Reconfigurable fixture evaluation for use in automotive light assembly

2017 18th International Conference on Advanced Robotics (ICAR) Pub Date : 2017-07-01 DOI:10.1109/ICAR.2017.8023497

Martin Bem, Miha Deniša, Timotej Gaspar, Jaka Jereb, Robert Bevec, I. Kovac, A. Ude

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引用次数: 7

Abstract

To make robotics feasible for use in small and medium enterprises (SMEs) several issues have to be addressed. The most obvious is the ability to produce small batches of products with minimal changeover cost and time. In this paper an innovative flexible fixture based on a Gough-Stewart platform called the hexapod is proposed. The fixture is designed to be suitable for a whole family of automotive lights. The main characteristics of the hexapod is its passivity, i.e. the reconfiguration can be performed manually or by using an external mechanism e.g. a robot. Once a desirable configuration is reached a set of hydromechanical brakes is used to hold the mechanism in the desired pose. To show the effectiveness of the hexapods a set of automotive lights assembly in dedicated robot cell experiments were performed. Additionally, positioning repeatability and the locked system stiffness were measured. Finally, a robot cell for a complete light assembly has been implemented together with robot assisted fixture reconfiguration between different light models.

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用于汽车轻装配的可重构夹具评价

为了使机器人技术适用于中小型企业(sme)，必须解决几个问题。最明显的是能够以最小的转换成本和时间生产小批量产品。本文提出了一种基于Gough-Stewart平台的新型柔性夹具——六足架。该夹具设计适用于整个汽车灯系列。六足机器人的主要特点是它的无源性，即重新配置可以手动执行，也可以使用外部机构(如机器人)来执行。一旦达到理想的配置，一套液压机械制动器被用来保持机构在理想的姿势。为了证明六足机器人的有效性，在专用机器人单元中进行了一组汽车灯组件实验。此外，还测量了定位重复性和锁定系统刚度。最后，实现了一个用于完整灯具组件的机器人单元，并在不同灯具模型之间实现了机器人辅助的夹具重构。

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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2017 18th International Conference on Advanced Robotics (ICAR)

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