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Bridge deformation monitoring method and monitoring point arrangement device

A deformation monitoring and measuring point technology, applied in the field of bridge engineering, can solve the problems of inaccurate measured data, non-structural deformation, inability to accurately evaluate and truly reflect the deformation of bridges, etc., and achieve the effect of easy implementation and high reliability

Active Publication Date: 2019-02-01
HUNAN LIANZHI BRIDGE & TUNNEL TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The existing monitoring methods are not continuous enough for the bridge construction period and operation period monitoring work, and displacement monitoring points need to be re-arranged after the construction period is over; since the monitoring points are set on the surface of the bridge, the monitoring points are easily affected by the environment and external damage (such as vehicle load, maintenance construction during service life, man-made damage, non-structural deformation (settlement), etc.), resulting in inaccurate measured data and unable to accurately evaluate and truly reflect the deformation of the bridge, resulting in the inability to make an accurate judgment on the current status of the bridge. Hidden danger

Method used

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  • Bridge deformation monitoring method and monitoring point arrangement device
  • Bridge deformation monitoring method and monitoring point arrangement device
  • Bridge deformation monitoring method and monitoring point arrangement device

Examples

Experimental program
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Effect test

Embodiment 1

[0051] see figure 1 -6, a bridge deformation monitoring method, especially suitable for bridges with box girder structure (constructed by hanging basket cantilever pouring method, and each segment beam is poured in sections to form the bridge body 4) deformation monitoring method, in the box room of the main girder of the bridge A permanent leveling point is set at the top of the pier, and cross-section measuring points are set inside each segmental beam; use level 1 (preferably a precision level) and supporting leveling rod 2 to measure the distance between the cross-section measuring point and the leveling point in each segmental beam. height difference, so as to calculate the elevation of the cross-section measuring points in each segment beam; by comparing the elevation values ​​of the cross-section measuring points in each segment beam, the deformation of each segment beam can be grasped, so as to realize the deformation of the bridge The monitoring results can also be us...

Embodiment 2

[0083] The monitoring method and device in this embodiment are the same as those in Embodiment 1.

[0084] Taking a super-large bridge as the monitoring object, the bridge structure is composed of 12×45m (prestressed T-beam)+85+2×150+85m (prestressed cantilever cast continuous box girder)+50+2×80+50m (prestressed cantilever Pouring continuous box girder) + 17×25m (prestressed T beam), with a total length of 1704.62m.

[0085] Adopt the monitoring method of the present invention to (85+2×150+85m (prestressed cantilever pouring continuous box girder))+(50+2×80+50m (prestressed cantilever casting continuous box girder)) cantilever casting method to construct the main beam Carry out deformation monitoring;

[0086] Among them (50+2×80+50m (prestressed cantilever cast continuous box girder)), the main girder of the left 17-18# hole (span 80m, the main girder of the bridge spans a total of 20 segmental girders, located on the 17# pier A total of 2 beam sections of 0# on the top of...

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Abstract

The invention provides a bridge deformation monitoring method. A permanent benchmark point is arranged in a pier top position in a bridge girder box chamber, and a cross section monitoring point is arranged in each segmental beam; the height difference between the cross section monitoring point in each segmental beam and the benchmark point is measured through a level gauge, so that the elevationof the cross section monitoring point in each segmental beam is obtained through calculation; and the deformation situation of each segmental beam can be mastered by comparing the measured elevation numerical values of the cross section monitoring points in the segmental beams, so that the purpose of continuously monitoring the deformation condition of a bridge is achieved. By applying the monitoring method, the construction period and the operation period of the bridge can be continuously monitored, so that the abnormal situation of the bridge in the construction and operation processes can be found in time. The invention further discloses a monitoring point arrangement device adopted by the bridge deformation monitoring method. The monitoring points are fixedly arranged on a web plate inthe bridge box chamber through supporting parts. The device is simple and reliable in structure and easy to install, and the accuracy of measuring data is effectively guaranteed.

Description

technical field [0001] The invention relates to the technical field of bridge engineering, in particular to a bridge deformation monitoring method and a measuring point setting device. Background technique [0002] In bridge engineering, in order to ensure the safety of the bridge, it is necessary to monitor the deformation of the bridge frequently (including the deformation monitoring of the bridge construction period and the operation period), so as to achieve the purpose of mastering the deformation of the bridge. [0003] The existing monitoring method is: setting monitoring points on the bridge deck, and monitoring the deformation of the bridge during construction and use. The existing monitoring methods are not continuous enough for the bridge construction period and operation period monitoring work, and displacement monitoring points need to be re-arranged after the construction period is over; since the monitoring points are set on the surface of the bridge, the moni...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01B21/32
CPCG01B21/32
Inventor 徐善中李勇肖映城邓屹松唐艳彭武忠刘龙平李斌
Owner HUNAN LIANZHI BRIDGE & TUNNEL TECH
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