盘鼓混合式转子建模与动力学特性

吉林大学学报(理学版) ›› 2019, Vol. 57 ›› Issue (2): 277-284.

盘鼓混合式转子建模与动力学特性

潘健智^1,2, 魏大盛², 陆利蓬²

1. 南京理工大学理学院, 南京 210094； 2. 北京航空航天大学能源与动力工程学院, 北京 100191

收稿日期:2018-10-15 出版日期:2019-03-26 发布日期:2019-03-26
通讯作者: 潘健智 E-mail:jzhpan@163.com

Modeling of TurntableDrum Mixing Rotorand Dynamics Characteristics#br#

PAN Jianzhi^1,2, WEI Dasheng², LU Lipeng²

1. School of Science, Nanjing University of Science and Technology, Nanjing 210094, China； 2. School of Energy and Power Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China

Received:2018-10-15 Online:2019-03-26 Published:2019-03-26
Contact: PAN Jianzhi E-mail:jzhpan@163.com

摘要/Abstract

摘要： 首先, 针对大型旋转机械中混合式转子的转盘、鼓筒组合旋转构件抗弯曲的高刚性特点, 将盘鼓混合旋转构件近似为刚性圆柱体, 并建立厚转盘转子系统动力学模型；其次, 考虑转轴弯曲特性和所储弹性势能, 以曲线拟合结合Hermite插值法计算转轴弯曲刚度. 对比传统Jeffcott转子系统进行数值算例的分析结果表明, 转盘厚度是影响转子系统动力学固有特性的主要因素之一.

关键词: 混合式转子, Hermite插值法, 厚转盘, 弯曲势能, 弯曲刚度

Abstract: Firstly, aiming at the high rigid characteristics of bending resistance of combined rotating members of turntabledrum mixing rotor in large rotating machinery, the turntable-drum mixing rotating members were approximated to a rigid cylinder, and the dynamic model of thickness-disk rotor system was established. Secondly, considering the bending characteristics of the rotating shaft and the stored elastic potential energy bending shaft, and the bending stiffness of the rotating shaft was calculated by Hermite interpolation method and curve fitting method. Compared with traditional Jeffcott rotor systems, the results of numerical examples show that the thickness of turntable is one of the main factors which affect the inherent dynamic characteristics of rotor system.

Key words: mixing rotor, Hermite interpolation method, thicknessdisk, bending potential energy, bending stiffness

中图分类号:

O327

潘健智, 魏大盛, 陆利蓬. 盘鼓混合式转子建模与动力学特性[J]. 吉林大学学报(理学版), 2019, 57(2): 277-284.

PAN Jianzhi, WEI Dasheng, LU Lipeng. Modeling of TurntableDrum Mixing Rotorand Dynamics Characteristics#br#[J]. Journal of Jilin University Science Edition, 2019, 57(2): 277-284.