한국공작기계학회논문집 (Transactions of the Korean Society of Machine Tool Engineers)

한국생산제조학회 (The Korean Society of Manufacturing Technology Engineers)
권호 표지

디지털 마이크로 밀링머신의 조립성 분석

Analysis of Assembly Relationship for Digital Micro Milling Machine

  • 최성일 (충남대학교 대학원 기계.기계설계.메카트로닉스공학부) ;
  • 무랄리 (충남대학교 BK21 메카트로닉스사업단) ;
  • 박상호 (충남대학교 BK21 메카트로닉스사업단)
  • 발행 : 2007.10.15
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초록

Assembly is mentioned as important process saving time and cost where we produce the machine with many parts relationships. In this study, parts assembly relationship is analysed for assembly information of micro milling machine which have been developing for research. Liaison diagram, datum flow chain and assembly tree are applied to discuss assembly characteristics of micro milling machine model. We can find out the characteristics of micro machine assembly and discuss about facility of assembly. Some analysis in this paper about micro milling machine will give a useful tools for assembly. We knew that the predicted results from analysis in this study are alignment and clearance among the parts. The 3D model of micro machine which is studied in this paper is not a complete model. Main parts of a micro milling machine are used and presented.

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참고문헌

  1. Koren, Y. and Ulsoy, A. G., 1997, 'Reconfigurable Manufacturing Systems, engineering Research Center for Reconfigurable Machining Systems (ERC/RMS),' Report #1, The Univ. of Michigan, Ann Arbor
  2. Choi, S. I., Park, S. H. and Jung, Y. S., 2007, 'Micro-factory Evaluation Through Digital Assembly Simulation,' Transactions of the Korean Society of Machine Tool Engineers, Vol. 16, No. 2, pp. 78-83
  3. Park, S. H., Choi, S. I. and Jung, Y. S., 2007, 'UML Analysis and Digital Model Implementation for Micro-factory,' Transactions of the Korean Societyof Machine Tool Engineers, Vol. 16, No. 3, pp. 44-49
  4. Lee, C. W., Song, J. Y. and Ha T. H., 2005, 'The Design of a Self Adjustment Module for ${\mu}-part$ Assembly,' Proceedings of the Korean Society of Machine Tool Engineers Spring Conference 2005, pp. 401-406
  5. Gauthier, M., Heriban, D., Regnier S., Gendreau D., Regnier S., Lutz P. and Chaillet N., 2006, 'Microfactory for submerged Assembly: Interests and Architectures,' International Workshop on Micro Factories
  6. Dafflon, M., Lorent, B., Clavel R., Beyeler F. and Nelson B. J., 2006, 'Characterization of Micro Manipulation Tasks Operated with Various Controlled Conditions by Micro Tweezers,' International Workshop on Micro Factories
  7. Dafflon, M. and Lorent, B., Driesen W. and Clavel R., 2006, 'Characterization of an inertial Micro Gripper Base on Adhesion force,' International Workshop on Micro Factories
  8. Beatriz Lopez, W., Michael, G. and Nicolas, C., 2006, 'Principle of a Submerged freez Microgripper,' International Workshop on Micro Factories
  9. Bohringer, K. F., Fearing, R. S. and Goldberg, K. Y., 1999, 'Microassembly,' handbook of Industrial robotics, Chapter 55, Wiley, New York, NY, pp. 1045-1066
  10. Arai, F., Ando, D., Fukuda, T., Nonoda, Y. and Oota, T., 1995, 'Micro manipulation based on micro physics,' In Proceedings of the 1995 IEEE/RSJ International Conference on Intelligent Robots and systems, pp. 236-241
  11. Moll, M., Goldberg, K., Erdmann M. A. and Fearing, R., 2002, 'Aligning parts for micro assemblies,' Assembly automation, Vol. 22, No. 1, pp.46-54 https://doi.org/10.1108/01445150210416673
  12. Whitney, D. E. 2004, Mechanical Assemblies: Their Design, Manufacture, and Role in Product Development, Oxford University Press