Abstract: In a spindle hub configured for rotation about an axis, through holes extend from a first end of the spindle hub to a second end of the spindle hub. The through holes are generally parallel to the axis. A method of achieving two-plane balance of a disc pack assembly by positioning one or more weights in one or more of the through holes and retaining the weight in the position, such that it is possible to access each weight from the top of the spindle hub.

Abstract: In a spindle hub configured for rotation about an axis, through holes extend from a first end of the spindle hub to a second end of the spindle hub. The through holes are generally parallel to the axis. A method of achieving two-plane balance of a disc pack assembly by positioning one or more weights in one or more of the through holes and retaining the weight in the position, such that it is possible to access each weight from the top of the spindle hub.

Abstract: In a spindle hub configured for rotation about an axis, through holes extend from a first end of the spindle hub to a second end of the spindle hub. The through holes are generally parallel to the axis. A method of achieving two-plane balance of a disc pack assembly by positioning one or more weights in one or more of the through holes and retaining the weight in the position, such that it is possible to access each weight from the top of the spindle hub.

Abstract: A stationary ferrofluidic seal for sealing a stationary shaft to a rotating hub. A formed magnetic is attached to the rotating hub, bounded by upper and lower members to form a shaped cavity. A stationary ring is attached to the shaft and extends into the cavity, which is filled with a conductive ferrofluid. The cavity has a uniform, concave cross section over at least part of its surface. The end of the stationary ring distal from the shaft is shaped so that in the region containing the fluid, the ring and cavity surface are equidistant from a set of points defining the seals “characteristic contour”.

Abstract: This invention deals with compensating for thermal changes such that the spindle motor bearing preload remains as constant as possible throughout the disc drive operational temperature range. This is achieved by selecting a combination of materials with a composite thermal expansion that offsets the differential expansion of the steel bearing supports and the ceramic balls. The change in materials and configuration can be either that of the shaft, the hub, the support members, or any combination thereof.

Abstract: A stationary ferrofluidic seal for sealing a stationary shaft to a rotating hub. A formed magnetic is attached to the rotating hub, bounded by upper and lower members to form a shaped cavity. A stationary ring is attached to the shaft and extends into the cavity, which is filled with a conductive ferrofluid. The cavity has a uniform, concave cross section over at least part of its surface. The end of the stationary ring distal from the shaft is shaped so that in the region containing the fluid, the ring and cavity surface are equidistant from a set of points defining the seals “characteristic contour”.

Abstract: In a spindle hub configured for rotation about an axis, through holes extend from a first end of the spindle hub to a second end of the spindle hub. The through holes are generally parallel to the axis. A method of achieving two-plane balance of a disc pack assembly by positioning one or more weights in one or more of the through holes and retaining the weight in the position, such that it is possible to access each weight from the top of the spindle hub.

Abstract: A method and apparatus are used for testing a spindle which is used to support a disc pack for rotation in a disc drive. The test apparatus is removably coupled to the spindle. The current apparatus defines a test surface and has an outer periphery greater than an outer periphery of the spindle. A measurement device is placed proximate the test surface at a location radially displaced from the spindle. A distance between the test surface and the measuring device is measured with a measuring device during rotation of the spindle and the test apparatus.

Abstract: In a magnetic disk drive, a stationary spindle shaft and a rotary actuator shaft are mounted to opposed walls of the drive housing in precise radial and axial alignment with one of the walls, despite relatively relaxed tolerances in the mounting components. At each shaft end, an axially directed fastener is surrounded by an alignment ring with two frusto-conical guide surfaces, one engaged with an enlarged head of the fastener and the other engaged with the associated shaft end. An axially inward tightening of the fastener brings the enlarged head and shaft end into engagement with their respective guide surfaces of the alignment ring. The fastener is tightened further to elastically elongate the fastener and create a tensile force which, through wedging action, urges the alignment ring radially outward into a firm frictional engagement with a rim of the selected wall, thus to radially align and integrally mount the shaft end with respect to the wall.

Abstract: A method and apparatus are used for testing a spindle which is used to support a disc pack for rotation in a disc drive. The test apparatus is removably coupled to the spindle. The current apparatus defines a test surface and has an outer periphery greater than an outer periphery of the spindle. A measurement device is placed proximate the test surface at a location radially displaced from the spindle. A distance between the test surface and the measuring device is measured with a measuring device during rotation of the spindle and the test apparatus.

Abstract: A spindle motor for a disc drive data storage device in which the stator is isolated from the stationary portion of the motor used to attach the spindle motor to the disc drive housing by use of resilient members interposed between the stator and the stationary portion of the motor. In a preferred embodiment, the resilient members comprise a plurality of toroidal rings, or O-rings, and, in a first aspect of the invention, these rings are interposed radially between the stator and the stationary portion of the spindle motor and are axially constrained in relationship to the motor by a corresponding number of annular grooves formed in the stationary portion of the motor. In a second aspect of the invention, metal-to-metal contact between the stator and the stationary portion of the motor in the axial direction is eliminated through the use of a non-metallic washer at one end of the stator and an axial O-ring at the other end of the stator.

Abstract: A disk drive assembly includes a disk pack with an axially retractable spindle assembly, along with a rotary actuator, mounted within a unitary deck and precision aligned by bores through spaced apart upper and lower support walls of the deck. Bushings, mounted to opposite ends of a spindle shaft through bearings, are aligned with the bores by inserting the retracted spindle assembly into the deck, with a spring biasing the spindle assembly into the retracted position. Fasteners through the opposed support walls draw the bushing sleeves axially outward against the spring force to preload the bearings as the shaft is aligned and secured, without employing a jig or any other alignment tooling.

Abstract: A disk drive assembly includes a disk pack with an axially retractable spindle assembly, along with a rotary actuator, mounted within a unitary deck and precision aligned by bores through spaced apart upper and lower support walls of the deck. Bushings, mounted to opposite ends of a spindle shaft through bearings, are aligned with the bores by inserting the retracted spindle assembly into the deck, with a spring biasing the spindle assembly into the retracted position. Fasteners through the opposed support walls draw the bushing sleeves axially outward against the spring force to preload the bearings as the shaft is aligned and secured, without employing a jig or any other alignment tooling.

Abstract: A disk drive assembly includes a disk pack with an axially retractable spindle assembly, along with a rotary actuator, mounted within a unitary deck and precision aligned by bores through spaced apart upper and lower support walls of the deck. Bushings, mounted to opposite ends of a spindle shaft through bearings, are aligned with the bores by inserting the retracted spindle assembly into the deck, with a spring biasing the spindle assembly into the retracted position. Fasteners through the opposed support walls draw the bushing sleeves axially outward against the spring force to preload the bearings as the shaft is aligned and secured, without employing a jig or any other alignment tooling.

Abstract: A disk drive assembly includes a disk pack with an axially retractable spindle assembly and a rotary actuator, mounted within a unitary deck and precision aligned by bores through spaced apart upper and lower support walls of the deck. Bushing sleeves, mounted through bearings to opposite ends of a spindle shaft, are aligned and secured within the bores by screws through the support walls and threaded into the bushing sleeves, thus to secure the spindle shaft for rotation relative to the support walls. A cup-shaped hub is fixed to the spindle shaft. A radially outward wall of the hub has upwardly converging flutes that cooperate with openings through annular spacers between adjacent disks on the hub, to provide a purging and cooling air flow. The hub and bushing sleeves have interacting pairs of annular flanges and annular grooves, and the bushing sleeves include extensions adjacent the bearings, to control radially outward passage of air from the center of the spindle assembly toward the region of the disks.

Abstract: A disk drive assembly includes a disk pack with an axially retractable spindle assembly, along with a rotary actuator, mounted within a unitary deck and precision aligned by bores through spaced apart upper and lower support walls of the deck. Bushings, mounted to opposite ends of a spindle shaft through bearings, are aligned with the bores by inserting the retracted spindle assembly into the deck, with a spring biasing the spindle assembly into the retracted position. Fasteners through the opposed support walls draw the bushing sleeves axially outward against the spring force to preload the bearings as the shaft is aligned and secured, without employing a jig or any other alignment tooling.

Abstract: In a magnetic disc drive, an apparatus for eliminating electrical charge. The apparatus includes a preloaded coil compression spring and a contact button nested in a bored hole in the spindle shaft. The contact button is forced against a fixed arm by the coiled compression spring. The compression spring, contact button and fixed arm provide a low noise electrical pathway for discharge of electrical charge from the spindle. Alternatively, the coil spring and contact button are carried by the fixed arm, and the contact button is urges against the center of the end of the spindle shaft.

Abstract: A mechanism for receiving, cradling, and loading, under force, a disk drive cartridge onto the drives spindle is disclosed. The mechanism has an U-shaped cradle, a transverse yoke, and a centrally mounted nub for applying downward pressure on the cartridge. A lever, actuated by motion of the drive's door, moves the cradle/yoke combination in the vertical direction.

Abstract: A pressurized seal which comprises the interface between a disk drive spindle housing and a disk cartridge housing whereby dirty, unfiltered air is prevented from entering the disk area of the cartridge when mounted on the disk drive. The seal is comprised of an annular stop having three channels. An inner channel has mounted therein a circular cross-sectioned, flexible tube running the length of the channel. A intermediate channel connects to a source of pressurized filtered air. An outer ring mounts a flap seal which is forced against the cartridge housing by the pressurized filtered air.

Abstract: A means for mounting an exchangable disk pack. The disk pack's hub includes an open ended stub with two retractable steel balls mounted adjacent the open end. The disk drive's spindle has a coaxial recess for receiving the stub. The recess has an interior annular groove adapted for registration with the balls. The stub is inserted into the recess when mounting the disk pack. When the hub and spindle are in abutment, the balls are positioned just anterior to the annular groove. The stub is mounted on a diaphragm mounted on the hub. Depression of the diaphragm moves the balls into registration with the annular groove. The balls then move from their retracted condition and into the groove under pressure from a push rod moveably mounted in the spindle recess. After the balls have been pushed aside, the push rod pops up between them and prevents their retraction from the annular groove. The lodging of the balls in the annular groove prevents the stub from being withdrawn from the recess.