A SOLUTION FOR MEASURING THE VIBRATION OF GEAR TRANSMISSION IN THE EXPERIMENTAL DEVICE

  • Tran Thi Thanh Hai School of Mechanical Engineering, Hanoi University of Science and Technology
Keywords: Gear transmission, acceleration sensor, vibration, particle

Abstract

This paper presents a solution to measure the vibration of the spur gear transmission in the experimental device for reducing vibration of gear transmission by using damping particles. The vibration of gear transmission system is reduced based on collision of the damping particles in the technological holes designed on the gear itself. The vibration value is determined by the acceleration sensor 352C03 PCB located at the rolling bearings mounted on the pinion and driven shafts in the gravity and radial directions. The sensor signal is acquired by the Simcenter Scadas XS data acquisition system and LMS Smart Scope measurement software. Acceleration measured results are processed by SimCenter TestLab software. The experimental results accurately reflect the vibration of the gear system and show that, when using the damping particles, the value of system’s acceleration is reduced by 39.13 % compared to the case without the the damping particle.

References

Lu, Z., Lu, X.L., Masri, S.F., Studies of the performance of particle dampers under dynamic loads. J. Sound Vib., 2010, 329 (26), pp. 5415–5433.

Lu, Z., Lu, X., Lu, W., Masri, S.F., Experimental studies of the effects of buffered particle dampers attached to a multi- degree-of-freedom system under dynamic loads. J. Sound Vib, 2012, 331, pp. 2007–2022.

Moore, J.J., Palazzolo, A.B., Gadangi, R., Nale, T.A., Klus- man, S.A., Brown, G.V., Kascak, A.F., A forced response analysis and application of impact dampers to rotor dynamic vibration suppression in a cryogenic environment. J. Vib. Acoust., 1995, 117, 300.

Wong, C.X., Daniel, M.C., Rongong, J.A., Energy dissipa- tion prediction of particle dampers. J Sound Vib., 2009, 319(1–2), pp. 91–118.

Yao, B., Chen, Q., Investigation on zero-gravity behavior of particle dampers. J. Vib. Control, 2013, 21, 124–133.

Ahmad, N., Ranganath, R., Ghosal, A., Modeling and experimental study of a honeycomb beam filled with damping particles. J. Sound Vib., 2017, 391, pp. 20–34.

Xiao, W.Q., Huang, Y.X., Jiang, H., Lin, H., Li, J.N., Energy dissipation mechanism and experiment of particle dampers for gear transmission under centrifugal loads. Particuology, 2016, 27, pp. 40–50.

Johnson, K.L., Contact Mechanics, Cambridge University Press, Cambridge, 1985.

Yun-Chi Chung, Yu-Ren Wu, Dynamic modeling of a gear transmission system containing damping particles using coupled multi-body dynamics and discrete element method. Nonliear Dynamics, 2019, Volume 98, pp129-149.

Công ty Simens, Data Sheet của các thiết bị đo, 2022.

Published
2022-06-30
How to Cite
Tran Thi Thanh Hai. (2022). A SOLUTION FOR MEASURING THE VIBRATION OF GEAR TRANSMISSION IN THE EXPERIMENTAL DEVICE. UTEHY Journal of Science and Technology, 34, 91-96. Retrieved from http://jst.utehy.edu.vn/index.php/jst/article/view/547