论文信息 - Dynamic Behavior of a Torque Converter with Centrifugal Bypass Clutch

Dynamic Behavior of a Torque Converter with Centrifugal Bypass Clutch

Performance, driveability and NVH characteristics of a vehicle are altered when the hydraulic torque converter is bypassed with a mechanical clutch device in an effort to increase the overall efficiency of the transmission. To better illustrate and explain some of the behavior of such systems, a theoretical investigation of a torque converter with a centrifugal bypass (lock-up) clutch is presented. Computer-based simulations demonstrate how the lock-up characteristics of the clutch affect the torsional vibrations and the tip-in response of the drivetrain. In particular, the bypass clutch slip capacity is shown to be responsible for self-excited oscillations if "negative damping" is present. In addition, the dynamic responses of open, locked and slipping drivetrains are investigated with regard to firing torque transmissibility and sudden changes in throttle. Comparisons with instrumented vehicle results are also presented.

W. E. Tobler | M. C. Tsangarides | W. Tobler

[1] Seitoku Kubo,et al. Toyota New Four-Speed Automatic Transmission for Front Wheel Drive Vehicles , 1984 .

[2] V. J. Jandasek. The Design of a Single-Stage Three-Element Torque Converter , 1961 .

[3] Tsuchio Bunda,et al. Friction Behavior of Clutch-Facing Materials: Friction Characteristics in Low-Velocity Slippage , 1972 .

[4] Russell Silberschlag. Centrifugal Torque Converter Clutch , 1984 .

[5] T. Ishihara,et al. Torque Converter as a Vibration Damper and Its Transient Characteristics , 1966 .

[6] Joseph R. Fox. Design Considerations for Wet Wheel Brakes , 1981 .

[7] A I Krauter,et al. APPLICATION OF GENERAL RIGID BODY DYNAMICS TO VEHICLE BEHAVIOR , 1975 .

[8] Manfred Schwab,et al. Electronic Control of a 4-Speed Automatic Transmission with Lock-Up Clutch , 1984 .

[9] D. Hrovat,et al. Bond graph modeling and computer simulation of automotive torque converters , 1985 .