Mechanical-Hydraulic Coupling Simulation for Hydraulic Excavator Working Mechanism

Xiang Qiang Zhong; Li Dong Liang

doi:10.4028/www.scientific.net/AMR.538-541.494

Paper Titles

Numerical Simulation of LPDC Process for Thin-Walled Aluminum Alloy
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Kinematics Simulation of Parallel Mechanism Based on ADAMS
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Mathematical Model of Coal Mine Gas and Coal Dust Control
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Numerical Simulation of Effect of X-Shape Submerged Nozzle on Flow of Molten Steel in Mold
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Mechanical-Hydraulic Coupling Simulation for Hydraulic Excavator Working Mechanism
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Application Research of Damping Board in Ball Grinding Processing
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Numerical Simulation of Mold Filling and Solidification Process for Beam Blank Continuous Casting
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Application of Numerical Simulation in Quench Cracking Analysis of Vehicle Hub Axles
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Study on Blade Bend Optimization of Aircraft Engine
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Mechanical-Hydraulic Coupling Simulation for Hydraulic Excavator Working Mechanism

Abstract:

Hydraulic excavator is a typical and complicated engineering machine by combination of mechanical, control and hydraulic system. It is very important for coupling analysis by use of multiple simulation tools. Hydraulic excavator mechanical model was constructed based on Pro/E 4.0. Virtual prototype of hydraulic excavator was finished by use of ADAMS interface function and carried on a lot of kinematics and dynamics simulation analysis. Hydraulic cylinder circuit was derivated based on ADAMS/Hydraulics. Working principle of bucket arm hydraulic cylinder was analyzed. Mechanical and hydraulic simulation of bucket rod hydraulic cylinder was finished. Bucket rod hydraulic cylinder velocity was obtained. Simulation results show coupling simulations have certain theory value and practical significance. They can provide evidence for trial and optimization of physical prototype.