艉轴承刚度等效形式对轴系横向振动特性的影响

Influence of equivalent stiffness form from stern bearing to transverse vibration of shafting

  • 摘要:
      目的  由于船舶艉轴承的长径比较大,将其简化为传统的单点支撑等效模型难以反映出轴承的实际运行情况,因此有必要探讨艉轴承等效形式对轴系横向振动特性的影响。
      方法  首先,基于能量原理,引入改进傅里叶级数方法描述推进轴系的横向振动位移,构建可用于单点、多点和连续分布式支撑的多种等效形式的推进轴系横向振动特性计算模型; 然后,分别分析由液膜压力等效的支撑刚度变化对轴系横向振动特性以及螺旋桨激励对轴系振动响应的影响; 最后,与文献和采用有限元方法(FEM)计算的结果进行对比,验证所提模型的正确性。
      结果  结果显示,多点支撑的计算结果收敛于连续分布式支撑计算结果,螺旋桨激励下轴系响应受转速影响。
      结论  研究表明,可采用三点支撑等效形式研究液膜压力分布对推进轴系横向振动特性的影响,所构建的计算模型收敛性好、计算精度高、代价低。

     

    Abstract:
      Objectives  Due to the larger length-to-diameter ratio of the stern bearing, it is difficult to reflect its actual operating conditions when simplified to the traditional equivalent model of single-point support. Therefore, the influence of the equivalent form of the stern bearing on the transverse vibration characteristics of the shafting is investigated.
      Methods  The improved Fourier series is introduced to describe the lateral vibration displacement of propulsion shafting. Then, the calculation model of lateral vibration performance of propulsion shafting under various equivalent forms, such as single-point support, multi-point support or continuous distributed support, are constructed based on the energy principle. Thereby, the influence of the change of support stiffness equivalent to the liquid film pressure on the lateral vibration of the shafting and the influence of the propeller excitation on the vibration response of the shafting are further analyzed. Finally, the results acquired by the proposed model is compared with the results of related references and finite element method (FEM) to verify the validity of the calculation model.
      Results  The multi-point support calculation results converge to the continuous distributed support calculation results. The three-point support equivalent form can be used to study the influence of liquid film pressure distribution on the lateral vibration characteristics of the propulsion shafting. The shafting response under propeller excitation is affected by the revolution speed.
      Conclusions   The research indicates that three-point support equivalent form can be used to analyze the influence of liquid film pressure on the shafting lateral vibration performance. The proposed model in this paper has advantages of good convergence, high accuracy, and less cost-consuming.

     

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