CONCEIVING AND IMPLEMENTATION A WORKSTATION
Abstract
The paper presents the realization of a reconfigurable final work station, namely the last post in a manufacturing line. In order to achieve the final station of a product, should be known well the product (in this case a voltage converter used in the car), the assemblies and checks that are made on the manufacturing line on the final station, the station’s ergonomics and possible problems that could come from the manufacturing line. The next step is to choose materials with ESD (electrostatic discharge) properties to make the final station because we use electrostatic charge sensitive materials. Choosing the pneumatic and mechanical drive components that lead to the manufacturing of the electric control panel is the next issue. It is important that the operator performs fewer actions, so he is more efficient and less tired at the end of a working day. The steps of the paper: presentation of the work object, mechanical designing, practical realization of the final station, problems encountered in the initial phase and way of solving.
References
2. Inman, Robert R, Blumenfeld, Dennis E, Huang, Ningjian, Li, Jingshan, Designing production systems for quality: Research opportunities from an automotive industry perspective, International Journal of Production Research, Pages 1953-1971 | Published online: 14 Nov 2010.
3. Y. Koren, U. Heisel, F. Jovane, T. Moriwaki, G. Pritschow, G. Ulsoy, H. Van Brussel, Reconfigurable Manufacturing Systems, CIRP Annals, Volume 48, Issue 2,1999, Pages 527-540.
4. Kamal Kumar Mittal, Pramod Kumar Jain, An Overview of Performance Measures in Reconfigurable Manufacturing System, 24th DAAAM International Symposium on Intelligent Manufacturing and Automation, 2013, Procedia Engineering 69 (2014) 1125 – 1129.
5. Ann-LouiseAndersen, Thomas Ditlev Brunoe, Kjeld Nielsen, Carin Rösiö, Towards a generic design method for reconfigurable manufacturing systems: Analysis and synthesis of current design methods and evaluation of supportive tools, Journal of Manufacturing Systems, Volume 42, January 2017, Pages 179-195.
6. Ko J, Hu SJ. Manufacturing system design considering stochastic product evolution and task recurrence. ASME, Journal of Manufacturing Science and Engineering 2009;131.
7. E. Muncuţ, Gh. Sima, D. Mortoiu, Sisteme de fabricatie flexibile-Roboţi industriali,141 pagini, Ed. Universităţii Aurel Vlaicu, 2013, ISBN 978-973-752-670-0.
Muncut E., Perianu A., Glavan D., Sima Gheorghe, Structural Analysis for Joining Dissimilar Thin Sheets with CMT (Cold Metal Transfer) Process, Structural Integrity of Welded Structures XI 03-05.06.2015, Advanced Materials Research ISSN 1022-6680, volume 1111, pp. 49-55. https://goo.gl/hpD6yw
8. Gheorghe Sima, Ramona Lile, Glăvan Dan and Elena Muncut, Management, Traceability and Control and Industrial Processes, Proceedings of the 6th International Workshop on Soft Computing Applications SOFA 2014, Volume 1.
