升船机螺母柱传力系统内力解析及案例分析

王蒂; 廖乐康; 金辽

doi:10.11988/ckyyb.20240434

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长江科学院院报 ›› 2025, Vol. 42 ›› Issue (8) : 144-152. DOI: 10.11988/ckyyb.20240434

水工结构与材料

升船机螺母柱传力系统内力解析及案例分析

作者信息 +

Analysis and Case Study of Internal Forces in Nut Column Transmission System of Shiplifts

Author information +

文章历史 +

摘要

全平衡齿轮齿条爬升式垂直升船机螺母柱传力系统,具有边界条件非线性和材料应力-应变关系非线性的特点,易导致有限元结构计算繁琐且不收敛。基于螺母柱传力系统的结构组成、物理特性和受力条件,建立螺母柱和调整梁内力分析的半无限长双弹性耦合地基梁模型,提出螺母柱传力系统轴向力传递的分布函数假定,推导了螺母柱和调整梁的挠度、内力和强度的计算公式,并成功应用于三峡升船机螺母柱传力系统的结构内力与应力计算,揭示了基于轴向界面分布力假定螺母柱和调整梁的结构内力、最大正应力及剪应力的分布规律。研究成果对传力系统初始设计阶段的快捷计算具有重要指导意义。

Abstract

[Objective] This study aims to establish an efficient and reliable mechanical model to accurately evaluate internal forces and stresses within the force transmission system of fully balanced rack-and-pinion vertical shiplifts, providing reliable theoretical foundations for engineering design, structural optimization, and safety assessment. [Methods] Based on a comprehensive analysis of the structural configuration, material properties, and loading conditions of the nut-column force transmission system, a novel semi-infinite double elastic coupling foundation beam model is proposed. In this approach, the nut column and adjustment beam were modeled as interacting elastic bodies while incorporating their mutual deformation and force transmission mechanisms. To describe axial load transmission at the interface with complex contact mechanics, exponential distribution functions were introduced. The model integrated elastic foundation beam theory with fundamental mechanics of materials, enabling the derivation of closed-form expressions for deflection, internal forces (bending moments and shear forces), and stresses (normal and shear) in both the nut column and adjustment beam. These expressions accurately characterized the distinct mechanical behavior of the force transmission system under different loading scenarios. [Results] Theoretical predictions were validated through physical model testing, yielding several key findings. (1) Model validation: At x=L=4 950 mm, both deflections and internal forces of the nut column and adjustment beam approached zero, demonstrating the validity of the semi-infinite beam assumption. This simplified boundary condition treatment and provided a novel analytical approach for similar structural systems. (2) Parameter sensitivity insights: By comparing results under two interface constraint assumptions with α=π and α=2π, the model revealed the significant impact of α on structural response. While the α=2π assumption yielded more conservative results, α=π aligned better with experimental data. (3) New understanding of stress distribution: Contrary to conventional assumptions, the maximum bending moment in the nut column occurred not at the end but near it, indicating that the traditional use of end-moment M0 as the design load was inadequate. Moreover, except for axial force, all other internal forces in the adjustment beam exceeded those in the nut column, providing critical insights for structural optimization. (4) Stress comparison: Calculated stress values, though slightly exceeding experimental results, remained within allowable stress limits, demonstrating the rationality of the current design. The results obtained with α=π exhibited better agreement with experimental data, further confirming the model’s reliability. [Conclusion] The nut column force transmission system of the Three Gorges Ship Lift is structurally robust. The proposed semi-infinite elastic foundation beam model proves effective and applicable for similar designs. Incorporating the Pasternak elastic foundation beam model in future studies can further enhance analytical accuracy, providing a promising direction for both theoretical advancements and engineering applications.

导出引用

王蒂, 廖乐康, 金辽. 升船机螺母柱传力系统内力解析及案例分析[J]. 长江科学院院报. 2025, 42(8): 144-152 https://doi.org/10.11988/ckyyb.20240434

WANG Di, LIAO Le-kang, JIN Liao. Analysis and Case Study of Internal Forces in Nut Column Transmission System of Shiplifts[J]. Journal of Changjiang River Scientific Research Institute. 2025, 42(8): 144-152 https://doi.org/10.11988/ckyyb.20240434

中图分类号： TV34 (金属结构)

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摘要

三峡升船机安全锁定机构采用长螺母柱、旋转锁定短螺杆系统。其结构复杂，施工难度大，国内外尚无成熟经验和设计案例可供借鉴，也无专门规范可供遵循。为此，特通过1∶1局部仿真模型对其设计部门和有关专家关心的重大技术问题，即灌浆工艺能否满足灌浆材料的密实性和流动性；灌浆材料能否传递1 500多t的巨大荷载；预应力螺栓和预应力钢筋对结构作用效果如何等，进行试验验证。试验结果表明，上述3方面的问题均能满足设计要求。

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