A fast tool feeding mechanism using piezoelectric actuators in noncircular turning

Abstract Piezoelectric actuators have wide applications because of their indefinite resolution and high stiffness, for use in optical devices, measurement systems and ultra-precision machine tools. In noncircular turning, the tools feeding servo should be long-travel, high-frequency and high-precision. In order to meet these requirements, a new flexure-hinge structure is used to amplify the output displacement of piezoelectric actuators. A hybrid of feed-forward control in the disturbance channel, repetitive control and Proportion and Integration control (PI) are also employed to better the tracking precision and robustness of the system.

[1]  Musa Jouaneh,et al.  Modeling hysteresis in piezoceramic actuators , 1995 .

[2]  Tsu-Chin Tsao,et al.  Implementation of a Direct Drive Linear Motor Actuator for Dynamic Control of the Turning Process , 1993, 1993 American Control Conference.

[3]  Toshiro Higuchi,et al.  Development of a High Speed Non-circular Machining NC-lathe for Cutting a Piston-head of a Reciprocating Engine by Use of a New Servomechanism Actuated by Electromagnetic Attractive Force. , 1996 .

[4]  Masayoshi Tomizuka,et al.  Robust adaptive and repetitive digital tracking control and application to a hydraulic servo for noncircular machining , 1994 .

[5]  Thomas A. Dow,et al.  Application of a fast tool servo for diamond turning of nonrotationally symmetric surfaces , 1991 .

[6]  Byung-Sub Kim Control of Multiple Degree of Freedom Fast Tool Stages for Noncircular Turning Process , 2001 .

[7]  Zongxuan Sun,et al.  A mechanistic model-based force-feedback scheme for voice-coil actuated radial contour turning , 2001 .

[8]  S. Hara,et al.  Repetitive control system: a new type servo system for periodic exogenous signals , 1988 .

[9]  Hanz Richter,et al.  Modeling Nonlinear Behavior in a Piezoelectric Actuator , 2001 .

[10]  Nagi G. Naganathan,et al.  Preisach modeling of hysteresis for piezoceramic actuator system , 2002 .

[11]  Michael Goldfarb,et al.  Modeling Piezoelectric Stack Actuators for Control of Mlcromanlpulatlon , 2022 .

[12]  Kunihiko Unno,et al.  Development of a Non-circular High Speed Generating Mechanism by Hybrid System with VCM and PZT. , 1992 .

[13]  H. S. Tzou,et al.  Design of a piezoelectric exciter/actuator for micro-displacement control: theory and experiment , 1991 .

[14]  Seung-Woo Kim,et al.  Improvement of scanning accuracy of PZT piezoelectric actuators by feed-forward model-reference control , 1994 .

[15]  Huixing Zhou,et al.  Repetitive control and its application to linear servo unit for CNC machining of elliptical pistons , 1996, Proceedings of the IEEE International Conference on Industrial Technology (ICIT'96).

[16]  Jong-Ho Park,et al.  Ultra Precision Positining System for Servo Motor-piezo Actuator Using the Dual Servo Loop and Digital Filter Implementation , 1999 .

[17]  Jeong-Du Kim,et al.  Development of a micro-depth control system for an ultra-precision lathe using a piezo-electric actuator , 1997 .

[18]  Bruce A. Francis,et al.  The internal model principle of control theory , 1976, Autom..