Prof. Bing Xu
Deputy director of State Key Laboratory,
Zhejiang University, China
Biography:
Xu Bing, received his PhD degree from Zhejiang University in 2001, and is currently a professor in the School of Mechanical Engineering, Zhejiang University, Hangzhou, P.R. China. He is now the deputy director of State Key Laboratory of Fluid Power Components and Mechatronic Systems, and Chair of Department of Mechatronics Engineering. As the Chang Jiang Scholar of the China Ministry of Education, He is also a board directors of GFPS(Global Fluid power Society), and senior member of Chinese Society of Mechanical Engineering and Chinese Society of Aeronautics and Astronautics. His research interests are fluid power components, electro-hydraulic control system, energy saving and noise reduction of fluid power mechatronics equipment. He undertakes more than 40 finished and ongoing research projects, including the National Natural Science Fund, the National High-tech R&D Program (863 Program), the National Key Technology Support Program, the National Basic Research Program of China (973 Program) and industrial cooperation projects. He is awarded the second prize of state scientific and technological progress once, the first prize of province or ministry scientific and technological progress thrice, etc. He published more than 100 technical papers, and granted 50 National Invention Patents.
Keynote address: Stability and Safety Control Technology for Heavy duty Hydraulic Manipulator
Heavy duty hydraulic manipulator is widely used in concrete machinery, Aerial work truck, rescue vehicles and other Non-Road mobile machines. Due to the characteristics of high reachable operation space, some of its mobile machine arms weigh tens of tons and reach tens of meters in length. Its operation control is difficult and its safety is poor.
Following the Mandatory requirements of machine safety laws and regulations, the design of heavy-duty hydraulic manipulator is based on the framework of functional safety standards, and the research work of hydraulic transmission system configuration optimization, information perception and control for mechanism kinemics and system dynamics, system safety risk assessment and so on is carried out.
Moreover, facing on the era of intelligent construction, the high inertia heavy-duty manipulator is developing towards the fine control of multi degree of freedom and higher stability, which brings great challenges to the hydraulic transmission control technology. This report mainly introduces the hydraulic circuits configuration optimization, stability control principle and method of large heavy-duty hydraulic manipulator with typical equipment, as well as the risk assessment and safety management, etc.
