By means of Solid Works, three-dimensional model of automated assembly system was established, and kinematic simulation based on Solid Works Motion of assembly process for relay was performed. The simulation results p...By means of Solid Works, three-dimensional model of automated assembly system was established, and kinematic simulation based on Solid Works Motion of assembly process for relay was performed. The simulation results proved the feasibility of mechanical design. Eventually, the productivity was estimated based on simulation analysis. The mechanical design provided a solution with high reference value to practical design of automated assembly system for relay.展开更多
In order to satisfy the requirements of large workspace and high dexterity for processing equipment of oversized cylindrical boxes′spherical crown surfaces in the aerospace industry,a novel serial-parallel hybrid pro...In order to satisfy the requirements of large workspace and high dexterity for processing equipment of oversized cylindrical boxes′spherical crown surfaces in the aerospace industry,a novel serial-parallel hybrid processing robot mechanism is proposed.The degrees of freedom of the 5PUS-(2UR)PU parallel mechanism are obtained by using the screw theory.The inverse kinematics of the hybrid mechanism are analyzed and the velocity Jacobian matrix is established.Then,the constraints of the main factors influencing workspace of the mechanism are given,and the position and posture workspace are obtained.Next,the dexterity and stiffness performance of the mechanism is analyzed based on the Jacobian matrix.The virtual prototype is established,and the theoretical calculation and simulation analysis of the hybrid mechanism with arc curve as the processing trajectory are carried out by using Matlab and Adams software.The research results show that the mechanism can satisfy the requirements of large workspace and high dexterity of oversized cylindrical boxes′spherical crown surface processing,and has feasibility and practical application value.展开更多
文摘By means of Solid Works, three-dimensional model of automated assembly system was established, and kinematic simulation based on Solid Works Motion of assembly process for relay was performed. The simulation results proved the feasibility of mechanical design. Eventually, the productivity was estimated based on simulation analysis. The mechanical design provided a solution with high reference value to practical design of automated assembly system for relay.
基金This work was supported by Fundamental Research Funds for the Central Universities(No.2018JBZ007).
文摘In order to satisfy the requirements of large workspace and high dexterity for processing equipment of oversized cylindrical boxes′spherical crown surfaces in the aerospace industry,a novel serial-parallel hybrid processing robot mechanism is proposed.The degrees of freedom of the 5PUS-(2UR)PU parallel mechanism are obtained by using the screw theory.The inverse kinematics of the hybrid mechanism are analyzed and the velocity Jacobian matrix is established.Then,the constraints of the main factors influencing workspace of the mechanism are given,and the position and posture workspace are obtained.Next,the dexterity and stiffness performance of the mechanism is analyzed based on the Jacobian matrix.The virtual prototype is established,and the theoretical calculation and simulation analysis of the hybrid mechanism with arc curve as the processing trajectory are carried out by using Matlab and Adams software.The research results show that the mechanism can satisfy the requirements of large workspace and high dexterity of oversized cylindrical boxes′spherical crown surface processing,and has feasibility and practical application value.
