Magnetic bearing apparatus having a protective non-magnetic can
First Claim
1. In an improved magnetic bearing apparatus of the type wherein a can made of a non-magnetic material is disposed between a rotor and a stator so as to cover the surface of the stator, and said rotor is supported in a levitational manner by a magnetic force of an electromagnet provided on a stator-side member, the improvement comprising:
- a yoke of said electromagnet disposed to extend through said can which the yoke of said electromagnet faces, so that said yoke faces a target for magnetic levitation on said rotor directly or through a magnetic member in a non-contact manner, wherein said magnetic bearing apparatus is used in a gas processing system and said can covers the surface of said stator so as to protect components provided on the stator-side member from a processing gas.
1 Assignment
0 Petitions
Accused Products
Abstract
A magnetic bearing apparatus wherein a can made of a non-magnetic material is disposed between a rotor and a stator, and the rotor is supported in a levitational manner by a magnetic force from an electromagnet provided on a stator-side member. A yoke of the electromagnet is disposed to extend through the can, or a magnetic member is buried in a portion of the can which the yoke of the electromagnet faces, so that the yoke faces a target on the rotor directly or through the magnetic member in a non-contact manner. Accordingly, the magnetic gap between the yoke and the target decreases correspondingly, and hence the magnetic reluctance reduces. Therefore, it becomes possible to reduce the size of the electromagnet.
40 Citations
5 Claims
-
1. In an improved magnetic bearing apparatus of the type wherein a can made of a non-magnetic material is disposed between a rotor and a stator so as to cover the surface of the stator, and said rotor is supported in a levitational manner by a magnetic force of an electromagnet provided on a stator-side member, the improvement comprising:
-
a yoke of said electromagnet disposed to extend through said can which the yoke of said electromagnet faces, so that said yoke faces a target for magnetic levitation on said rotor directly or through a magnetic member in a non-contact manner, wherein said magnetic bearing apparatus is used in a gas processing system and said can covers the surface of said stator so as to protect components provided on the stator-side member from a processing gas.
-
-
2. In an improved magnetic bearing apparatus of the type wherein a can made of a non-magnetic material is disposed between a rotor and a stator so as to cover the surface of the stator, and said rotor is supported in a levitational manner by a magnetic force of an electromagnet provided on a stator-side member, and further a displacement of said rotor is detected with a displacement sensor provided on the stator-side member, the improvement comprising:
-
at least a yoke of said displacement sensor disposed to extend through said can, or a magnetic member buried in a portion of said can which the yoke of said displacement sensor faces, so that said yoke faces a target for detecting displacement on said rotor directly or through said magnetic member in a non-contact manner, wherein said magnetic bearing apparatus is used in a gas processing system and said can covers the surface of said stator so as to protect components provided on the stator-side member from a processing gas.
-
-
3. In an improved magnetic bearing apparatus of the type wherein a can made of a non-magnetic material is disposed between a rotor and a stator so as to cover the surface of the stator, and said rotor is supported in a levitational manner by a magnetic force of an electromagnet provided on a stator-side member, and further rotation of said rotor is detected with a rotation sensor provided on the stator-side member, the improvement comprising:
-
at least a yoke of said rotation sensor disposed to extend through said can, or a magnetic member buried in a portion of said can which the yoke of said rotation sensor faces, so that said yoke faces a target for detecting rotation on said rotor directly or through said magnetic member in a non-contact manner, wherein said magnetic bearing apparatus is used in a gas processing system and said can covers the surface of said stator so as to protect components provided on the stator-side member from a processing gas.
-
-
4. In an improved magnetic bearing apparatus of the type wherein a can made of a non-magnetic material is disposed between a rotor and a stator so as to cover the surface of the stator, and said rotor is supported in a levitational manner by a magnetic force of an electromagnet provided on a stator-side member, and further said rotor is rotated by a magnetic force from a motor stator provided on the stator-side member, the improvement comprising:
-
at least a yoke of said motor stator disposed to extend through said can, or a magnetic member buried in a portion of said can which the yoke of said motor stator faces, so that said yoke faces said rotor directly or through said magnetic member in a non-contact manner, wherein said magnetic bearing apparatus is used in a gas processing system and said can covers the surface of said stator so as to protect components provided on the stator-side member from a processing gas.
-
-
5. In an improved magnetic bearing apparatus of the type wherein a disk shaped target is secured to a rotor, ring-shaped electromagnets are secured to a stator to face each other across said target with predetermined gaps respectively provided between said electromagnets and both sides of said target, and said rotor is supported in a levitational manner by a magnetic force from said electromagnets, the improvement comprising:
each of said electromagnets having two yoke members made of a magnetic material, one facing said target and the other being away from said target, a ring-shaped coil sandwiched between said two yoke members, and said yoke member facing said target is divided into two concentric portions by a ring-shaped non-magnetic member.
Specification