The use of quality management tools to ensure safe working conditions at CO2 laser workstations

IF 1.9 Q3 ENGINEERING, INDUSTRIAL
Barbara Ciecińska, Beata Oleksiak
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引用次数: 0

Abstract

Abstract Dynamic development of various technologies replacing existing, difficult or in various ways arduous, is the reason for replacing equipment with modern ones. New equipment may be associated with a different power supply, a different way that the construction materials are processed or the tools used, than the previous one. Then arises a need to re-examine whether the working conditions at a workplace are safe, what onerous and hazardous factors are associated with the work. An example of such a technological change could be a laser processing, when equipment using a concentrated energy stream, properly controlled, produces a specific effect on materials. However, along with the benefits of the new technology, come also many risks, such as the effects of radiation on matter and the human body, electricity, fire hazards, the problem of toxic emissions and others. This paper presents the problem of ensuring work safety at a newly commissioned CO2 laser station. Technique of brainstorming was used to identify and analyze the working conditions and types of hazards. These may be different from what was previously known, partially known, or even unconscious. Ishikawa diagram was developed and shown to be an effective tool for detailing and structuring problems in relation to safety. In the case of a technical problem, a poka-yoke solution to eliminate the hazard was proposed. Problems occurring at the workstation during machining and related to its operation were assigned, using the affinity diagram, to specific departments of the company, according to its work organization, which can significantly facilitate the management of the work and employees of the different departments in the future, in order to ensure safe and hygienic working conditions.
使用质量管理工具确保CO2激光工作站的安全工作条件
各种技术更新换代的动态发展,困难或以各种方式艰苦,是设备更新换代的原因。与之前的设备相比,新设备可能与不同的电源、不同的建筑材料加工方式或使用的工具相关联。然后就需要重新检查工作场所的工作条件是否安全,哪些繁重和危险的因素与工作有关。这种技术变化的一个例子可以是激光加工,当设备使用集中的能量流,适当控制,对材料产生特定的影响。然而,伴随着新技术的好处,也带来了许多风险,例如辐射对物质和人体的影响,电力,火灾危险,有毒排放物的问题等等。介绍了新投产的CO2激光站的安全生产保障问题。运用头脑风暴技术对工作条件和危险类型进行了识别和分析。这些可能不同于以前已知的,部分已知的,甚至是无意识的。石川图被开发出来,并被证明是一种有效的工具,用于详细说明和构建与安全有关的问题。在技术问题的情况下,提出了一种消除危险的波卡轭解决方案。根据公司的工作组织,利用亲和关系图,将加工过程中工作站出现的问题和操作相关的问题分配到公司的具体部门,这样可以大大方便以后对不同部门的工作和员工的管理,以确保安全卫生的工作条件。
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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来源期刊
Production Engineering Archives
Production Engineering Archives Engineering-Industrial and Manufacturing Engineering
CiteScore
6.10
自引率
13.00%
发文量
50
审稿时长
6 weeks
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