Abstract
Machining of parts on the metal-cutting machine tools could not be ensured without the use of fixtures. They are an integral part of the closed-loop technological system “machine tool – fixture – cutting tool – workpiece” and make the significant impact on the accuracy and quality of machining of machine parts surfaces. The work presents the structural stages of computer-aided fixture design and determines the data flows between them to ensure the comprehensive approach. The process-oriented model of fixture design process has been developed, which provides the manufacturing analysis of the workpiece, synthesis and optimization of fixture configurations, verification of the mechanical system “fixture – workpiece” for set production conditions, and functional links and data flows between stages have been determined. The above-mentioned allows realizing a comprehensive approach to the computer-aided fixture design in multiproduct manufacturing.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Bi, Z.M., Lang, S.Y.T., Verner, M., Orban, P.: Development of reconfigurable machines. Int. J. Adv. Manuf. Technol. 39(11–12), 1227–1251 (2008)
Trojanowska, J., Varela, M.L.R., Machado, J.: The tool supporting decision making process in area of job-shop scheduling. In: Rocha, A., Correia, A., Adeli, H., Reis, L., Costanzo S. (eds.) Recent Advances in Information Systems and Technologies. WorldCIST 2017. Advances in Intelligent Systems and Computing, vol. 571, pp. 490–498. Springer (2017)
Duplakova, D., Knapcikova, L., Radchenko, S., Hatala, M.: Software support of modelling using ergonomic tools in engineering. TEM J. 6(3), 567–571 (2017)
Trojanowska, J., Kolinski, A., Galusik, D., et al.: A methodology of improvement of manufacturing productivity through increasing operational efficiency of the production process. In: Hamrol, A., Ciszak, O., Legutko, S., Jurczyk, M. (eds.) Advances in Manufacturing, pp. 23–32. Springer (2018)
Brezikova, K., Hatala, M., Duplak, J., et al.: Proposal of measuring fixture for serial production. MM Sci. J., 1082–1085, October 2016
Karpus’, V.E., Ivanov, V.A.: Universal-composite adjustable machine-tool attachments. Russ. Eng. Res. 28(11), 1077–1083 (2008)
Erdem, I., Levandowski, C., Berlin, C., et al.: A novel comparative design procedure for reconfigurable assembly fixtures. CIRP J. Manuf. Sci. Technol. 19, 93–105 (2017)
Forstmann, R., Wagner, J., Kreiskother, K., et al.: Design for automation: the rapid fixture approach. Proc. Manuf. 11, 633–640 (2017)
Boyle, I., Rong, Y., Brown, D.: A review and analysis of current computer-aided fixture design approaches. Int. J. Robot. Comput. Integr. Manuf. 27(1), 1–12 (2011)
Pehlivan, S., Summers, J.: A review of computer-aided fixture design with respect to information support requirements. Int. J. Prod. Res. 46(4), 929–947 (2008)
Rong, Y., Huang, S.H., Hou, Z.: Advanced Computer-Aided Fixture Design. Elsevier Academic Press, New York (2005)
Nee, A.Y.C., Senthil Kumar, A., Tao, Z.J.: An Advance Treatise on Fixture Design and Planning. World Scientific, Singapore (2004)
Mihaylov, O., Nikolcheva, G.: An integrated RBR fixture design system. In: Mudrik, R., Vit, O., Basova, P., et al. (eds.) CBU International Conference on Innovations in Science and Education, vol. 5, pp. 1175–1180. CBU (2017)
Bi, Z.M., Zhang, W.J.: Flexible fixture design and automation: review, issues and future directions. Int. J. Prod. Res. 39(13), 2867–2894 (2001)
Kang, X., Peng, Q.: Recent research on computer-aided fixture planning. J. Recent Patents Mech. Eng. 2(1), 8–18 (2009)
Vukelic, D., Tadic, B., Luzanin, O., et al.: A rule-based system for fixture design. Sci. Res. Essays 6(27), 5787–5802 (2011)
Parvaz, H., Nategh, M.J.: A pilot framework developed as a common platform integrating diverse elements of computer aided fixture design. Int. J. Prod. Res. 51(22), 6720–6732 (2013)
Parvaz, H., Nategh, M.J.: Development of an efficient method of jamming prediction for designing locating systems in computer-aided fixture design. Int. J. Adv. Manuf. Technol. 86(9–12), 2459–2471 (2016)
Zhang, F.P., Wu, D., Zhang, T.H., et al.: Knowledge component-based intelligent method for fixture design. Int. J. Adv. Manuf. Technol. (2017)
Wang, H., Rong, Y., Li, H., Price, S.: Computer-aided fixture design: recent research and trends. J. Comput.-Aided Des. 42(12), 1085–1094 (2010)
Karpus, V.E., Ivanov, V.A.: Choice of optimal construction of modular reusable fixtures. Russ. Eng. Res. 32(3), 213–219 (2012)
Ivanov, V., Vashchenko, S., Rong, Y.: Information support of the computer-aided fixture design system. In: Proceedings of 12th International Conference ICTERI’ 2016, vol. 1614, pp. 73–86, CEUR-WS (2016). CEUR-WS.org
Acknowledgements
This research was partially funded by the Ministry of Education and Science of Ukraine within research Projects No. 0117U002252 and 0117U003931.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer International Publishing AG, part of Springer Nature
About this paper
Cite this paper
Ivanov, V. (2019). Process-Oriented Approach to Fixture Design. In: Ivanov, V., et al. Advances in Design, Simulation and Manufacturing. DSMIE 2019. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-319-93587-4_5
Download citation
DOI: https://doi.org/10.1007/978-3-319-93587-4_5
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-93586-7
Online ISBN: 978-3-319-93587-4
eBook Packages: EngineeringEngineering (R0)