外骨骼行业图表:全面洞察动态和趋势

M I Al-Khiami, S M Lindhard, S Wandahl
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摘要

与工作有关的肌肉骨骼疾病(WMSDs)是导致建筑业和更广泛的工业部门提前退休、旷工和生产力损失的主要原因之一,特别是由于工人经常以非最佳姿势从事重复性和具有挑战性的工作。这种情况迫使工业部门转变传统做法,促进社会的可持续发展。外骨骼是一种设计用于在工作期间支撑人体的装置,被认为是缓解 WMSDs 的一项重要技术。要认识到外骨骼的潜力,就必须对当前的外骨骼生产情况进行彻底研究。我们采用了描述性方法,对行业报告、学术文献和市场分析进行了回顾。研究结果表明,在 22 个国家的 72 家公司中,有 132 种不同的外骨骼模型,人们对外骨骼制造的兴趣日益浓厚。值得注意的是,33%的外骨骼模型以医疗保健行业为目标市场,66%以工业行业为目标市场。不过,工业领域更加多样化,包括各种子行业,其中模型的比例均未超过 16%。尽管有 14% 的模型声称支持建筑行业,但所有模型都具有广泛的适用性,而不是专门针对其独特需求量身定制的。其他分部门也是如此。此外,大多数外骨骼模型都是为支持背部而设计的,其次是上肢。这些调查结果表明,需要针对特定行业的外骨骼解决方案来提高工人的安全性和生产率,从而支持向社会可持续工业实践过渡。这也使制造商能够对市场达成共识,并确定该技术所需的差距。
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Charting the Exoskeleton Industry: A Comprehensive Insight into Dynamics and Trends
Work-related musculoskeletal disorders (WMSDs) emerge amongst the main causes of early retirement, absenteeism, and loss of productivity in construction and broader industrial sectors, particularly due to repetitive and challenging tasks performed by workers often in non-optimal postures. The situation presses the industrial sector towards a paradigm shift in its traditional practices promoting social sustainability. Exoskeletons, devices designed to support the human body during work, are considered a prominent technology in mitigating WMSDs. Recognizing their potential, necessitates a thorough examination of the current landscape of exoskeleton production. A descriptive methodological approach, encompassing a review of industry reports, academic literature, and market analysis was conducted. The findings have revealed 132 distinct exoskeleton models distributed across 22 countries amongst 72 companies and a growing interest in exoskeleton manufacturing. Notably, 33% of the exoskeleton models targets the healthcare sector while 66% targets the industrial sector. Though, the industrial sector is more diversified, including various sub-sectors, of which the percentage of models none exceeding 16%. Despite 14% of the models claiming support for the construction sector, all are broadly applicable and not specifically tailored to its unique demands. This is also true to other sub-sectors. Additionally, most of the exoskeleton models are designed to support the back, followed by the upper extremities. These findings emphasize the need for sector-specific exoskeleton solutions to enhance worker safety and productivity, thereby supporting the transition towards socially sustainable industrial practices. It also allows for manufacturers to gain a consensus of the market and identify the gaps needed within this technology.
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