Abstract
The design and manufacture of fixtures and other dedicated tooling for positioning of workpieces are among the major cost drivers in product industrialization. This has spurred research and commercial interest towards other fixturing solutions like reconfigurable fixtures, with the ability to be changed, or “reconfigured”, to suit different parts and products. When reconfiguring, the product interface not only has to be moved but moved to a desired position and orientation. Several different approaches have been used to move and position these devices, all with their own advantages and disadvantages. This article presents different methods used to position and reconfigure flexible fixture devices using a parallel kinematic device as a case. Discussing the different ways to reconfigure a flexible device, the article aims to arrange the techniques according to their key features.
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References
Asada H, By AB (1985) Kinematic analysis of workpart fixturing for flexible assembly with automatically reconfigurable fixtures. IEEE J Rob Autom RA-1(2):86–94
Bi ZM, Zhang WJ (2001) Flexible fixture design and automation: review, issues and future directions. Int J Prod Res 39(13):2867–2894
Bone GM, Capson D (2003) Vision-guided fixtureless assembly of automotive components. Rob Comput Integrat Manuf 19(1):79–87
ElMaraghy HA (2005) Flexible and reconfigurable manufacturing systems paradigms. Int J Flex Manuf Syst 17(4):261–276
Gandhi MV, Thompson BS (1986) Automated design of modular fixtures for flexible manufacturing systems. J Manuf Syst 5(4):243–252
Hazen FB, Wright PK (1990) Workholding automation: innovations in analysis, design, and planning. Manuf Rev 3(4):224–237
Kihlman H (2005) Affordable automation for airframe assembly–development of key enabling technologies. Ph.D. thesis, Deparment of Management & Engineering, Linkoping University
Kihlman H, Anderson J, Ossbahr G, Engstrom M (2004) Low-cost automation for aircraft assembly. In: SAE 2004 aerospace manufacturing & automated fastening conference & exhibition. SAE international, St Louis Missouri, USA
Koren Y (2006) General RMS characteristics. Comparison with dedicated and flexible system. Reconfigurable manufacturing systems and transformable factories. Springer, Heidelberg, pp 27–45
Mehrabi MG, Ulsoy AG, Koren Y (2000) Reconfigurable manufacturing systems: key to future manufacturing. J Intell Manuf 11(4):403–419
Sela MN, Gaudry O, Dombre E, Benhabib B (1997) A reconfigurable modular fixturing system for thin-walled flexible objects. Int J Adv Manuf Technol 13(9):611–617
Shen CH, Lin YT, Agapiou JS, Bandyopadhyay P (2006) Reconfigurable fixtures for automotive engine machining and assembly applications. Springer, Heidelberg, pp 155–194
Shirinzadeh B (1995) Flexible and automated workholding systems. Ind Robot Int J 22(2):29–34
Shirinzadeh B, Tie Y (1995) Experimental investigation of the performance of a reconfigurable fixturing system. Int J Adv Manuf Technol 10(5):330–341
Yashima M, Kimura H (1993) Intelligent fixture for automatic assembly by robot–basic theory. In: Proceedings of the 1993 IEEE/RSJ international conference on intelligent robots and systems ’93 (IROS ’93), vol 2, pp 856–863
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Jonsson, M., Ossbahr, G. Aspects of reconfigurable and flexible fixtures. Prod. Eng. Res. Devel. 4, 333–339 (2010). https://doi.org/10.1007/s11740-010-0256-z
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DOI: https://doi.org/10.1007/s11740-010-0256-z