Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Reconfigurable Machine Tool (RMT) is the active issue to realize both the flexibility and productivity of manufacturing systems and satisfy the mass-customization production. The purpose of this paper is to present a RMT design methodology. Specifically, the part analysis and the RMT architectural modelling. The method of RMT design is focused on a simultaneous machining process using multi-spindle in a single RMT. Based on the concept of machining features, the process data, retrieved as a starting point in identifying various functions necessary to carry out a given part family, are displayed. Moreover, geometrical and kinematical architectures of RMT are defined as a result of the specification of all manufacturing processes of features to be machined. Where, all architectural solutions and the criterions related to select the suited solution are presented. Our methodology presents all activities allowing to pass from machining features of part to be machined to the structure of RMT.
Czasopismo
Rocznik
Tom
Strony
19--32
Opis fizyczny
Bibliogr. 22 poz., tab., rys.
Twórcy
autor
- Laboratoire de Génie Industriel et de Production Mécanique (LGIPM)-ENSAM 4 rue Augustin Fresnel 57078 METZ-cedex 3
autor
- Laboratoire de Génie Industriel et de Production Mécanique (LGIPM)-ENSAM 4 rue Augustin Fresnel 57078 METZ-cedex 3
autor
- Laboratoire de Génie Industriel et de Production Mécanique (LGIPM)-ENSAM 4 rue Augustin Fresnel 57078 METZ-cedex 3
Bibliografia
- 1. ALADAD H., D'ACUNTO A., MARTIN P, Machine-Outil Reconfigurable., Définition d'architecture geométrique. Conception et production intégrées, 22, 23 & 24 Octobre 2007.
- 2. ALADAD H., D'ACUNTO A., MARTIN P., Geometrical and Kinematical Design of Reconfigurable Machine tool, XVII Workshop, Karpacz, 2007.
- 3. D'ACUNTO., A., MARTIN P., ALADAD H., Design of Reconfigurable Machine Tool: Structural Creating and Kinematical Model, Proc. 40th CIRP International Manufacturing Systems Seminar, Liverpool 30 May-1, June 2007.
- 4. GARRO O., MARTIN P., Shiva a Multiarms Machine Tool, Annal of CIRP, 1993, 42, 433-436.
- 5. KOREN Y, MORIWAKI T, VAN BRÜSSEL H., Reconfigurable Manufacturing Systems, Annal of the CIRP, 48, 1999,527-540.
- 6. MEHRABI M.G., ULSOY A.C., KOREN Y., Reconfigurable Manufacturing Systems and Their Enabling Technologies, University of Michigan, Annal Arbor, 2000,48109-2125.
- 7. CEVDET G., Machine Capability and Fixturing Constraints-imposed Automatic Machining set-ups Generation, Journal of Material Processing Technology, 148, 2004, 83-92.
- 8. PARIS H., Contribution à la cooperation multi-acteurs : modelisation des contraintes de fabrication pour la conception simultanée d'un produit et de son process de fabrication. Rapport de synthèse en vued'obtenir l'habilitation à diriger des recherches, 2003.
- 9. TOLLENAERE M., Conception de Produits Mécaniques, Booic, 1998, Paris, Hermès.
- 10. CORDEBOIS JP., Fabrication par Usinage, Book, 2003, Paris.
- 11. ANSELMETTIB., MEJBRI H, Functional talerancing of complex mechanisms: Identification and specification of key parts. Computers & Industrial Engineering, Vol. 49, Issue 2, 2005, 241.
- 12. MARTIN P., ALAIN D., Design of a Production System: an Application of Integratin product-process, Proceedings of the 1 st CIRP, University of Durham 2002.
- 13. MOON Y., KOTA S., Design of Reconfigurable Machine Tools, Journal of Manufacturing Science and Engineering, 124, 2002,1-3.
- 14. LANDERS RG., KOREN Y., Reconfigurable Machine Tool, Annal of the CIRP, 2001, 50, 269-274.
- 15. SPICER P., KOREN Y., Design Principles for Machining System Configuration, Annal of the CIRP,51, 2002, 275-280.
- 16. CHEN F.C., On the structural configuration synthesis and Geometry of Machine Centres, Proc Instn Mech Engrs, 215, 2000, 641-652.
- 17. BOHEZ E.L.J., Five-axis milling machine tool kinematic chain design and analysis. Journal of Machine tools nd Manufacture, 42, 2002, 505-520.
- 18. TUTUNEA-FATAN O, FENG H.Y., Configuration analysis of five-axis machine tools using a generic kinematic model. Journal of Machine tools and Manufacture, 44, 2004,1235-1243.
- 19. HASCOET J., BENNIS F., RISACHER P., Choix de configuration de machine-outil: Determination des Visibilités réelles, Frist international conference: IDMME, Nantes, France, 1996.
- 20. SEO Y., KIM T., Structure Modeling of Machine Tools and Internet-Based Implementation, Conference, 2005, 1699-1704.
- 21. KRAMER T.R., HUANG H., MESSINA E., PROCTOR F.M., SCOTT H., Feature-based inspection and machining system. Computer-Aided Design, 2001, 33-653-669.
- 22. SENTHIL KUMAR A., FUH J.Y.H., KOW T.S., An automated design and assembly of interference-free modular fixture setup, Computer-Aided Design, 2000, 32-583-596.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bb912710-0689-43a0-ba01-84359d33ad3a