Method for assembled integral type reinforced concrete slab bridge

A reinforced concrete slab and monolithic technology, applied in the direction of erecting/assembling bridges, bridges, bridge construction, etc., can solve the problem of affecting the durability and performance of bridges, the inability to realize parallel construction of upper and lower structures, and affecting the bearing capacity and safe operation of bridges and other problems to achieve the effect of saving maintenance and repair and reinforcement costs, avoiding the occurrence of single-board stress, and saving templates and brackets

Active Publication Date: 2013-08-21
苏州三木知识产权服务有限公司
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  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In expressway bridges, there are usually two implementation methods for bridges with a span of 5 to 10 meters: one is a reinforced concrete assembled hinged slab bridge, which is calculated and analyzed according to the hinge theory of plane rods. There is a common phenomenon that the hinge joints between the slabs are easily damaged, which leads to the occurrence of stress on the single slab, which affects the bearing capacity and safe operation of the bridge. The maintenance and reinforcement costs are high, and the effect is mediocre, and the maintenance and reinforcement construction often affects the existing traffic. The other is the cast-in-place reinforced concrete monolithic slab bridge. In order to avoid the occurrence of single-slab stress, at present, the span bridges with a span of 5 to 10 meters on expressways in some areas begin to use cast-in-situ reinforced concrete monolithic slab bridges. The mechanical properties of the reinforced concrete

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  • Method for assembled integral type reinforced concrete slab bridge
  • Method for assembled integral type reinforced concrete slab bridge
  • Method for assembled integral type reinforced concrete slab bridge

Examples

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[0024] Example:

[0025] (1) Install the prefabricated reinforced concrete slab 1, and form the construction groove of the wet joint 2 between two adjacent prefabricated reinforced concrete slabs 1, the height of the wet joint 2 is 15 cm, and the top of the wet joint 2 is connected with the prefabricated reinforced concrete The top of the slab 1 is flush, and the side of the prefabricated reinforced concrete slab 1 is in contact with the wet joint 2. The opening ends of the U-shaped connecting steel bars 3 are embedded inside, and the U-shaped connecting steel bars 3 protrude from the closure of the prefabricated reinforced concrete slab 1. The end extends into the wet joint 2, and the rectangular stirrup 4 is arranged at the closed end of the U-shaped connecting steel bar 3 embedded in the two adjacent prefabricated reinforced concrete slabs 1, and the U-shaped connecting steel bar 3 and the rectangular stirrup 4 The longitudinal structural reinforcement 5 is arranged in th...

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Abstract

The invention discloses a method for an assembled integral type reinforced concrete slab bridge. An integral slab bridge is divided into slab blocks with the same width in the transverse direction, namely the direction perpendicular to the driving direction, then the slab blocks are prefabricated, the prefabricated slab blocks are connected through wet joints, the width of each prefabricated slab block is the difference of the width of a driveway and the width of each wet joint, connecting reinforcing steel bars are embedded at the position, corresponding to each wet joint, of the side face of each prefabricated slab block, the embedded connecting reinforcing steel bars are bound and connected, then cement concrete is poured, accordingly, an assembled integral type reinforced concrete slab is manufactured, and finally bridge deck pavement is carried out on the manufactured assembled integral type reinforced concrete slab, anti-collision guardrails are installed on both sides of a bridge deck in the longitudinal direction, namely the driving direction, thus, the assembled integral type reinforced concrete slab bridge is manufactured. The method for the assembled integral type reinforced concrete slab bridge has the advantages of being high in speed of the prefabricated assembly type construction method, low in cost and good in stress performance of the integral slab bridge. The manufactured slab is good in performance, can effectively avoid the occurrence of the condition that a single slab is stressed, saves cost of later maintenance and reinforcement and ensures construction quality.

Description

technical field [0001] The invention belongs to the technical field of bridge engineering, in particular to a method for assembling an integral reinforced concrete slab bridge. Background technique [0002] In the past 20 years, the number of high-grade highway construction projects has increased day by day. The key and difficult point of bridge engineering highway construction is that small-span bridges (single-hole span 5-10 meters) account for a large proportion of the total number of bridges in the total mileage of the route. [0003] In expressway bridges, there are usually two implementation methods for bridges with a span of 5 to 10 meters: one is a reinforced concrete assembled hinged slab bridge, which is calculated and analyzed according to the hinge theory of plane rods. There is a common phenomenon that the hinge joints between the slabs are easily damaged, which leads to the occurrence of stress on the single slab, which affects the bearing capacity and safe ope...

Claims

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Application Information

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IPC IPC(8): E01D21/00
Inventor 刘均利
Owner 苏州三木知识产权服务有限公司
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