A brake dust cover includes an annular plate in which a cutout for avoidance of a brake caliper is provided in a first predetermined angle region, and a cover portion that overhangs to one side in an axial direction of the annular plate and covers an outer peripheral surface of a brake disc rotor is included at an outer periphery of a second predetermined angle region. The annular plate includes a small diameter region disposed in a third predetermined angle region other than the second predetermined angle region. In the annular plate, an outer diameter of the third predetermined angle region is smaller than an outer diameter of the second predetermined angle region. The annular plate does not include, in the small diameter region, a portion that overhangs to one side in the axial direction of the annular plate and covers the outer peripheral surface of the brake disc rotor.

A brake dust cover includes an annular plate in which a cutout for avoidance of a brake caliper is provided in a first predetermined angle region, and a cover portion that overhangs to one side in an axial direction of the annular plate and covers an outer peripheral surface of a brake disc rotor is included at an outer periphery of a second predetermined angle region. The annular plate includes a small diameter region disposed in a third predetermined angle region other than the second predetermined angle region. In the annular plate, an outer diameter of the third predetermined angle region is smaller than an outer diameter of the second predetermined angle region. The annular plate does not include, in the small diameter region, a portion that overhangs to one side in the axial direction of the annular plate and covers the outer peripheral surface of the brake disc rotor.

This invention relates to a disc brake protector (1; 101) for a bicycle (200), the disc brake protector comprising (a) an inner cover (10; 110) for fitting around an axle (220) of a bicycle wheel (205, 225) between the wheel and the disc brake, the inner cover comprising a closable opening (15; 115) for insertion of the axle, and (b) an outer cover (5) which is attachable to the inner cover such that, in use, the covers enclose the disc brake. The invention also relates to a method of attaching the disc brake protector, as well as to a bicycle fitted with the disc brake protector.

A guide assembly for a disc brake and a method of arrangement. The guide assembly includes a guide pin and a sliding bore that receives the guide pin. A first face mating interface of the sliding bore may define a first sliding interface between the guide pin and the bore.

A guide assembly for a disc brake and a method of arrangement. The guide assembly includes a guide pin and a sliding bore that receives the guide pin. A first face mating interface of the sliding bore may define a first sliding interface between the guide pin and the bore.

In an in-wheel motor drive device, a speed reduction part is a parallel shaft gear reducer that includes a plurality of gear shafts extending in parallel to one another. One of the gear shafts is coupled with the rotation shaft of the motor part, the other one of the gear shafts is coupled with the wheel hub of the wheel hub bearing part. Remaining gear shafts decelerate the rotation of the motor part and transmit it to the wheel hub. The motor drive device includes a parking gear attached to any of the gear shafts. The parking pawl has a projection portion engaged with a recess portion of the parking gear. A movement member enables a parking pawl to move between a locking position engaged with the recess portion and an unlocking position not engaged therewith. The parking gear, the parking pawl, and movement member are housed inside a housing.

A disc brake half-caliper includes at least one cylindrical recess formed in a central portion of the half-caliper, the at least one cylindrical recess configured to support a piston for movement in an axial direction, and a pair of bridge portions formed on opposite sides of the central portion. At least one of the bridge portions extends further in the axial direction toward a first side of the disc brake half caliper than the central portion, defines at least one through hole extending therethrough in the axial direction, and terminates on the first side at a flat surface perpendicular to the axial direction, and has at least one cavity formed in the flat surface with a bottom at which the at least one through hole opens.

The flywheel device includes a sealed housing section; a rotor located in the sealed housing section where the rotor is held in a vertical position by a magnetic system; a controller coupled to the magnetic system; and a braking annular ring mounted to the sealed housing section below the rotor, where the rotor contacts the braking annular ring when the rotor is lowered or otherwise dropped from the vertical position. The controller perform operations to provide control signals to provide first power to the magnetic system to hold the rotor in the vertical position and provide second control signals to provide second power to the magnetic system to lower the rotor.

The flywheel device includes a sealed housing section; a rotor located in the sealed housing section where the rotor is held in a vertical position by a magnetic system; a controller coupled to the magnetic system; and a braking annular ring mounted to the sealed housing section below the rotor, where the rotor contacts the braking annular ring when the rotor is lowered or otherwise dropped from the vertical position. The controller perform operations to provide control signals to provide first power to the magnetic system to hold the rotor in the vertical position and provide second control signals to provide second power to the magnetic system to lower the rotor.

A power take-off includes bell housing disposed about an axis and configured for coupling to a housing of an engine or other driving device at a first axial end and to a housing of a driven device at a second axial end. The bell housing defines an air inlet port and an air outlet port between the first and second axial ends. A clutch is disposed within the bell housing and configured to transfer torque from an input member coupled to the engine to an output member coupled to the driven device. A fan is configured for rotation with the input member to draw air into the bell housing through the air inlet port, move air through the bell housing from the air inlet port to the air outlet port in a substantially radial direction across the clutch and exhaust air from the bell housing through the air outlet port.