PASSIVE MAGNETIC BEARING CONFIGURATIONS
First Claim
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1. A passive magnetic bearing system, comprising:
- a rotor having a vertical axis of rotation;
a first circular magnetic element fixedly attached to an upper portion of said rotor;
a second circular magnetic element fixedly attached to a support structure external to said rotor, wherein said first circular magnetic element and said second circular magnetic element attract each other;
a third circular magnetic element fixedly attached to a lower portion of said rotor;
a fourth circular magnetic element fixedly attached to a support structure external to said rotor, wherein said third circular magnetic element and said fourth circular magnetic element repel each other;
a shaft fixedly attached external to said rotor and collinear with said vertical axis of rotation; and
at least one journal bearing element attached to said rotor, wherein said journal bearing comprises a hole that allows passage of said shaft.
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Abstract
A journal bearing provides vertical and radial stability to a rotor of a passive magnetic bearing system when the rotor is not rotating and when it is rotating. In the passive magnetic bearing system, the rotor has a vertical axis of rotation. Without the journal bearing, the rotor is vertically and radially unstable when stationary, and is vertically stable and radially unstable when rotating.
28 Citations
26 Claims
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1. A passive magnetic bearing system, comprising:
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a rotor having a vertical axis of rotation; a first circular magnetic element fixedly attached to an upper portion of said rotor; a second circular magnetic element fixedly attached to a support structure external to said rotor, wherein said first circular magnetic element and said second circular magnetic element attract each other; a third circular magnetic element fixedly attached to a lower portion of said rotor; a fourth circular magnetic element fixedly attached to a support structure external to said rotor, wherein said third circular magnetic element and said fourth circular magnetic element repel each other; a shaft fixedly attached external to said rotor and collinear with said vertical axis of rotation; and at least one journal bearing element attached to said rotor, wherein said journal bearing comprises a hole that allows passage of said shaft. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A journal bearing for attachment to a rotor of a passive magnetic bearing system, wherein said rotor comprises a vertical axis of rotation and further includes a first circular magnetic element fixedly attached to an upper portion of said rotor and a third circular magnetic element fixedly attached to a lower portion of said rotor;
- wherein said bearing system further comprises a second circular magnetic element fixedly attached to a support structure external to said rotor, wherein said first circular magnetic element and said second circular magnetic element attract each other;
wherein said bearing system further comprises a fourth circular magnetic element fixedly attached to a support structure external to said rotor, wherein said third circular magnetic element and said fourth circular magnetic element repel each other;
wherein said journal bearing comprises;a shaft fixedly attached external to said rotor and collinear with said vertical axis of rotation; and at least one journal bearing element attached to said rotor, wherein said journal bearing element comprises a hole that allows passage of said shaft. - View Dependent Claims (17, 18, 19)
- wherein said bearing system further comprises a second circular magnetic element fixedly attached to a support structure external to said rotor, wherein said first circular magnetic element and said second circular magnetic element attract each other;
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20. A passive magnetic bearing system, comprising:
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a rotor having a vertical axis of rotation, wherein when stationary, said rotor is vertically and radially unstable, wherein when rotating, said rotor is vertically stable and radially unstable; a shaft fixedly attached to a mount external to said rotor, wherein said shaft is aligned to said vertical axis of rotation; at least one journal bearing element fixedly attached to said rotor, wherein said journal bearing element comprises plate with a hole, wherein said hole is located at said vertical axis of rotation and wherein said shaft passes through said hole, wherein said journal bearing element and said shaft provide vertical and radial stability to said rotor when said rotor is not rotating and when said rotor is rotating. - View Dependent Claims (21, 22, 23)
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24. A method for fabricating a passive magnetic bearing system, comprising:
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providing a rotor having a vertical axis of rotation; fixedly attaching a first circular magnetic element to an upper portion of said rotor; fixedly attaching a second circular magnetic element to a support structure external to said rotor, wherein said first circular magnetic element and said second circular magnetic element attract each other; fixedly attaching a third circular magnetic element to a lower portion of said rotor; fixedly attaching a fourth circular magnetic element to a support structure external to said rotor, wherein said third circular magnetic element and said fourth circular magnetic element repel each other; attaching at least one journal bearing element to said rotor, wherein said journal bearing comprises a hole; and fixedly attaching a shaft to a mount external to said rotor, wherein said shaft us located on said vertical axis of rotation and passes through said hole. - View Dependent Claims (25)
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26. A method for stabilizing a passive magnetic bearing system that includes a rotor comprising a vertical axis of rotation and further includes a first circular magnetic element fixedly attached to an upper portion of said rotor and a third circular magnetic element fixedly attached to a lower portion of said rotor;
- wherein said bearing system further comprises a second circular magnetic element fixedly attached to a support structure external to said rotor, wherein said first circular magnetic element and said second circular magnetic element attract each other;
wherein said bearing system further comprises a fourth circular magnetic element fixedly attached to a support structure external to said rotor, wherein said third circular magnetic element and said fourth circular magnetic element repel each other;
wherein said method comprises;fixedly attaching a shaft to a mount external to said rotor, wherein said shaft is aligned with said vertical axis of rotation; and attaching at least one journal bearing element to said rotor, wherein said journal bearing element comprises a hole that allows passage of said shaft.
- wherein said bearing system further comprises a second circular magnetic element fixedly attached to a support structure external to said rotor, wherein said first circular magnetic element and said second circular magnetic element attract each other;
Specification
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Current AssigneeLawrence Livermore National Security LLC (Government of the United States of America)
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Original AssigneeRegents of the University of California (University of California)
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InventorsPost, Richard F.
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current310/90.5
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CPC Class CodesF16C 17/02 for radial load onlyF16C 2361/55 Flywheel systems in general...F16C 32/0408 Passive magnetic bearingsF16C 39/063 Permanent magnetsH02K 7/09 with magnetic bearingsY10T 29/49636 Process for making bearing ...
