期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

金属带式无级变速器钢带环弹性特性及其造成的能量损失 被引量:3

MB-CVT Metal Ring Elastic Mechanics Properties and Energy Loss
在线阅读 下载PDF
导出
摘要 基于弹性力学理论,建立了金属带式无级变速器钢带环伸长模型。在圆弧段上,钢带环被简化为组合薄壁圆筒模型,在直线段上被简化为单向拉伸模型。模型计算结果显示:随着传动比的增大,应力应变在主动轮上不断增大,在从动轮上先减小后增大;径向位移在主动轮上先减小后增大,在从动轮上不断增大;当传动比一定时,最内层钢带环的应力应变和径向位移最大,最外层最小;钢带环总的伸长量随着传动比的增大而增大,但当传动比为1时有所减小;钢带环线应变范围是0.04%~0.08%。功率损失分析表明:钢带环应变能功率损失范围为27.15~86.73W,当传动比为1时,总功率损失为34.85W。 This paper proposed a MB-CVT model on the basis of elastic mechanics theory to describe the extension of metal rings.The metal rings were simplified as combined thin wall cylinder model in the arc part and simple tension model in the straight part.The results show that,with the increasing of transmission ratio,the stress-strain in driver pulley increases while decreases first and then becomes increase in the driven pulley.On the contrary,the radial displacement first decreases and then increases in the driver pulley while increases in the driven pulley.Stress-strain and radial displacement of the innermost ring is the maximum,and the outmost ring is the minimum when transmission ratio is constant.The total extended length of ring increases with the increasing of transmission ratio,but decreases when transmission ratio is 1.The linear strain ranges from 0.04% to 0.08% herein.Total power loss scope is 27.15~86.73W,the total power loss is 34.85W when transmission ratio is 1.
作者 张武 刘凯 崔亚辉 原园 赵桐
机构地区 西安理工大学 西安科技大学
出处 《中国机械工程》 EI CAS CSCD 北大核心 2012年第21期2535-2541,共7页 China Mechanical Engineering
基金 国家自然科学基金资助项目(51105304 51175419) 陕西省重点学科建设专项基金资助项目(080204) 陕西省教育厅科学研究计划资助项目(2010JK742) 西安理工大学博士启动基金资助项目(2012QDJ027)
关键词 钢带环 金属带 无级变速器 伸长量 metal ring metal belt(MB) continuously variable transmission(CVT) extended length
分类号 TH132 [机械工程—机械制造及自动化]
  • 相关文献

参考文献10

  • 1Kong Lingyuan, Parker R G. Steady Mechanics of Layered, Multi-band Belt Drives Used in Continu- ously Variable Transmissions (CVT) [J].Mecha- nism and Machine Theory, 2008, 43(2):171-185.
  • 2Kuwabara S, Fushimi Y,Fujii T,et al. Study on a Metal Pushing V- belt Type CVT: Numerical Analysis of Forces Acting on a Belt at Steady State [J]. JSAEReview, 1998, 19(2):117-122.
  • 3Kim H, Lee J. Analysis of Belt Behavior and Slip Characteristics for a Metal V-belt CVT[J]. Mech- anism and Machine Theory, 1994, 29(6) :865-876.
  • 4Akehurst V, Vaughan N D, Parker D A, et al. Modeling of Loss Mechanisms in a Pushing Metal V-belt Continuously Variable Transmission [J]. Journal of Automotive Engineering, Part D, Proc. Inst. Mech. Eng., 2004,218:1269-1306.
  • 5Sun D C. Performance Analysis of a Variable Speed -ratio Metal V-belt Drive[J]. Journal of Mecha- nisms, Transmissions and Automation in Design, 1988,110:472-481.
  • 6Micklem J M, Longmore D K, Burrows C R. Mod- eling of the Steel Pushing V- belt Continuously Variable Transmission [J]. Journal of Mechanical Engineering Science Part C, 1994, 208(1): 13-27.
  • 7Kuwabara S, Fujii T, Kanehara S. Study on a Met- al Pushing V-belt Type CVT: Band Tension and Load Distribution in Steel Rings[J]. JSAE Review, 1999, 20(1): 55-60.
  • 8Carhone G, Mangialardi L, Bonsen B, et al. CVT Dynamics: Theory and Experiments [J].Mecha- nism and Machine Theory, 2007, 42(4)t 409-428.
  • 9张武,周春国,刘凯.金属带式无级变速器带轮变形研究[J].中国机械工程,2010,21(15):1771-1774. 被引量:9
  • 10张武,刘凯,周春国,张海源,张宝锋.金属带式无级变速器摩擦功率损失研究[J].中国机械工程,2010,21(11):1293-1297. 被引量:12

二级参考文献18

  • 1Kobayashi D, Mabuchi Y, Kato Y. A Study on the Torque Capacity of a Metal Pushing V-belt for CVTs[C]//International Congress & Exposition. Detroit, 1998 : 980822.
  • 2Lebrecht W, Preiffer F, Ulbrich H. Analysis of Self -induced Vibrations in a Pushing V- belt CVT[C]//Proceedings of International Continuously Variable and Hybrid Transmission Congress. San Francisco, 2004 : 04CVT-32.
  • 3Fujii T, Kurokawa T, Kanehara S. A Study on a Metal Pushing V-belt Type CVT- part 2: Compression Force between Metal Blocks and Ring Tension[C]//International Congress & Exposition. Detroit, 1993 :930667.
  • 4Guebeii M, Micklem J D, Burrows C R. Maximum Transmission Efficiency of a Steel Belt Continuously Variable Transmission[J]. J. Mech. Des. ,1993, 115(4) :1044-1048.
  • 5Ashloy E. CVT the Car Transmission of Future [J]. Mechanical Engineering, 1994, 116 ( 11 ):65 - 68.
  • 6Narita K,Priest M. Metal-metal Friction Characteristics and the Transmission Efficiency of a Metal V- belt-type Continuously Variable Transmission[J]. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2007,221 ( 1 ) : 11-26.
  • 7Akehurst S, Vaughan N D, Parker D A, et al. Modeling of Loss Mechanisms in a Pushing Metal V- belt Continuously Variable Transmission. Part 1:Torque Losses due to Band Friction[J] . Proceedings of the Institution of Mechanical Engineers, Part D : Journal of Automobile Engineering, 2004,218(11) : 1269-1281.
  • 8Gerbert G. Skew V--belt pulleys[C]//International Conference on Continuously Variable Transmissions, CVT' 9 6. Yokohama, 1996 : 11212.
  • 9Sattler H. Efficiency of Metal Chain and V-belt CVT[C]//Proceeding of CVT'99. Congress. Eindhoven, 1999 : 99-104.
  • 10Akehurst S,Vaughan N D,Parker D A,et al. Modeling of Loss Mechanisms in a Pushing Metal V--belt Continuously Variable Transmission. Part 1: Torque Losses due to Band Friction[J]. Part D.. Journal of Automobile Engineering, 2004,218 ( 11 ) : 1269-1281.

共引文献18

同被引文献31

  • 1邸剑涛.汽车带式无级变速器传动及力学模型分析[J].汽车科技,2004(5):16-19. 被引量:5
  • 2王幼民,唐铃凤,唐凌霄.金属带式无级变速器的发展历史、研究现状与展望[J].安徽工程科技学院学报(自然科学版),2005,20(2):74-78. 被引量:8
  • 3卢小虎,陈跃平,何维廉.金属带式CVT金属带的结构与强度分析[J].传动技术,2007,21(2):20-23. 被引量:5
  • 4A.Karam,D.Play. A discrete analysis of metal V-belt drive[A].Scottsdale,AZ,USA,1992.319-327.
  • 5H.Asayama,J.Kawai,A.Tonohata,M.Adachi. Mechanism of metal pushing belt[J].{H}JSAE REVIEW,1995,(02):137-143.
  • 6D.Kobayashi,Y.Mabuchi,Y.Katoh. A study on the torque capacity of a metal pushing V-belt for CVTs[A].1998.31-39.
  • 7N.Srivastava. Modeling and simulation of friction-limited continuously variable transmissions[D].Clemson:the Graduate School of Clemson University,2006.
  • 8程乃士.汽车金属带式无级变速器-CVT原理和设计[M]{H}北京:机械工业出版社,2007.
  • 9邹峰.基于ADAMS的CVT力学分析[D]{H}上海:上海交通大学,2007.
  • 10郝宇霆;忻向军.变速率OFDM光传输系统的仿真实现[J]新型工业化,2012(08):1-6.

引证文献3

二级引证文献2

中国机械工程
2012年 第21期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部