Experimental investigation of the performance of a reconfigurable fixturing system

A reconfigurable fixturing system has been developed for computer-integrated assembly environments. The fixturing system employs a number of fixture modules that are set-up, adjusted and changed automatically by the assembly robot without human intervention. A commercially available computer-aided design (CAD) package with the help of a dedicated software program is used for the design, analysis, and verification of the fixture layout. The robot program for setting-up, adjusting, and dismantling the designed fixture is generated automatically. This paper presents and discusses the accuracy of such a reconfigurable fixturing system in view of the off-line programming techniques. The experimental techniques to measure the accuracy and repeatability for setting-up the fixture are presented. The measured results of the robot positioning various types of locating fixture modules are presented and compared with the intended position settings. From the comparison, the accuracy that is to be expected from such an approach to fixturing and measures for improvement are discussed. The cycle times involved in setting-up the fixture modules are also presented and analysed. These results provide an initial guide for manufacturing industries interested in employing such systems in their computer-integrated assembly environment.

[1]  J. Cabadaj Theory of computer aided fixture design , 1990 .

[2]  Amy J. C. Trappey,et al.  Automated fixture configuration using projective geometry approach , 1993 .

[3]  Brian S. Thompson,et al.  The computer-aided design of modular fixturing systems , 1987 .

[4]  Bijan Shirinzadeh CAD-based design and analysis system for reconfigurable fixtures in robotic assembly , 1994 .

[5]  Brian S. Thompson,et al.  Automated design of modular fixtures for flexible manufacturing systems , 1986 .

[6]  Bartholomew O. Nnaji,et al.  Rules for an expert fixturing system on a CAD screen using flexible fixtures , 1990, J. Intell. Manuf..

[7]  Brian S. Thompson FLEXIBLE FIXTURING - A CURRENT FRONTIER IN THE EVOLUTION OF FLEXIBLE MANUFACTURING CELLS. , 1984 .

[8]  Bijan Shirinzadeh,et al.  Issues in the design of the reconfigurable fixture modules for robotic assembly , 1993 .

[9]  Y. B. Kavina,et al.  Factors affecting robot performance , 1991 .

[10]  C. R. Liu,et al.  A literature survey of fixturedesign automation , 1990 .

[11]  Joachim O. Berg,et al.  ROBOT CALIBRATION FOR OFF‐LINE PROGRAMMING , 1991 .

[12]  Jack Hollingum ROBOTS FREE‐RANGE BETWEEN TOWN AND GOWN , 1991 .

[13]  B. S. Thompson,et al.  Commentary on Flexible Fixturing , 1986 .

[14]  Lucy Siu-Bik King,et al.  Theoretical approach for generating optimal fixturing locations for prismatic workparts in automated assembly , 1993 .

[15]  Vladimir Dukovski,et al.  Robot accuracy and stiffness—An experimental study , 1990 .

[16]  J. C. Trappey,et al.  A LITERATURE SURVEY OF FIXTURE- DESIGN AUTOMATION , 1990 .

[17]  Duc Truong Pham,et al.  Autofix—an expert CAD system for jigs and fixtures , 1990 .

[18]  H.J.J. Kals,et al.  FIXES, a system for automatic selection of set-ups and design of fixtures , 1988 .

[19]  Amy J. C. Trappey,et al.  Fixture configuration using projective geometry , 1993 .

[20]  G. Duelen,et al.  Robot calibration—Method and results , 1991 .

[21]  József Váncza,et al.  Automating fixture design—from imitating practice to understanding principles , 1990 .