Gearbox Mechanical Efficiency Determination by Strain Gauges Direct Application

Gearbox Mechanical Efficiency Determination by Strain Gauges Direct Application

This article describes a unique method of measuring the efficiency of gearboxes using foil strain gauges, which allows maintaining the current configuration of the gearbox within the overall assembly of the machine and its functional condition. The presented method is applicable to gearboxes located...

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Bibliographic Details
Published in:Applied sciences Vol. 11; no. 23; p. 11150
Main Authors: Lopot, František, Dub, Martin, Flek, Jan, Hadraba, Daniel, Havlíček, Martin, Kučera, Lukáš, Štoček, Ondřej, Veselý, Tomáš, Janáček, Jiří
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-12-2021
Subjects:
Accuracy
Calibration
Converters
Deformation
Efficiency
FEM
Foils
Gauges
Instrumentation
Laboratories
Load
Lubricants & lubrication
Measurement methods
Mechanical efficiency
notch
Position measurement
Strain
Strain gauges
strain-gauge
Torque
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Summary:This article describes a unique method of measuring the efficiency of gearboxes using foil strain gauges, which allows maintaining the current configuration of the gearbox within the overall assembly of the machine and its functional condition. The presented method is applicable to gearboxes located in the original equipment assembly without the need to use a test rig. Using foil strain gauges, the torque at the input and output of the gearbox is detected. Therefore, the accuracy of torque measurement is key. The crucial step is the calibration of the instrumentation to the given application conditions, which, in this case, is ensured by a virtual calibration using a very accurate FEM analysis. The accuracy of the position of strain gauges and virtual calibration of measurements generate inaccuracies affecting the resulting uncertainty of the determined efficiency. The present article shows, on the example of several measurements, that when using 24-bit converters, after processing the obtained data, mechanical stress with a sensitivity better than hundredths of an MPa can be reliably detected even without signal amplification from strain gauges. It follows that the efficiency is determined with an accuracy of better than low units of tenths.
ISSN:2076-3417
2076-3417
DOI:10.3390/app112311150