Initiating predictive maintenance for a conveyor motor in a bottling plant using industry 4.0 concepts

Initiating predictive maintenance for a conveyor motor in a bottling plant using industry 4.0 concepts

For the past recent years, Industry 4.0 (I40) also known as smart manufacturing, together with advanced manufacturing techniques, has been introduced in the industrial manufacturing sector to improve and stabilize processes. Nevertheless, practical applications of these advanced technologies are sti...

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Bibliographic Details
Published in:International journal of advanced manufacturing technology 2018-08, Vol.97 (9-12), p.3251-3271
Main Authors: Kiangala, Kahiomba Sonia, Wang, Zenghui
Format: Article
Language:eng
Subjects:
Bottling
CAE) and Design
Computer-Aided Engineering (CAD
Conveyors
Engineering
Fault detection
Graphical user interface
Industrial and Production Engineering
Industrial applications
Maintenance management
Manufacturing
Mechanical Engineering
Media Management
Monitoring systems
Motors
Original Article
Predictive maintenance
Programmable logic controllers
Schedules
Supervisory control and data acquisition
Vibration monitoring
Online Access:Get full text
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Summary:For the past recent years, Industry 4.0 (I40) also known as smart manufacturing, together with advanced manufacturing techniques, has been introduced in the industrial manufacturing sector to improve and stabilize processes. Nevertheless, practical applications of these advanced technologies are still in their early stages resulting in slow adoption of the I40 concepts, especially for small- to medium-scale enterprises (SMEs). This paper proposes the design of an experimental method to integrate the practical use of Industry 4.0 in a small bottling plant; especially by detecting early faults or threats in conveyor motors and generating accordingly a predictive maintenance schedule. Using advanced programming functions of a Siemens S7-1200 programmable logic controller (PLC) controlling the bottling plant, vibration speed data is monitored through vibration sensors mounted on the motor and an efficient predictive maintenance plan is generated. The running PLC communicates with a supervisory control and data acquisition (SCADA) graphical user interface (GUI) which instantaneously displays maintenance schedules and allows, whenever required, flexible configuration of new maintenance rules. This paper also proposes a decentralized monitoring system from which vibration speed states can be monitored on a cloud-based report accessible via the Internet; the decentralized monitoring system also sends instant email notifications to the intended supervisor for every maintenance schedule generated. By its results, this research shows different possibilities of the practical use of Industry 4.0 basic concepts to better manufacturing operations within SMEs and opens a path for more improvement in this sector.
ISSN:0268-3768
1433-3015