Claims
- 1. A slider for flying in a flow induced by a spinning disk, the spinning disk having a center and the slider having a leading portion and a trailing portion, the leading portion being upstream of the trailing portion in the presence of the flow, the slider comprising:
a base having a disk-facing side that faces the disk; and at least one projection from the disk-facing side of the base; wherein the base and the projection are arranged such that in the presence of the flow, at least one point in the leading portion of the slider is closer to the disk than any point in the trailing portion of the slider.
- 2. The slider, according to claim 1, wherein the slider has a most upstream position that first encounters the flow and the most upstream position of the slider is closer to the disk than any point in the trailing portion of the slider.
- 3. A slider for flying in a flow induced by a spinning disk, the spinning disk having a center and defining a disk plane with its surface, the slider having a leading portion and a trailing portion, the leading portion being upstream of the trailing portion in the presence of the flow, the slider comprising:
a base having a disk-facing side that faces the disk; and at least one projection from the disk-facing side of the base; wherein said slider has a negative pitch with respect to said disk plane in the presence of said flow.
- 4. The slider, according to claim 3, wherein said one projection is a head pad in the leading portion of the slider; the slider further comprising:
a leading-portion compression pad in the leading portion of the slider; and first and second trailing-portion high-pressure pads in the trailing portion of the slider, a trailing-portion outflow region separating the first and second trailing-portion high-pressure pads.
- 5. The slider, according to claim 4, further comprising:
a trailing-portion compression pad adjacent to each trailing-portion high-pressure pad; and a high-pressure nose pad adjacent to the leading-portion compression pad.
- 6. The slider, according to claim 5, wherein the slider has an inner-diameter side and an outer-diameter side, the inner diameter side being closer to the center of the spinning disk than the outer-diameter side, the slider further comprising:
an inner-diameter rail disposed in proximity to the inner-diameter side of the slider; and an outer-diameter rail disposed in proximity to the outer-diameter side of the slider.
- 7. The slider, according to claim 6, wherein the head pad splits the leading-portion compression pad into an inner-diameter segment and an outer-diameter segment, the inner-diameter segment being connected to the inner-diameter rail and the outer-diameter segment being connected to the outer-diameter rail.
- 8. The slider, according to claim 7, further comprising a head coupled to the head pad.
- 9. A disk drive, comprising:
a disk that spins, thereby inducing a flow that rotates substantially with the disk; and a head-carrying assembly deployable adjacent to the disk, the head-carrying assembly comprising:
an actuator arm, a suspension attached to the actuator arm, and a slider fixed to the suspension, the slider having a leading portion and a trailing portion, the leading portion being upstream of the trailing portion in the presence of the flow, the slider comprising:
a base having a disk-facing side that faces the disk, and at least one projection from the disk-facing side of the disk; wherein, in the presence of the flow, at least one point in the leading portion of the slider is closer to the disk than any point in the trailing portion of the slider.
- 10. The disk drive, according to claim 9, wherein the head-carrying assembly is oriented such that relative to the flow, the slider is disposed upstream of the actuator arm.
- 11. The disk drive, according to claim 9, wherein the head-carrying assembly is oriented such that relative to the flow, the slider is disposed downstream of the actuator arm.
- 12. A method for achieving reduced head altitude sensitivity to ambient pressure and radial position over a spinning disk that produces an induced flow, comprising the step of:
flying a slider having a leading portion and a trailing portion, the leading portion being upstream of the trailing portion in the presence of the induced flow, such that a point on the slider closest to the disk is located on the leading portion of the slider.
- 13. The method, according to claim 12, wherein the slider is fixed to a suspension that is attached to an actuator arm, the method further comprising the step of:
spinning the disk so that, relative to the induced flow, the slider is upstream of the actuator arm.
- 14. The method, according to claim 12, wherein the slider is fixed to a suspension that is attached to an actuator arm, the method further comprising the step of:
spinning the disk so that, relative to the induced flow, the slider is downstream of the actuator arm.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation of application Ser. No. 09/920,272 filed Jul. 31, 2001.
Continuations (1)
|
Number |
Date |
Country |
Parent |
09920272 |
Jul 2001 |
US |
Child |
10742660 |
Dec 2003 |
US |