3D parametric modeling prototype internal combustion engine means Delcam of PowerSHAPE

Authors

DOI:

https://doi.org/10.15587/1729-4061.2013.18470

Keywords:

CAD/CAM systems, automobile engines, geometric calculations, reliability, Delcam plc systems

Abstract

The features of using computer-aided design systems and modern technologies in the automobile industry are considered in the paper. Methods of using modern information technologies and systems for modeling the structure of internal combustion engines are proposed. The advantages of combining CAD and CAM systems in particular software products are emphasized. Approaches to using Delcam plc products are justified, the sequence of design for ensuring an optimum design solution is specified.

The requirements and risk analysis for designing internal combustion engines are given. Special attention was paid to the problem of geometric calculations of the crank mechanism parts when modeling cranks and pistons. An algorithm for constructing the 3D- model of internal combustion engine prototype with increased capacity, without changing the body size, is considered. Design algorithm consists of four stages, each of them determines the final shape of all construction parts.

Author Biography

Павло Сергійович Носов, Odessa National Polytechnic University p, 1, Odessa, Ukraine, 65044

Ph.D., Associate Professor

Department of Science Training

References

  1. Nosov, P. S. 3D modelling of rehabilitation corset with use of PowerSHAPE Delcam [Текст] / A. D. Yalansky, V. О. Іakovenko. Інформаційні технології в освіті, науці та виробництві. Збірник наукових праць — Вип. 1(2) — Одеса: Наука і техніка, - 2012. С. 222-231.
  2. Sung, H. Internet-based CAD/CAM System [Текст] / V. Sundararajan. Mechanical Engineering and Computer Science. ASME Journal of Computing and Information Science in Engineering, Vol.1, No. 1, 2001.
  3. Gupta, S. K. Integrating DFM with CAD through design critiquing [Текст] / W. C. Regli, D. S. Nau. Concurrent Engineering: Research and Applications, Vol. 2, No. 2, - 1994. pp. 85-95.
  4. Shah, J. J. Parametric and Feature-Based CAD/CAM [Текст] / M. Mantyla. Concepts, Techniques and Applications, A Wiley-Interscience Publication, John-Wiley & Sons, Inc. 1995.
  5. Wang, Hui-Fen. CAD/CAM integrated system in collaborative development environment [Текст] / You-Liang Zhang. School of Manufacturing Engineering, Nanjing University of Science and Technology, Nanjing 210094, People's Republic of China. 2013.
  6. Radhakrishnan, Srinivasan. Finger-based multitouch interface for performing 3D CAD operations [Текст] / Yingzi Lin, Ibrahim Zeid, Sagar Kamarthi. International Journal of Human-Computer Studies. Academic Press, Inc. 2013.
  7. Lin, Bor-Tsuen. Application of an integrated CAD/CAE/CAM system for stamping dies for automobiles [Текст] / Chun-Chih Kuo. The International Journal of Advanced Manufacturing Technology January 2008, Volume 35, Issue 9-10, pp 1000-1013.
  8. Zeid, Ibrahim. Mastering Cad/Cam [Текст] / McGraw-Hill, Inc. 2004.
  9. Zeid, Ibrahim. CAD/Cam Theory and Practice [Текст] / McGraw-Hill Higher Education. 1991.
  10. Носов, П.С. Побудова складальних вузлів двигунів внутрішнього згоряння засобами САПР у 3D [Текст] / П.С. Носов. Збірник наукових праць за матеріалами Всеукраїнської науково-практичної конференції „Інновації у підготовці фахівців технологічної, професійної освіти та готельно-ресторанного бізнесу”. – Херсон: Видавництво ХДУ, 2012. – С. 88-93.
  11. Nosov, P., Yalansky, A., Іakovenko, V. (2012). 3D modelling of rehabilitation corset with use of PowerSHAPE Delcam. Information technology in education, science and industry. Issue. 1(2) Ukraine, Odessa: ONPU, 222-231.
  12. Sung, H., Sundararajan, V. (2001). An Internet-based CAD/CAM System. Mechanical Engineering and Computer Science. ASME Journal of Computing and Information Science in Engineering, Vol.1, No. 1. American Society of Mechanical Engineers New York: NY, USA, 52-59.
  13. Gupta, S. K., Regli, W. C., Nau, D. S. (1994). Integrating DFM with CAD through design critiquing. Concurrent Engineering: Research and Applications, Vol. 2, No. 2, University of Maryland College Park: USA, 85-95.
  14. Shah, J.J., Mantyla, M. (1995). Parametric and Feature-Based CAD/CAM Concepts, Techniques and Applications. A Wiley-Interscience Publication, John-Wiley & Sons: USA, 619 р.
  15. Wang, Hui-Fen, Zhang, You-Liang. (2013). CAD/CAM integrated system in collaborative development environment. School of Manufacturing Engineering, Nanjing University of Science and Technology. Nanjing 210094, People's Republic of China, 110-127.
  16. Radhakrishnan, S., Lin, Y., Zeid, I., Sagar K. (2013). Finger-based multitouch interface for performing 3D CAD operations. International Journal of Human-Computer Studies. Academic Press: USA, 261-275.
  17. Lin, B., Kuo, С. (2008). Application of an integrated CAD/CAE/CAM system for stamping dies for automobiles. The International Journal of Advanced Manufacturing Technology January. Volume 35, Issue 9-10, pp 1000-1013.
  18. Ibrahim, Z. (2004). Mastering Cad/Cam. McGraw-Hill, Inc: USA, 992 р.
  19. Ibrahim, Z. (1991). CAD/Cam Theory and Practice. 1st edition. McGraw-Hill Higher Education: USA, 1052 р.
  20. Nosov, P.S. (2012). Construction of sub-assemblies of internal combustion engines by means of a 3D CAD. Compilation of scientific works based on the all-Ukrainian scientific-practical conference "Innovations in technology training, vocational education, hotel and restaurant business." Issue 1(1) Ukraine, Kherson KSU: p. 88-93.

Published

2013-10-31

How to Cite

Носов, П. С. (2013). 3D parametric modeling prototype internal combustion engine means Delcam of PowerSHAPE. Eastern-European Journal of Enterprise Technologies, 5(7(65), 11–14. https://doi.org/10.15587/1729-4061.2013.18470

Issue

Section

Applied mechanics