Estimation of tool orientation contour errors for five-axismachining

Abstract Recently, there has been a growth of interest in high-precision machining in multi-axis feed drive systems, which are subject to problems such as friction, cutting force and incompatibility of individual driving axis dynamics. Tracking errors in an individual driving axis during five-axis machining result in tool tip contour error and tool orientation contour error. Based on the conventional definition of the tool orientation contour error, that is, it is the deviation in the normal direction from the desired orientation in spherical coordinates, even if the tool tip and tool orientation contour errors are very small, a mismatch between the tool tip position and tool orientation causes an overcut or undercut when these errors are treated independently. To address this problem of mismatch, this paper presents a new definition of the actual tool orientation contour error. This definition considers synchronization between the tool tip and tool orientation contour errors. In addition, we propose an estimation model for the tool orientation contour error. Experimental results demonstrate that the proposed model provides a better indication of the actual tool orientation contour error than the conventional definition.

[1]  Masayoshi Tomizuka,et al.  Zero Phase Error Tracking Algorithm for Digital Control , 1987 .

[2]  Yusuf Altintas,et al.  Modeling and Control of Contouring Errors for Five-Axis Machine Tools—Part II: Precision Contour Controller Design , 2009 .

[3]  Naoki Uchiyama,et al.  The effectiveness of contouring control and a design for three-dimensional machining , 2009 .

[4]  Y. S. Tarng,et al.  Cross-coupled fuzzy logic control for multiaxis machine tools , 1997 .

[5]  Elizabeth A. Croft,et al.  Modeling and Control of Contouring Errors for Five-Axis Machine Tools—Part I: Modeling , 2009 .

[6]  Yoram Koren,et al.  Cross-Coupled Biaxial Computer Control for Manufacturing Systems , 1980 .

[7]  Chih-Ching Lo,et al.  A tool-path control scheme for five-axis machine tools , 2002 .

[8]  Chen Hua She,et al.  A Postprocessor Based on the Kinematics Model for General Five-Axis Machine Tools , 2000 .

[9]  Jungsub Kim,et al.  NC post-processor for 5-axis milling machine of table-rotating/tilting type , 2002 .

[10]  M. Cheng,et al.  Contour error reduction for free-form contour following tasks of biaxial motion control systems , 2009 .

[11]  Erik L.J. Bohez,et al.  Compensating for systematic errors in 5-axis NC machining , 2002, Comput. Aided Des..

[12]  Ming-Yang Cheng,et al.  Contouring accuracy improvement using cross-coupled control and position error compensator , 2008 .

[13]  Masayoshi Tomizuka,et al.  Contouring control of machine tool feed drive systems: a task coordinate frame approach , 2001, IEEE Trans. Control. Syst. Technol..

[14]  Sungchul Jee,et al.  Modular Cross-Coupling Controller for 5-Axis Machine Tools , 2008, 2008 International Conference on Smart Manufacturing Application.

[15]  Chih-Ching Lo,et al.  Tangential-Contouring Controller for Biaxial Motion Control , 1999 .

[16]  R. Sato,et al.  Friction Compensator for Feed Drive Systems Consisting of Ball Screw and Linear Ball Guide , 2007 .

[17]  Yusuf Altintas,et al.  Sliding Mode Controller Design for High Speed Feed Drives , 2000 .