An electric-powered vehicle includes: an axle body that includes an axle and drive wheels connected to both ends of the axle; a magnetic geared motor for rotating the axle, the magnetic geared motor including a stator, a low-speed rotor, and a high-speed rotor; a vehicle structure supported by the axle body; a motor support for connecting the vehicle structure and the stator, and supporting the magnetic geared motor by the vehicle structure; and an elastic coupling for coupling the low-speed rotor and the axle such that a rotational force of the low-speed rotor is transmittable to the axle.

A flywheel coupling assembly for transmitting torque between a shaft and a flywheel includes a clamp ring assembly and a flywheel attachment flange assembly. The clamp ring assembly includes a first clamp ring adapted to be coupled to the shaft, a second clamp ring coupled to a coupling hub of the flywheel attachment flange assembly, and an elastomeric center element coupling the first and second clamp rings. A planer plate element of the flywheel attachment flange assembly is adapted to be coupled with the flywheel. Also disclosed are a method of forming a flywheel coupling assembly and a method of coupling a flywheel to a shaft.

A flywheel coupling assembly for transmitting torque between a shaft and a flywheel includes a clamp ring assembly and a flywheel attachment flange assembly. The clamp ring assembly includes a first clamp ring adapted to be coupled to the shaft, a second clamp ring coupled to a coupling hub of the flywheel attachment flange assembly, and an elastomeric center element coupling the first and second clamp rings. A planer plate element of the flywheel attachment flange assembly is adapted to be coupled with the flywheel. Also disclosed are a method of forming a flywheel coupling assembly and a method of coupling a flywheel to a shaft.

A flexible coupling assembly for connecting two shafts in a coaxial alignment has a flange including a hub with axially opposite first and second ends and a plurality of radial grooves angularly spaced about a periphery of the hub. The radial grooves have crests and roots. The radial grooves extend axially along a length of the hub and are shaped in a manner such that a diameter of the crests at a position on the hub adjacent to the first axial end of the hub is greater than a diameter of the crests at a position of the hub adjacent to the second axial end. The coupling includes a flexible insert comprising a resilient member having an inner surface and an outer surface. The flexible insert inner surface has a plurality of notches adapted to cooperate with the flange hub radial grooves.

An assist mechanism includes: an electric motor in which a rotor has a magnet and a stator has a winding; a shaft-shaped member in which a worm engaged with a worm wheel is formed; and a coupling that couples an output shaft of the electric motor and the shaft-shaped member to each other. The smallest rotation order among rotation orders of the electric motor and a rotation order of the worm are prime to each other.

An assist mechanism includes: an electric motor in which a rotor has a magnet and a stator has a winding; a shaft-shaped member in which a worm engaged with a worm wheel is formed; and a coupling that couples an output shaft of the electric motor and the shaft-shaped member to each other. The smallest rotation order among rotation orders of the electric motor and a rotation order of the worm are prime to each other.

A coupling includes first and second annular flanges in spaced relation across a gap. At least one resilient element is disposed in the gap in abutting relation to the first and second annular flanges. A first plurality of fasteners extends from the first annular flange, through the at least one resilient element, to the second annular flange, and a second plurality of fasteners extends from the second annular flange, through the at least one resilient element, to the first annular flange. Fasteners in the first plurality of fasteners is disposed in alternating fashion with fasteners in the second plurality of fasteners.

A coupling assembly for transmitting rotational forces from a driving shaft to a driven shaft, the driving and driven shafts having teeth. The coupling assembly includes a first and a second flange, each flange configured to be rotationally fixed onto respective shafts. A pair of resilient shoes are disposed between the flanges. The shoes are configured to be attached to the coupling assembly by a first plurality of fasteners that are fixed to the first flange and extend through the shoes to connect the shoes to the first flange and a second plurality of fasteners are fixed to the second flange and extend through the shoes to connect the shoes to the second flange.

A coupling device for rotably coupling a shaft with a gearbox in a geared turbo fan aircraft engine, wherein the coupling device includes a connection to the shaft at a first end and a connection to the gearbox at a second end, the first and the second ends being axially separated and at least one curved shape between the first end and the second end extending from the gearbox radially inwards to the shaft and the at least one curved shape including at least one cross-section in the axial direction of the engine with a logarithmic profile or a power profile.

A coupling device for rotably coupling a shaft with a gearbox in a geared turbo fan aircraft engine, wherein the coupling device includes a connection to the shaft at a first end and a connection to the gearbox at a second end, the first and the second ends being axially separated and at least one curved shape between the first end and the second end extending from the gearbox radially inwards to the shaft and the at least one curved shape including at least one cross-section in the axial direction of the engine with a logarithmic profile or a power profile.