An assembly tool (104) for positioning the rolling elements (150, 155) of a bearing assembly (100) during a preloading operation includes a roller seating actuator (400) configured to be removably coupled to a portion of the bearing assembly during the preloading operation, and a roller seating ring (420) movably coupled to the roller seating actuator. The roller seating ring includes a distal end (440) configured to engage an end of a rolling element of the bearing assembly. A biasing member (460) is positioned between the roller seating actuator and the roller seating ring and biases the roller seating ring away from roller seating actuator such that the distal end of the roller seating ring engages and presses the rolling element axially into engagement with a rib (145) of a race of the bearing assembly.

A holder for a self-aligning roller bearing, having a central annular part with lintels fixed on side surfaces thereof in an axial direction and protruding parts which protrude closer to the outer sides in a radial direction than the lintels. The holder includes reinforcement parts fixed to the central annular part and the lintels on outer sides of the lintels in the radial direction and on outer sides of the protruding parts in the axial direction. In cross sections cut out along the axial direction and radial direction, at least a part of a contour line of outer side surfaces of the reinforcement parts in the axial direction extends inwardly in the radial direction while extending toward outwardly in the axial direction. A self-aligning roller bearing having the holder with improved connection strength of connection parts between the lintels and the central annular part prolongs bearing service life.

A roller bearing comprising an inner ring, an outer ring, and a bearing cage positioned between the inner ring and the outer ring. The bearing cage includes a spine and a plurality of pins disposed one side of the spine that are coplanar or offset with a plurality of pins disposed on an opposite side of the spine. A roller is rotationally coupled to each pin such that each roller is coplanar or offset with another roller on the opposite side of the spine.

A spring (11b) for a one-way clutch is provided that can suppress skewing of rollers and can restrain to a low level the stress generated due to bending of elastic pressure sections (23b1, 23b2). The spring (11b) is formed by subjecting an elastic metal plate to a bending process and comprises: a base section (22b) comprising a flat base-plate section (25); and a pair of elastic pressure sections (23b1, 23b2) formed by bending to an acute angle the both ends in the length direction of the base-plate section (25) towards the one side in the thickness direction of the base-plate section (25); and a pair of elbow sections (24a) located on the portions connecting the elastic pressure sections (23b1, 23b2) and the base-plate section (25). In particular, the elastic pressure sections (23b1, 23b2) cross each other in the middle sections in the length direction thereof.

A method for producing an annular-shaped cage for a rolling bearing assembly. The method comprises steps of: (a) providing a workpiece contained in a plane having a first side and a second side; (b) forming an annular-shaped cage from the workpiece, the annular-shaped cage having a U-shaped cross section such that portions of the first side of the workpiece face each other; and (c) forming a plurality of windows in the workpiece for receiving and positioning a set of rolling elements.

A planet gearbox is provided for connection to a carrier of an epicyclic gearing arrangement with a single input and single output and including a sun gear, a ring gear and at least one double helix planet gear rotatable on a cylindrical roller bearing with a cage having a cross-web thickness of 15% to 25% of the diameter of the cylindrical rollers and an L/D ratio exceeding 1.0. A gas turbine engine includes a fan and LP shaft, which couples a compressor to a turbine. An epicyclic gearing arrangement has a single input from the LP shaft coupled to a sun gear, a single output coupled to the fan's shaft, and a planet bearing cage having a cross-web thickness measuring 15% to 25% of the roller's diameter.

A spherical roller bearing having an axially extending center axis, an outer ring, an inner ring concentric with the outer ring, a guide ring concentric with the inner and outer rings, the guide ring has two lateral surfaces, one set of cambered rollers on either side of the guide ring and a cage structure arranged to retain the two sets of cambered rollers. The guide ring includes two circumferential guide ring sections, an inner guide ring section proximal to the inner ring and an outer guide ring section distal to the inner ring. A portion of at least one of the two lateral surfaces corresponding to the inner guide ring section is provided with at least one of at least one depression and at least one protrusion. The cambered rollers of each set are distanced from the inner guide ring section and in contact with the outer guide ring section.

A spherical roller bearing having an axially extending center axis with an outer ring, an inner ring arranged concentrically with the outer ring, a guide ring arranged concentrically with the inner ring and the outer ring, wherein the guide ring has a tapering radial cross-section, one set of cambered rollers on either side of the guide ring and a cage structure arranged to retain the two sets of cambered rollers. The guide ring having two circumferential guide ring sections, an inner guide ring section proximal to the inner ring and an outer guide ring section distal to the inner ring. At least one through-opening extends between two lateral surfaces of the guide ring. The at least one through-opening is arranged in the inner guide ring section and the cambered rollers of each set are distanced from the inner guide ring section and in contact with the outer guide ring section.

A bearing assembly for a strain wave drive includes a full complement of bearing components arranged to be mounted closely adjacent each other around the peripheral extent of a wave generator. The number of bearing components is the maximum number of said bearing components that can be accommodated in the peripheral extent. The assembly can be includes in a strain wave drive that includes a wave generator arranged to rotate about an axis and having an elliptical cross-section and a flex spline mounted around the wave generator. The bearing assembly can be located around the wave generator between the wave generator and the flex spline.

A spherical roller bearing for a wind turbine main shaft includes an outer ring, an inner ring having a bore with a diameter of at least 499 mm, two sets of spherical rollers which roll on raceways of the rings, and at least one roller cage. Each cage includes an axial inner cage ring extending in a circumferential direction of the bearing, a first axial outer cage ring spaced from the axial inner cage ring on a first axial side and connected by cage bars to form pockets receiving the first set of rollers, and a second axial outer cage ring spaced from the axial inner cage ring on a second axial side and connected by cage bars to form pockets receiving the second set of rollers. The cage bars are at least partially arranged at a position in a radial direction that is offset to a pitch diameter.