A rotation damper for damping movement of a component includes a transmission element couplable to the component such that the transmission element is rotated during movement of the component, and including a rotatingly mounted rotor and also braking device which brakes a rotational movement of the rotor. A coupler couples the transmission element and the rotor for conjoint rotation in a first direction of rotation and decouples the same in a second, opposite direction of rotation. The coupler includes a support element on with an engagement element that is pivotable between an engagement position and a release position. The engagement element has at least one coupling portion, and the transmission element has at least one coupling portion which is in engagement with the at least one coupling portion of the engagement element. The coupling portions are formed in a complementary manner with respect to each other.

A unidirectional rotary brake contains: a body, multiple rollers, two driving rings, and at least one returning means. The body includes an internal face and two end faces, wherein the internal face has multiple accommodation grooves, each accommodation groove has a locking segment and a unlocking segment, and each end face has a surrounding groove. Each of the multiple rollers is columnar and has a diameter which is more than the first depth of the locking segment of each accommodation groove of the body and is less than a second depth of the unlocking segment of each accommodation groove of the body, and each roller has two limiting posts. Each of the multiple orifices is more than each of the two limiting posts and is less than the diameter of each roller. A number of the at least one returning means is less than that of the multiple rollers.

A freewheel mechanism comprising two coaxial carrying members for eventually transmitting torque there between, being both members axially fixed but rotatably mounted along an axis. This mechanism further comprises longitudinal pawls housed in cavities, predominantly radially disposed in one of the carrying members, arranged to engage and disengage with a toothed ring placed between said carrying members. This mechanism allows a partial declutch of the carrying members, due to said toothed ring is always forced by longitudinal pawls, to slide bi-directionally in the axial direction, being declutching the axial movement from a first clutch position corresponding to non-freewheeling, to a second declutch position corresponding to freewheeling, and being clutching the axial movement of the toothed ring from the second declutch position to the first clutch position.

This disclosure includes anti-reverse rotation apparatuses, rotors for use therein, and related methods. Some apparatuses include a stator defining an interior volume and one or more arcuate contact surfaces within the interior volume, and a rotor rotatably coupled to the stator and at least partially disposed within the interior volume, the rotor having a hub, two or more shoes, each pivotally coupled to the hub and extending between a first end and a second end that is farther from the hub than is the first end, wherein each of the shoes is rotatable relative to the hub between: (a) a first position in which the second end of the shoe contacts at least one of the arcuate contact surface(s) of the stator; and (b) a second position in which the second end of the shoe does not contact the arcuate contact surface(s) of the stator.

A clutch unit includes a lever-side clutch part to control transmission of rotational torque input through a lever operation, and a brake-side clutch part to transmit the rotational torque from the lever-side clutch part to an output side, and interrupt rotational torque from the output side. The brake-side clutch part includes an outer ring constrained in rotation, an output shaft configured to output the rotation, a cage arranged between the outer ring and the output shaft to receive the rotational torque from the lever-side clutch part, and a cylindrical roller to control the interruption of the rotational torque from the output shaft and the transmission of the rotational torque input from the cage through engagement and disengagement between the outer ring and the output shaft.

This disclosure includes anti-reverse rotation apparatuses, rotors for use therein, and related methods. Some apparatuses include a stator defining an interior volume and one or more arcuate contact surfaces within the interior volume, and a rotor rotatably coupled to the stator and at least partially disposed within the interior volume, the rotor having a hub, two or more shoes, each pivotally coupled to the hub and extending between a first end and a second end that is farther from the hub than is the first end, wherein each of the shoes is rotatable relative to the hub between: (a) a first position in which the second end of the shoe contacts at least one of the arcuate contact surface(s) of the stator; and (b) a second position in which the second end of the shoe does not contact the arcuate contact surface(s) of the stator.

The invention relates to an actuator comprising a stationary structure and an actuating element that is movable relative to the stationary structure, a device for locking the actuating element in position which is mounted on the stationary structure and has a state for locking and a state for releasing the actuating element. The locking device comprises, successively, a stress limiter and at least one locking element so arranged as to be butting against one surface of the actuating element, in order to oppose a motion of the actuating element in a predetermined direction. The actuator comprises a member for controlling the locking device in the releasing state thereof and a member for resiliently returning the locking device to the locking state thereof.

A disk having a first major surface and a second major surface, opposite the first, joined by a peripheral edge, at least one of the first and second major surfaces defining a friction surface configured to frictionally contact an opposing friction surface in a rotating system, and wherein a groove formation is provided on the friction surface(s), the groove formation being non-symmetrical with respect to the respective friction surface, preferably in the form of a spiral groove.

The present disclosure relates to an apparatus for a torque limiter, comprising an indication device configured to provide an indication that the torque limiting device has tripped, and of the direction of torque applied to the torque limiting device when the torque limiting device tripped, in use.

A brake device comprises: an outer race having a cylindrical inner peripheral surface; a plurality of brake shoes disposed at a radially inner side of the outer race and arranged in a circumferential direction, each brake shoe having a pair of brake surfaces facing the inner peripheral surface and configured to be contactable with the inner peripheral surface and an inside surface facing radially inward; an output-side rotary member disposed at a radially inner side of the brake shoes, having an opposed surface provided at an outer periphery thereof and facing the inside surface; and an input-side rotary member configured to contact the brake shoes in the circumferential direction and thereby capable of imparting a rotary torque to the brake shoes. The brake shoe has a support surface disposed between the brake surfaces and configured to be contactable with the inner peripheral surface.