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Counterweight method under asymmetric bridge flexibility on both sides of Helong section during cantilever construction

A closed section and asymmetric technology is applied in the field of counterweight under the asymmetric flexibility of bridges on both sides of the closed section during cantilever construction. Stress, not taking into account inconsistencies and other issues, to achieve the effect of easy to grasp, reduce stress, and simple calculation

Active Publication Date: 2018-09-25
UNIV OF SCI & TECH BEIJING
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  • Abstract
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  • Application Information

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Problems solved by technology

[0003] The counterweight of equal weight and equal bending moment only considers the force of the bridge. For bridges with asymmetric flexibility, the inconsistency of the deformation of the bridges on both sides of the closing section under the weight of the concrete in the closing section is not taken into account, which will cause errors in the alignment of the bridge and Larger closing section stress; the equal displacement counterweight method considers that the elevation at the end of the closing section on one side does not change when the concrete is poured, but does not take into account the asymmetrical bridge flexibility on both sides of the closing section. Control and how to distribute the weight of the counterweight on both sides according to the concrete weight of the closing section, and no control method for counterweight unloading is given

Method used

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  • Counterweight method under asymmetric bridge flexibility on both sides of Helong section during cantilever construction
  • Counterweight method under asymmetric bridge flexibility on both sides of Helong section during cantilever construction
  • Counterweight method under asymmetric bridge flexibility on both sides of Helong section during cantilever construction

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Embodiment Construction

[0022] In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the following will describe in detail with reference to the drawings and specific embodiments.

[0023] The invention provides a counterweight method under the asymmetry of flexibility of the bridges on both sides of the closing section during the construction of the cantilever method.

[0024] Such as figure 1 As shown, in this method, when the bridge 1 on the left side of the Helong section and the bridge 2 on the right side of the Helong section have been constructed, the left counterweight 3 is applied at point C of the bridge 1 on the left side of the Helong section, and the D of the bridge 2 on the right side of the Helong section The right counterweight 4 is applied at one point; then, the concrete of the closing section 5 is poured. During the pouring process of the closing section 5, the left counterweight 3 and the right counterweight 4 ar...

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Abstract

The invention provides a counterweight method used under the condition of unsymmetrical flexibility of bridges on the two sides of a closure segment during cantilever method construction and belongs to the technical field of bridge construction. The method comprises the following steps of building a finite element model of bridge closure, applying unit vertical force to the end parts of the bridges on the two sides of the closure segment, and calculating the vertical displacement of the end parts and a counterweight position to obtain corresponding flexibility coefficients, and then according to the flexibility coefficients, controlling the height difference between the two sides of the closure segment, the balance weight of the closure segment, and the balance weight sorted unloading weight. The method has incomparable advantages in closure construction under the condition that the flexibility of the bridges on the two sides of the closure segment is unsymmetrical. In a closure casting process of the bridge, the elevations of the bridges on the two sides of the closure segment are not changed all the time, so that linear control on the bridge is facilitated, and the stress of concrete of the closure segment is reduced. The method also has the advantages of simple calculation, easy grasping by personnel of the engineering and the like.

Description

technical field [0001] The invention relates to the technical field of bridge construction, in particular to a counterweight method under asymmetric bridge flexibility on both sides of a closing section during cantilever construction. Background technique [0002] Closing is a key link in bridge construction. Alignment control during the closing process is a key factor in construction quality assurance. A reasonable counterweight scheme can make the bridge in the completed state better in alignment and less stress. Regarding the counterweight of bridge closing construction, Li Dinglun disclosed the equal weight, equal bending moment, and equal displacement in "Analysis of the Effect of Mid-span Closure Counterweight of Continuous Rigid Frame Bridge" in "China and Foreign Highways" 2014, (3): 131-134. Counterweight 3 counterweight methods. [0003] The counterweight of equal weight and equal bending moment only considers the force of the bridge. For bridges with asymmetric f...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E01D21/10
CPCE01D21/105
Inventor 潘旦光付相球程业
Owner UNIV OF SCI & TECH BEIJING
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