10.35940/ijrte.C4357.099320
https://zenodo.org/records/5842866
oai:zenodo.org:5842866
José Luis Hernández Corona
José Luis Hernández Corona
Department of Mechanical Engineering, Technological University of Tlaxcala, Huamantla, Tlaxcala, Mexico
Ernesto Mendoza Vázquez
Ernesto Mendoza Vázquez
Department of Mechanical Engineering, Technological University of Tlaxcala, Huamantla, Tlaxcala, Mexico
Alejandra Ortiz Castro
Alejandra Ortiz Castro
Faculty of Mechanical Engineering, Technological University of Tlaxcala, Huamantla, Tlaxcala, Mexico.
Amador Arroyo López
Amador Arroyo López
Faculty of Mechanical Engineering, Technological University of Tlaxcala, Huamantla, Tlaxcala, Mexico.
Moisés Martínez Aguirre
Moisés Martínez Aguirre
Faculty of Mechanical Engineering, Technological University of Tlaxcala, Huamantla, Tlaxcala, Mexico.
Implementation of an Automated System in the Measurement of Temperature in Broken Dynamic Equipment
Zenodo
2020
Control, automation, electromechanical failures, Signals, Simulation.
Blue Eyes Intelligence Engineering and Sciences Publication(BEIESP)
Blue Eyes Intelligence Engineering and Sciences Publication(BEIESP)
Publisher
2020-09-30
eng
2277-3878
Creative Commons Attribution 4.0 International
This article presents a titration project describing the implementation in the rotodynamic equipment of an economical automated temperature module, as a preventive solution for future failures caused by the lack of analysis in the increase or decrease in temperature. The project is currently contextualized in the area of industry, first, providing background to frame the importance of temperature control and measurement and also know what its evolution has been like. Immediately focuses on explaining the theoretical basis for giving context to the reader. For the purpose of detecting the increase or decrease of heat in machinery by implementing a monitoring system. The development of the project is based on the use of an LM35 transistor that connected to an Arduino Uno through various cables, will display the temperature measurement and make interface of the obtained results that will be reflected in a 2x16 LCD screen. The project is applied in a prototype bench in three key parts of the pulley, and in the two bearings to make the simulations, then perform corresponding tests and check that theory. A simple and lower cost system, but above all efficient that meets the expectations of the problem presented.