Feed drive modelling for the simulation of tool path tracking in multi-axis high speed machining

摘要

Within the context of high speed machining, it is essential to manage the trajectory generation to achieve both high surface quality and high productivity. As feed drives are one part of the set machine tool-numerical controller, it is necessary to improve their performances to optimise feed drive dynamics during trajectory follow up. Hence, this paper deals with the modelling of the feed drive in the case of multi axis machining. This model can be used for the simulation of axis dynamics and tool-path tracking to tune parameters and optimise new frameworks of command strategies. A procedure of identification based on modern NC capabilities is presented and applied to industrial HSM centres. Efficiency of this modelling is assessed by experimental verifications on various representative trajectories. After implementing a generalised predictive control (GPC), reliable simulations are performed thanks to the model. These simulations can then be used to tune parameters of this new framework according to the tool-path geometry.