Abstract
The problems arising in the automation of multiproduct small batch production in mechanical engineering due to necessity to ensure its high flexibility are indicated. It is shown that the automation level of such a production can be effectively increased by the organization of a group production and the part orientation of equipment. In so doing it is useful to group parts on the basis of their standard images and enrichment elements. The use of standard image concept promotes the integration of design and manufacturing and creates the prerequisites for the automation of design. The planning of group production organized on the basis of standard images and enrichment elements realizes by regrouping the “parts-setting-ups” matrix. The method of matrix regrouping facilitating the group production planning is proposed. The described principles of organizing the computer-aided design and manufacturing on the basis of standard images and enrichment elements have been used in constructing the integrated system KAPRI intended for pilot production with a variable range of parts.
Similar content being viewed by others
References
E.O. Adamov and S.M. Dukarskii, The complex system of computer-aided design and manufacturing of products at small-batch machinery production, Problemy mashinostroeniya i avtomatizatsii, N5 (1985) 45–53 (in Russian).
E.O. Adamov, V.G. Gnedenko, S.M. Dukarskii et al., Integrated system development problems at machinery pilot production. Preprints of the 5th IFAC Symposium on Information Control Problems in Manufacturing Technology. Suzdal, April 22–25, 1986, -Moscow, IFAC, 1986, pp. 132–138.
A.V. Proskuryakov, V.F. Kravchenko and D.S. Kazak, Flexibility of production systems: Methodology of analysis and assessment, Vestnik mashinostroeniya, N7 (1986) 63–68 (in Russian).
J. Browne, D. Dubois, K. Rathmill et al., Classification of flexible manufacturing systems, The FMS Magazine 2 (1984) 114–117.
S.P. Mitrofanov, Group technology in mechanical engineering, Vol. 1, Organization of group production (Mashinostroenie, Leningrad, 1983) (in Russian).
S.L. Taller, The basic principles of constructing the Unified System of Part Classification, Standarty i kachestvo (1984) 28–30 (in Russian).
S.L. Taller and S.I. Razevskii, On improvement of technological classifier of parts, Standarty i kachestvo (1983) 40–43 (in Russian).
W.T. McCormick, P.J. Schweitzer and T.W. White, Problem decomposition and data reorganization by a clustering technique, Operations Research 20, N.5 (1972) 993–1009.
K.R. Kumar, A. Kusiak and A. Vannelly, Grouping of parts and components in flexible manufacturing systems, European Journal of Operational Research 24 (1986) 387–397.
E.O. Adamov, S.M. Dukarskii and D.A. Koryagin, The integrated machine manufacturing system KAPRI, Mikroprotsessornye sredstva i sistemy, No. 4 (1985) 53–56 (in Russian).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Adamov, E.O., Dukarskii, S.M. A principle of construction of an integrated machine manufacturing system. Ann Oper Res 17, 1–11 (1989). https://doi.org/10.1007/BF02096595
Issue Date:
DOI: https://doi.org/10.1007/BF02096595