When technology misaligns with work demands: a biomechanical and ergonomic field study of exoskeleton use in masonry
通过18名丹麦砌砖工的现场交叉实验,发现背部支撑外骨骼反而增加了5.2%的腰部肌肉负担,且仅22%的工人愿意未来使用,表明现有外骨骼设计难以适应砌砖这类动态多平面作业。
The use of exoskeletons in occupational settings has been proposed as a solution to reduce physical strain and improve ergonomics. This field study investigates the effect of a back-support exoskeleton on muscle activity, full-body kinematics and user acceptance among eighteen Danish masons during bricklaying. Eighteen participants completed a crossover study alternating between bricklaying with and without the exoskeleton. Using electromyography (EMG) and motion capture (Xsens), we assessed muscular activity and kinematics, while questionnaires evaluated acceptance and usability. Results showed negative effects on physical exposure, with increased muscular strain in the low back (5.2 %) during exoskeleton use. Although usability was rated positively, overall acceptance was low due to discomfort and workflow interference. Only 22% of participants expressed willingness to use the exoskeleton in the future. These findings highlight the challenges of implementing exoskeletons in dynamic and physically demanding trades such as masonry, where current designs may not suit multi-planar movements. • Randomized cross-over field study of 18 masons using a passive back-support exoskeleton. • Exoskeleton use increased low-back muscle strain (5.2%) and altered movement patterns. • Usability was rated positively, but acceptance was low due to discomfort and workflow issues. • Only 22% of participants were willing to use the exoskeleton in the future. • Shows limited suitability of current the current exoskeleton in bricklaying.