With the rapid development of computer technology,Mechanical System Dynamic Simulation Technology is greatly improved,which has been widely applied in engineering fields at aboard.In this dissertation,the main research object is the Milling module of Break-disc Balancing Machine with the analysis tools of the SOLIDWORKS software and the ADAMS software,aiming at equilibrium machine of the machine system carry on kinetics and dynamics analytical.It can simplify the design development of product process,shorten a product development period,reduce expenses of the product development,and produce design product with optimization and creation.The methods have wide application and universality.So it represents the development trend of the Kineties and the FEM engineering application.It gives important theoretical meaning and practical value.The Milling module of Break-disc Balancing Machine is the important revising module of whole Balancing Machine.Its' rigidity,intensity,stability will affect the veracity of milling directly,sequentially affect the effect of balancing and revising. The servo motor drive ball bearing screw by synchronous belt,and ball bearing screw is connect with the support,the screw circumrotate can drive the support move with the rail direction;the upgrade screw was fixed on the support,and connect with belt-wheel box,there is a set of synchronous belt in belt-wheel box,the motor drive the shaft by the belt and mill the workpiece.The dissertation has mainly done four aspect works:1)Create 3D model of The Milling module of Break-disc Balancing Machine2)Analyses the Kineties and the FEA of the design program of module of unbalance of disc rakes balance machine.3)The FEA of the design program of module of unbalance of disc rakes balance machine4)To move an amendment of the design project,ensure the rationality of the modified project. The dissertation is mainly analyses the Kineties and the FEA of the design program of module of unbalance of disc rakes balance machine.The study show feasibility of the design of this system,improves the design,and finally accomplishes the physical prototype. |