论文信息 - Sensitivity Analysis of the Transmission Chain of a Horizontal Machining Tool Axis to Design and Control Parameters

Sensitivity Analysis of the Transmission Chain of a Horizontal Machining Tool Axis to Design and Control Parameters

This paper reports how a numerical controlled machine axis was studied through a lumped parameter model. Firstly, a linear model was derived in order to apply a modal analysis, which estimated the first mechanical frequency of the system as well as its damping coefficients. Subsequently, a nonlinear system was developed by adding friction through experimentation. Results were validated through the comparison with a commercial servoaxis equipped with a Siemens controller. The model was then used to evaluate the effect of the stiffness of the structural parts of the axis on its first natural frequency. It was further used to analyse precision, energy consumption, and axis promptness. Finally a cost function was generated in order to find an optimal value for the main proportional gain of the position loop.

[1] Paolo Rocco,et al. Mechatronic analysis of a complex transmission chain for performance optimization in a machine tool , 2010 .

[2] M. Géradin,et al. Mechanical Vibrations: Theory and Application to Structural Dynamics , 1994 .

[3] R. Whalley,et al. Machine tool modelling and profile following performance , 2008 .

[4] Alexander Verl,et al. Expedient modeling of ball screw feed drives , 2012, Prod. Eng..

[5] Wisama Khalil,et al. Modeling, simulation and control of high speed machine tools using robotics formalism , 2002 .

[6] Evangelos Papadopoulos,et al. Analysis and model-based control of servomechanisms with friction , 2002, IEEE/RSJ International Conference on Intelligent Robots and Systems.

[7] Sam-Sang You,et al. Precise position synchronous control of multi-axis servo system , 2008 .

[8] Ryuta Sato. Mathematical Model of a CNC Rotary Table Driven by a Worm Gear , 2012, Int. J. Intell. Mechatronics Robotics.

[9] Kripa K. Varanasi,et al. The Dynamics of Lead-Screw Drives: Low-Order Modeling and , 2004 .