Abstract
A sub-shift control algorithm was proposed for an agricultural tractor with hydro-mechanical transmission. The hydro-mechanical transmission investigated in this study consists of a hydro-static unit and planetary gear sets which provide a continuously variable transmission function and four sub-shift gears. The sub-shift needs to be carried out at the hydro-static unit stroke where the speed of the off-going and on-coming clutches is synchronized. To reduce the hydro-static unit stroke error due to the nonlinear characteristic, the hysteresis characteristic was investigated in the test bench and a hysteresis compensator was developed. Using the compensator in the feedforward loop, a hydro-static unit stroke control algorithm was proposed and validated via experiment. To prevent the torque interruption during the sub-shift, a time delay of the off-going clutch was proposed. In addition, a hydro-static unit stroke duration which maintains the target stroke during the sub-shift was suggested to reduce the speed difference between the clutch plates. The sub-shift control algorithm including the hysteresis compensation, time delay of the off-going clutch, and hydro-static unit stroke duration was evaluated via experiment. It was found from the experimental results that the sub-shift was performed smoothly without the torque interruption, even in the acceleration state when large inertial torque change occurred.
Highlights
In tractors, manual transmission has been widely used
It is found from the experimental results (Figures 10 and 11) that the hysteresis compensator proposed in this study provides an improved tracking performance of the swash plate control system of the target hydro-static unit (HSU)
The hydro-mechanical transmission (HMT) investigated in this study consists of a HSU and planetary gear sets which provide a continuously variable transmission (CVT) function and four sub-shift gears to expand the gear speed range
Summary
Manual transmission has been widely used. Manual transmission has many advantages such as a simple structure, low price, and high efficiency. The HMT consists of a hydro-static unit (HSU) and planetary gear sets with clutches and brakes, which provides sub-shifts as well as a continuously variable function. In a real system, it is difficult to obtain a smooth gear shift because of the speed difference between the engaging and disengaging clutches, which is due to the nonlinear characteristics of the HSU and hydraulic valves that are used to control the clutch speed. The compensator determines overlap time for the clutch engagement and disengagement using the experimental results of clutch pressure response in time domain.[13] To evaluate the performance of the shift quality of an agricultural tractor, an automatic pressure tuning controller was proposed which uses the speed difference during the gear shift for a power-shift transmission.[17].
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