Patent ID: 6404088
Filing Date: 2002-06-11
Classification: F16C

Abstract:
A magnetic bearing device comprising:at least two pairs of electromagnets, one pair of said electromagnets being disposed on an X-axis, and another pair of said electromagnets being disposed on a Y-axis; a magnetizable object to be levitated which is disposed between said electromagnets; auxiliary supports for limiting a movable range of said object; a pair of positional displacement sensors for detecting a positional displacement of said object; and a control circuit responsive to a detected positional displacement signal from said positional displacement sensors, for outputting a control current to control magnetic attractive or repulsive forces produced by said electromagnets to levitate said object in an arbitrary position between said electromagnets out of contact therewith; said control circuit comprising: object moving means for moving an object by applying sine-wave signals to the electromagnets, wherein a sine-wave signal is applied to the electromagnets of the X-axis and another sine-wave signal which leads or lags the first sine-wave signal by 90Â° is applied to the electromagnets of the Y-axis so that the object moves along the auxiliary supports at a constant period corresponding to a frequency of the sine-wave signals; offset correcting means for producing an offset-corrected signal from the detected positional displacement signal from said positional displacement sensors; position compensating means for compensating for the offset-corrected signal from said offset correcting means; a driver responsive to a compensated signal from said position compensating means for applying a drive signal to energize said electromagnets; control means for controlling said driver to successively energize said electromagnets to move said object along said auxiliary supports, detecting maximum and minimum values of the detected positional replacement signal from said positional displacement sensors, calculating a middle value between said maximum and minimum values, and comparing said middle value with a predetermined threshold level; and output adjusting means for adjusting the offset-corrected signal from said offset correcting means to substantially eliminate the difference between said middle value and said threshold level so that said middle value represents a position in which said object is to be levitated between said electromagnets.