Application of TPM Tools in an Automotive Battery Assembly Line

2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM) Pub Date : 2019-12-01 DOI:10.1109/IEEM44572.2019.8978897

Amelia Castillo-Revelo, Liseth Mañuico-Salas, Fernando Maradiegue-Tuesta, J. Alvarez-Merino

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Abstract

This study sets out to increase the overall efficiency of equipment in the automotive battery assembly line by reducing the number of non-compliant products. To this end, the root cause analysis was performed, and it determined that disconformities are caused by the lack of standardization of processes, paucity of working methods, and inadequate maintenance plans. The proposal of this study involves the use of total productive maintenance (TPM) tools as the modal analysis of failures and effects, self-maintenance, and planned maintenance based on reliability-centric maintenance (RCM). The joint use of these tools leads to an increase in the quality of automotive batteries. The application of TPM and RCM is subject to internal and external factors affecting a company. The proposed methodology can be applied to small and medium-sized manufacturing industries with different production lines. As a result of its application, the number of non-compliant batteries was reduced by 30%, machine efficiency increased by 3.00%, and the mean time between failures was reduced by 19.96%.

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TPM工具在某汽车电池装配线中的应用

本研究旨在通过减少不合规产品的数量来提高汽车电池装配线设备的整体效率。为此，进行了根本原因分析，并确定不符合是由于缺乏标准化的过程，缺乏工作方法和不充分的维护计划造成的。本研究的建议涉及使用全面生产维护(TPM)工具作为故障和影响的模态分析，自我维护，以及基于可靠性中心维护(RCM)的计划维护。这些工具的联合使用导致汽车电池质量的提高。TPM和RCM的应用受到公司内部和外部因素的影响。该方法适用于具有不同生产线的中小型制造业。应用后，不合格电池的数量减少了30%，机器效率提高了3.00%，平均故障间隔时间减少了19.96%。

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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2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM)

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