A torque converter includes a front cover arranged to receive a torque and a lock-up clutch engaged with the front cover. The torque converter further includes a damper assembly engageable with the lock-up clutch. The damper assembly includes an inner spring assembly, an outer spring assembly arranged radially outside of the inner spring assembly, and a lower cover plate supporting the inner spring assembly. The lower cover plat includes a chamfer configured to retain the outer spring assembly in a spring window.

An electrified drivetrain system that maximizes power density, is readily packaged, and improves drivability is described. It includes a propulsion system having an axial-flux rotating electric machine, a torque converter having a selectable one-way clutch, and an output member that is couplable to a drivetrain. The axial-flux rotating electric machine include a first rotor coaxially arranged with a first electric stator. The torque converter includes a fluidic stator, a pump, a turbine and a torque converter clutch. The axial-flux rotating electric machine is arranged coaxially with the torque converter. The first rotor of the axial-flux rotating electric machine is coupled to the pump of the torque converter, and the turbine of the torque converter is rotatably coupled to the output member.

An electrified drivetrain system that maximizes power density, is readily packaged, and improves drivability is described. It includes a propulsion system having an axial-flux rotating electric machine, a torque converter having a selectable one-way clutch, and an output member that is couplable to a drivetrain. The axial-flux rotating electric machine include a first rotor coaxially arranged with a first electric stator. The torque converter includes a fluidic stator, a pump, a turbine and a torque converter clutch. The axial-flux rotating electric machine is arranged coaxially with the torque converter. The first rotor of the axial-flux rotating electric machine is coupled to the pump of the torque converter, and the turbine of the torque converter is rotatably coupled to the output member.

A damper device includes an input element to which a torque from an engine is transmitted, an output element, an elastic body arranged to transmit a torque between the input element and the output element, and a rotary inertia mass damper that includes a planetary gear that includes a sun gear arranged to rotate integrally with one element of the input element and the output element, a carrier that rotatably supports a plurality of pinion gears and is arranged to rotate integrally with the other element of the input element and the output element, and a ring gear that meshes with the plurality of pinion gears and works as a mass body. The other element includes two plate members that are opposed to each other and coupled with each other by means of a plurality of rivets disposed between the pinion gears.

A torque converter, including: a cover arranged to receive torque; an impeller; a turbine; a stator; and a lock-up clutch including a piston plate, a first plate, a second plate axially disposed between the cover and the first plate, and a rivet non-rotatably connecting the first plate to the second plate, the rivet being a component distinct from the first plate and the second plate. The cover and the piston plate define at least a portion of a first pressure chamber. The first plate and the second plate define at least a portion of a second pressure chamber. The first pressure chamber and the second pressure chamber are arranged to receive and expel a fluid to axially displace the piston plate to open and close the lock-up clutch.

A torque converter, including: a cover arranged to receive torque; an impeller; a turbine; a stator; and a lock-up clutch including a piston plate, a first plate, a second plate axially disposed between the cover and the first plate, and a rivet non-rotatably connecting the first plate to the second plate, the rivet being a component distinct from the first plate and the second plate. The cover and the piston plate define at least a portion of a first pressure chamber. The first plate and the second plate define at least a portion of a second pressure chamber. The first pressure chamber and the second pressure chamber are arranged to receive and expel a fluid to axially displace the piston plate to open and close the lock-up clutch.

A starting device includes a fluid coupling, an electric motor, and a restriction mechanism. The electric motor includes a rotor and a stator. The rotor is disposed radially outside the fluid coupling. The restriction mechanism restricts relative rotation between the fluid coupling and the rotor. The restriction mechanism includes a first key groove, a second key groove, and a key body. The first key groove is provided on an inner peripheral surface of the rotor to extend in an axial direction. The second key groove is provided on an outer peripheral surface of the fluid coupling to extend in the axial direction. The second key groove is lesser in length than the first key groove. The key body includes a first key portion and a second key portion. The first key portion is fitted to the first key groove. The second key portion is fitted to the second key groove.

A starting device includes a fluid coupling, an electric motor, and a restriction mechanism. The electric motor includes a rotor and a stator. The rotor is disposed radially outside the fluid coupling. The restriction mechanism restricts relative rotation between the fluid coupling and the rotor. The restriction mechanism includes a first key groove, a second key groove, and a key body. The first key groove is provided on an inner peripheral surface of the rotor to extend in an axial direction. The second key groove is provided on an outer peripheral surface of the fluid coupling to extend in the axial direction. The second key groove is lesser in length than the first key groove. The key body includes a first key portion and a second key portion. The first key portion is fitted to the first key groove. The second key portion is fitted to the second key groove.

A torque converter centering sleeve assembly is disclosed herein that includes an anti-contamination plate. The assembly includes a centering sleeve including a body. A plate, i.e. an anti-contamination plate, is arranged inside of the centering sleeve. The plate includes at least a first portion and a second portion in contact with an inner surface of the centering sleeve such that the plate partitions off a pocket defined by the centering sleeve. The plate can be secured to the centering sleeve via a snap fit or press fit.

A damper for a torque converter is disclosed. The damper includes an outer spring and an inner spring coaxial with the outer spring; and a retaining plate to retain the outer spring and the inner spring. The retaining plate includes an upper spring guide, a lower spring guide, an outer spring support, and an inner spring support, wherein the upper spring guide extends substantially around an outer periphery of the retaining plate, the lower spring guide extends around an inner periphery of the retaining plate, the outer spring support directly contacts axial ends of the outer spring and the inner spring, and the inner spring support directly contacts the axial ends of the outer spring and the inner spring.