Study of auto disturbance rejection synchronous control for bilateral hydraulic motor of concept sprayer chassis

ZHANG Hua;ZHENG Jiaqiang;XU Youlin;College of Mechanical and Electronic Engineering,Nanjing Forestry University;Department of Mechanical Engineering,Anhui Science and Technology University;

hydraulic direct drive;;sprayer chassis;;bilateral hydraulic motor;;active disturbance rejection synchronous control;;synchronous error

A concept sprayer chassis of hydraulic direct drive was put forwarded in order to meet the intelligent and flexible needs of plant protection spraying operation under complex agricultural and forestry environments.The mathematical model of the synchronous rotating system of the bilateral hydraulic motor was established.Synchronization control strategy of the outer active disturbance rejection controller separate control and the inner PID coordinated control was developed.A three order auto disturbance rejection controller was designed in the form of discretization and the synchronous control of the bilateral hydraulic motor was studied.SIMULINK simulation and test bench experiments were conducted.The results showed that:The active disturbance rejection synchronous control had more rapid response compared to the traditional PID control.The rising time was 1.2s and the setting time was 3s.The bilateral hydraulic motor synchronous control error was lower under disturbance condition.The peak value of the bilateral motor synchronization error was only-0.016 rad and the synchronous control precision were higher than 0.060% under the internal parameters perturbation of the motor 2.The peak value of the bilateral motor synchronization error could reach-0.850 rad and the synchronization control precision was less than 2.000% with the PID control.It was showed that the auto disturbance rejection synchronous controller had higher control precision and disturbance error compensation ability,which could satisfy the requirement of the straight line driving of sprayer chassis.Theoretical reference wasprovided in this study for the design of the walking machine chassis and hydraulic synchronous control system in complex agricultural and forestry environments.