Resumen

LARA MUNOZ, Erica María; VIVEROS TORRES, Israel  y  REYNA VARGAS, Rogelio. Real-time analysis web system for a mechanical vibrations bench predictive maintenance. RIDE. Rev. Iberoam. Investig. Desarro. Educ [online]. 2025, vol.15, n.30, e894.  Epub 08-Ago-2025. ISSN 2007-7467.  https://doi.org/10.23913/ride.v15i30.2439.

Within the industrial sector, a failure called rotational imbalance is recurrent. This refers to a misalignment of the rotor's inertia axis. This dynamic unbalance of the rotating system causes the generation of forces that mainly overload the assembly and coupling elements. If this anomaly exceeds the design mechanical resistance levels for the machinery, it wears out prematurely or even permanently damages it, due to the vibration index, in the order of amplitude and acceleration. Because of this, it is of great interest to design devices that carry out constant monitoring of the equipment.

In this article, a system monitors data from a bank of mechanical vibrations is examined, to know the state of rotary system, and thus obtain continuous monitoring of the equipment. This was done through the design of a user interface developed in React, the implementation of an API developed with Node.js for the communication of data stored in the PostgreSQL database and to transmit data in real time using Socket.io. For the development of the system, the agile Scrum methodology was applied in a process of seven Sprints with various tasks each iteration. This achieved the acquisition of real-time data of the generated vibration values. This was done through a responsive and accessible web system that display statistics, graphs and collected data. A pilot test was conducted with the application, demonstrating that it can be applied to industrial environments as an affordable tool for predictive maintenance.

Palabras llave : web system; predictive maintenance; API; Scrum agile methodology; rotating equipment; real-time monitoring.

        · resumen en Español | Portugués     · texto en Español     · Español ( pdf )