• Title of article

    A bearingless coaxial magnetic gearbox

  • Author/Authors

    Abdel-Khalik, A.S. Alexandria University - Faculty of Engineering - Department of Electrical Engineering, Egypt , Ahmed, S. Texas A M University at Qatar - Department of Electrical and Computer Engineering, Qatar , Massoud, A. Alexandria University - Faculty of Engineering - Department of Electrical Engineering, Egypt , Massoud, A. Qatar University - Department of Electrical Engineering, Qatar

  • From page
    573
  • To page
    582
  • Abstract
    Recently, magnetic gearboxes (MGBs) are serious contenders to their conventional mechanical counterparts in terms of reduced maintenance requirements, improved reliability, tolerance to mechanical inaccuracies, and inherent overload protection. MGBs are preferably employed in high speed applications and compact harsh environments subjected to severe shock and vibration. A high gear ratio MGB is also a suitable candidate for single stage high-speed transmission applications such as helicopter power transmissions. In this paper, the conventional planetary magnetic gearbox is equipped with a three-phase winding to provide additional magnetic levitation capabilities besides torque transmission, thus creating a bearingless MGB configuration. This was achieved by adding a three-phase winding in the space between the ferromagnetic pieces. The current in this additional winding is controlled to provide decoupled axial forces irrespective of the transmitted mechanical power. This feature is important to reduce the mechanical losses especially for high-speed rotors and can be a viable method for vibration suppression.
  • Keywords
    Gearbox , Magnetic planetary gear , Bearingless machines , Permanent magnets , Finite elements , Speed reduction ratio
  • Journal title
    Alexandria Engineering Journal
  • Journal title
    Alexandria Engineering Journal
  • Record number

    2540477