Abstract
Reconfigurable machine tools (RMT) have emerged as a potential solution to meet the demand for rapid adaptation in the next generation manufacturing systems. While a significant amount of research in RMT design is available, formal design methodologies are still under development. In previous work, a modularity framework technique for the development of RMT modules was outlined. The technique focused on module functionality and constructability. While in general these characteristics are critical for the survival of any product, specific characteristics of RMT were not easily addressed by the proposed methodology. In particular, convertibility, in the form of upgradeability and adaptability, was not addressed. This article presents an enhanced modularity framework that takes into consideration the intended evolution lines of the reconfigurable machine tool. The basic principles are outlined and applied to the design of a machine tool for metal working. Recommendations for future enhancements to the framework are made, in particular, the possibility of developing a convertibility index to facilitate evaluation of candidate designs is discussed.
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References
Bi, Z.M., Zhang, W.J.: Modularity Technology in Manufacturing: Taxonomy and Issues. Int. J. Adv. Manuf. Technol. 18, 381–390 (2001)
Perez, R., Aca, J., Valverde, A., Ahuett, H., Molina, A., Riba, C.: A modularity framework for Concurrent Design of Reconfigurable Machine Tools. In: Luo, Y. (ed.) CDVE 2004. LNCS, vol. 3190, pp. 87–95. Springer, Heidelberg (2004)
Engineering Research Center for Reconfigurable Manufacturing Systems, National Science Foundation (ERCRMS) (2002), http://ercrms.engin.unmich.edu/Research/Research.html
Moon, Y.M., Kota, S.: Design of Recofigurable Machine Tools. Transactions of the ASME: Journal of Manufacturing Science and Engineering 124, 480–483 (2002)
Huan, C.C., Liang, W.Y.: A formalism for Designing with Modules. Journal of the Chinese Institute of Industrial Engineers 18(3), 13–90 (2001)
Newcomb, P.J., Brass, B., Rosen, D.W.: Implications of Modularity on Product Design for the Life Cycle. Transactions of the ASME: Journal of Mechanical Design 120, 483–490 (1998)
Rogers, G.G., Bottaci, L.: Modular Production Systems: a new manufacturing paradigm. Intl. J. of Intelligent Manufacturing 8(2), 147–156 (1997)
Marshall, R., Leaney, P.G.: A system engineering approach to product modularity. In: Proceedings of the Institution of Mechanical Engineers. Part B, vol. 213, pp. 847–851
Zatarain, M., Lejardi, F., Egana, F.: Modular Synthesis of Machine Tools. Annals of the CIRP 47(1) (1998)
Koren, Y., Kota, S.: Reconfigurable Machine Tools, U.S. Patent 5,943,750 (1999)
Aberdeen Group, PLM — It’s for Any Manufacturer Striving for Product Excellence, Executive White Paper, Boston, Massachusetts (July 2002)
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Ahuett, H., Aca, J., Molina, A. (2005). A Directed Evolution Modularity Framework for Design of Reconfigurable Machine Tools. In: Luo, Y. (eds) Cooperative Design, Visualization, and Engineering. CDVE 2005. Lecture Notes in Computer Science, vol 3675. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11555223_27
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DOI: https://doi.org/10.1007/11555223_27
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