Auto Racking System Prototype For Forklift Replacement Industrial Goods Distribution

Main Article Content

Sylvestre Maniriho

Abstract

Automation is one of the technological developments and is an alternative to obtaining a working system that is more practical, efficient and has a low accident rate to get a high level of accuracy as well. The process of transporting and packing goods can be done by using tools to make it easier and lighten the work of humans. At this time, PLC has played an essential role in the industrial world, various applications have been developed using a PLC control system, so it is critical for us electrical engineering students to learn and understand PLC as a provision for us when we enter the industrial world. Therefore Automation This racking system can be a learning tool for electrical engineering students, especially in the PLC field. The results of research and discussion have been stated. The use of limit switches is essential in this system. To determine which motor will be active and which engine will be off. And as a determinant of the direction of the pallet will be brought. With HMI, you can monitor which components are active and count the number of pallets that go in and out. The system has been able to run properly and correctly even though the mechanical problem is not yet perfect. Before making a miniature, we must prepare the concept in advance, so it is easy to design. Understand the process and workings of the tools we make. Understand the specifications of the components that we will use.

Article Details

How to Cite
[1]
S. Maniriho, “Auto Racking System Prototype For Forklift Replacement Industrial Goods Distribution”, Fidelity, vol. 1, no. 1, pp. 5-10, May 2019.
Section
Articles
Received 2019-03-24
Accepted 2019-04-28
Published 2019-05-31

References

ZHAO, Zhiheng, et al. Location management of cloud forklifts in finished product warehouse. International Journal of Intelligent Systems, 2017, 32.4: 342-370.



YUEN, K. K.; CHOI, S. H.; YANG, X. B. A full-immersive CAVE-based VR simulation system of forklift truck operations for safety training. Computer-Aided Design and Applications, 2010, 7.2: 235-245.



MORA, Marta C., et al. Factory management and transport automation. In: EFTA 2003. 2003 IEEE Conference on Emerging Technologies and Factory Automation. Proceedings (Cat. No. 03TH8696). IEEE, 2003. p. 508-515.



ANGELES, Rebecca. RFID technologies: supply-chain applications and implementation issues. Information systems management, 2005, 22.1: 51-65.



WANG, Hongwei; CHEN, Shuang; XIE, Yong. An RFID-based digital warehouse management system in the tobacco industry: a case study. International Journal of Production Research, 2010, 48.9: 2513-2548.



KO, Min S., et al. Machine control level simulation of an AS/RS in the automotive industry. In: Proceedings of the 2010 Winter Simulation Conference. IEEE, 2010. p. 1727-1738.



SUESUT, T., et al. A design of automatic warehouse for internet based system. In: 2002 IEEE International Conference on Industrial Technology, 2002. IEEE ICIT'02. IEEE, 2002. p. 313-316.



MORA, Marta C.; ARMESTO, Leopoldo; TORNERO, Josep. Management and transport automation in warehouses based on auto-guided vehicles. IFAC Proceedings Volumes, 2006, 39.15: 671-676.



ROSLI, D., et al. Development of an automatic handling system for radioactive waste. In: 2011 4th International Conference on Mechatronics (ICOM). IEEE, 2011. p. 1-5.



KROB, Robert; SUDDOTH, Tom; VAN GEMERT, Paul. The design and implementation of a PLC continuous casting control system. In: Conference Record of the 1993 IEEE Industry Applications Conference Twenty-Eighth IAS Annual Meeting. IEEE, 1993. p. 2398-2405.