TH20502B - Magnetic hanging attachment - Google Patents

Abstract

DC60 A device for magnetic suspension mounting of the rotor (10, 20, 30) in rotation relative to the stator (14, 24, 26, 34, 36) rotors (10, 20). , 30) consists of a rotator (11, 21, 31) consisting of materials that are not Conductive magnet The part that is worn on the stator (14, 24, 26, 34, 36) will at least It is at least one magnetic path (12, 22, 25, 32, 35). Which consists of One corresponding rotating magnet (12, 22, 25, 32, 35) is at least co-centered with the spindle. The magnetic path will cause the magnetic field to rotate accordingly. With rotation axis And only when the rotor (11, 21, 31) will leave the set path and Preliminary oscillation, the magnetic field generates an inductive eddy current in the rotor (11, 21, 31). Will cause a stable recovery A device for magnetic suspension mounting of the rotor (10,20,30) in relative rotations along the corresponding rotational path set to the stator (14,24,26,34,36) rotor. (10,20,30) includes a rotator (11,21,31) consisting of non-magnetic materials that are conductive Part that is worn on the stator (14,24,26,34,36) is at least one magnetic path (12,22,25,32,35). Join the center with the rotation axis The magnetic path will cause the magnetic field to rotate according to the axis of rotation. And only when the rotor The magnetic field produces an inductive eddy current in the rotator. (11,21,31) by By eddy currents This will cause a stabilizing force to be restored.

Claims (9)

1.Magnetic suspension device based on the electrodynamic repulse principle. In which the rotor (10,20,30) in rotations is relative along the corresponding rotational path as specified with the stator. (14,24,26,34,36) by such rotor (10,20,30) Where it consists of a rotator (11,21,31) containing a significant portion of the conductive non-magnetic material and the stator. Such (14,24,26,34,36) has at least one magnetic path (12,22,25,32,35). Wearing it in there Where directed by the manner in which the magnetic path (12,22,25,32, 35) This consists of a magnet that rotates around the corresponding (12,22,25,32,35) is the least Join the same center as the axis of rotation And coherent the correspondingly rotated magnetic field to the axis of rotation, where the magnetic field generates an inductive amy current in the rotator (11,21,31). And to restore the force to stabilize only when such rotators (11,21,31) will leave the specified path and the indentation oscillates apart. 2.Device for magnetic attachment As set out in claim 1, where is directed by the presence of a corresponding rotating magnet. At least (12,22,32) would be around such (11,21,31) spinner. 3.Device for magnetic attachment As specified in claim 1 or 2, either Where is directed by the presence of at least one rotating magnet (25,35) in the aforementioned (11,21,31) rotator. 4.Device for magnetic attachment As stated in claim 1, where is directed by the manner with at least one inner rotating magnet (25,35) on the inside of the rotor (11,21, 31) Such And there is at least one outer corresponding rotational magnet (22,25) around the rotors (11,21,31), co-centered and in the same plane as the corresponding rotational magnet (11,21,31). In (25,35) where both the poles of the aforementioned inner and outer magnets are in the same direction. If the magnets are aligned in a magnetic axis and in opposite directions, if the magnets are arranged in a magnetic circle. 5. Devices for magnetic attachment As set out in claim 1, where is directed by the presence of at least two correspondingly rotated magnets (25,35), they are axial and centered with each other. The two poles are in opposite directions, reversing each other. 6. Devices for magnetic attachment As stated in claim 1, where, directed by at least one of the aforementioned rotating magnetisms (25,35), is a direct current-fed electromagnet. 7.Device for magnetic attachment As set out in claim 6, where is directed by the nature of such electromagnets as superconducting electromagnets. 8. Devices for magnetic attachment As set out in claim 1, where, directed by the nature of one such rotating magnet (25,35), is at least an electromagnet fed by an alternating current. 9. Devices for magnetic attachment As set out in claim 8, where, by the nature of such a corresponding rotating magnet (25,35), is at least permanent magnet 1. 0. Devices for magnetic fastening As set out in claim 9, where directed by the manner in which the magnitude of the current and the frequency of the alternating current through the AC through the electromagnet can be controlled during operation.