工作环境因素和操作者经验对电动手动工具使用过程中上肢机械性能的影响

Xu Xu, Jia-Hua Lin
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引用次数: 4

摘要

电动手动工具在装配操作中被广泛使用。在使用电动手工具时,手部移位已被确定为上肢肌肉骨骼疾病的潜在危险因素。在目前的研究中,上肢的机械特性被确定,这代表了肌肉对脉冲电动工具扭矩负载的反应能力,并影响了手的响应位移。这些特性是由有经验和没有经验的参与者在不同的操作配置下获得的,包括工作高度、水平工作距离、工具转动惯量和关节类型。结果表明,操作方式和操作经验对上肢力学性能有不同的影响。这项研究可能有助于未来对电动手动工具工作站设计的研究,例如通过改进生物力学模型的参数。技术摘要:原理:在使用电动手工具时,手工具移位是上肢损伤的潜在危险因素,并与主观不适程度相关。上肢被建模为一个二阶线性系统来描述手工具的响应。虽然之前的研究发现,在电动工具使用过程中,工作环境因素和操作人员经验对手动工具的响应有显著影响,但这些因素如何影响上肢的机械性能尚未得到研究。目的:本研究评估了不同工作环境因素和操作人员经验水平下上肢的力学性能。方法:采用最小二乘法直接从手动工具的动力学响应中识别电动手动工具使用过程中上肢的力学特性。结果:工作高度、水平工作距离、手工具转动惯量、关节类型和经验对不同操作配置下上肢的部分力学性能有显著影响。此外,上肢的刚度和阻尼系数大于先前研究中从自由振荡系统中确定的值。结论:上肢的力学特性可以用来预测电动手工具使用过程中的手部位移。目前的结果提供了额外的信息,以提高对操作人员对电动手动工具的反应的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Working Environment Factors and Operator Experience on Upper Extremity Mechanical Properties During Powered Hand Tool Use
OCCUPATIONAL APPLICATIONS Powered hand tools are widely used during assembly operations. The hand displacement during powered hand-tool use has been identified as a potential risk factor for upper extremity musculoskeletal disorders. In the current study, the mechanical properties of the upper extremity were identified, which represent muscle capacity to react to an impulsive power tool torque loading and affect the responsive hand displacement. These properties were obtained from among experienced and inexperienced participants under various operating configurations, including working heights, horizontal working distances, tool moments of inertia, and joint type. The results indicated that operating configurations and experiences affected the mechanical properties of upper extremities in different ways. This research may help in future studies on powered hand-tool work-station design, for example by improving parameters in biomechanical models. TECHNICAL ABSTRACT Rationale: Hand-tool displacement during powered hand-tool use is a potential risk factor for upper extremity injuries and is correlated to the subjective discomfort level. The upper extremity has been modeled as a second-order linear system to describe the hand-tool response. While previous studies have found that working environment factors and operator experience significantly affect the hand-tool response during powered tool use, how those factors affect the mechanical properties of the upper extremity has not been investigated. Purpose: This study assessed the mechanical properties of the upper extremity under various working environment factors and operator experience levels. Method: A least-squares method was used to identify the mechanical properties of the upper extremity during powered hand-tool use, directly from the dynamics of hand-tool response. Results: Working heights, horizontal working distances, hand tool moments of inertia, joint type, and experience significantly affected some mechanical properties of the upper extremities in various operating configurations. In addition, stiffness and damping coefficients of the upper extremities were greater than those values identified from a free oscillation system in a previous study. Conclusions: Mechanical properties of the upper extremities can be used to predict hand displacement during powered hand-tool use. The current results provide additional information to improve the understanding of operator reactions to powered hand tools.
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