Abstract: Systems and methods for preventing electrical arcing in motors by placing an electrically conductive roller assembly between the stator and rotor of the motor. A rotor is mounted on a shaft, and this assembly is positioned within the bore of a stator. The roller assembly has a stationary portion that is secured to the stator. The roller assembly also has a movable portion on which a roller is mounted. The movable portion of the roller assembly is spring-loaded to urge the roller toward the shaft and thereby maintain contact between the roller and the shaft. When the shaft rotates within the bore, the roller rotates and rolls on the surface of the shaft, maintaining contact without rubbing against the shaft. An electrically conductive pathway is formed from the stator, through the roller assembly to the shaft and rotor thereby preventing an electrical potential from developing between the rotor and stator.

Abstract: Systems and methods for preventing electrical arcing in motors by placing an electrically conductive roller assembly between the stator and rotor of the motor. A rotor is mounted on a shaft, and this assembly is positioned within the bore of a stator. The roller assembly has a stationary portion that is secured to the stator. The roller assembly also has a movable portion on which a roller is mounted. The movable portion of the roller assembly is spring-loaded to urge the roller toward the shaft and thereby maintain contact between the roller and the shaft. When the shaft rotates within the bore, the roller rotates and rolls on the surface of the shaft, maintaining contact without rubbing against the shaft. An electrically conductive pathway is formed from the stator, through the roller assembly to the shaft and rotor thereby preventing an electrical potential from developing between the rotor and stator.