Seal for a joint or juncture – Seal between relatively movable parts – Close proximity seal
Reexamination Certificate
2000-01-21
2004-01-20
Knight, Anthony (Department: 3676)
Seal for a joint or juncture
Seal between relatively movable parts
Close proximity seal
C277S410000, C277S301000, C384S114000, C384S125000, C384S126000, C360S097020, C360S098070, C360S121000
Reexamination Certificate
active
06679501
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to the field of disc drives, and more particularly to an apparatus and method for providing a reliable, ferrofluidic seal between a hub and a stationary shaft; the design is especially useful in a high speed spindle motor in a disc drive.
BACKGROUND OF THE INVENTION
Disc drives, including magnetic disc drives, optical disc drives and magneto-optical disc drives, are widely used for storing information. A typical disc drive has one or more discs for storing information in a plurality of concentric circular tracks. This information is written to and read from the discs using read/write heads mounted on actuator arms which are moved from track to track across surfaces of the discs by an actuator mechanism. The discs are mounted on a spindle which is turned by a spindle motor to pass the surfaces of the discs under the read/write heads. The spindle motor generally includes a shaft fixed to a baseplate and a hub, to which the spindle is attached, having a sleeve into which the shaft is inserted. Permanent magnets attached to the hub interact with a stator winding on the baseplate to rotate the hub relative to the shaft. One or more bearings between the hub and the shaft facilitate rotation of the hub.
The spindle motor also typically includes an exclusion seal to seal interfacial spaces between the hub and the shaft. This is necessary, because lubricating fluids or greases used in the bearings tend to give off aerosols or vaporous components that migrate or diffuse out of the spindle motor and into a disc chamber in which the discs are maintained. This vapor often transports other particles, such as material abraded from the bearings or other components of the spindle motor, into the disc chamber. These vapors and particles deposit on the read/write heads and the surfaces of the discs, causing damage to the discs and the read/write heads as they pass over the discs. Thus, the migration of these contaminants into the disc chamber must be prevented.
To prevent the migration of these contaminants into the disc chamber, the latest generation of spindle motors utilize a ferrofluidic seal between the shaft and the hub. Ferrofluidic seals are described in, for example, U.S. Pat. No. 5,473,484, which is incorporated herein by reference. A typical ferrofluidic seal consists of a ferrofluid, an axially polarized annular magnet and two magnetically permeable annular pole pieces attached to opposing faces of the magnet. The ferrofluid is conventionally composed of a suspension of magnetically permeable particles suspended in a fluid carrier. Generally, the magnet and the pole pieces are fixed to the hub and extend close to but do not touch the shaft. Magnetic flux generated by the magnet passes through the pole pieces and the shaft, which is also magnetically permeable, to magnetically hold the ferrofluid in magnetic gaps between the pole pieces and the shaft, thereby forming a seal.
Current design concepts for high speed ferrofluid seals (above 13K RPM) have a rotating magnetic seal with a ferrofluid liquid between the seal and a fixed shaft. The centrifugal forces developed under high speed operation exceed the ability of the seal magnetic flux to hold the ferrofluid against the shaft due to the velocity gradient across the ferrofluid, resulting in the failure of the ferrofluid to maintain a hermetic seal.
Accordingly, there is a need for a design that seals an outer surface of a shaft to an inner surface of a hub disposed about the shaft. It is desirable that the seal provide a structure that is reliable at high rotational speeds. It is also desirable that a method for forming such a ferrofluidic seal not increase manufacturing time or costs for assembling a spindle motor in which the seal is used.
In addition, the seal conductivity of ferrofluid seals is becoming marginal (>150 Mohms) for high performance drives.
The present invention provides a solution to these and other problems, and offers other advantages over the prior art.
SUMMARY OF THE INVENTION
The present invention relates to an apparatus for sealing the outer surface of a shaft to an inner surface of a hub disposed about the shaft that solves the above problems.
In summary, the present invention contemplates the use of a capillary seal adjacent a bearing race between the shaft and surrounding hub or housing. The seal may take a plurality of forms, including a straight capillary seal; a seal formed between the housing and a seal ball having different radius of curvatures (preferably with the housing internal surface having a larger radius); or a centrifugal capillary seal comprising a male cone supported on a fixed or rotating shaft, and a female cone supported on a housing.
The use of a capillary seal rather than ferrofluid seal should also provide a reduction in resistance across the seal gap compared to a ferrofluid seal.
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Byl Marten F.
Grantz Alan L.
Khan Raquib U.
Kloeppel Klaus
Leuthold Hans
Knight Anthony
Moser Patterson & Sheridan LLP
Patel Vishal
Seagate Technology LLC
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