Dynamic magnetic information storage or retrieval – Record transport with head stationary during transducing – Disk record
Reexamination Certificate
1999-05-18
2002-01-15
Ometz, David L. (Department: 2652)
Dynamic magnetic information storage or retrieval
Record transport with head stationary during transducing
Disk record
C360S098070, C310S06700R, C384S112000, C384S124000
Reexamination Certificate
active
06339515
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates in general to a bearing structure for a spindle motor, and more particularly to a fluid bearing seal and support structure for use in a spindle motor.
2. Description of Related Art
Disk drives are computer mass storage devices from which data may be read and/or to which such data may be written. In general, they comprise one or more randomly accessible rotating storage media, or disks, on which data is encoded by various means. In magnetic disk drives, data is encoded as bits of information including magnetic field reversals grouped in tracks on the magnetically-hard surface of the rotating disks. The disks are stacked in a generally parallel and spaced-apart relationship and affixed at their inner diameter (“ID”) to a common hub which is rotationally coupled to a stationary spindle shaft by a pair of bearings, typically ball bearings.
With the growing trend toward even lower height form factor disk drives, the length of the spindle shaft and spacing between the upper and lower bearings becomes a significant consideration in meeting specific drive height constraints. As drive height is decreased, a proportionately shorter spindle must be accommodated within the decreased height constraints with a concomitantly shorter spacing available between the upper and lower bearings supporting the hub on the spindle.
Rotary spindle motors having fluid bearings for supporting the rotary member rather than traditional ball bearings typically include a shaft having at least one axial thrust plate and a hub, which may be a rotary hub, having a sleeve portion generally enclosing the shaft and thrust plate, thus forming a journal bearing with bearing fluid disposed therein. The bearing fluid will form capillary seals at one or more ends of the shaft that are exposed to ambient air pressure.
The problem with such constructions is that under certain conditions the capillary seal may break down and fluid may leak from the bearing. Disruption of the seal may be caused by shock or vibration. Under certain conditions the rotating portion of the bearing may be displaced along the axis of the shaft. In the normal course of events, lubricant flows around the end of the thrust plate from the side with decreasing clearance to the side with increasing clearance. If, however, because of sudden shock or vibration, the lubricant flow around the thrust plate is impeded, fluid will be pushed toward one end of the shaft or the other, possibly breaking down the surface tension which holds the seal in place.
Leakage may also occur when there are inaccuracies in the fabrication of the patterned grooves used by the thrust plate's upper and lower surfaces to maintain a desired net pressure gradient. The object of the grooves is to create a high pressure region in the middle of each thrust plate surface and to create ambient pressure zones at the inner diameter of the thrust plate, adjacent the shaft, and at the outer diameter in the gap between the readily outermost edge of the thrust plate and the sleeve. This type of pressure distribution ordinarily results in no displacement of bearing fluid, that is, the static pressures will equalize. However, fabrication inaccuracies do occur, as does tilt in the bearing, or any other physical phenomena, and these factors can alter the pressure balance in the bearing fluid resulting in flow across the bearing. The flow of bearing fluid can overcome the surface tension seal at either end of the bearing and cause the fluid to leak. The situation is particularly acute at the thrust plate end where pressure imbalances between the upper and lower surfaces of the thrust plate may create a net flow which is near the capillary seal at the upper surface of the thrust plate.
Nevertheless, prior axial bearing support structures have not simultaneously address preventing oil from leaking out, maintaining the bearing integrity under shock, reducing oil evaporation and minimizing distortion of the active bearing surface. Rather, existing designs have addressed only a fraction of the requirements, e.g., only evaporation and shock induced bearing separation or distortion and evaporation.
For example, U.S. Pat. No. 5,490,021, issued Feb. 6, 1996, to Johannes C. A. Muller et al., and assigned to U.S. Phillips Corporation, herein incorporated by reference, disclosed a dynamic groove bearing for a hard disk drive. The dynamic groove bearing includes a sleeve-like housing having a locking piece that includes a bearing disk portion which cooperates with an annular bearing disk provided on a shaft. A pressure member is adapted to compress an annular, elastically deformable sealing element to thereby seal the interface between the housing and the locking piece and to pretension the locking piece against a seat formed on the housing. However, Muller et al. does not address evaporation and shock induced bearing separation.
It can be seen that there is a need for an axial bearing support structure that prevents oil from leaking out, maintains the bearing integrity under shock, reduces oil evaporation and minimizes distortion of the active bearing surface.
SUMMARY OF THE INVENTION
To overcome the limitations in the prior art described above, and to overcome other limitations that will become apparent upon reading and understanding the present specification, the present invention discloses a bearing structure for a spindle motor.
The present invention provides a fluid bearing seal and support structure that simultaneously addresses preventing oil leakage, maintaining the bearing integrity under shock, reducing oil evaporation and minimizing distortion of the active bearing surface.
A system in accordance with the principles of the present invention includes a dynamic fluid bearing for a spindle motor having a thrust plate secured to a shaft and a bearing plate and load plate secured to a sleeve. The load plate urges the bearing plate towards the thrust plate. An adhesive is interposed between the load plate and the thrust plate.
Other embodiments of a system in accordance with the principles of the invention may include alternative or optional additional aspects. One such aspect of the present invention is that the adhesive is an UV epoxy.
Another aspect of the present invention is that the system further including a diffusion barrier disposed between the load plate and the shaft.
Another aspect of the present invention is that the system further including a diffusion barrier disposed between the sleeve and the shaft.
Another aspect of the present invention is that the adhesive maintains integrity between the load plate and the bearing plate when a shock condition occurs.
Another aspect of the present invention is that the system further including an O-ring disposed above the bearing plate for sealing a gap between the bearing plate and the sleeve.
These and various other advantages and features of novelty which characterize the invention are pointed out with particularity in the claims annexed hereto and form a part hereof. However, for a better understanding of the invention, its advantages, and the objects obtained by its use, reference should be made to the drawings which form a further part hereof, and to accompanying descriptive matter, in which there are illustrated and described specific examples of an apparatus in accordance with the invention.
REFERENCES:
patent: 5743656 (1998-04-01), Gomyo et al.
patent: 5806987 (1998-09-01), Hose et al.
Lee Chen-Hsiung
Nagaraj Holavanahally Seshachar
Schirle Neal Bertram
Altera Law Group LLC
Ometz David L.
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