Design and analysis of a vibration isolation system with cam–roller–spring–rod mechanism

Yonglei Zhang; Guo Wei; Hao Wen; Dongping Jin; Haiyan Hu

doi:10.1177/10775463211000516

Design and analysis of a vibration isolation system with cam–roller–spring–rod mechanism

Yonglei Zhang, Guo Wei, Hao Wen, Dongping Jin^*, Haiyan Hu

^*Corresponding author for this work

School of Aerospace Engineering

Nanjing University of Aeronautics and Astronautics

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

The vibration isolation system using a pair of oblique springs or a spring-rod mechanism as a negative stiffness mechanism exhibits a high-static low-dynamic stiffness characteristic and a nonlinear jump phenomenon when the system damping is light and the excitation amplitude is large. It is possible to remove the jump via adjusting the end trajectories of the above springs or rods. To realize this idea, the article presents a vibration isolation system with a cam–roller–spring–rod mechanism and gives the detailed numerical and experimental studies on the effects of the above mechanism on the vibration isolation performance. The comparative studies demonstrate that the vibration isolation system proposed works well and outperforms some other vibration isolation systems.

Original language	English
Pages (from-to)	1781-1791
Number of pages	11
Journal	JVC/Journal of Vibration and Control
Volume	28
Issue number	13-14
DOIs	https://doi.org/10.1177/10775463211000516
Publication status	Published - Jul 2022

Keywords

Vibration isolation system
cam–roller mechanism
high-static low-dynamic stiffness characteristic
jump phenomenon
negative stiffness mechanism

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10.1177/10775463211000516

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title = "Design and analysis of a vibration isolation system with cam–roller–spring–rod mechanism",

abstract = "The vibration isolation system using a pair of oblique springs or a spring-rod mechanism as a negative stiffness mechanism exhibits a high-static low-dynamic stiffness characteristic and a nonlinear jump phenomenon when the system damping is light and the excitation amplitude is large. It is possible to remove the jump via adjusting the end trajectories of the above springs or rods. To realize this idea, the article presents a vibration isolation system with a cam–roller–spring–rod mechanism and gives the detailed numerical and experimental studies on the effects of the above mechanism on the vibration isolation performance. The comparative studies demonstrate that the vibration isolation system proposed works well and outperforms some other vibration isolation systems.",

keywords = "Vibration isolation system, cam–roller mechanism, high-static low-dynamic stiffness characteristic, jump phenomenon, negative stiffness mechanism",

author = "Yonglei Zhang and Guo Wei and Hao Wen and Dongping Jin and Haiyan Hu",

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T1 - Design and analysis of a vibration isolation system with cam–roller–spring–rod mechanism

AU - Zhang, Yonglei

AU - Wei, Guo

AU - Wen, Hao

AU - Jin, Dongping

AU - Hu, Haiyan

N1 - Publisher Copyright: © The Author(s) 2021.

PY - 2022/7

Y1 - 2022/7

N2 - The vibration isolation system using a pair of oblique springs or a spring-rod mechanism as a negative stiffness mechanism exhibits a high-static low-dynamic stiffness characteristic and a nonlinear jump phenomenon when the system damping is light and the excitation amplitude is large. It is possible to remove the jump via adjusting the end trajectories of the above springs or rods. To realize this idea, the article presents a vibration isolation system with a cam–roller–spring–rod mechanism and gives the detailed numerical and experimental studies on the effects of the above mechanism on the vibration isolation performance. The comparative studies demonstrate that the vibration isolation system proposed works well and outperforms some other vibration isolation systems.

AB - The vibration isolation system using a pair of oblique springs or a spring-rod mechanism as a negative stiffness mechanism exhibits a high-static low-dynamic stiffness characteristic and a nonlinear jump phenomenon when the system damping is light and the excitation amplitude is large. It is possible to remove the jump via adjusting the end trajectories of the above springs or rods. To realize this idea, the article presents a vibration isolation system with a cam–roller–spring–rod mechanism and gives the detailed numerical and experimental studies on the effects of the above mechanism on the vibration isolation performance. The comparative studies demonstrate that the vibration isolation system proposed works well and outperforms some other vibration isolation systems.

KW - Vibration isolation system

KW - cam–roller mechanism

KW - high-static low-dynamic stiffness characteristic

KW - jump phenomenon

KW - negative stiffness mechanism

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IS - 13-14

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Design and analysis of a vibration isolation system with cam–roller–spring–rod mechanism

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Keywords

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