Transfer Case Clutch Torque Modeling and Validation Under Slip and Overtaken Conditions

IF 1.7 4区计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS

Journal of Dynamic Systems Measurement and Control-Transactions of the Asme Pub Date : 2021-07-01 DOI:10.1115/1.4049543

Wenpeng Wei, Hussein Dourra, G. Zhu

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引用次数: 3

Abstract

The vehicle transfer case clutch plays an important role for four-wheel drive (4WD) vehicles since the torque transmitted through the clutch determines the amount of traction torque on tires, which is important for vehicle performance. However, the clutch torque measurement is usually unavailable on production vehicles and needs to be estimated accurately to improve vehicle performance. This paper proposes a unified scheme to model clutch output torque under all three conditions: open (no torque output), slipping, and overtaken. Specifically, the clutch torque model under clutch overtaken condition is first investigated using the vehicle longitudinal and tire dynamics. It was found that effective radius of front tires, powered by the transfer case clutch torque, cannot be assumed as constant and should be compensated by vehicle acceleration, while the effective radius of rear tires connected directly to the propulsion system does not need to be compensated. In addition, it was found that torque model under clutch overtaken condition cannot be used under slip condition. As a result, a general clutch torque model is developed for both slip and overtaken conditions with a clutch slip speed compensation, resulting a root-mean-square error percentage (RMSE%) of 6.8% comparing with the experimental measurement data. Note that overtaken torque model is a special case of the general torque model by setting slip speed equal to zero. The general clutch torque model is able to calculate clutch output torque accurately under both slip and overtaken conditions.

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滑移与超车工况下变速器离合器扭矩建模与验证

车辆变速器离合器在四轮驱动(4WD)车辆中起着重要的作用，因为通过离合器传递的扭矩决定了轮胎的牵引力扭矩大小，而牵引力力矩对车辆的性能至关重要。然而，离合器扭矩测量通常无法在量产车辆上进行，需要准确估计以提高车辆性能。本文提出了一个统一的方案来模拟所有三种情况下的离合器输出扭矩:打开(无扭矩输出)，滑移和超越。具体而言，首先从车辆纵向动力学和轮胎动力学两方面研究了离合器超车工况下的离合器转矩模型。研究发现，由变速器离合器扭矩驱动的前轮胎的有效半径不能假设为常数，而应通过车辆加速度进行补偿，而直接与推进系统相连的后轮胎的有效半径则不需要进行补偿。此外，还发现离合器超转工况下的转矩模型不能用于滑移工况。基于此，建立了考虑滑移和超车工况的通用离合器转矩模型，并进行了滑移速度补偿，与实验测量数据的均方根误差(RMSE%)为6.8%。需要注意的是，超转矩模型是一般转矩模型的特殊情况，它将转差速度设为零。通用离合器转矩模型能够准确地计算出滑移和超车工况下的离合器输出转矩。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Dynamic Systems Measurement and Control-Transactions of the Asme 工程技术-仪器仪表

CiteScore

3.90

自引率

11.80%

发文量

审稿时长

24.0 months

期刊介绍： The Journal of Dynamic Systems, Measurement, and Control publishes theoretical and applied original papers in the traditional areas implied by its name, as well as papers in interdisciplinary areas. Theoretical papers should present new theoretical developments and knowledge for controls of dynamical systems together with clear engineering motivation for the new theory. New theory or results that are only of mathematical interest without a clear engineering motivation or have a cursory relevance only are discouraged. "Application" is understood to include modeling, simulation of realistic systems, and corroboration of theory with emphasis on demonstrated practicality.