Inspection robotic UGV platform and the procedure for an acoustic signal-based fault detection in belt conveyor idler
Inspection robotic UGV platform and the procedure for an acoustic signal-based fault detection in belt conveyor idler
Belt conveyors are commonly used for the transportation of bulk materials. The most characteristic design feature is the fact that thousands of idlers are supporting the moving belt. One of the critical elements of the idler is the rolling element bearing, which requires monitoring and diagnostics to prevent potential failure. Due to the number of idlers to be monitored, the size of the conveyor, and the risk of accident when dealing with rotating elements and moving belts, monitoring of all idlers (i.e., using vibration sensors) is impractical regarding scale and connectivity. Hence, an inspection robot is proposed to capture acoustic signals instead of vibrations commonly used in condition monitoring. Then, signal processing techniques are used for signal pre-processing and analysis to check the condition of the idler. It has been found that even if the damage signature is identifiable in the captured signal, it is hard to automatically detect the fault in some cases due to sound disturbances caused by contact of the belt joint and idler coating. Classical techniques based on impulsiveness may fail in such a case, moreover, they indicate damage even if idlers are in good condition. The application of the inspection robot can “replace” the classical measurement done by maintenance staff, which can improve the safety during the inspection. In this paper, the authors show that damage detection in bearings installed in belt conveyor idlers using acoustic signals is possible, even in the presence of a significant amount of background noise. Influence of the sound disturbance due to the belt joint can be minimized by appropriate signal processing methods.
Shiri, Hamid
7a4304e3-a4bc-4007-961b-29530af225fd
Wodecki, Jacek
bed412ce-c860-4637-9aee-34685199239d
Ziętek, Bartłomiej
7eb88081-fffc-46ff-8c3d-c9de720d709f
Zimroz, Radoslaw
d3d00d36-da1f-411b-8f02-22871182ff08
16 November 2021
Shiri, Hamid
7a4304e3-a4bc-4007-961b-29530af225fd
Wodecki, Jacek
bed412ce-c860-4637-9aee-34685199239d
Ziętek, Bartłomiej
7eb88081-fffc-46ff-8c3d-c9de720d709f
Zimroz, Radoslaw
d3d00d36-da1f-411b-8f02-22871182ff08
Shiri, Hamid, Wodecki, Jacek, Ziętek, Bartłomiej and Zimroz, Radoslaw
(2021)
Inspection robotic UGV platform and the procedure for an acoustic signal-based fault detection in belt conveyor idler.
Energies, 14 (22), [7646].
(doi:10.3390/en14227646).
Abstract
Belt conveyors are commonly used for the transportation of bulk materials. The most characteristic design feature is the fact that thousands of idlers are supporting the moving belt. One of the critical elements of the idler is the rolling element bearing, which requires monitoring and diagnostics to prevent potential failure. Due to the number of idlers to be monitored, the size of the conveyor, and the risk of accident when dealing with rotating elements and moving belts, monitoring of all idlers (i.e., using vibration sensors) is impractical regarding scale and connectivity. Hence, an inspection robot is proposed to capture acoustic signals instead of vibrations commonly used in condition monitoring. Then, signal processing techniques are used for signal pre-processing and analysis to check the condition of the idler. It has been found that even if the damage signature is identifiable in the captured signal, it is hard to automatically detect the fault in some cases due to sound disturbances caused by contact of the belt joint and idler coating. Classical techniques based on impulsiveness may fail in such a case, moreover, they indicate damage even if idlers are in good condition. The application of the inspection robot can “replace” the classical measurement done by maintenance staff, which can improve the safety during the inspection. In this paper, the authors show that damage detection in bearings installed in belt conveyor idlers using acoustic signals is possible, even in the presence of a significant amount of background noise. Influence of the sound disturbance due to the belt joint can be minimized by appropriate signal processing methods.
Text
energies-14-07646
- Version of Record
More information
Accepted/In Press date: 10 November 2021
Published date: 16 November 2021
Identifiers
Local EPrints ID: 502431
URI: http://eprints.soton.ac.uk/id/eprint/502431
ISSN: 1996-1073
PURE UUID: 41fee026-1bb3-4744-aee9-12c6b216f6e4
Catalogue record
Date deposited: 26 Jun 2025 16:32
Last modified: 22 Aug 2025 02:49
Export record
Altmetrics
Contributors
Author:
Hamid Shiri
Author:
Jacek Wodecki
Author:
Bartłomiej Ziętek
Author:
Radoslaw Zimroz
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics