Abdoli-Eramaki Mohammad, Stevenson Joan M, Reid Susan A, Bryant Timothy J
Queen's University Ergonomics Research Group, School of Occupational and Public Health, 350 Victoria Street, Toronto, Rm 148, PEC Kingston, Ont., Canada M5B2K3.
J Biomech. 2007;40(8):1694-700. doi: 10.1016/j.jbiomech.2006.09.006. Epub 2007 Apr 26.
In our laboratory, we have developed a prototype of a personal lift augmentation device (PLAD) that can be worn by workers during manual handling tasks involving lifting or lowering or static holding in symmetric and asymmetric postures. Our concept was to develop a human-speed on-body assistive device that would reduce the required lumbar moment by 20-30% without negative consequences on other joints or lifting kinematics. This paper provides mathematical proof using simplified free body diagrams and two-dimensional moment balance equations. Empirical proof is also provided based on lifting trials with nine male subjects who executed sagittal plane lifts using three lifting styles (stoop, squat, free) and three different loads (5, 15, and 25kg) under two conditions (PLAD, No-PLAD). Nine Fastrak sensors and six in-line strap force sensors were used to estimate the reduction of compressive and shear forces on L4/L5 as well as estimate the forces transferred to the shoulders and knees. Depending on lifting technique, the PLAD applied an added 23-36Nm of torque to assist the back muscles during lifting tasks. The peak pelvic girdle contact forces were estimated and their magnitudes ranged from 221.3+/-11.2N for stoop lifting, 324.3+/-17.2N for freestyle lifts to 468.47+/-23.2N for squat lifting. The PLAD was able to reduce the compression and shear forces about 23-29% and 7.9-8.5%, respectively.
在我们实验室,我们研发了一种个人举升助力装置(PLAD)的原型,工人在涉及对称和不对称姿势的举升、放下或静态握持的手动搬运任务期间可以佩戴该装置。我们的理念是开发一种与人速度匹配的身体辅助装置,该装置能将所需的腰部力矩降低20%至30%,同时不会对其他关节或举升运动学产生负面影响。本文使用简化的自由体图和二维力矩平衡方程提供了数学证明。还基于对九名男性受试者的举升试验提供了实证证明,这些受试者在两种条件下(佩戴PLAD、不佩戴PLAD)使用三种举升方式(弯腰、深蹲、自由式)和三种不同负荷(5千克、15千克和25千克)进行矢状面举升。使用九个Fastrak传感器和六个在线带状力传感器来估计L4/L5处压缩力和剪切力的降低情况,以及估计传递到肩部和膝盖的力。根据举升技术,PLAD在举升任务期间施加额外的23至36牛米的扭矩来辅助背部肌肉。估计了骨盆带的峰值接触力,其大小范围从弯腰举升时的221.3±11.2牛,自由式举升时的324.3±17.2牛到深蹲举升时的468.47±23.2牛。PLAD能够分别将压缩力和剪切力降低约23%至29%和7.9%至8.5%。
