Diseño e implementación de una Interfaz de Control para la Integración de una Celda de Manufactura Flexible

Revista del Diseño Innovativo Pub Date : 2019-12-31 DOI:10.35429/jid.2019.9.3.23.28

Juan Carlos Rojas-Garnica, José Lorenzo Muñoz-Mata, Carlos Rangel-Romero, Alma Delia Ocotitla-Muñoz

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Abstract

In modern industry, flexible manufacturing systems (FMS) are indispensable to increase productivity and product quality. The cells that constitute them have several work stations connected to each other through a communication protocol, therefore, with which they are able to identify and distinguish between the different parts or products processed in the system. Furthermore, they have the ability of adaptation to the demand of processing different products and quantities. In the FMS communication protocols are used such as Device Net, Ethernet, among others. However, there are cases in which there are no communication modules; however, it is necessary to develop alternative devices to communicate the work stations with each other to integrate a flexible manufacturing cell with the necessary characteristics. This paper presents the results obtained from the study of infrastructure for the development of a communication interface to integrate a flexible manufacturing cell using a microcontroller, with the capability of communicating two work stations. In this particular case, a FANUC M6iB robot with a HAAS VF2 machining center.

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设计和实现用于柔性制造单元集成的控制接口

在现代工业中，柔性制造系统(FMS)对于提高生产效率和产品质量是必不可少的。组成它们的单元有几个工作站，通过通信协议相互连接，因此，它们能够识别和区分系统中处理的不同部件或产品。此外，它们具有适应加工不同产品和数量需求的能力。在FMS中使用通信协议，如设备网、以太网等。然而，在某些情况下，没有通信模块;然而，有必要开发替代设备来相互通信工作站，以集成具有必要特征的柔性制造单元。本文介绍了利用微控制器集成柔性制造单元的通信接口基础结构的研究结果，该接口具有两个工作站通信的能力。在这种特殊情况下，FANUC M6iB机器人与HAAS VF2加工中心。

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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Revista del Diseño Innovativo

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