Steel-concrete combination segment structure equipped with cells and used for long-span self-anchored suspension bridge
A self-anchored suspension bridge and steel-concrete combination technology, which is applied to suspension bridges, bridges, bridge parts, etc., can solve problems such as the complex structure of steel-concrete combination sections, reduce the maximum shear force of a single hole, and have a simple structure and good use effect Effect
Pending Publication Date: 2020-02-25
SHANGHAI MUNICIPAL ENG DESIGN INST GRP
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However, for long-span self-anchored suspension bridges, since the internal force of the main girder increases rapidly with the increase of the span, the steel-concrete joint section must be more complicated than the conventional structure
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[0017] The present invention will be further described below with reference to the accompanying drawings.
[0018] The invention discloses a steel-concrete combined section structure with cells for a long-span self-anchored suspension bridge. 2. Steel girder stiffening variable height section 3 and steel beam stiffening equal height section 4.
[0019] The steel cell section 2 is composed of a steel cell top plate 5 at the top and a steel cell bottom plate 6 at the bottom. The steel cell segment 2 is composed of an upper steel cell layer 7 and a lower steel cell layer 8 layers. There are several steel cell partitions 9 longitudinally distributed in the steel cell layer 7 and the lower steel cell layer 8, and the steel cell partitions 9 are used to longitudinally support the upper steel cell layer 7 and the lower steel cell layer 8. The top and bottom, between the upper steel cell layer 7 and the lower steel cell layer 8, a first support web 18 is provided, and the first suppo...
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The invention discloses a steel-concrete combination segment structure equipped with cells and used for a long-span self-anchored suspension bridge. A variable-height stiffening segment is provided with a bottom plate. The steel-concrete combination segment structure sequentially comprises a concrete cross beam segment, a steel cell segment, a steel beam stiffening variable-height segment and a steel beam stiffening constant-height segment. The steel-concrete combination segment structure has the beneficial effects of reasonable design, simple structure, and convenient and efficient construction. The steel-concrete combination segment structure also has the beneficial effects of optimizing the stress performance of a steel-concrete combination segment, adapting to structural needs of the long-span self-anchored suspension bridge, enlarging a combination surface of a combination part by virtue of the structure with the cells, forming multi-directional restraints on filled concrete, enhancing the combination of a steel beam and a concrete beam, improving the stress condition on the concrete at the combination part, bringing the functions of connectors into full play by virtue of theconstruction mode of rear pressure-bearing plates, enabling the force transmission to be clear and definite, achieving relatively small stress concentration at the combination surface, enabling the concrete of the cells and a main beam to form a continuous structure, facilitating concrete pouring construction, and enabling the concrete at the roots of the connectors to be not prone to disintegration.
Description
technical field [0001] The invention relates to the technical field of bridge construction, in particular to a steel-concrete junction structure with cells for a long-span self-anchored suspension bridge, and particularly to its mechanical connection structure. Background technique [0002] The long-span self-anchored suspension bridge should adopt the hybrid beam structure of main span steel girder and side span concrete girder. This structural form can significantly reduce the weight of the main girder of the main span and at the same time solve the problem of side span pressure. The traditional steel-concrete combination section, which uses a pressure-bearing plate and a steel cell with 2 to 4 rows of vertical shear keys, has been applied to a large-span composite girder cable-stayed bridge or a small-span self-anchored suspension bridge . However, for long-span self-anchored suspension bridges, since the internal force of the main girder increases rapidly with the incr...
Claims
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IPC IPC(8): E01D19/00E01D11/02
CPCE01D11/02E01D19/00
Inventor 郭济李洞明戴建国
Owner SHANGHAI MUNICIPAL ENG DESIGN INST GRP
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