轮径差对三大件式转向架曲线通过性能影响分析
王文刚1,隋顺琦*,2,高贤波2,凌亮2
(1.神华铁路装备有限责任公司,北京 100120;2.西南交通大学 牵引动力国家重点实验室,四川 成都 610031)
摘要:轮径差是我国铁路重载货车运用中常见的一类问题,对车辆的运行稳定性和曲线通过性能有较大影响。为揭示轮径差对三大件式转向架曲线通过性能的影响规律,建立了某型敞车动力学模型,对比分析了四种不同形式轮径差下货车曲线动态响应。研究结果表明:不同种类轮径差对转向架通过曲线的影响有所不同,适当程度轮径差有利于车辆动态曲线通过;前导向轮轮径差状态下,小轮径车轮位于内轨侧时,脱轨系数、轮轨横向力、轮轴横向力三项指标更优;后随轮对轮径差状态下,小轮径车轮位于曲线外轨侧且速度小于70 km/h,更有利于其动态曲线通过;等值同相轮径差状态下,小轮径车轮位于内轨侧时,脱轨系数、轮轨横向力指标更优,反之,减载率、轮轴横向力指标较优;等值反相轮径差状态下,速度低于70 km/h时,转向架以一位轮对右轮小、二位轮对左轮小形态通过右曲线时,其脱轨系数、轮轨横向力、轮轴横向力更优,但轮重减载率更高。
关键词:轮径差;铁路货车;曲线通过;动力学性能 
中图分类号:TE833 文献标志码:A doi:10.3969/j.issn.1006-0316.2021.01.006
文章编号:1006-0316 (2021) 01-0037-07
Influence of Wheel Diameter Difference on Curving Negotiation Performance of Three-piece Bogies
WANG Wen'gang1,SUI Shunqi2,GAO Xianbo2,LING Liang2
( 1.Shenhua Railway Freight Transportation Co., Ltd., Beijing 100120, China;2.State Key Laboratory of Traction Power, Southwest Jiaotong University, 610031 Chengdu, China )
Abstract:Wheel diameter difference (WDD) is a common problem in the operation of heavy haul freight wagons in China, which has a great impact on the running stability and curving negotiation performance of vehicles. To reveal the influence of the WDD on the curve negotiation performance of the three-piece bogies, a dynamic model of freight wagons has established. The dynamic response of freight wagons under four different types of the WDD was compared and analyzed. The results show that different types of the WDD have different effects on the curve negotiation performance, and the appropriate degree of the WDD is conducive to the curve negotiation. For the WDD of the first wheelset, the derailment coefficient, wheel-rail lateral force and wheel axle lateral force are smaller when the small wheel is put on the inner rail side. For the WDD of the second wheelset, the bogie is easy to negotiate the curve when the small wheel is put on the outer side of the curve with a speed limit of 70 km/h. As for the equivalent and in-phase WDD of the first and second wheelsets, the derailment coefficient and wheel-rail lateral force are smaller on condition that the small wheel is put on the inner rail, whereas the wheel load reduction and wheel axle lateral force are smaller when the small wheel is put on the outer side. For the equivalent and inverse WDD, the derailment coefficient, wheel-rail lateral force and wheel axle lateral force are smaller, but the wheel load reduction rate is higher.
Key words:Wheel diameter difference;Freight wagons;Curving negotiation;Dynamics performance
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收稿日期:2020-07-29
基金项目:国家自然科学基金(51825504)
作者简介:王文刚(1987-),男,内蒙古赤峰人,硕士,工程师,主要研究方向为轨道车辆。*通讯作者:隋顺琦(1993-),男,黑龙江伊春人,博士研究生,主要研究方向为铁道车辆动力学,E-mail:674959078@qq.com。
 

 

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