Patent ID: 8876654

Claim:
A toroidal continuously variable transmission comprising: an input side disk and an output side disk, the inside surfaces of each facing each other, and being supported concentric with each other around a center axis such that the disks can rotate freely with each other; a trunnion that is skew to the center axis of the input side disk and output side disk, comprising end sections on both ends on which tilt shafts that are concentric with each other are provided, and a support beam section that extends between the both end sections, the trunnion being capable of pivotally displacing around the tilt shafts; a thrust rolling bearing that is provided on the inside surface side of the trunnion; and a power roller that is supported by the inside surface of the trunnion by way of the thrust rolling bearing such that it rotates freely, the peripheral surface thereof being a spherical convex surface that comes in contact with the inside surfaces of the input side disk and the output side disk, wherein the support beam section of the trunnion comprises an inside surface that is a cylindrical convex surface having a center axis that is parallel with center axis of the tilt shafts and located further on the outside than the center axis of the tilt shafts; the thrust rolling bearing comprises an outer race provided on the support beam section side and having an outside surface with a concave section that fits with the cylindrical convex surface of the support beam section, and a plurality of rolling bodies that are located between an outer race track that is formed around the inside surface of the outer race and an inner race track that is formed on the outside surface of the power roller, where together with the thrust rolling bearing being supported by the trunnion by the fit between the cylindrical convex surface of the support beam section and the concave section of the outer race such that pivotal displacement is possible in the axial direction of the input side disk and the output side disk, receives a load in the thrust direction that is applied to the power roller and supports the power roller such that the power roller rotates freely; and the concave section of the outer race has a pair of side surface sections on both sides in the width direction, the cylindrical convex surface of the support beam section coming in contact with the both side surface sections of the outer race at two positions in a circumferential direction; wherein the pair of side surface sections comprises a pair of side concave curved surface sections not having a same center and each having a cross-sectional radius of curvature that is greater than a cross-sectional radius of curvature of the cylindrical convex surface of the support beam section.