Analysis of Mechanical Property of Straddle Monorail Vehicle Based on Tyre

Longjiang SHEN; Jianquan ZHANG

doi:10.13890/j.issn.1000-128x.2019.04.006

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Analysis of Mechanical Property of Straddle Monorail Vehicle Based on Tyre

更新时间：2021-12-13

- Analysis of Mechanical Property of Straddle Monorail Vehicle Based on Tyre
- Electric Drive for Locomotives Issue 4, Pages: 22-26(2019)
- 作者机构：
  
  1.大功率交流传动电力机车系统集成国家重点实验室，湖南　株洲　412001
  2.中车株洲电力机车有限公司，湖南　株洲　412001
- 作者简介：
- 基金信息：
- DOI：10.13890/j.issn.1000-128x.2019.04.006
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Longjiang SHEN, Jianquan ZHANG. Analysis of Mechanical Property of Straddle Monorail Vehicle Based on Tyre. [J]. Electric Drive for Locomotives (4):22-26(2019)
DOI：

Longjiang SHEN, Jianquan ZHANG. Analysis of Mechanical Property of Straddle Monorail Vehicle Based on Tyre. [J]. Electric Drive for Locomotives (4):22-26(2019) DOI： 10.13890/j.issn.1000-128x.2019.04.006.

摘要

建立了跨座式单轨车辆理论模型和动力学模型，分析了单轨车辆的运动状态特别是轮胎的受力情况。仿真结果表明，导向轮和稳定轮需要结合轮胎性能设置合理的预压力，以保证车辆的抗倾覆稳定性和运行安全性，并避免过大地增加车辆的运行阻力；通过对3种导向轮与稳定轮的布置方案进行对比分析可知，合理地设计导向轮与稳定轮的布置方案，可以改变构架的转动中心，优化车辆的侧滚刚度和摇头刚度，从而改善车辆的运动状态和动力学性能，减小走行轮的侧滚角和侧偏角以及导向轮与稳定轮的侧滚角，改善轮胎的受力状态，从而减少轮胎的磨耗。

Abstract

The theoretical model and dynamic simulation model of the straddle monorail were established, and the motion state of the monorail, especially the force of the tyre was analyzed. The simulation results showed that the guide wheel and the stability wheel need to be set pre-pressure to ensure the vehicle anti-overturning stability and the operation safety, and avoid excessively increasing the running resistance of the vehicle; with the comparative analysis of the arrangement of the three types of guide wheels and stabilizing wheels, it was shown that reasonable design of the layout scheme of guide wheel and stabilizing wheel can change the rotation center of the frame, optimize the roll stiffness and shaking head stiffness of the vehicle, thus improving the vehicle's motion state and dynamic performance, reducing the roll angle and sideslip angle of the running wheel, as well as the roll angle of the guide wheel and stability wheel, and improving the tyre's stress state to reduce tyre wear.

关键词

跨座式单轨车辆走行轮导向轮稳定轮动力学橡胶轮胎仿真分析

Keywords

straddle monorail vehiclerunning wheelguide wheelstability wheeldynamictyresimulation analysis

references

王治颖, 李芾, 牛悦丞, 等. 跨座式单轨车的发展及其应用前景[J]. 电力机车与城轨车辆, 2018, 41(4): 8-13.

王伟杰, 任光胜, 张经华. 跨座式单轨列车轮胎寿命的影响因素分析[J]. 都市快轨交通, 2009, 22(4): 89-91.

贺观. 重庆单轨车走行轮胎胎面磨损分析研究与对策[J]. 城市轨道交通研究, 2010, 13(6): 63-67.

LIU Xi, LIU Peiyong, WANG Qingchun, et al. Feasibility analysis on application of modified concrete contains rubber powder of straddle type monorail train waste tire[J]. Procedia Environmental Sciences, 2016 (31): 804-811.

GODA K, NISHIGAITO T, HIRAISHI M, et al. A curving simulation for a monorail car[C]//IEEE. Proceedings of the 2000 ASME/IEEE Joint Railroad Conference. Newark: IEEE, 2000: 171-177.

文孝霞, 杜子学, 许舟洲, 等. 基于降低走行轮偏磨损的单轨车辆结构参数优化研究[J]. 现代制造工程, 2016 (12): 9-15.

LEE C H, KIM C W, KAWATANI M, et al. Dynamic response analysis of monorail bridges under moving trains and riding comfort of trains[J]. Engineering Structures, 2005, 27(14): 1999-2013.

李小珍, 葛延龙, 晋智斌. 跨座式单轨车辆－轨道梁耦合振动的计算分析[J]. 铁道工程学报, 2018, 35(1): 78-83.

张建全, 黄运华, 李芾, 等. 跨座式单轨车导向轮稳定轮预压力研究[J]. 铁道机车车辆, 2011, 31(3): 48-52.

BRAGHIN F, CHELI F, MELZI S, et al. Tyre wear model: validation and sensitivity analysis[J]. Meccanica, 2006, 41(2): 143-156.

唐春蓬, 杨震, 杜子学. 跨座式单轨列车轮胎垂向动态特性试验研究[J]. 现代城市轨道交通, 2016 (6): 77-83.

EICHBERGER A, SCHITTENHELM M. Implementations, applications and limits of tyre models in multibody simulation[J]. Vehicle System Dynamics, 2005, 43(Suppl 1): 18-29.

LUGNER P, PLÖCHI M. Tyre model performance test: first experiences and results[J]. Vehicle System Dynamic, 2005, 43(Suppl 1): 48-62.

YILDIZ A S, SIVRIOGLU S. Semi-active vibration control of lateral and rolling motions for a straddle type monorail vehicle[J]. IFAC-PapersOnLine, 2016, 49(3): 279-284.

WANG Hongliang, ZHU Eryu. Dynamic response analysis of monorail steel-concrete composite beam-train interaction system considering slip effect[J]. Engineering Structures, 2018 (160): 257-269.

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