An Investigation on the Dynamic Stability of Scissor Lift

Ren G. Dong; Christopher S. Pan; Jared J. Hartsell; Daniel E. Welcome; Tim Lutz; Anne Brumfield; James R. Harris; John Z. Wu; Bryan Wimer; Victor Mucino; Kenneth Means

doi:10.4236/ojsst.2012.21002

Open Journal of Safety Science and Technology > Vol.2 No.1, March 2012

An Investigation on the Dynamic Stability of Scissor Lift

Ren G. Dong, Christopher S. Pan, Jared J. Hartsell, Daniel E. Welcome, Tim Lutz, Anne Brumfield, James R. Harris, John Z. Wu, Bryan Wimer, Victor Mucino, Kenneth Means
Department of Mechanical and Aerospace Engineering, West Virginia University, Morgantown, West Virginia, USA.
National Institute for Occupational Safety and Health, Morgantown, West Virginia, USA.
DOI: 10.4236/ojsst.2012.21002 PDF HTML 14,494 Downloads 29,388 Views Citations

Abstract

The tip-over of scissor lifts in operation has frequently resulted in the death and/or severe injuries of workers. The objective of this study is to enhance the understanding of its major mechanisms and factors influencing scissor lift stability. Both experimental and modeling approaches were used in this study. Two series of experiments were performed under possible tip-over scenarios: curb impact and pothole depression. Based on the dynamic characteristics identified from the experimental results, a lumped-parameter model of the scissor lift was developed. It was applied to investigate the effect of scissor structure flexibility on the tip-over potential of the lift, to understand tip-over mechanisms, and to ex-plore preventive strategies. This study found that the fundamental natural frequencies of the lift were generally in a range of 0.30 - 2.08 Hz, which are likely related to the tip-over. Increasing flexibility of the lift structure generally increased the tip-over potential. The tip-over threshold was also a function of both ground slope and tilt speed of the lift. The results suggest that the lift should not be elevated on largely deformable and/or uneven surfaces such as bridged wood board or a soft soil base. The worker on the lift platform should avoid any large continuous periodic movement or forceful action in the horizontal plane, especially when the lift is fully elevated. Besides the tilt angle of the lift, the tilt speed should be monitored to help prevent the tip-over.

Keywords

Scissor Lift; Mobile Elevating Work Platform; Tip-Over of Scissor Lift; Stability of Scissor Lift

Share and Cite:

R. Dong, C. Pan, J. Hartsell, D. Welcome, T. Lutz, A. Brumfield, J. Harris, J. Wu, B. Wimer, V. Mucino and K. Means, "An Investigation on the Dynamic Stability of Scissor Lift," Open Journal of Safety Science and Technology, Vol. 2 No. 1, 2012, pp. 8-15. doi: 10.4236/ojsst.2012.21002.

Conflicts of Interest

The authors declare no conflicts of interest.

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