KR100556721B1 - Prestressed composite girder manufactured by connection of prestressed composite beam units through precast coupling device and bridge construction method using the composite girder - Google Patents

Abstract

        The present invention mounts the prestressed composite beams made by connecting the unit prestressed composite beams divided into predetermined lengths to each other by using the precast joints and installs the bridge deck concrete thereon. It relates to a bridge installation method that is cured and installed by introducing a secondary tension force to a steel bar or steel wire installed in the lower casing concrete,

        The precast connection device is composed of a connection end plate consisting of a precast connection block of the "c" shaped body and an upper connection end plate and a lower connection end plate, the connection end plate of the precast connection joint device to the lower flange Prestressed composite beam made by connecting the unit prestressed composite beams to each other by placing the precast connection blocks on the joints and placing the filled concrete therein when the lower casing concrete is embedded at both ends. After the casting of the top plate concrete of the bridge installed by using the secondary bridge of the lower casing concrete tensioning and fixing the anchorage fixing method to complete the installation of the bridge.

Description

Prestressed composite girder manufactured by connection of prestressed composite beam units through precast coupling device and bridge construction method using the composite girder}             

1 is a view showing a precast connection block of the precast connection device of the present invention.

Figure 2 is a view showing a connecting end plate of the precast connection device of the present invention.

3 is a view showing the installation of the precast connection device of the present invention to the connection portion of the unit prestressed composite beam.

Figure 4a, b, c, d, e, f, g is a view showing a process for installing a bridge by making a prestressed composite beam by connecting the unit prestressed composite beam with the precast joint connection device of the present invention.

5a, b, c, d, e, f, g is a view for manufacturing a prestressed composite beam by connecting a conventional unit prestressed composite beam.

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

         B: Support W: Reload

         P: Preflection load T: Tension direction

        10: prestressed composite beam

        20: unit prestressed composite beam 21: high tension bolt connection

        22: connecting plate 23: lower casing concrete

        24: Reinforcing bar 25: Steel wire or steel bar

        26: pressure plate 27: H type steel

        28 abdomen 29 lower flange

        30: bridge deck concrete 31: filled concrete

        32: filled concrete 33: branch portion

        40: connection part

        50: precast joint

        60: precast connection block 61: "c" shaped body

        62: transfer connector 63: the inner bent portion

        65: PC steel wire

        66: "c" shaped iron plate

        70: connecting end plate 71: groove

        72: upper connecting end plate 73: lower connecting end plate

The present invention inserts a precast connection device consisting of a precast connection block of a "c" shaped body and a connection end plate consisting of an upper connection end plate and a lower connection end plate to a connection joint in which unit prestressed composite beams are connected to each other. The bridge is then installed using prestressed composite beams made by placing concrete filled therein.Then, after the bridge deck concrete is poured, the steel wires or rods of the lower casing concrete are tensioned and fixed and fixed. It relates to a bridge installation method to complete the.

The present invention is to construct a bridge by inserting a precast connection device, which is pre-stressed by connecting the unit prestress composite beams to the joint, to produce a prestressed composite beam, prestress synthesis required for bridge construction Due to the drastic shortening of the beam manufacturing process, it is possible to reduce the indirect incidental cost due to the coordination process at the work site, and also to achieve thorough quality control in the production of prestressed composite beams, thereby contributing to the improvement of the bridge quality. At the same time, it provides a method for constructing a bridge that can be economically constructed.

Conventionally, as shown in FIG. 5, the H-type steel 27 is divided into a predetermined size, and then connected to each other by a high tension bolt 21 as shown in a, and then loaded with a pre-flection load P, and as shown in FIG. After pouring the lower casing concrete 23, the member which releases the pre-flexion load P to introduce a compressive force to the lower casing concrete 23 is separated and reassembled into the unit prestressed composite beam 20 as shown in FIG. Then, as shown in FIG. D, it is transported back to the bridge construction site and installed in the cradle 33, and then, as shown in FIG. E, the connection unit 40 is formed by connecting the separated unit prestressed composite beams with high tension bolts. After placing the bridge deck concrete 30 and pouring concrete on the connection joint 40 as shown in Figs. F and g, the support B is installed at the bottom of the connection joint and the When the load and the support are removed after loading by loading the upper part of the joint part (W), the prestress is introduced into the concrete placed in the connecting joint part so that the same amount as the prestress which is introduced into the lower casing concrete. It is to complete the installation of the bridge by introducing as much. In this way, in order to introduce the prestress into the concrete placed in the joint, it is necessary to load an object with a certain size. In order to insert the prestress by the same load as that of the preloaded load on the unit prestressed composite beam Has to install an object of considerable size and weight, but this installation work is difficult in reality, and it is also a problem as to whether the planned prestress is accurately introduced.

The present invention has been proposed to solve the above problems, a prestress composite beam manufactured by inserting and connecting a precast connection device in which a predetermined amount of prestress is introduced in advance to a connection joint for connecting a unit prestress composite beam. The bridge is installed using a prestressed composite beam that is connected to a precast connecting block, which is a precast connection block in which the same amount of prestress is introduced into the lower casing concrete. The construction can reduce the construction cost by drastically shortening the process. In addition, the prestress composite beam manufactured by using the precast joint joint device in which the same amount of prestress is introduced into the unit prestress composite beam can be manufactured. To achieve a comprehensive quality management hameuroseo install the bridge, so to provide an effective bridge construction methods that improve the quality of the bridge can be guaranteed tender Bridges endurance.

The present invention is a precast connection device consisting of a connection end plate 70 consisting of a precast connection block 60, an upper connection end plate 72 and a lower connection end plate 73 of the "c" shaped body (61) (50) is inserted into the connecting joint portion 40 connected to each other and the unit prestressed composite beam 20 mounted on the pier and alternating point portion 33 installed for the installation of the bridge and then filled therein The steel wire or steel rod 25 is installed in the lower casing concrete after installing the bridge with the prestressed composite beam 10 made by pouring the concrete 31 and pouring the bridge deck concrete 30 thereon. It is characterized by the bridge installation method to complete the installation of the bridge by tensioning and fixing.

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

1 is a view showing a precast connection block of the precast connection device of the present invention, the precast connection block 60 is a reinforcing bar to the "c" shaped body 61 while a plurality of shear connection material ( 62) welded "c" shaped iron plate (66) is installed and the PC steel wire (65) in the body at regular intervals, then cast concrete to make a "c" shaped body (61) in the body Introduce the tension force to the installed PC steel wire is made of pre-cast connection block 60, the pre-stress is introduced in advance in the "c" shaped body, on both sides of the body to form an inner bent portion 63 bent inwardly In order to be installed in the space portion in the inner bent portion 63 when the connection end plate 70 is buried in both ends of the lower casing concrete in contact with both sides of the body in the future.

The pre-tensioning force is introduced into the precast connection block 60 in advance so that the same amount of tension is also introduced into the connection joints to which the unit prestressed composite beams 20 prepared by introducing prestresses to the lower casing concrete are connected to each other. In the future, the precast connection joint device 50 and the unit prestressed composite beam 20 are integrally installed in the bridge to act on the load so as to withstand the designed load.

2 is a view showing the connection end plate of the precast connection joint device of the present invention, which is made of a rectangular steel sheet but divided into an upper connection end plate 72 and a lower connection end plate 73 and the upper and lower connections A plurality of shear connecting members 62 are installed on the front and inner surfaces of the end plates 72 and 73, and the upper connecting end plate 72 is provided with a steel rod installed on the lower casing concrete 23 of the unit prestressed composite beam 20, or A groove 71 that can penetrate the steel wire 25 is formed.

The connecting end plate 70 is installed on both sides of one end surface of the lower casing concrete 23 on both side ends of the unit prestressed composite beam 20, but after applying epoxy to both sides to improve the adhesive force of the steel bar or steel wire (25) penetrates into the groove (71), and the shear connecting member provided on one side of the shear connecting member (62) provided over the front and inner surfaces of the connecting end plate (70) is connected to the end surface of the lower casing concrete (23). The shear connector 62, which is embedded and installed on the other side, has the transfer connector 62 when the precast connection block 60 is installed on the joint portion 40 and the concrete 31 is poured therein. It is installed to reinforce the adhesive force so that it can be buried and work integrally.

In addition, the connection end plate is installed by dividing the upper and lower connection end plate is divided into the upper connection end plate at the upper part of the lower flange and the lower connection end plate at the lower part of the lower flange to be installed at the time of installation of the lower casing concrete To do this.

3 is a view showing the installation of the precast joint connection device of the present invention to the joint portion of the unit prestressed composite beam, the lower flange (A) while applying the downward pre-flection load (P) to the H-type steel 27 29) after placing the reinforcing bar and steel bar or steel wire (25) and connecting end plates at both ends to form the connection joint in the future to pour concrete to make unit prestressed composite beam (20) and then connect them to each other In order to install the connecting joint part 40 by connecting high tension bolts to the upper and lower flanges and the abdomen 28 with the connecting plate 22 to the H-shaped steel extending a predetermined length of both ends of the unit prestressed composite beam 20 in order to While forming a steel rod or steel wire 25 extending a predetermined length at both ends of the lower casing concrete 23 of the unit prestressed composite beam 20 is installed in the connection joint A,

The steel rods or steel wires 25 protruding from the grooves 71 of the upper and lower connection end plates 72 and 73 of the connection end plates 70 buried at both end portions of the lower casing concrete 23 are couplers (not shown). After connecting to each other by the precast connection joint device 50 is installed in the connection joint part 40, the epoxy coating to ensure a tight adhesion and then installed in the connection joint part (40).

After this installation, the precast connection block 60 is filled with concrete 31 to prepare the prestressed composite beam 10.

In addition, when placing the lower casing concrete 23, the pressure plate 26 is installed around the rod or steel wire 25 at both ends of the prestressed composite beam to install the steel rod or steel wire 25 so that it is strong when introducing tension force. Make sure the concrete withstands pressure.

Figure 4a, b, c, d, e, f, g is a view showing a process for installing a bridge by making a prestressed composite beam by connecting the unit prestressed composite beam with the precast joint connection device of the present invention,

In order to fabricate the prestressed composite beam 10 according to the present invention, the H-shaped steel which is given a certain amount of upward rise to the H-shaped steel 27 is divided into a predetermined length, and then the upper and lower flanges and the abdomen of the H-shaped steel as shown in FIG. Attach the connecting plate 22 to the high-tension bolt connection 21 to form the connection joint 40, and then exert the preflection load (P) in the downward direction as shown in Figure b to tension the lower flange 29 While reinforcing the reinforcing bars in all the sections of the lower flange 29, except for the connection joint 40, while generating the stress, install a steel wire or steel bar 25, and then pour the lower casing concrete (23) Connecting end plates are installed at both ends of the lower casing concrete joints to be buried, and a pressure plate 26 is installed at both ends of the prestressed composite beam in order to resist the compressive force when the steel wire or steel rod is tensioned in the future. W is produced it can be utilized as a device for fixing and then introducing a tensile force at a later date or wire rod (25). At this time, the epoxy is applied to both sides of the connecting end plate 70 which is installed at both ends of the connecting portion of the lower casing concrete to be embedded. After the work is completed, the high-strength bolt connection 21 installed on the connection joint 40 is dismantled and divided into respective unit prestressed composite beams 20 for transport to the site. FIG. E shows the unit prestressed composite beam 20 to be transported to the site and installed in the branch part 33, and then the unit prestressed composite beam is formed by the high tension bolt connection 21 to form the joint 40. The steel wires or steel rods 25 extending in a certain length in the lower casing concrete 23 of the interconnection are connected to each other using a coupler, and the tension force is introduced into the PC steel wire 65 inserted into the body 61 as shown in FIG. The cast connecting block 60 is installed on the connecting joint 40 and the epoxy is applied therein to increase the adhesive strength, and then the filling concrete 31 is poured into the precast connecting block 60 to be attached. After the prestressed composite beam 10 is manufactured, the bridge deck concrete 30 is cast as shown in FIG. G, and the tension force is applied to the steel wire or steel rod 25 previously inserted in the lower casing concrete 23 in the tension direction T. After the completion of the installation of the bridge using the prestressed composite beam by introducing the secondary compressive force into the entire prestressed composite beam 10, and completing the installation of the equipment required for the bridges such as asphalt and railings on the bridge deck concrete, the bridge The installation of is completed.

The shear connector is a horseshoe type stud bolt, stud bolt, T-type bolts, etc. are installed to increase the attachment strength.

In addition, the connection of the steel rods or steel wires 25 embedded in the lower casing concrete 23 using the coupler 32 is to homogenize the tension force introduced into the lower casing concrete 23, and the connection is The tension is introduced to improve the attachment strength of the precast connection block 60 installed in the female part 40, and the steel bar or steel wire is used when there is a need for the introduction of additional tension due to the deterioration of the load capacity due to the aging of the bridge in the future. This is to allow the bridge to maintain and reinforce the load capacity to reinforce the load capacity.

Installing a precast connection block in the connection joint and then fixing the steel wire or rod by applying tension to the pre-stressed composite beam while allowing the precast connection block installed in the connection block to be closely connected to the lower casing concrete installed on the left and right sides. This is to introduce prestress into the whole.

The present invention is to install the prestressed composite beams produced by interconnecting the divided unit prestressed composite beams using a precast connecting block on the bridge, so as to make the prestressed composite beams widely necessary in the vicinity of the site before. Since the required width of the production site can be significantly reduced, the cost of installing the production site can be reduced, and the weight of the factory production of the prestressed composite beam can be dramatically increased to ensure perfect quality control and at the same time, assembly and installation in the field. Since it is possible to construct quickly, the construction time can be shortened, and the steel rods or steel wires installed in the lower casing concrete can be added to the prestressed composite beam after the bridge is installed to compensate for the loss of tension. At the same time, future tension It is an economical and highly efficient bridge installation method that can be easily re-strained when necessary to exhibit remarkable ability to maintain and manage bridges.

Claims (11)

For the installation of the bridge, the unit prestressed composite beams divided into predetermined lengths mounted on the branch part are connected to each other by a predetermined number using precast joints, and then the concrete filled in the precast joints is cast and prestressed. In the prestressed composite beam which is installed by installing a composite beam, pouring bridge deck concrete on it, and introducing secondary tension to steel bars or steel wires installed on the lower casing concrete,       The precast joint is a prestress composite beam produced by connecting a unit prestressed composite beam divided into a predetermined length characterized by consisting of a precast connecting block and a connecting end plate with a precast joint. delete The method of claim 1, The precast connection block is a "c" shaped body, the PC steel wire is installed in the body at regular intervals, and both sides of the upper side of the body to form an inner bent portion, the entire surface inside the body a plurality of Prestressed composite beams made by connecting unit prestressed composite beams divided into predetermined lengths with precast joints, characterized by the fact that the 'c' shaped steel plates with shear connectors are installed. The method of claim 3, wherein By introducing a predetermined amount of tension to the PC steel wire installed in the body of the precast connecting block to the pre-stress is introduced in advance in the connecting block, the size of the pre-stress is characterized in that the same as the size of the pre-stress introduced into the lower casing concrete Prestressed composite beam manufactured by connecting unit prestressed composite beam divided into lengths by precast joint. The method of claim 1, The connecting end plate is a prestress composite beam produced by connecting the unit prestressed composite beam divided into a predetermined length characterized by consisting of the upper connection end plate and the lower connection end plate with a precast connection joint device. The method of claim 5, The upper connecting end plate is made of a rectangular steel sheet, but a plurality of shear connecting material is installed on the front and the inner surface, the lower casing of the unit prestressed composite beam is installed on both upper ends of the lower flange of the connection joint of the concrete lower casing A prestressed composite beam manufactured by connecting unit prestressed composite beams divided into predetermined lengths with precast connecting joints, characterized by the formation of grooves that can penetrate steel bars or steel wires installed in concrete. The method of claim 5, The lower connecting end plate is a unit prestressed composite beam divided into a predetermined length characterized in that a plurality of shear connecting material is installed on the front and the inner surface and is installed on the lower flange of the lower casing concrete to connect the precast connection joint device Prestressed composite beam produced by The method according to any one of claims 1 and 3 to 7, Precast connection block connects the steel bars or steel wires which are embedded in the lower casing concrete of the unit prestressed composite beams to the connection joints connecting the unit prestressed composite beams to each other using adjacent steel rods or steel wires and couplers, and are connected to each other. The prestressed composite beam manufactured by connecting a unit prestressed composite beam having a predetermined length to be connected to a precast jointed joint device, which is characterized in that it is installed in the connection joint and then filled with concrete inside. The method according to any one of claims 1 and 3 to 7, When the precast joint is installed on the joint, the epoxy resin is applied to the entire surface, and thus, the unit prestressed composite beam divided into predetermined lengths is characterized in that it is used to improve adhesion to the filled concrete which is placed in the joint. Prestressed composite beam made by connecting precast joints. In the installation method of bridges constructed using prestressed composite beam, a) dividing the H type steel into a certain length by giving the H type steel a certain amount of upward rise; b) adding a connecting plate to the upper and lower flanges and abdomen of the divided H-shaped steel and forming a connection joint by high tension bolt connection;       c) applying tensile stress to the interconnected H-shaped steel in a downward direction to generate tensile stress in the lower flange;       d) reinforcing the reinforcing bars in all the sections of the lower flange except for the connection joint, install steel wire or steel rod, and then cast the lower casing concrete, install a shim plate at both ends of the lower casing concrete, and connect the joint of the lower casing concrete Fabricating a unit prestressed composite beam by embedding a connection end plate coated with epoxy at both ends of the pre-flection load;       e) releasing the temporarily connected bolts in step b), dividing each unit into prestressed composite beams, and transporting them to the bridge construction site;       f) installing the divided unit prestressed composite beam to the point portion installed for the installation of the bridge, and then forming the connection joint by high tension bolt connection 21 of the unit prestressed composite beam;        g) connecting steel wires or steel rods extending at a predetermined length from one end of lower casing concrete on both sides in the connection joint using a coupler;        h) inserting a precast connection block coated with epoxy inside the connection joint and pouring a filled concrete therein to form a prestressed composite beam;        i) pouring bridge top concrete on top of the prestressed composite beam and introducing a second compressive force to the entire prestressed composite beam by introducing a tension force in a tension direction to a steel wire or steel rod previously inserted into the lower casing concrete; And        j) After completing the installation of the bridge using the prestressed composite beams and completing the installation of the equipment required for the bridges, such as asphalt and railings on the bridge deck concrete unit prestressed composite beams divided into a certain length characterized in that Bridge installation method using prestress composite beam manufactured by connecting with precast joint. The method of claim 10, In the step d), the steel wire or steel rod installed in the lower casing concrete is characterized in that the bridge can be reinforced by introducing a tension force by using the steel wire or steel rod when the bridge needs to be reinforced in the future. A method for installing a bridge using prestressed composite beams produced by connecting unit prestressed composite beams divided into predetermined lengths with precast joints.

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