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工程设计学报  2019, Vol. 26 Issue (3): 315-320    DOI: 10.3785/j.issn.1006-754X.2019.03.010
建模、仿真、分析与决策     
移动式架车机伸缩托头-托架接触的有限元分析
潘益明, 于兰峰, 韩露男, 单逸峰
西南交通大学 机械工程学院, 四川 成都 610031
Finite element analysis of telescopic head-bracket contact of mobile car machine
PAN Yi-ming, YU Lan-feng, HAN Lu-nan, SHAN Yi-feng
School of Mechanical Engineering, Southwest Jiaotong University, Chengdu 610031, China
 全文: PDF(1694 KB)   HTML
摘要:

采用基于接触对的非线性接触分析处理接触问题时,其分析结果更接近工程应用实际,但计算成本比较高且存在不收敛的情况。而自由度节点耦合分析不但能降低计算成本,而且能够保证一定精度。为了探究在一定误差范围内选用自由度节点耦合分析来替代基于接触对的非线性接触分析的可行性,以举升重量为15 t的移动式架车机为研究对象,在ANSYS软件中建立伸缩托头-托架的接触模型与节点耦合模型,在举升高度最大且伸缩托头完全伸出的工况下进行有限元分析,考虑接触刚度系数与摩擦因数对有限元分析结果的影响,分析了2种模型各接触区域等效应力的区别。通过比较2种模型的有限元分析结果可知,2种模型各接触区域的等效应力值存在一定的相对误差,且接触区域内2个接触面的相对滑动程度决定了接触分析的精度。对于精度要求不高的机械结构,可以考虑用自由度节点耦合分析来替代基于接触对的非线性接触分析。

关键词: 移动式架车机接触分析有限元法节点耦合    
Abstract:

Using the nonlinear contact analysis based on contact pairs to deal with the contact problem, the calculation cost is higher and there exists case of no-convergence although the finite element analysis result is closer to the engineering application. The degree of freedom (DOF) node coupling analysis not only has a relatively low computational cost, but also guarantees a certain precision. In order to explore the feasibility of using DOF node coupling analysis to replace nonlinear contact analysis based on contact pairs in a certain error range, the mobile car machine with a lifting weight of 15 t was taken as the research object. The contact model and node coupling model of the telescopic head-bracket were established in ANSYS software, and the finite element analysis was carried out under the condition of maximum lifting height and full extension of the head. The effects of contact stiffness coefficient and friction factor on the results of finite element analysis were considered. The difference of equivalent stress in each contact area of the two models was analyzed. By comparing the results of the finite element analysis of the two models, there was a certain relative error between the equivalent stress values of the contact area of the two models, and it was showed that the relative sliding degree of the two contact surfaces in the contact area determined the accuracy of the contact analysis.For mechanical structures with less precise requirements, a DOF node coupling analysis can be considered instead of nonlinear contact analysis based on contact pairs.

Key words: mobile car machine    contact analysis    finite element method    node coupling
收稿日期: 2018-10-12 出版日期: 2019-06-28
CLC:  TH 211  
基金资助:

国家自然科学基金资助项目(51675450);中央高校基本科研业务费专项资金资助项目(2682016CX031)

通讯作者: 于兰峰(1964—),女,山东潍坊人,教授,博士,从事现代设计理论及方法研究,E-mail:jdlf2000@sina.com     E-mail: jdlf2000@sina.com
作者简介: 潘益明(1994—),男,浙江舟山人,硕士生,从事结构设计及优化研究,E-mail:ympan@my.swjtu.edu.cn,https://orcid.org/0000-0002-4017-7236
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引用本文:

潘益明, 于兰峰, 韩露男, 单逸峰. 移动式架车机伸缩托头-托架接触的有限元分析[J]. 工程设计学报, 2019, 26(3): 315-320.

PAN Yi-ming, YU Lan-feng, HAN Lu-nan, SHAN Yi-feng. Finite element analysis of telescopic head-bracket contact of mobile car machine. Chinese Journal of Engineering Design, 2019, 26(3): 315-320.

链接本文:

https://www.zjujournals.com/gcsjxb/CN/10.3785/j.issn.1006-754X.2019.03.010        https://www.zjujournals.com/gcsjxb/CN/Y2019/V26/I3/315

1 JIANGJie. Process analysis of mobile carriage machine for subway depot maintenance[J]. Railway Standard Design, 2016, 60(12):145-148.
2 SONGChao-rui. Design of control system for track-changing mobile synchronous rack[D]. Taiyuan: Taiyuan University of Science and Technology, School of Electronic Information Engineering, 2016: 5-6.
3 LIZheng-da. Study on synchronous propulsion device for lifting jacks[D]. Chengdu: Southwest Jiaotong University, School of Transportation and Logistics, 2014: 3-7.
4 CHENGBing. Research on structural performance and lightweight of pit-type frame machine[D]. Chengdu: Southwest Jiaotong University, School of Mechanical Engineering, 2017: 15-21.
5 DENGWen-ping. Application of OMRON PLC in synchronous control of car lifting jack[J]. Electromechanical Engineering Technology, 2013, 42(8): 65-68.
6 YUGui-zhong. Mobile synchronous lifting jack for EMU[J]. Locomotive Electric Drive, 2013, 42(6): 48-51.
7 ZHANWei-chang, XUEYuan, SONGWei-yan. The analysis of the bracket force model and its key parameters in mobile car lifting jack[J]. Machinery Design & Manufacture, 2013 (9): 227-230.
8 MIAODong. Application practice of fixed jack in metro depot[J]. Journal of Railway Engineering Society, 2008(10): 92-95.
9 DENGXing,YULan-feng,LEICong,et al. Research on contact problem of trackless telescopic gantry crane[J]. Chinese Journal of Engineering Design, 2018, 25(1): 79-84, 93.
10 ZHANGHong-wei, GAOXiang-sheng, ZHANGQing-yu. ANSYS nonlinear finite element analysis method and its application[M]. Beijing: China Water & Power Press, 2013: 161-162.
11 WANGJin-nuo, YULan-feng. Hoisting and conveying machinery metal structure[M]. Beijing: China Railway Publishing House, 2017: 43-47.
12 CHENGBing, YULan-feng, FUKang, et al. Finite element analysis of the contact problem on the head of underfloor lifting system[J]. Journal of Railway Science and Engineering, 2017, 14 (2): 364-369.
13 LINXue. Analysis of contact problems and study of regularity on telescopic boom s sliders[D]. Dalian: Dalian University of Technology, School of Mechanical Engineering, 2011: 26-29.
14 ZHANGCen-cen. Contact analysis on outrigger’s sliders of telescopic crawler crane[D]. Dalian: Dalian University of Technology, School of Mechanical Engineering, 2012: 26-29.
15 JIAi-min, PENGDuo, LIUMu-nan, et al. Finite element analysis of telescopic boom of QY25K truck crane [J]. Construction Machinery and Equipment, 2003, 34(1): 19-21.
16 WANGGao-yi, WUXin-yue, MAOYan-lei. Comparison and analysis of different connection methods in structure dynamic analysis of assemblies[J]. Mechanical Transmission, 2016, 40(5): 125-127, 133.
17 boom of hydraulic aerial cage[J]. Mechanical Science and Technology, 2014, 33 (12): 1773-1776.
18 HEJun-yi, LINXiang-du. Numerical methods for nonlinear problem of engineering structures[M]. Beijing: National Defense of Industry Press, 1994: 83-84.

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