A partial reverse clutch assembly comprises a frame, a coupling member, a corrugated swing body, and a cam body. The frame mounts an input gear and an output gear, and, a coupling member that is disposed between input and output gears couple the input gear to the output gear to transmit a motorized rotational drive in a first direction. The swing body is coupled between the input gear and the coupling member and comprises a projecting swing arm. The cam body abuts and defines a sliding contact between the swing body and the coupling member, where a reversal of the motorized rotational drive oppositely rotates the output gear in engagement with the swing arm in a second direction. The cam body is displaced upon contact to with the swing body during the rotation in the second direction to decouple the coupling member between the input gear and the output gear.

The present invention addresses the problem of providing a one-way clutch and a one-way clutch-equipped rotating damper device with which it is possible to achieve size reduction. A pawl portion of a slide member comprises a withdrawal surface and an engaging surface. When a gear member rotates toward one side, as inner teeth and the withdrawal surface abut each other, the slide member slides in a sliding direction and the pawl portion is withdrawn from the inner teeth, whereby the gear member rotates independently of a rotor shaft. When the gear member rotates toward the other side as the inner teeth and the engaging surface abut each other, the inner teeth and the engaging surface become engaged, whereby the gear member and the rotor shaft rotate integrally.

The present invention addresses the problem of providing a one-way clutch and a one-way clutch-equipped rotating damper device with which it is possible to achieve size reduction. A pawl portion of a slide member comprises a withdrawal surface and an engaging surface. When a gear member rotates toward one side, as inner teeth and the withdrawal surface abut each other, the slide member slides in a sliding direction and the pawl portion is withdrawn from the inner teeth, whereby the gear member rotates independently of a rotor shaft. When the gear member rotates toward the other side as the inner teeth and the engaging surface abut each other, the inner teeth and the engaging surface become engaged, whereby the gear member and the rotor shaft rotate integrally.

Positive overrunning clutch with an outer ring having a detent contour and an inner ring arranged concentrically in relation to the outer ring, the inner ring having a pawl, which is provided for engagement in the detent contour, the pawl being movably connected to the inner ring and preferably formed in one piece with the inner ring.

A partial reverse clutch assembly comprises a frame that mounts an input and output gears, a coupling member that couples the input and output gears, a swing body, and a lock gear. The coupling member engages with the swing body along a track of the coupling member. The swing body comprises radially inward tabs that slide along the track. The input gear drives the swing body, the coupling member, and the output gear in a first direction using a motorized rotational drive. The lock gear in engagement with the swing body prevents the swing body from rotating in a second direction that is opposite to the first direction. The swing body partially rotates in the second direction until the tabs of the swing body are raised along a ramp to section of the track that forces the coupling member to decouple from the output gear.

The invention relates to pumping equipment and can be used in oil industry as part of submersible electric centrifugal pump units. Device for prevention of turbine rotation consists of interconnected head and base, inside of which two shafts are installed on bearing supports—upper and lower ones, connected to each other through a cam clutch with the possibility of free running in the circumferential direction. The overrunning clutch is installed in the head, providing torque transmission in the forward direction from the lower shaft to the upper one and preventing reverse rotation of the upper shaft. The overrunning clutch is connected with the upper shaft via a coupling clutch, movable part of which is mounted on the upper shaft with possibility of axial movement, and stationary part is rigidly connected to the overrunning clutch. Coupling of the coupling clutch is provided by a spring, and disconnection is provided by a pusher mounted on the upper shaft with possibility of axial movement, and on one side the pusher is connected to the movable part of the coupling clutch and on the other side—with a bush sleeve having an inclined end surface rigidly installed on the lower shaft. The technical result is to increase reliability and safety of Electric Centrifugal Pumping Unit due to use of the apparatus for preventing rotation of the turbine.

A one-way clutch including: a driving force input member; a driving force output member; and a driving force transmitting member, wherein, when the driving force input member performs forward rotation, the second engaging part performs forward rotation in a state of being engaged with the first engaging part, so as to connect the first ratchet engaging part and the second ratchet engaging part, in order to make the driving force output member perform forward rotation, wherein, when the driving force input member performs reverse rotation, the second engaging part performs reverse rotation in a state of being engaged with the first engaging part, so as to make the driving force transmitting member and the first ratchet engaging part perform reverse rotation so that the first ratchet engaging part is separated from the second ratchet engaging part, in order not to make the driving force output member perform reverse rotation.

An output assembly for an accessory system of a gas turbine engine includes a first rotating member extending along an axis and including a mechanical connector for coupling the output assembly to an accessory system. The output assembly also including a second rotating member extending along the axis, the second rotating member coupled to the first rotating member at a first axial position and at a second axial position, the second rotating member coupled to the first rotating member at the second axial position through a one-way clutch. Additionally, the first rotating member of the output assembly further includes an extension member extending at least partially between the first axial position and the second axial position, the extension member including a designed fail point.

A brake roller may comprise a brake shaft and a brake stack assembly located around the brake shaft. A one-way jaw clutch assembly may be configured to apply a force to the brake stack. A roller shell may be located radially outward of the brake stack. The one-way jaw clutch assembly may be configured to vary the force applied to the brake stack in response to a rotation of the roller shell in a circumferential direction.

Various exemplary embodiments relate to an engine including a cylindrical cassette that converts linear into rotational motion. The linear motion is provided by a normal cylinder and valve mechanism driving pistons in a reciprocating motion, and the rotational motion is transmitted to an output shaft. Further embodiments relate to methods of converting linear motion to rotational motion by using a cylindrical cassette.