Journal of the Korean Society of Manufacturing Process Engineers (한국기계가공학회지)

The Korean Society of Manufacturing Process Engineers (한국기계가공학회)
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Design of a Reducer Gear for Small Electric Vehicles

소형 전기자동차용 감속기 설계

  • Lee, Jae-gu (SH Industrial Co. Ltd.) ;
  • Kim, Sung-Hoon (School of Mechanical Eng., ERI, Gyeongsang National Univ.) ;
  • Han, Sung-Gil (School of Mechanical Eng., ERI, Gyeongsang National Univ.) ;
  • Shin, Yoo-In (School of Mechanical Eng., ERI, Gyeongsang National Univ.) ;
  • Song, Chul Ki (School of Mechanical Eng., ERI, Gyeongsang National Univ.)
  • 이재구 (성화산업(주)) ;
  • 김성훈 (경상대학교 기계공학부, ERI) ;
  • 한성길 (경상대학교 기계공학부, ERI) ;
  • 신유인 (경상대학교 기계공학부, ERI) ;
  • 송철기 (경상대학교 기계공학부, ERI)
  • Received : 2020.05.12
  • Accepted : 2020.06.10
  • Published : 2020.09.30
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Abstract

In recent times, fuel economy enhancement and environmental regulation compliance have become the main topics of interest in the automobile industry. Electric vehicles are desirable alternatives to the existing cars that employ internal combustion engines. Specifically, electric vehicles are equipped with inverters, motors, and a gearbox instead of engines and transmission mechanisms. The gearbox is a key component, used to transmit power from the electric motor to the wheel. Therefore, the design of the gearbox is critical. However, most engineers design gears based only on their experience because no standards pertaining to the design factor exist, other than those for the gear ratios. To overcome this problem, the structural stabilities must be examined considering the design factors of the gears. In this study, we considered the module and number of teeth as the main factors. The constraints corresponded to the final gear ratio and fixed distance between each axle of the shafts. Moreover, a structural analysis was conducted, and the variation trend of the maximum equivalent stress against changes in the gear module and number of teeth was examined. By performing such an analysis, the structural stability in the design of a gear system could be effectively investigated.

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References

  1. Karray, M., Chaari, F., Rincon, A., Viadoro, F., and Haddar, M., "An experimental Investigation of the Dynamic Behavior of Planetary Gear Set", Design and Modeling of Mechanical Systems, pp.199-206, 2013.
  2. Balbayev, G. and Ceccarelli, M., "Design and Characterization of a New Planetary Gear Box", Proceedings of the Second Conference MeTrApp, Vol. 17, pp. 91-98, 2014.
  3. Wang, C. Y., "Design of Planetary Gear Reducer with Double Circular-Arc Helical Gear", Journal of AMM Vol. 152-154, pp. 1595-1600, 2012. https://doi.org/10.4028/www.scientific.net/AMM.152-154.1595
  4. Shin, Y. I., Shin, S. H., Oh, T. I., Suh, J. S. and Song, C. K., "Mass Reduction of Transmission Gears for Commercial Vehicles", Korean Society for Precision Engineering, Vol. 29 No. 3, pp. 319-323, 2012. https://doi.org/10.7736/KSPE.2012.29.3.319
  5. Kawalec, A., Wiktor, J. and Ceglarek, D., "Comparative Analysis of Tooth-Root Strength Using ISO and AGMA Standards in Spur and Helical Gears With FEM-based Verification", Journal of ASME Vol.128, pp. 1141-1158, 2006.
  6. Kim, K. T. and Chung, J. S., Application and Technology of Basic Gear, YeMoon Press., 2003.
  7. Hong, J. P., Mechanical Design, Kyobo Press., 2008.
  8. Lim, J. K., Cho, K. J. and Kim, Y. S., Mechanics of Solids, Sigmapress, 1st Ed., pp.501-522, 1996.
  9. Choi, D. K., Introduction to tensor analysis, bumhanbook, 2003.
  10. Choi, C. K., Finite Element Method, Technopress, 1st Ed., pp.1-10, 2002.
  11. WB Mechanical Structural Nonlinearities, 2013.

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