Development of a Product Pipeline System to Teach Industrial Manufacturing Automation

Mina Morcos; Shouling He; Mohamed M. Youssef

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Conference: 2023 ASEE Annual Conference & Exposition
Location: Baltimore , Maryland
Publication Date: June 25, 2023
Start Date: June 25, 2023
End Date: June 28, 2023
Conference Session: Design Experiences in Manufacturing Education
Tagged Division: Manufacturing Division (MFG)
Page Count: 21
DOI: 10.18260/1-2--43123
Permanent URL: https://peer.asee.org/43123
Download Count: 304

Paper Authors

biography

Mina Morcos Vaughn College of Aeronautics and Technology

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Mina Morcos is a senior student in Mechatronic Engineering at Vaughn College of Aeronautics and Technology. He is an active member of multiple clubs such as Robotics, IEEE, SHPE, and NSBE. Also, he is A supplementary instructor for the course Microprocessors to assist students to understand how Microprocessors and Microcontroller work,
also, assist students to Compile and Troubleshooting the pseudo-code on Arduino UNO boards.

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Shouling He Vaughn College of Aeronautics and Technology

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Dr. Shouling He is a professor of Engineering and Technology at Vaughn College of Aeronautics and Technology, where she is teaching the courses in Mechatronics Engineering and Electrical Engineering Technology. Her research interests include modeling and simulation, microprocessors and PLCs, control system designs, robotics and K-16 education. She has published more than 50 journal and conference papers in these research areas.

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Mohamed M. Youssef Vaughn College of Aeronautics and Technology

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Mohamed Youssef is a junior student in the Mechatronics Engineering program at Vaughn College of Aeronautics and Technology. He is an active member of several clubs, including Robotics, IEEE, and SWE. Mohamed holds the position of Vice President in the NSBE club at Vaughn College. In addition to his studies, he also works as a supplementary instructor of Physics, demonstrating his passion for sharing his knowledge and helping others succeed.

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Abstract

Industrial automation has gained much attention due to its advanced means to automatize multipart industrial processes by employing pipeline techniques and computer-aided technology in the manufacturing industry. The critical issue for manufacturing industries is to compete globally in terms of productivity, cost, and demand-supply proportion. To achieve this goal, the industries mainly focus on automated approaches in their manufacturing plants. Particularly many processes are developed to run simultaneously or in a pipeline approach for a complex production system. However, teaching this type of concurrently running assembly line system in a college can be a challenge for educators since students may not be able to imagine how the pipeline system works. In addition, supervising students to design, program, and implement the system for the manufacturing industries can be more problematic because of the complicated configuration of the systems. The Industrial Manufacture System (IMS) developed at the college intends to address the need in education. This paper will introduce how the production assembly line developed, the system consists of Sorting, Assembly, Processing, Testing, Storage, and Buffering operations. The Siemens Simatic PLC (Programmable Logic Controller) S300 will be used in the manufacturing system and TIA (Total Integrated Automation) Portal and the Human-machine interface (HMI) will be used as the programming environment and the human-machine contact interface. For students to understand and program the designed system, Factory I/O and PLCSIM will be used as a simulator before the real implementation. The designed manufacturing system offers a more convenient and efficient approach to the transition of manufacturing industries from manual to automated. The automation efficiency can be enhanced furthermore by taking help from using Factory IO and PLC (SIM) Simulation. In conclusion, this project will lead to a direct positive impact on society with several roots. Moreover, IMS will be a part of the education renaissance, and a new chapter for students to get more involved with the manufacturing System routine.

Citation
Format

Morcos, M., & He, S., & Youssef, M. M. (2023, June), Development of a Product Pipeline System to Teach Industrial Manufacturing Automation Paper presented at 2023 ASEE Annual Conference & Exposition, Baltimore , Maryland. 10.18260/1-2--43123

TY - CPAPER
AB - Industrial automation has gained much attention due to its advanced means to automatize multipart industrial processes by employing pipeline techniques and computer-aided technology in the manufacturing industry. The critical issue for manufacturing industries is to compete globally in terms of productivity, cost, and demand-supply proportion. To achieve this goal, the industries mainly focus on automated approaches in their manufacturing plants. Particularly many processes are developed to run simultaneously or in a pipeline approach for a complex production system. However, teaching this type of concurrently running assembly line system in a college can be a challenge for educators since students may not be able to imagine how the pipeline system works. In addition, supervising students to design, program, and implement the system for the manufacturing industries can be more problematic because of the complicated configuration of the systems.
The Industrial Manufacture System (IMS) developed at the college intends to address the need in education. This paper will introduce how the production assembly line developed, the system consists of Sorting, Assembly, Processing, Testing, Storage, and Buffering operations. The Siemens Simatic PLC (Programmable Logic Controller) S300 will be used in the manufacturing system and TIA (Total Integrated Automation) Portal and the Human-machine interface (HMI) will be used as the programming environment and the human-machine contact interface. For students to understand and program the designed system, Factory I/O and PLCSIM will be used as a simulator before the real implementation.
The designed manufacturing system offers a more convenient and efficient approach to the transition of manufacturing industries from manual to automated. The automation efficiency can be enhanced furthermore by taking help from using Factory IO and PLC (SIM) Simulation. In conclusion, this project will lead to a direct positive impact on society with several roots. Moreover, IMS will be a part of the education renaissance, and a new chapter for students to get more involved with the manufacturing System routine.

AU - Mina Morcos
AU - Shouling He
AU - Mohamed M. Youssef
CY - Baltimore , Maryland
DA - 2023/06/25
PB - ASEE Conferences
TI - Development of a Product Pipeline System to Teach Industrial Manufacturing Automation
UR - https://peer.asee.org/43123
DO - 10.18260/1-2--43123
ER -