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Construction Method of Bridge Structure in Negative Bending Moment Area of ​​Prestressed Concrete Beam

A technology of negative bending moment area and construction method, applied in bridges, bridge materials, bridge construction and other directions, can solve the problems of difficult wire threading, long construction period, poor economy, etc., to avoid wire threading treatment, simple construction method and good economy. effect of benefit

Active Publication Date: 2021-09-03
ZHEJIANG PROVINCIAL INST OF COMM PLANNING DESIGN & RES CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In recent years, the application of prestressed concrete in bridges has developed rapidly, and prestressing is often required in the negative moment area on the top of the pier. The traditional cast-in-place bridge deck applies prestressing methods by stretching the prestressed beams in the reserved panel tunnel. Each Both ends of the root prestressed beam need to be equipped with anchors. At the same time, additional processes such as retaining holes, piercing bars, grouting, and anchor sealing are added during the construction. The construction process is complicated and the construction period is long, which hinders the development of urban public transportation.
At the same time, the traditional prestressing post-tensioning method, anchorage corrosion, sliding anchor, steel strand corrosion, fracture; tunnel blockage, tunnel offset, etc. lead to problems such as wire threading difficulties, resulting in poor economic efficiency of the traditional prestressing method, which does not meet the national advocacy The concept of rapid construction and assembly

Method used

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  • Construction Method of Bridge Structure in Negative Bending Moment Area of ​​Prestressed Concrete Beam
  • Construction Method of Bridge Structure in Negative Bending Moment Area of ​​Prestressed Concrete Beam
  • Construction Method of Bridge Structure in Negative Bending Moment Area of ​​Prestressed Concrete Beam

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Embodiment

[0053] see Figure 1 to Figure 9 , the present embodiment provides a prestressed concrete beam bridge structure in the negative moment zone (hereinafter referred to as the bridge structure 10 ), which mainly includes a prefabricated T-beam 100 and a prefabricated bridge deck 200 .

[0054] Among them, see figure 2 as well as image 3 , the prefabricated T-beam 100 includes a T-beam 110 installed in the positive moment region of the bridge structure 10 and a second beam rib 120 integrally formed with the T-beam 110 and installed in the negative moment region of the bridge structure 10, wherein the T-beam 110 And the second beam ribs 120 are arranged along the extending direction of the bridge structure. Wherein, the negative bending moment of the prefabricated T-beam 100 is within a range of 0.1L from the beam end of the second beam rib 120 .

[0055] It should be noted that the T-beam 110 is actually composed of the integrally formed first rib 111 and the wing plate 113, a...

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Abstract

The invention relates to a construction method of a bridge structure in a negative moment area of ​​a prestressed concrete beam, and relates to the technical field of bridge engineering. The construction method of the bridge structure in the negative moment zone of prestressed concrete girders includes: obtaining prefabricated T-beams and prefabricated bridge decks; A groove for installing the prefabricated bridge deck is formed in the negative bending moment area, and the prefabricated bridge deck is hoisted in the groove after connecting two adjacent girder ribs. Prestress is applied to the prefabricated bridge deck on one side, and then the prefabricated bridge deck on this side is connected to the corresponding wing plate and beam rib to form a whole and share the load. The above-mentioned construction method is simple and quick, and the obtained bridge structure in the negative moment area of ​​the prestressed concrete girder is reliable in stress, and has great use value and good economic benefits in the construction of new bridges and the renovation of old bridges.

Description

technical field [0001] The present application relates to the technical field of bridge engineering, in particular to a prestressed concrete beam negative moment area bridge structure and a construction method thereof. Background technique [0002] In recent years, the application of prestressed concrete in bridges has developed rapidly, and prestressing is often required in the negative moment area on the top of the pier. The traditional cast-in-place bridge deck applies prestressing methods by stretching the prestressed beams in the reserved panel tunnel. Each Both ends of the root prestressed beam need to be equipped with anchors. At the same time, additional processes such as hole retention, reinforcement penetration, grouting and anchor sealing are added during the construction. The construction process is complicated and the construction period is long, which hinders the development of urban public transportation. At the same time, the traditional prestressing post-ten...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E01D2/00E01D19/00E01D19/12E01D21/00E01D101/28
CPCE01D2/00E01D19/00E01D19/125E01D21/00E01D2101/28
Inventor 王昌将段亚军安风明马芹纲陈多董佳霖林光毅张贤卿
Owner ZHEJIANG PROVINCIAL INST OF COMM PLANNING DESIGN & RES CO LTD
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