Affiliation:
1. College of Mechanical and Power Engineering, Harbin University of Science and Technology, Xuefu Road, Harbin 15080, Heilongjiang Province, China
Abstract
Background:
In some applications, the requirements of electro-hydraulic servo system
are not only precise positioning, but also the speediness capability at which the actuator is operated.
Objective:
In order to enable the system to achieve rapid start and stop during the work process,
reduce the vibration and impact caused by the change of the velocity, at the same time improve the
positioning accuracy, and further strengthen the stability and the work efficiency of the system, it
is necessary to perform the synergistic control between the position and the velocity of the electrohydraulic
servo system.
Methods:
In order to achieve synergistic control between the position and the velocity, a control
method of velocity feed-forward and position feedback is adopted. That is, based on the position
control, the speed feed-forward is added to the outer loop as compensation. The position control
adopts the PID controller, and the velocity control adopts the adaptive fuzzy neural network controller.
At the same time, the position and velocity sensors are used for feedback, and the deviation signals
between the position and the velocity obtained by superimposing the feedback are used as the
final input of the control object, thereby controlling the whole system.
Results:
The control effect of the designed position / velocity synergistic controller is verified by
simulation and experiment. The results show that the designed controller can effectively reduce the
vibration and impact caused by the change of the velocity, and greatly improve the response velocity
and the position accuracy of the system.
Conclusion:
The proposed method provides technical support for multi-objective synergistic control
of the electro-hydraulic servo system, completes the requirements of multi-task operation, improves
the positioning accuracy and response velocity of the electro-hydraulic servo system, and realizes the
synergy between the position and the velocity. In this article, various patents have been discussed.
Funder
Young Innovative Talents Training Program for General Undergraduate Colleges and Universities in Heilongjiang Province
Natural Science Foundation of Heilongjiang Province of China
Publisher
Bentham Science Publishers Ltd.
Subject
General Materials Science
Reference65 articles.
1. Xu X.Y.; Lin H.; Integrated design for permanent magnet synchronous motor servo systems based on dynamic sliding mode control. Transactions of China Electrotechnical Society 2014,29(5),77-83
2. Moreno V.J.; Velocity field control of robot manipulators by using only position measurements. J Franklin Inst 2007,344(8),1021-1038
3. Liu J.; Ge S.R.; Zhu H.; Tang C.Q.; Mine rescue robot power matching based on multi-objective particle swarm optimization. J Mech Eng 2015,51(3),18-28
4. Maver T.; Dual valve systems for actuator control. US201715684651 (2017)
5. Brault J.; Power-automated traction for skis. US201614998718 (2017)
Cited by
4 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献