Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Three-degree-of-freedom controllable suspension bridge main cable anchoring device and control method
The invention relates to the technical field of suspension bridge structures, in particular to a three-degree-of-freedom controllable suspension bridge main cable anchoring device and a control method. Comprising a support, a horizontal sliding rail, a vertical sliding rail and an anchor plate, and a cable scattering sleeve used for dividing a main cable into a plurality of main cable strands is arranged on one side of the support; the horizontal sliding rail is fixed to one side of the support and arranged in the horizontal direction. The vertical sliding rail is of a plate-shaped structure which is connected to the horizontal sliding rail in a horizontal position adjustable mode through a horizontal adjusting structure. The anchor plate is of a plate-shaped structure which is connected to the vertical sliding rail in a vertical position adjustable mode through a vertical adjusting structure, anchoring holes corresponding to the main cable strands one to one are formed in the anchor plate, and a torsion adjusting structure used for driving the anchor plate to rotate around the axis of the vertical anchor plate is arranged on the anchor plate. A test model with adjustable translation and torsion three-direction freedom degrees of the main cable is constructed, and the test model can be used as an important control means for exploration of spatial cable main cable erection simulation and torsion performance research.
本发明涉及悬索桥结构技术领域,具体地指一种三自由度可控式悬索桥主缆锚固装置及控制方法。包括支架、水平滑轨、竖向滑轨和锚板,支架一侧设置有用于将主缆分成多根主缆索股的散索套;水平滑轨固定在支架一侧,并沿水平方向布置;竖向滑轨是通过水平调节结构水平位置可调的连接于水平滑轨的板状结构;锚板是通过竖向调节结构竖向位置可调的连接于竖向滑轨的板状结构,锚板上开设有与主缆索股一一对应的锚固孔,锚板上设置有用于驱动锚板绕垂直锚板轴线转动的扭转调节结构本申请的装置结构简单,操作使用方便,构筑出主缆平移及扭转三向自由度可调的试验模型,可作为探究空间缆主缆架设模拟及扭转性能研究的重要控制手段。
Three-degree-of-freedom controllable suspension bridge main cable anchoring device and control method
The invention relates to the technical field of suspension bridge structures, in particular to a three-degree-of-freedom controllable suspension bridge main cable anchoring device and a control method. Comprising a support, a horizontal sliding rail, a vertical sliding rail and an anchor plate, and a cable scattering sleeve used for dividing a main cable into a plurality of main cable strands is arranged on one side of the support; the horizontal sliding rail is fixed to one side of the support and arranged in the horizontal direction. The vertical sliding rail is of a plate-shaped structure which is connected to the horizontal sliding rail in a horizontal position adjustable mode through a horizontal adjusting structure. The anchor plate is of a plate-shaped structure which is connected to the vertical sliding rail in a vertical position adjustable mode through a vertical adjusting structure, anchoring holes corresponding to the main cable strands one to one are formed in the anchor plate, and a torsion adjusting structure used for driving the anchor plate to rotate around the axis of the vertical anchor plate is arranged on the anchor plate. A test model with adjustable translation and torsion three-direction freedom degrees of the main cable is constructed, and the test model can be used as an important control means for exploration of spatial cable main cable erection simulation and torsion performance research.
本发明涉及悬索桥结构技术领域,具体地指一种三自由度可控式悬索桥主缆锚固装置及控制方法。包括支架、水平滑轨、竖向滑轨和锚板,支架一侧设置有用于将主缆分成多根主缆索股的散索套;水平滑轨固定在支架一侧,并沿水平方向布置;竖向滑轨是通过水平调节结构水平位置可调的连接于水平滑轨的板状结构;锚板是通过竖向调节结构竖向位置可调的连接于竖向滑轨的板状结构,锚板上开设有与主缆索股一一对应的锚固孔,锚板上设置有用于驱动锚板绕垂直锚板轴线转动的扭转调节结构本申请的装置结构简单,操作使用方便,构筑出主缆平移及扭转三向自由度可调的试验模型,可作为探究空间缆主缆架设模拟及扭转性能研究的重要控制手段。
Three-degree-of-freedom controllable suspension bridge main cable anchoring device and control method
三自由度可控式悬索桥主缆锚固装置及控制方法
ZHANG YI (Autor:in) / TIAN WEI (Autor:in) / YOU XINPENG (Autor:in) / PENG CHENGMING (Autor:in) / YAN ZHAOFU (Autor:in) / LI MIAN (Autor:in) / WANG DAWEI (Autor:in) / WEI ZHILYU (Autor:in) / WANG ZHIPENG (Autor:in) / WANG RENWEI (Autor:in)
09.04.2024
Patent
Elektronische Ressource
Chinesisch
IPC:
E01D
BRIDGES
,
Brücken
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