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DEVELOPMENT OF A MANUFACTURING CELL IN COMPLIANCE WITH IEC 61499 : Implementation of a function blocks network for controlling a CNC-based systemPalomeque Soto, José Enrique January 2012 (has links)
Today’s market is subjected to numerous changes due to the need of continuous improvement of different commercial brands in order to survive against competitors. This competition drives the evolution of industrial processes, to satisfy the high customers’ requirements. It means that factors such as flexibility, adaptability and agility are crucial for the successful development of industries, which experience some degrees of uncertainty due to machine breakdowns, delays and market fluctuations among others. The current trend in manufacturing industries consists in the implementation of distributed control systems (DCS), substituting the earlier programmable logic controllers (PLC) systems where a main processor operated as the central unit of the system. To this end, the application of function blocks (FB) compliant with the IEC 61499 standard represents an innovative technique for dealing with the design and programming of DCSs. These FBs enable the creation of event-driven networks governed by embedded algorithms that can be used to enhance the flexibility and portability of industrial job-shops based on a distributed architecture. Job-shop floors represent a principal concept in manufacturing industries. This project is focused on the integration of a computer numerically controlled (CNC) machine and a gantry robot which must be coordinated and cooperate for the achievement of an industrial machining and assembly process. It implies the design of a PLC-managed distributed cell using nxtControl software. This software facilitates the construction of FBs-networks to control both machines and enables the communication process via service interface function blocks (SI-FB). Likewise, the whole process will be monitored using an interface also created within nxtControl which will allow the operator to decide the batch and characteristics of the production. This project is also intended to set the basis for the understanding of the FB concept defined in IEC 61499 which moves away from earlier scan-based systems to event-driven models, aiming to contribute to the development of future research in the function blocks area.
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DEVELOPMENT OF A MANUFACTURING CELL IN COMPLIANCE WITH IEC 61499 : Function Blocks networks implementation in a Gantry Robot systemDiaz Rios, Raul January 2012 (has links)
Standards are, nowadays, a useful and sometimes essential tool, in the world of automated industry. Since the development of the standard IEC 61131-3, automation has made progresses in a consistent manner. This allows an engineer to develop control programs for any type of systems using the language set in the standard. However, this standard was not enough because it did not cover the control over distributed systems. Therefore, it was necessary to establish rules in this field. In order to fill this gap, the new standard IEC 61499 was developed. Its main objective is to describe how to develop, design and implement distributed control systems, using the new concept of function blocks. By the use of the new function blocks, it is possible to control distributed systems in a quick and easy way, adding some advantages such as reusability, portability, and much enhanced maintenance.This project involves the preparation of a manufacturing cell composed of a gantry robot interacting with a CNC machine. The project is developed in two sections; one is focused on the computer programming with function blocks for the gantry robot and HMI, and the other is prepared for the programming of function blocks for the CNC machine and HMI. The communications between PLC, PC, gantry robot and CNC machine are developed using the standard IEC 61499. This document covers the survey and research made for the first section of the project.The new standard IEC 61499 provides the methodologies and the appropriated tools to achieve a good control in distributed systems. The basic tools offered by this standard are the new function blocks which will be the main tool used in this project. Equally important, it is necessary to take into account the different assembly features and the machining features in order to design better function blocks to control the system. An HMI has to be developed in order to obtain a good interface for a worker of this cell.The aim of this project is to investigate how the new standard IEC 61499 works in a real manufacturing cell and how the new function blocks interact in a real distributed system. Moreover, it is important to see how the event flow works, controlling all the sequences required in the manufacturing cell.
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