent moment generated in the continuous point portion.

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