Abstract
Several standards for vibration testing of rotating machinery define limits for relative shaft displacement during rotation. With requirements for relative shaft displacement, limits are given for combined electrical and mechanical runout, which is the eddy probe reading error and the error caused by geometry of the measured shaft. Some standards allow for compensation of the mechanical and electrical runout by vectorially subtracting them from the eddy current probe values.This paper presents a measurement procedure applying multi-probe error separation to accurately determine the roundness profile and center point motion of electric motor shafts. The roundness error and center point movement obtained from multi-probe measurement with tactile displacement probes are compared with eddy current sensor displacement measurements to separate the total displacement measured with an eddy current probe into three components: center point motion, roundness error and electrical runout. Additionally, a transform for the measured eccentric component is presented to obtain an estimate for permanent rotor bow regardless of the rotor support arrangement during measurement.The relevant industrial vibration testing standards were reviewed. Several issues were found in the measurement methods required by the standards. The requirements of the standards and the used terminology are assessed critically and improvement proposals are presented.
Highlights
Eddy current displacement probes are extensively used for monitoring of rotor vibrations in large industrial machines
The roundness error and center point movement obtained from multi-probe measurement with tactile displacement probes are compared with eddy current sensor displacement measurements to separate the total displacement measured with an eddy current probe into three components: center point motion, roundness error and electrical runout
The aim of this study is to present a measurement procedure applying multi-probe roundness measurement to separate the total runout components measured with an eddy current probe, regardless of the rotor support during measurement
Summary
Eddy current displacement probes are extensively used for monitoring of rotor vibrations in large industrial machines. These contactless probes enable maintenance-free long-term measurements in industrial environments. The application of these probes requires that there are specially machined probe tracks on the shaft surface. These condition monitoring surfaces are round, cylindrical and concentric with the rotational axis. The surfaces are usually located on or close to each bearing journal. Imperfections in the surfaces will appear in the probe response and result in measurement error of the shaft displacement
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