Electric linear motors are spreading in industrial automation because they allow for direct drive applications with very high dynamic performances, high reliability, and high flexibility in trajectory generation. The moving part of the motor is linked to the fixed part by means of linear bearings. As in many other electric machines, bearings represent one of the most vulnerable parts because they are prone to wear and contamination. In the case of linear roller bearings, this issue is even more critical as the rail cannot be easily fully enclosed and protected from environmental contamination, unlike the radial rotating bearing counterpart. This paper presents a diagnostic method based on vibration analysis to identify which signature is related to a specific fault.
Claudio Bianchini, Fabio Immovilli, Marco Cocconcelli, Riccardo Rubini, Alberto Bellini (2011). Fault Detection of Linear Bearings in Brushless AC Linear Motors by Vibration Analysis. IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 58, 1684-1694 [10.1109/TIE.2010.2098354].
Fault Detection of Linear Bearings in Brushless AC Linear Motors by Vibration Analysis
BELLINI, ALBERTO
2011
Abstract
Electric linear motors are spreading in industrial automation because they allow for direct drive applications with very high dynamic performances, high reliability, and high flexibility in trajectory generation. The moving part of the motor is linked to the fixed part by means of linear bearings. As in many other electric machines, bearings represent one of the most vulnerable parts because they are prone to wear and contamination. In the case of linear roller bearings, this issue is even more critical as the rail cannot be easily fully enclosed and protected from environmental contamination, unlike the radial rotating bearing counterpart. This paper presents a diagnostic method based on vibration analysis to identify which signature is related to a specific fault.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
