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

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

An Optimum Design Method of Hypoid Gear by Minimizing Volume

하이포이드 기어의 체적 최소화 최적 설계

  • Published : 2007.12.15
Download PDF
⟨ Previous Next ⟩

Abstract

The hypoid gear has advantage for the high reduction ratio and compactness. But, geometry design and strength evaluation of the hypoid gear depend on the machine tool of specific production companies because the geometry design and strength evaluation of the hypoid gear are complex and difficult. This paper proposes the development of the design programs to satisfying the geometry and strength of a hypoid gear through optimization technique using the genetic algorithm. The genetic algorithm is designed to optimize a method for minimizing volume. The existing design of hypoid gear in the forklift truck axle is compared with the results of developed optimum design program.

Keywords

References

  1. Chong, T. H., Lee, K. H., Lee, G. H., Bae, I. H., Park, S. H. and Kim, D. S., 2006, 'Parameter Analysis of Hypoid Gear Strength and Durability', Proceedings of KSMTE Spring Conference, pp. 409-414
  2. Kim, Y. B. and Lee, C. W., 1982, 'Spectrum Analysis of Hypoid Gear Vibration', Trans. KSME, Vol. 6, No. 4, pp. 346-352
  3. Kim, T. H., Kim, H. S., Han, S. Y., Kang, H. Y. and Yang, S. M., 1994, 'A Study on the Reliablility and Life of Hypoid Gear Axle', Proceedings of KSAE Spring Conference, pp. 533-538
  4. Ito, N. and Takahashi, K., 2000, 'Differential Geometrical Conditions of Hypoid Gears with Conjugate Tooth Surfaces', Trans. ASME, Journal of Mechanical Design, Vol. 122, pp. 323-330 https://doi.org/10.1115/1.1286236
  5. Chong, T. H. and Lee, J. S., 2002, 'Optimum Design of Gear Train Systems Using a Genetic Algorithm', Proceedings of KSME Spring Conference, Vol. A, pp. 654-659
  6. Bae, I. H., Chong, T. H., Lee, G. H., Lee, K. H., Park, S. H. and Kim, Y. S., 2006, 'Optimum Design of Hypoid Gears', Proceedings of KSMTE Spring Conference, pp. 421-425
  7. Chong, T. H., Park, J. H. and Lee, J. S., 2006, 'Optimum Design of Multi-Stage Gear Drive Considering Volume and Reliability', Proceedings of KSMTE Autumn Conference, pp. 368-375
  8. ISO 23509, 2006, Bevel and Hypoid Gear Geometry, International Organization for Standardization
  9. AGMA 932-A05, 2005, Rating the Pitting Resistance and Bending Strength of Hypoid Gears, American Gear Manufacturers Association
  10. AGMA 2003-B97, 1997, Rating the Pitting Resistance and Bending Strength of Generated Straigth Bevel, Zerol Bevel and Spiral Bevel Gear Teeth, American Gear Manufacturers Association