Abstract
Multi-source drive system with the feature of compact, small size and other advantages is widely used in large engineering machinery, such as shield machine, wind turbines, and shearer. In this article, a reasonable power transmission form is designed and the electromechanical-hydraulic coupling model of the multi-source drive system including the hydraulic pump-motor lumped parameter model and gear system dynamics model is established based on the co-simulation of MATLAB and AMEsim. Taking the pump flow pulsation and the time-varying meshing stiffness as the external and internal excitation of the multi-source drive system, respectively, the vibration and the dynamic characteristics of the multi-source drive system and the transfer characteristics of the dynamic excitation are analyzed. Results show that the flow-speed pulsation and the pressure-torque pulsation are gradually reduced along the direction of the transmission chain. As the external and internal excitation, the flow pulsation and the time-varying meshing stiffness will cause complex influences on the vibration and the dynamic characteristics of the multi-source transmission system. The findings provide a reference basis for the design of the multi-source drive system.
Highlights
Multi-source drive system with the feature of compact, small size and other advantages is widely used in shield machine, wind turbines, shearer, and so on
This study is based on a new power transmission system with electromechanical-hydraulic multi-source drive, which is proposed by our research group
The electromechanical-hydraulic coupling model of the cutting transmission system is established by the proposed system, and the vibration and the dynamic characteristics of the cutting transmission system are analyzed based on the pump flow pulsation and the time-varying meshing stiffness
Summary
Multi-source drive system with the feature of compact, small size and other advantages is widely used in shield machine, wind turbines, shearer, and so on. Keywords Multi-source drive system, electromechanical-hydraulic short transmission, flow pulsation, time-varying meshing stiffness, vibration characteristics, dynamic characteristics
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