Self-anchored suspension bridge boom tensioning technology based on self-equilibrium system
A self-anchored suspension bridge and self-balancing technology, which is applied in bridges, bridge construction, erection/assembly of bridges, etc., can solve the problem of long delays in changing positions of jacks, extension rods that cannot be used repeatedly, and the accuracy of total stations cannot be guaranteed and other problems, to achieve the effect of fewer jack position changes, faster measurement speed and less quantity
Inactive Publication Date: 2015-08-19
CHANGAN UNIV
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The traditional suspenders are stretched by a three-wheel tensioning method, so that all the suspenders reach 30%, 60%, and 100% of the design tension respectively. The tensioning efficiency is low, and the jack changeover takes a long time, resulting in a long construction period. If you want to speed up the construction progress, you need to consume a lot of manpower and material resources
Because each suspender is not stretched to the unstressed length at one time, each suspender needs to be extended. The number of suspenders is large, and the manufacturing of the extensions will cause a large construction cost, and the extensio
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[0027] Such as Figure 1-3 As shown, taking the Qiancang Bridge in Qingtian County, Zhejiang Province as an example to introduce the boom tensioning process in detail, the Qiancang Bridge is a two-tower three-span prestressed concrete self-anchored suspension bridge with a span of 45m+120m+45m. The face width is 30m. This example self-anchored concrete suspension bridge boom tensioning construction technology needs 8 jacks to stretch the boom simultaneously, and it is characterized in that following steps:
[0028] (1) After the pouring of the main tower 1 and the main beam 2 is completed, the main cable 3 is erected, and the side-span suspenders S1-S7 and mid-span suspenders M1-M9 are installed, and all suspenders are not tensioned.
[0029] (2) Stretch the mid-span suspenders M1-M6 from the bridge tower to the mid-span to the stress-free length. The first stage is completed
[0030] (3) Stretch the side span suspender S4 once to the stress-free length.
[0031] (4) Stretc...
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The invention relates to the field of bridge construction, in particular to a self-anchored suspension bridge boom tensioning technology based on a self-equilibrium system. The technology includes: after the full framing cast-in-place of the main tower and the main beam reaches the design strength, building the main cable, installing the tensioning boom to complete the replacement of the structural system, and detach the full framing. The self-anchored suspension bridge boom tensioning technology based on the self-equilibrium system is short in duration of the boom tensioning construction technology, low in construction cost, less in adopted boom lengthening rods, tensioning times and position exchanging times of the jack, accurate in structural stress, better in fitness between the boom tensioning and the main cable displacement double control during tensioning, free of weather influence on the measurement during tensioning, higher in measuring precision, wider in applicable range of the boom tensioning construction technology, and not only applicable to the self-anchored concrete suspension bridge, but also applicable to the steel box beam self-anchored suspension bridge.
Description
technical field [0001] The invention relates to the field of bridge construction, in particular to a self-anchored suspension bridge suspender tensioning process based on a self-balancing system. Background technique [0002] Self-anchored suspension bridges are more and more popular because of their beautiful structure, strong adaptability to geological conditions and good economy, especially as urban landscape bridges. Compared with the steel box girder, the main girder uses concrete material to save cost, and the concrete material has better durability. During the construction of the concrete self-anchored suspension bridge, the main girder is poured first, and then the suspenders are stretched to complete the system conversion. Due to the complex force of the structure, the tensioning of the suspenders is the most complicated difficulty in the construction process. Improper tensioning methods of the suspenders will cause The concrete of the main girder and main tower wa...
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CPCE01D21/00
Inventor 韩万水赵士良杨雨豪袁堂超陆久飞包大海袁阳光刘焕举张克肖强吴柳杰
Owner CHANGAN UNIV
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