An inner ring cooperates with an outer ring to form a roller bearing assembly. The inner ring comprises an outer circumferential surface receiving a plurality of roller bearing elements engageable with the outer ring upon forming of the roller bearing assembly. An inner circumferential surface of the inner ring is slideably mountable to a shaft upon forming of the roller bearing assembly and includes a base portion slideably engageable with a surface of the shaft upon mounting and at least one cutout portion opening to an outer edge of the inner circumferential surface. A clearance forms between a surface of the at least one cutout portion and the surface of the shaft upon mounting. Upon forming of the roller bearing assembly, the base portion of the circumferential surface is engageable with the shaft subsequently to the plurality of roller bearing elements engaging with the outer ring.

A compact bearing unit (1) for a double disc coulter (2) with ball bearing (23) with an inner ring (3), outer ring (5) with flange facing and a protective cap (7) has a multi-stage sealing system. A first seal (11) is provided between the inner ring 3 and an internal ring race (17) of the outer ring (5). At least one additional seal (14) is arranged between the protective cap (7) and a ring race (13, 17) of the outer ring (5), whereby said seal does not make any additional installation space necessary in the axial direction of the bearing unit (1).

A zero distortion bearing pulley including a bearing is provided. The bearing clamps axially on the outer bearing raceway instead of radially. The pulley includes a stamped pulley body having a central axis, a pulley face having a periphery, a belt running surface extending perpendicularly from the periphery of the pulley face, a bearing slip pocket formed in the face coaxially with the axis of the pulley body, and a plurality of slots formed between the bearing pocket and the periphery of the pulley face. The slip pocket has a rear stop for retaining the bearing. A disc-shaped, stamped bearing retainer is provided having tabs that fit into the slots in the pulley body. The tabs may be folded over. Optionally, the tabs may have close-ended slots that allow attachment of the stamped retainer bearing to the pulley body face by rotation following insertion of the tabs into the slots.

A zero distortion bearing pulley including a bearing is provided. The bearing clamps axially on the outer bearing raceway instead of radially. The pulley includes a stamped pulley body having a central axis, a pulley face having a periphery, a belt running surface extending perpendicularly from the periphery of the pulley face, a bearing slip pocket formed in the face coaxially with the axis of the pulley body, and a plurality of slots formed between the bearing pocket and the periphery of the pulley face. The slip pocket has a rear stop for retaining the bearing. A disc-shaped, stamped bearing retainer is provided having tabs that fit into the slots in the pulley body. The tabs may be folded over. Optionally, the tabs may have close-ended slots that allow attachment of the stamped retainer bearing to the pulley body face by rotation following insertion of the tabs into the slots.

A rolling bearing includes an inner ring, an outer ring, a plurality of rolling elements, and a cage. The cage includes an annular body, a plurality of cage prongs, and guide portions placed inward of the cage prongs in the radial direction of the cage such that the guide portions extend from a radially inner part of the annular body toward a second side in the axial direction of the cage, the guide portions being configured to position the cage by making contact with an inner ring raceway. The cage has a groove so as to connect pockets adjacent to each other in the circumferential direction, the groove being configured such that lubricant is present in the groove and a groove width of the groove is increased in the radial direction in the center of the groove in the circumferential direction.

A rolling bearing includes an inner ring, an outer ring, a plurality of rolling elements, and a cage. The cage includes an annular body, a plurality of cage prongs, and guide portions placed inward of the cage prongs in the radial direction of the cage such that the guide portions extend from a radially inner part of the annular body toward a second side in the axial direction of the cage, the guide portions being configured to position the cage by making contact with an inner ring raceway. The cage has a groove so as to connect pockets adjacent to each other in the circumferential direction, the groove being configured such that lubricant is present in the groove and a groove width of the groove is increased in the radial direction in the center of the groove in the circumferential direction.

Method for determining the contact angle (α) of a rolling element bearing (10) comprising an inner ring (12), an outer ring (14) and a plurality, P, of rolling elements (16) interposed between the inner ring (12) and the outer ring (14). The method comprises the step of determining the relative speed of P−1 or fewer of said plurality, P, of rolling elements (16) with respect to the inner ring (12) and/or the outer ring (14) and determining the contact angle (α) of said rolling element bearing (10) therefrom.

A cage (5) for separating rolling bodies (2) for a bearing (1), particularly for a timepiece bearing, the cage having first openings (50) for receiving rolling bodies and at least one first contact zone (56) intended to come into contact with a bearing ring and having at least one first hollow formation (52).

A bearing, including: an axis of rotation; an inner ring including a first radially inner circumferential side; an outer ring arranged radially outward of the inner ring and including a first radially outer circumferential side; a cage radially arranged between the inner and outer rings; and at least one rolling element positioned within the cage. The inner ring includes at least one circumferentially extending groove in the radially inner circumferential side and at least one through-bore connecting the at least one circumferentially extending groove to a space formed between the inner and outer rings; or the outer ring includes at least one circumferentially extending groove in the radially outer circumferential side and at least one through-bore connecting the at least one circumferentially extending groove to a space formed between the inner and outer rings.

A bearing including an axis of rotation, an inner ring, an outer ring arranged radially outward of the inner ring, the outer ring including a radially inner circumferential surface including: a race surface, a first outer ring portion arranged closer, in a first radial direction, to the axis of rotation than the race surface, and a second outer ring portion arranged closer, in the first radial direction, to the axis of rotation than the race surface and the first outer ring portion. The bearing further includes a cage radially arranged between the inner and outer rings.