Oil deflector

The invention claimed is: 1. An oil deflector comprising: a sleeve portion defining a longitudinal axis; and a segment array extending radially from the sleeve portion; the segment array including a plurality of segments distributed circumferentially relative to the longitudinal axis; wherein each segment of the plurality of segments defines a peripheral face, a leading end, and a trailing end; wherein the peripheral face is defined by a radius which increases from the leading end of the segment to the trailing end of the segment; and wherein the segment array defines an oil diverting feature configured to create a pressure differential proximate the segment array during rotation of the oil deflector about the longitudinal axis. 2. The oil deflector of claim 1 , wherein the peripheral face is radially tapered relative to the longitudinal axis. 3. The oil deflector of claim 1 , further comprising: an offset face extending between a first segment of the plurality of segments and a second segment of the plurality of segments; and wherein the first segment and the second segment are circumferentially adjacent segments. 4. The oil deflector of claim 3 , further comprising: a radial axis intersecting with and perpendicular to the longitudinal axis; and wherein the offset face is inclined relative to the radial axis. 5. The oil deflector of claim 3 , wherein the offset face is configured as a parallelogram shaped face. 6. The oil deflector of claim 1 , wherein: at least one segment of the plurality of segments defines an annular face; and the annular face is axially tapered relative to the longitudinal axis. 7. The oil deflector of claim 1 , wherein: each segment of the plurality of segments defines a first annular face and a second annular face; the first annular face is perpendicular to the longitudinal axis; and the second annular face is inclined relative to the first annular face. 8. The oil deflector of claim 1 , wherein: each segment of the plurality of segments defines a first annular face and a second annular face; and the first and second annular faces are parallel to each other and skewed to the longitudinal axis. 9. The oil deflector of claim 1 , further comprising: a slot extending between a first segment of the plurality of segments and a second segment of the plurality of segments; wherein: the first segment and the second segment are circumferentially adjacent segments; and the slot is angled relative to an annular face defined by the segment array. 10. The oil deflector of claim 9 , wherein the slot is configured as a radial slot. 11. The oil deflector of claim 9 , wherein the slot is configured as a non-radial slot. 12. An oil sealing system for a turbocharger including a turbocharger shaft, the oil sealing system comprising: an oil deflector including: a sleeve portion defining a longitudinal axis and configured to be rotatably mounted to the turbocharger shaft; a segment array extending radially from the sleeve portion; the segment array including: a plurality of segments circumferentially distributed relative to the longitudinal axis; an offset face extending radially between each respective segment of the plurality of segments and another segment of the plurality of segments; wherein said another segment is circumferentially adjacent the respective segment; wherein the offset face and the longitudinal axis are co-planar; and wherein: each respective segment of the plurality of segments extends radially from the sleeve portion and defines a peripheral face; and the peripheral face of each respective segment is radially tapered and configured to divert oil radially from the peripheral face during rotation of the oil deflector by the turbocharger shaft. 13. The oil sealing system of claim 12 , wherein: each segment of the plurality of segments defines a first annular face and a second annular face; the first annular face is perpendicular to the longitudinal axis; and the second annular face is inclined relative to the first annular face and configured to divert oil axially from the peripheral face during rotation of the oil deflector by the turbocharger shaft. 14. The oil sealing system of claim 12 , wherein: each segment of the plurality of segments defines a first annular face and a second annular face; the first and second annular faces are parallel to each other and skewed to the longitudinal axis; and at least one of the first and second annular faces are configured to divert oil axially from the peripheral face during rotation of the oil deflector by the turbocharger shaft. 15. The oil sealing system of claim 12 , wherein each segment of the plurality of segments defines a leading end and a trailing end; and wherein the leading end of the first segment, the trailing end of the second segment, the offset face and the longitudinal axis are co-planar. 16. An oil sealing system for a turbocharger including a turbocharger shaft, the oil sealing system comprising: an oil deflector including: a sleeve portion defining a longitudinal axis and configured to be rotatably mounted to the turbocharger shaft; a segment array extending radially from the sleeve portion; the segment array including: a plurality of segments circumferentially distributed relative to the longitudinal axis; each of the segments of the plurality of segments defining a first annular face and a second annular face; wherein the first annular face is axially offset from the second annular face relative to the longitudinal axis; wherein the first annular face includes a leading edge extending radially from the sleeve portion and a trailing edge extending radially from the sleeve portion; wherein the leading edge and the trailing edge are perpendicular to each other; a slot extending radially between each respective segment of the plurality of segments and another segment of the plurality of segments; wherein: the respective segment and the another segment are circumferentially adjacent segments which are separated by the slot; the slot is defined by the leading edge of the respective segment and the trailing edge of said another segment; and the slot extends from the first annular face to the second annular face and is configured to divert oil axially during rotation of the oil deflector by the turbocharger shaft. 17. The oil sealing system of claim 16 , wherein the slot is a radial slot. 18. The oil sealing system of claim 16 , wherein the slot is a non-radial slot and is configured to divert oil radially and axially during rotation of the oil deflector by the turbocharger shaft. 19. The oil sealing system of claim 16 , wherein the slot is inclined relative to the first annular face and the second annular face. 20. The oil sealing system of claim 16 , wherein the first annular face is parallel to and opposing the second annular face.