Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Steel tower manufacturing process, cable-stayed bridge construction process, steel tower and cable-stayed bridge
The invention provides a steel tower manufacturing process, a cable-stayed bridge construction process, a steel tower and a cable-stayed bridge, and relates to the technical field of cable-stayed bridges, and the steel tower manufacturing process comprises the steps that S1, each steel tower section comprises all or part of four box bodies including a side box chamber, a side anchor chamber, a middle anchor chamber and an anchor box; s2, the side box chambers, the side anchor chambers, the middle anchor chambers and the anchor boxes are assembled through a long line method; s3, the assembled side box chambers, the assembled side anchor chambers, the assembled middle anchor chambers and the assembled anchor boxes are transferred to a total assembling site; and three-dimensionally assembling the sections of the steel tower. The side box chambers, the side anchor chambers, the middle anchor chambers and the anchor boxes are respectively assembled and completed by adopting a long-line method, so that the line type of a single box body can be effectively controlled, and secondly, when the steel tower sections are assembled in a three-dimensional manner, the problems of steel tower line type control, steel tower box opening size control and welding deformation control are solved, and the production efficiency is improved. And the mounting precision of the steel tower after three-dimensional total assembly is ensured.
本发明提供了一种钢塔制造工艺、斜拉桥施工工艺、钢塔及斜拉桥,涉及斜拉桥技术领域,包括:钢塔节段分块:S1.每个钢塔节段包括边箱室、边锚室、中锚室与锚箱四个箱体中的全部或部分;箱体组拼:S2.采用长线法将边箱室、边锚室、中锚室与锚箱分别组拼完成;箱体转运:S3.将组拼完成的边箱室、边锚室、中锚室与锚箱转运至总拼场地;钢塔节段立体总拼。采用长线法将边箱室、边锚室、中锚室与锚箱分别组拼完成,保证单独箱体的线型能够得到有效的控制,其次是在钢塔节段立体总拼时,解决了钢塔线型控制的问题、钢塔箱口尺寸控制的问题以及焊接变形控制的问题,保证钢塔立体总拼后的安装精度。
Steel tower manufacturing process, cable-stayed bridge construction process, steel tower and cable-stayed bridge
The invention provides a steel tower manufacturing process, a cable-stayed bridge construction process, a steel tower and a cable-stayed bridge, and relates to the technical field of cable-stayed bridges, and the steel tower manufacturing process comprises the steps that S1, each steel tower section comprises all or part of four box bodies including a side box chamber, a side anchor chamber, a middle anchor chamber and an anchor box; s2, the side box chambers, the side anchor chambers, the middle anchor chambers and the anchor boxes are assembled through a long line method; s3, the assembled side box chambers, the assembled side anchor chambers, the assembled middle anchor chambers and the assembled anchor boxes are transferred to a total assembling site; and three-dimensionally assembling the sections of the steel tower. The side box chambers, the side anchor chambers, the middle anchor chambers and the anchor boxes are respectively assembled and completed by adopting a long-line method, so that the line type of a single box body can be effectively controlled, and secondly, when the steel tower sections are assembled in a three-dimensional manner, the problems of steel tower line type control, steel tower box opening size control and welding deformation control are solved, and the production efficiency is improved. And the mounting precision of the steel tower after three-dimensional total assembly is ensured.
本发明提供了一种钢塔制造工艺、斜拉桥施工工艺、钢塔及斜拉桥,涉及斜拉桥技术领域,包括:钢塔节段分块:S1.每个钢塔节段包括边箱室、边锚室、中锚室与锚箱四个箱体中的全部或部分;箱体组拼:S2.采用长线法将边箱室、边锚室、中锚室与锚箱分别组拼完成;箱体转运:S3.将组拼完成的边箱室、边锚室、中锚室与锚箱转运至总拼场地;钢塔节段立体总拼。采用长线法将边箱室、边锚室、中锚室与锚箱分别组拼完成,保证单独箱体的线型能够得到有效的控制,其次是在钢塔节段立体总拼时,解决了钢塔线型控制的问题、钢塔箱口尺寸控制的问题以及焊接变形控制的问题,保证钢塔立体总拼后的安装精度。
Steel tower manufacturing process, cable-stayed bridge construction process, steel tower and cable-stayed bridge
一种钢塔制造工艺、斜拉桥施工工艺、钢塔及斜拉桥
LI TONG (Autor:in) / WANG LEI (Autor:in) / FAN HAIFENG (Autor:in) / WANG YUANGEN (Autor:in) / LIANG HUI (Autor:in) / GUO HONGYAN (Autor:in) / XU WEIYU (Autor:in) / GAO BO (Autor:in) / HUANG YONG (Autor:in) / HAN SENYUAN (Autor:in)
11.08.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
E01D
BRIDGES
,
Brücken
Four-tower cable-stayed bridge
Online Contents | 1998
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