Title :
Mechanism study for magnetic levitation spherical reluctance driving joint to produce magnetic power and torque
Author :
Li, Zeng ; Jun, Wang ; Min, Dai ; Qiang, Zhang
Author_Institution :
Coll. of Mech. Eng., Yangzhou Univ., Yangzhou, China
Abstract :
The multi-degree-of-freedom spherical driving joint with direct bearing driven by spherical motor owns high mechanical integrity and has many advantages such as control and trajectory planning. This paper presents a novel multi-degree-of-freedom spherical reluctance driving joint with magnetic levitation, and analyses operation mechanism, and next deduces the joint´s magnetic conduction of the gap by means of the way to magnetic segmentation achieves the relationship between electrical and mechanical energy conversion, and then calculates the radial suspension force and the tangential suspension torque which spherical driving joint produces. The simulation experiments show that the system of driving joint has well static and dynamic characteristics.
Keywords :
machine bearings; machine control; magnetic levitation; reluctance motors; rotors; torque; direct bearing; dynamic characteristics; electrical energy conversion; magnetic conduction; magnetic levitation; magnetic power; magnetic segmentation; mechanical energy conversion; mechanical integrity; multidegree-of-freedom spherical driving joint; radial suspension force; rotors; spherical motor; spherical reluctance driving joint; static characteristics; tangential suspension torque; trajectory planning; Force; Joints; Magnetic levitation; Reluctance motors; Rotors; Stator windings; comprehensive control; electromagnetic torque; magnetic levitation; spherical driving joint; suspending power;
Conference_Titel :
Consumer Electronics, Communications and Networks (CECNet), 2011 International Conference on
Conference_Location :
XianNing
Print_ISBN :
978-1-61284-458-9
DOI :
10.1109/CECNET.2011.5768890
