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基于滑移率控制的CVT最优夹紧力控制研究

Study on Optimal Clamping Force of CVT Based on Slip Rate Control
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摘要 针对金属带式无级变速器(CVT)夹紧力控制不合理造成传动效率偏低问题,提出基于滑移率的夹紧力PID控制方法。基于金属带滑移传动理论,创建CVT动态滑移模型,设计安全因子PID控制器。为了验证此控制系统的有效性,进行了仿真实验。仿真结果表明,基于滑移率的夹紧力控制方法能有效降低目标夹紧力,提高传动效率。 Concerning the problem of low transmission inefficiency of the metal V-belt type CVT due to improper clamping force,a PID control strategy of clamping force based on slip rate was presented.The CVT slip dynamic mathematic model was established and safe factor PID controller was designed according to the metal V-belt slip transmission theory.Simulation test was used to verify the control system effect.The result showed that clamping force control method based on slip rate could reduce object clamping force and improve the transmission efficiency.
作者 丁金刚 纪弘祥 杜媛媛 黄丽鹏 Ding Jingang;Ji Hongxiang;Du Yuanyuan;Huang Lipeng(Technical Center of Baic Motor Powertrain Co., Ltd., Beijing 101108, China;Vehicle Research Institute of Beijing North Vehicle Group Co., Ltd., Beijing 100072, China)
机构地区 北京汽车动力总成有限公司技术中心 北京北方车辆集团有限公司车辆研究院
出处 《农业装备与车辆工程》 2017年第11期67-69,共3页 Agricultural Equipment & Vehicle Engineering
关键词 无级变速器 夹紧力 滑移率 PID控制 continuous variable transmission clamping force slip rate PID control
分类号 U463.212 [机械工程—车辆工程]
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  • 1李以农,郑玲,郝奕,刘建房.基于参数自整定模糊PID的汽车纵向控制[J].江苏大学学报(自然科学版),2006,27(1):22-26. 被引量:12
  • 2Denise R Vermilya, William C Ward. The development of CVT fluids with higher friction coefficients [ J ]. SAE Paper, 2003 - 01 - 1978.
  • 3Byungsoon Min, Ron Matthews, Michael Duoba,et al. Direct measurement of powertrain component efficiencies for a light-duty vehicle with a CVT operating over a driving cycle [ J 1. SAE Paper, 2003 - 01 - 3202.
  • 4Akihito Ohashi, Youichi, Kaoru Kajikawa, et al, Development of high-efficiency CVT for luxury compact vehicle[J]. SAE Paper, 2005 -01 - 1019.
  • 5Akehurst S, Parker D A, Vaughan N D. Potential for fuel economy improvements by reducing frictional losses in a pushing metal V-belt CVT[ J ]. SAE Paper, 2004 - 01 -0481.
  • 6Bonsen B, Klaassen T,Merrrakker K, et al. Analy- sis of Slip in a Continuously Variable Transmission [C]//ASME International Mechanical Engineering Congress and Exposition. Washington DC: ASME, 2003:15-21.
  • 7Hiroyuki N, Hiroyuki Y, Hideyuki S, et ah Fric- tion Characteristics Analysis for Clamping Force Setup in Metal V-Beh Type CVT[C]//SAE Tech- nical Paper Series. USA. SAE, 2005:1462.
  • 8Bonsen B, Klaassen K, Meerakker K, et al. Meas- urement and Control of Slip in a Continuously Vari- able Transmission [C]//International Continuously Variable and Hybrid Transmission Congress. Syd- ney: Mechatronies, 2004:64-78.
  • 9Pulles R, Bonsen B, Steinbueh M, et al. Slip Con- troller Design and Implementation in a Continuously Variable Transmission[C]//American Control Con- ference. Oregon~ Technische University Eind- hoven, 2005 : 1625-1630.
  • 10B.Bonsen,T.W.G.L.klaassen, K.G.O.Van de Meerakker, et al. Mod- elling Slip and Creepmode Shift Speed Characteristics of a Pushbelt Type Continuously Variable Transmission [ C ]. San Francisco: CVT Congress, 2004:1 - 5.

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农业装备与车辆工程
2017年 第11期

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