Diminishing Safety Margins of Telescoping-Boom Aerial Lifts

William Singhose
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Abstract

As the height of telescoping-boom aerial lifts increase, the severity of tip-over accidents obviously increases. To reduce the probability of tip-over accidents, manufacturers use countermeasures such as, outriggers and wheel axels that expand in width to provide a more stable base, counterweights to offset the moments generated by the telescoping boom, and controllers that limit the machine configurations to within stable envelopes. The size of stability margins is determined by industry standards that set the approved load capacity of the machine to less than the load that would induce tip-over. This paper investigates the effectiveness of such load-based safety margins for very tall aerial lifts with telescoping-booms. The results indicate that the industry standards result in both inconsistent and often low safety margins.
缩减伸缩臂式高空作业升降机的安全系数
随着伸缩臂式高空作业升降机高度的增加,翻倒事故的严重性也明显增加。为了降低倾翻事故的发生概率,制造商采用了一些应对措施,例如:支腿和轮轴可扩大宽度,以提供更稳定的基础;配重可抵消伸缩臂产生的力矩;控制器可将机器配置限制在稳定范围内。稳定裕度的大小由行业标准决定,这些标准将机器的核定载荷能力设定为小于会导致倾覆的载荷。本文研究了这种基于载荷的安全裕量对带有伸缩臂的超高型高空作业设备的有效性。结果表明,行业标准导致安全系数不一致,而且通常较低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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