Abstract
This work develops a torsional vibration model with lumped-parameter method and uses it to investigate the torsional vibration characteristics of double planetary transmission system. The natural frequency of torsional vibration and corresponding modes of the transmission system are obtained by solving the vibration differential equation. And then influence of rotational inertia and torsional stiffness on the natural characteristics of torsional vibration of the system is studied. The results show that the natural frequencies of torsional vibration can be improved effectively by increasing the torsional stiffness and reducing the rotational inertia of system under the condition that the total transmission ratio and the dimensional parameters of the gear pairs are constant at all levels.
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References
Lin, J., Parker, R.G.: Analytical characterization of the unique properties of planetary gear free vibration. J. Vib. Acoust. 121(3), 316–321 (1999)
Lin, J., Parker, R.G.: Structured vibration characteristics of planetary gears with unequally spaced planets. J. Sound Vib. 233(5), 921–928 (2000)
Wang, S., Zhang, C., Song, Y., Yang, T.: Natural mode analysis of planetary gear trains. China Mech. Eng. 16(16), 1461–1465 (2005)
Song, Y., Xu, W., Zhang, C., Wang, S.: Modified torsional model development and natural characteristics analysis of 2 K-H epicyclic gearing. Chin. J. Mech. Eng. 42(5), 16–21 (2006)
Cai, Z., Liu, H., Xiang, C., Zhang, X., Wang, M.: Characteristics of forced torsional vibration and dynamic load for vehicle multistage planetary transmission. J. Jilin Univ. (Eng. Technol. edn.) 42(1), 19–26 (2012)
Yu, H., Zhang, T., Ma, Z., Wang, R.: Torsional vibration analysis of planetary hybrid electric vehicle driveline. Trans. Chin. Soc. Agric. Eng. 29(15), 57–64 (2013)
Li, J., Jin, S., Gong, C., Bierdebieke, W.: Dynamic modeling and eigenvalue evaluation of dual-powerflow transmission. Agric. Equipment Veh. Eng. 53(8), 17–20 (2015)
Li, T., Guo, J., Liu, B., Shen, T.: Junction stiffness analysis and vibration noise prediction of wind power speed-increase gearbox. J. Chongqing Univ. 38(1), 87–94 (2015)
Yang, H., Guo, J., Liu, B., Song, J.: Torsional vibration analysis of transmission system in comprehensive performance testing device for wind-power speed-increasing gearbox. Mech. Res. Appl. 28(3), 83–90 (2015)
Acknowledgments
The authors are grateful for the financial support provided by the Industrial Common Key Technology Innovation of Chongqing (cstc2015zdcy-ztzx70013) and the Fundamental Research Funds for Central Universities (106112017CDJZRPY0018).
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Zhao, Z., Lin, T., Wei, J., Jiang, F., Liu, J. (2018). Analysis of Inherent Characteristics of Torsional Vibration and Its Influence Factors of the Double Planetary Transmission System. In: Wang, S., Price, M., Lim, M., Jin, Y., Luo, Y., Chen, R. (eds) Recent Advances in Intelligent Manufacturing . ICSEE IMIOT 2018 2018. Communications in Computer and Information Science, vol 923. Springer, Singapore. https://doi.org/10.1007/978-981-13-2396-6_44
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DOI: https://doi.org/10.1007/978-981-13-2396-6_44
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