多浮结构柔性连接件的设计

Volume 1: Offshore Technology Pub Date : 2020-08-03 DOI:10.1115/omae2020-18533

Yuan Hongtao, C. Gang, Zhang Wei, Yin Yan, Wang Yuhan, W. Chao

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引用次数: 0

摘要

针对正六角形多浮结构模块间的连接器，设计了一种基于铰链接头和自旋接头的柔性连接器，使相邻模块间的部分滚转、俯仰和扭转释放弯矩和应变。本文建立了一个221m多浮体结构水动力计算模型。首先，利用ANSYS Aqwa软件对规则波作用下的连接器载荷进行计算。其次，基于有限元理论，利用SolidWorks软件建立柔性连接器的结构模型;利用ANSYS静力分析软件，分析了一系列波浪方向角不同载荷条件下柔性连接件的结构强度。结果表明，在不同工况下，多浮式结构连接件的设计满足了设计要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Design for Flexible Connector of Multi-Floating Structure

For the connector between the modules of a regular hexagonal multi-floating structure, it designed a flexible connector based on hinge joints and spin joints, which allowed part of rolling, pitching and torsion between adjacent modules to release bending moment and strain. A 221m multi-floating structure hydrodynamic calculation model was modeled in this paper. Firstly, the connector loads under the regular waves were calculated by ANSYS Aqwa. Secondly, structural model of a flexible connector was built by SolidWorks basing on the finite element theory. It analyzed structural strength of the flexible connectors under different load conditions of a series of wave direction angles by ANSYS Static Structral. Lastly, the results show that the design of the multi-floating structure connectors met the design requirements in different working conditions.

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Volume 1: Offshore Technology

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