Fluid dynamic bearing apparatus with specific minute gap structure with spindle motor and disk drive apparatus including same

摘要

A fluid dynamic bearing apparatus includes a first minute gap, a second minute gap, a third minute gap, a fourth minute gap, and a fifth minute gap. A flow of a lubricating oil from the fifth minute gap to the fourth minute gap is caused by a plurality of dynamic pressure generating grooves arranged within the fluid dynamic bearing apparatus. This flow causes air bubbles mixed in the lubricating oil within the fifth minute gap to flow toward the third minute gap and be discharged to an outside of the fluid dynamic bearing apparatus through the third minute gap. The fluid dynamic bearing apparatus further includes a plurality of dynamic pressure generating grooves and an annular groove.

主权项

1. A fluid dynamic bearing apparatus comprising:
a shaft arranged to extend in an upward/downward direction to define a central axis; a substantially cup-shaped lower thrust washer including an annular portion arranged to extend radially outward from an outer circumferential surface of the shaft, and a tubular portion arranged to extend upward from an outer edge portion of the annular portion; and a rotating member including a cylindrical portion radially opposed to the shaft and arranged to rotate with respect to the shaft; wherein a first minute gap defined between the outer circumferential surface of the shaft and an inner circumferential surface of the cylindrical portion, a second minute gap defined between a lower surface of the cylindrical portion and an upper surface of the annular portion axially opposed thereto, and a third minute gap defined between an outer circumferential surface of the cylindrical portion and an inner circumferential surface of the tubular portion radially opposed thereto are in communication with one another, and the first minute gap, the second minute gap, and the third minute gap are all filled with a lubricating oil; the rotating member includes a through hole filled with the lubricating oil; an upper opening portion of the through hole is in communication with the first minute gap, and a lower opening portion of the through hole is in communication with the second minute gap; the third minute gap includes a tapered seal portion where a radial width of the third minute gap gradually decreases in a downward direction; the lubricating oil includes a liquid interface located within the tapered seal portion; the second minute gap includes a fourth minute gap and a fifth minute gap located radially outward of the fourth minute gap; at least one of a portion of the lower surface of the cylindrical portion and a portion of the upper surface of the annular portion, which together define the fourth minute gap, includes a plurality of thrust dynamic pressure generating grooves arranged to induce a fluid dynamic pressure on the lubricating oil held in the fourth minute gap during rotation of the rotating member; the fourth minute gap has a smaller axial dimension than an axial dimension of the fifth minute gap; the lower opening portion of the through hole is located at the fifth minute gap; at least one of a portion of the lower surface of the cylindrical portion and a portion of the upper surface of the annular portion, which together define the fifth minute gap, includes:
a plurality of dynamic pressure generating grooves arranged to induce a radially inward fluid dynamic pressure on the lubricating oil held in the fifth minute gap during the rotation of the rotating member; andan annular groove arranged to surround the central axis, and arranged radially outward of a radially inner end portion of each of the plurality of thrust dynamic pressure generating grooves and radially inward of a radially outer end portion of each of the plurality of dynamic pressure generating grooves; and at least one of the plurality of thrust dynamic pressure generating grooves is arranged to be in communication with the annular groove.