초록 ▼

A shielding plate for controlling the entry of oil between an inner ring and an outer ring is provided in the vicinity of an opening between the inner ring and the outer ring which lies a side where oil enters. In addition, a fluid accommodating plate for accommodating therein oil is provided in the

A shielding plate for controlling the entry of oil between an inner ring and an outer ring is provided in the vicinity of an opening between the inner ring and the outer ring which lies a side where oil enters. In addition, a fluid accommodating plate for accommodating therein oil is provided in the vicinity of an opening between the outer ring and the inner ring which lies on a side where oil exits.

대표청구항 ▼

What is claimed is: 1. A fluid-lubricated type tapered roller bearing device comprising: an outer ring; an inner ring disposed coaxially with the outer ring, the inner ring and the outer ring defining, at one axial end thereof, a first opening through which a lubricating fluid flows into a space be

What is claimed is: 1. A fluid-lubricated type tapered roller bearing device comprising: an outer ring; an inner ring disposed coaxially with the outer ring, the inner ring and the outer ring defining, at one axial end thereof, a first opening through which a lubricating fluid flows into a space between the outer ring and the inner ring and, at the other axial end, a second opening through which, the lubricating fluid flows out from the space; tapered rollers disposed between the outer ring and the inner ring; a fluid accommodating portion provided in a vicinity of the second opening for accommodating the lubricating fluid; and a cage which retains the tapered rollers, wherein the fluid accommodating portion includes a fluid accommodating plate which comprises a protruding portion which protrudes further inwards in a radial direction of the outer ring than an edge portion of a cupped raceway surface of the outer ring which lies on a large diameter side thereof, a fluid accommodating area in which the lubricating fluid is accommodated being defined at an inner side of the fluid accommodating plate with respect to the protruding portion in an axial direction, wherein the protruding portion of the fluid accommodating plate is disposed at a location which is spaced apart an interval from the cage outwards in the axial direction, and wherein an outward end face in the axial direction of the protruding portion of the fluid accommodating plate is positioned further inwards in the axial direction than an end face of an edge portion of the inner ring which lies on a large diameter side thereof. 2. The fluid-lubricated type tapered roller bearing device according to claim 1, wherein a distal end of the protruding portion of the fluid accommodating plate is positioned further inwards in the radial direction than an edge of an area of the cupped raceway surface of the outer ring which contacts outer circumferential surfaces of the tapered rollers which edge lies at a large end of the tapered rollers. 3. The fluid-lubricated type tapered roller bearing device according to claim 2, wherein the inner ring has a back face rib which contacts large end faces of the tapered rollers, and wherein the distal end of the protruding portion of the fluid accommodating plate is situated further outwards in the radial direction than the back face rib. 4. The fluid-lubricated type tapered roller bearing device according to claim 3, wherein the tapered rollers each have a recessed portion substantially at a center of the large end face thereof, and the distal end of the protruding portion of the fluid accommodating plate is situated further outwards in the radial direction than a most outward point in the radial direction of an edge of the recessed portion. 5. The fluid-lubricated type tapered roller bearing device according to claim 1, further comprising: a fluid entry control portion provided in a vicinity of the first opening for controlling an entry of the lubricating fluid. 6. A vehicle pinion shaft supporting assembly comprising: a case; a differential mechanism which is provided inside the case and which includes a ring gear; a pinion shaft including a pinion gear which meshes with the ring gear of the differential mechanism; and a fluid-lubricated type tapered roller bearing device which rotatably supports the pinion shaft, said fluid-lubricated type tapered roller bearing device comprising: an outer ring; an inner ring disposed coaxially with the outer ring, the inner ring and the outer ring defining, at one axial end thereof, a first opening through which a lubricating fluid flows into a space between the outer ring and the inner ring and, at the other axial end, a second opening through which the lubricating fluid flows out from the space; tapered rollers disposed between the outer ring and the inner ring; a fluid entry control portion provided in a vicinity of the first opening for controlling an entry of the lubricating fluid; a fluid accommodating portion provided in a vicinity of the second opening for accommodating the lubricating fluid; and a cage which retains the tapered rollers, and wherein: the inner ring comprises a rotating ring and the outer ring comprises a stationary ring; the inner ring includes a front face rib which contacts small end faces of the tapered rollers; the fluid entry control portion Includes a shielding plate having a protruding portion which protrudes radially further outwards than the front face rib; and the protruding portion of the shielding plate is disposed at a location which is spaced apart an interval from the cage outwards in an axial direction. 7. A vehicle pinion shaft supporting assembly comprising: a case; a differential mechanism which is provided inside the case and which includes a ring gear; a pinion shaft including a pinion gear which meshes with the ring gear of the differential mechanism; a fluid-lubricated type tapered roller bearing device which rotatably supports the pinion shaft, said fluid-lubricated type tapered roller bearing device comprising: an outer ring; an inner ring disposed coaxially with the outer ring, the inner ring and the outer ring defining, at one axial end thereof, a first opening through which a lubricating fluid flows into a space between the outer ring and the inner ring and, at the other axial end, a second opening through which the lubricating fluid flows out from the space; tapered rollers disposed between the outer ring and the inner ring; a fluid entry control portion provided in a vicinity of the first opening for controlling an entry of the lubricating fluid; a fluid accommodating portion provided in a vicinity of the second opening for accommodating the lubricating fluid; and a cage which retains the tapered rollers, wherein the fluid accommodating portion includes a fluid accommodating plate having a protruding portion which protrudes further inwards in a radial direction of the outer ring than an edge portion of a cupped raceway surface of the outer ring which lies on a large diameter side thereof, a fluid accommodating area in which the lubricating fluid is accommodated being defined at an inner side of the fluid accommodating plate with respect to the protruding portion in the axial direction, wherein the protruding portion of the fluid accommodating plate is disposed at a location which is spaced apart an interval from the cage outwards in the axial direction, and wherein an outward end face in the axial direction of the protruding portion of the fluid accommodating plate is positioned further inwards in the axial direction than an end face of an edge portion of the inner ring which lies on a large diameter side thereof.