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Abstract
Statistics say that bearings are this part of induction motors which is most susceptible to damage. The equipment employed for bearing diagnostics usually makes use of vibrations as the criterion for technical condition of the bearings. A faulty bearing results in additional motor vibrations. They are reflected in the harmonic content of stator currents. In certain operating conditions the current signal is the sole source of information on the state of the motor. The paper presents a mathematical model of the motor, allowing for rotor eccentricities. Calculated spectra of the stator currents are presented for the cases of operation with rotor vibrations mapping with some approximation the vibrations caused by faulty bearings. The paper presents also the results of laboratory simulations for a motor put into vibrations of adjustable frequency. Vibrations of the motor housing simulate the rotor oscillations caused by a damaged bearing. The results of laboratory simulations permitted to define the relations linking vibrations of the air gap with the components in the stator current spectrum.
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- Category:
- Articles
- Type:
- artykuł w czasopiśmie indeksowanym TR Master Journal List
- Published in:
-
Metrology and Measurement Systems
no. XVI,
pages 607 - 618,
ISSN: 0860-8229 - Language:
- English
- Publication year:
- 2009
- Bibliographic description:
- Swędrowski L., Rusek J.: Model and laboratory simulation of a induction motor for diagnostic purposes// Metrology and Measurement Systems. -Vol. XVI., nr. nr 4 (2009), s.607-618
- Verified by:
- Gdańsk University of Technology
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