Widiyarto, Muhammad Helmi Nur, Pislaru, Crinela, Ford, Derek G., Longstaff, Andrew P. and Myers, Alan (2005) Hybrid modelling technique applied to digital feed drives. In: Proceedings of the 7th International Conference and Exhibition on Laser Metrology, Machine Tool, CMM & Robotic Performance. European Society for Precision Engineering and Nanotechnology, pp. 454-463. ISBN 1861941188
Abstract

The hybrid modelling technique considering distributed load, explicit damping factors and measured non-linear effects has been shown to effectively represent the dynamics of CNC machine tool feed drives. The resonant frequencies produced by the mechanical elements of the machine were simulated for an analogue feed drive with DC motors and belt-pulley transmission system. The rapid increase in the use of digital control systems and permanent magnet synchronous AC motors for modern feed drives requires an update on this modelling technique. This paper presents an investigation into the application of the technique for the digital feed drive of a Cincinnati Arrow 500 CNC machine tool equipped with a Siemens Sinumerik 840D controller. The drive utilises a direct transmission system and the field oriented control technique in the current control loop. The discrete method of approach to the current control loop is used to represent the digital states of the current, torque and speed control. The model is developed in MATLAB/ SIMULINK employing the Power System (Simpower) Blockset. Model validation in the time and frequency domain is performed using the deterministic and pseudo random binary signals from the controller’s built-in routines. The results are shown to provide a sufficient solution into the representation of the feed drive dynamic behaviour. The investigation is part of a wider study to develop an active vibration system for CNC machine tools and to develop a machine tool drive model, useful for the design, diagnosis, optimisation and condition monitoring purposes.

Library
Documents
[thumbnail of c28_lamda05.doc]
c28_lamda05.doc
Restricted to Repository staff only

Download (1MB)
[thumbnail of Word to PDF conversion (via antiword) conversion from application/msword to application/pdf]
Preview
Word to PDF conversion (via antiword) conversion from application/msword to application/pdf
c28_lamda05.pdf

Download (39kB) | Preview
Statistics

Downloads

Downloads per month over past year

Add to AnyAdd to TwitterAdd to FacebookAdd to LinkedinAdd to PinterestAdd to Email