Analysis of Power-Split for the Transmission System Based on Deformation Compatibility

Xiao Fang Yang; Zong De Fang; Yong Zhen Zhang; Yuan Fei Han

doi:10.4028/www.scientific.net/AMM.441.291

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 441Analysis of Power-Split for the Transmission...

Analysis of Power-Split for the Transmission System Based on Deformation Compatibility

Abstract:

In this study, the mechanical structural model of helical gear tri-branching transmission system has been established to analyze the power-split characteristics. For the purpose of calculating power-split value, a simplified algorithm is developed through formulating the deformation compatibility condition and the torque equilibrium condition. Under the elastic support, the static equilibrium equations should be built to calculate the power-split under different conditions based on the projection of installation error and elastic deformation on the line of action as described. A numerical example was provided to illustrate the developed theory. The research results herein would be done to improve the applicability of tri-branching transmission.

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Periodical:

Applied Mechanics and Materials (Volume 441)

Pages:

291-294

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.441.291

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Online since:

December 2013

Authors:

Xiao Fang Yang, Zong De Fang, Yong Zhen Zhang, Yuan Fei Han

Keywords:

Deformation Compatibility, Elastic Support, Helical Gear, Torque Equilibrium, Tri-Branching

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References

[1] F L Litvin, A. Fuentes. Gear geometry and applied theory. 2nd ed. Cambridge University Press, (2004), . pp.255-266.

Google Scholar

[2] T L. Krantz. A method to analyze and optimize load sharing of split path transmission. In Proceeding of the Seventh ASME Power Transmission and Gearing Conference, San Diego, California, (1996), pp.1-18.

Google Scholar

[3] G. White. Split-torque helical transmission with widely separated engines. Proc. Instn. Mech. Engrs., Vol. 203 (1989), pp.53-65.

Google Scholar

[4] G. Mantriota. Power split continuously variable transmission system with high efficiency. Proceedings Instn. Mech. Engineers, Vol. 215 (2001), pp.357-368.

Google Scholar

[5] B.Y. Fang, etc. Adjustment of power multiple-branching transmission of gear box. Machine Building & Autonation, Vol. 37 (2008), pp.90-91.

Google Scholar

[6] X.F. Yang, etc. Modeling and power flow analysis for herringbone gears power dual-branching transmission system. Intelligent Computing and Information Science, Vol. 2 (2011), pp.7-15.

DOI: 10.1007/978-3-642-18134-4_2

Google Scholar