Análisis y operación del tren de producción de una celda de manufactura controlada por OpenCIM Manager

Isaías Simón Marmolejo; René Cruz Guerrero; Isidro J. González Hernández

doi:10.29057/escs.v11i22.12566

Isaías Simón Marmolejo Universidad Autónoma del Estado de Hidalgo | Escuela Superior de Ciudad Sahagún | Ciudad Sahagún-Hidalgo | México https://orcid.org/0000-0003-2116-6192
René Cruz Guerrero Instituto Tecnológico Superior de Oriente del Estado de Hidalgo | Apan-Hidalgo | México https://orcid.org/0000-0003-1276-2419
Isidro J. González Hernández Universidad Autónoma del Estado de Hidalgo | Escuela Superior de Ciudad Sahagún | Ciudad Sahagún-Hidalgo | México https://orcid.org/0000-0003-2805-6674

DOI: https://doi.org/10.29057/escs.v11i22.12566

Keywords: Production systems, automation, computer integrated manufacturing system

Abstract

The manufacturing cell of the Autonomous University of the State of Hidalgo is used as a case study to create an understanding model that operates and controls it through the OpenCIM Manager system, the intention is to study the method, techniques and tools necessary to understand operate the cell from the Industrial Engineering paradigm, in addition to identifying the knowledge needs necessary to describe the real-time behavior of the system seen as a real production unit. The OpenCIM Manager system allows the immediate integration of equipment, raw materials and products as a master production plan in a completely industrial context, in addition to allowing full control of the parameters of the production system at all times. The results show how by making use of a basic logical sequence of operations, and industrial engineering tools, it is possible to gain understanding for the control of a computer-integrated manufacturing system.

Downloads

Download data is not yet available.

References

Cáceres S. E. (2021). Modelo para la programación de la producción en enfoques de celdas de manufactura, integrando el diseño de plantas esbeltas, para el caso del sector de la confección de prendas de vestir. Facultad de Minas, Departamento de Ingeniería de la Organización Medellín, Colombia, pp. 15.

Baïna S., Morel G. (2006). Product centric holons for synchronisation and interoperability in manufacturing environments. IFAC Proceeding Volumes, vol. 39, no. 3, pp. 573–578.

Blancb P., Demongodinb I., Castagna P. (2008). A holonic approach for manufacturing execution system design: An industrial application. Engineering Applications of Artificial Intelligence, vol. 21, pp. 315–330.

Kamran F., Fatemi G. (2020). Joint cell formation, cell scheduling, and group layout problem in virtual and classical cellular manufacturing systems. Applied Soft Computing Journal, vol. 97, p. B, pp. 1–17.

Mesghouni K., Hammadi S. y Borne P. (2004). Evolutionary algorithms for job-shop scheduling. International Journal of Applied Mathematics and Computer Science, vol. 14, no. 1, pp. 91–103.

Neufeld J. S., Teucher F. F., Buscher U. (2019). Scheduling flowline manufacturing cells with intercelular moves: non-permutation schedules and material flows in the cell scheduling problem. International Journal of Production Research, pp. 1–16.

Pinedo M. L. (2009). Planning and Scheduling in Manufacturing ans Services. Springer New York 2009, Second Edition, pp. 83–111.

Puga. E. S., Foyo S. A., Peñaloza O. (2010). Modelado de una Celda de Manufactura Integrada por Computadora. Conciencia Tecnológica, no. 39, pp. 23–30.

Reza V. B. (2013). Towards a Capability-Based Decision Support System for a Manufacturing Shop. IFIP International Federation for Information Processing, IFIP AICT 408, pp. 220–227.

Rojas I. R. (2011). Elementos para el diseño de técnicas de investigación: una propuesta de definiciones y procedimientos en la investigación científica. Tiempo de educar, vol. 12, no. 24, pp. 277–297.

Romero D. C., Anzola N. L. (2012). Manufactura integrada por computadora CIM. Corporación Universitaria Minuto de Dios, pp. 1–26.

Simón I. (2017). Modelo de Conocimiento en Sistemas de Manufactura Empleando el Paradigma Holónico. CIATEQ, pp. 1–109.

https://ciateq.repositorioinstitucional.mx/jspui/bitstream/1020/105/1/SimonMarmolejoIsaias%20DMANAV%202017%20PARA%20RN.pdf

UAEH (2018). Manual de Prácticas de: Control Numérico. Instituto de Ciencias Básicas e Ingeniería, Área Académica de: Ingeniería y Arquitectura, revisión 10 de diciembre del 2018, pp 1–67. https://repository.uaeh.edu.mx/bitstream/bitstream/handle/123456789/19371/mp-control-numerico-jd2018.pdf?sequence=1&isAllowed=y

Venkata C. P. (2012). Scheduling in Cellular Manufacturing Systems. Iberoamerican Journal of Industrial Engineering, Florianópolis, SC, Brasil, vol. 4, no. 7, pp. 231–243.

Yazhi L., Xiaoping L., Jatinder N.D. (2014). Solving the multi-objective flowline manufacturing cell scheduling problem by hybrid harmony search. Expert Systems with Applications, vol. 42, no. 3, pp. 1409–1417.

Zuluaga-Ramírez C. M., Aguirre-Henao A. M. (2014). Actividades prácticas del grupo GEIO automatizadas en la Celda de Manufactura Flexible. Ingeniería y Tecnología, Unilibre Cali, vol. 10, no. 3, pp. 340–352.

Analysis and operation of the production train of a manufacturing cell controlled by OpenCIM Manager

Abstract

Downloads

References

e-ISSN

Publication

Avarage time

100 days

Indexed by: