基于产品-工艺-资源模型的焊接机器人自动编程

IF 2.9 3区 工程技术 Q2 AUTOMATION & CONTROL SYSTEMS
Ioan-Matei Sarivan, Ole Madsen, Brian Vejrum Wæhrens
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引用次数: 0

摘要

本文介绍了一种基于产品-过程-资源(PPR)模型的端到端自动焊接机器人编程新方法,适用于独一无二的制造系统。传统上,焊接机器人编程所需的信息是通过几个独立的数字系统沿着制造组织的价值链进行处理和传输的,这些系统需要大量的人力输入和高技能操作。本研究提出了一个 PPR 模型,作为沿着价值链无缝存储和处理必要信息的平台。与利用复杂算法自动识别焊缝的现有方法不同,本研究提出的方法利用的是设计工程师已经数字化的信息,其形式符合 ISO 2553:2019 标准的焊缝注释。因此,PPR 模型包含焊缝注释;它可以实现焊接机器人的自动编程,并将人工输入减少到几分钟。该理论概念在制造业中的适用性,通过在实验室和一家从事金属制造行业的 "按订单生产(ETO)"工业合作伙伴的价值链上进行的技术实施测试得到了证明。实验是通过使用所提出的人工制品制作若干产品进行的。实验表明,使用 PPR 模型可以实现焊接机器人的自动编程。实验结果表明,在使用所提出的解决方案时,以时间计算的人工投入减少了约 80%。人力投入的减少可以释放熟练劳动力资源,ETO 中小型企业可以将其重新分配到其他任务中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Automatic welding-robot programming based on product-process-resource models

Automatic welding-robot programming based on product-process-resource models

This paper describes a novel end-to-end approach for automatic welding-robot programming based on a product-process-resource (PPR) model, for one-of-a-kind manufacturing systems. Traditionally, the information needed to program a welding robot is processed and transferred along the manufacturing organisation’s value chain by using several stand-alone digital systems which require extensive human input and high skill to operate. A PPR model is proposed through this research as a platform for storing and processing the necessary information along the value chain seamlessly. Unlike existing approaches which make use of complex algorithms to automatically identify the weldment seams, the approach suggested in this research makes use of information already digitalised by design engineers under the form of ISO 2553:2019 compliant weldment annotations. Hence, the PPR model contains the weldment annotations; it enables the automatic programming of welding robots and reduces human input down to a few minutes only. The applicability in manufacturing of the theoretical concept is demonstrated through technical implementations tested in the laboratory and on the value chain of an engineering-to-order (ETO) industrial partner involved in the metal fabrication industry. The experiments were conducted by creating several products using the proposed artefact. Experiments show that automatic programming of welding robots can be achieved using PPR models. The conducted experiments showed a reduction of about 80% in human input measured in terms of time, when using the proposed solution. The reduction of the human input can free up skilled labour resource which ETO SMEs can reallocate to other tasks.

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来源期刊
CiteScore
5.70
自引率
17.60%
发文量
2008
审稿时长
62 days
期刊介绍: The International Journal of Advanced Manufacturing Technology bridges the gap between pure research journals and the more practical publications on advanced manufacturing and systems. It therefore provides an outstanding forum for papers covering applications-based research topics relevant to manufacturing processes, machines and process integration.
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