A transmission for a manually operated wheeled machine includes an output shaft having a close-ended axial channel. A drive gear mounted on the output shaft includes an engaging groove. A ratchet is received in the channel and is in engagement with the engaging groove. A holder mounted on the output shaft includes a relief that receives the ratchet. A friction member applies radial friction to the holder to temporarily prevent rotation of the holder with the output shaft in a drive condition of the machine moving the ratchet into engagement with the engaging groove, and in the drive condition the drive gear and holder rotate with the output shaft. In a freewheeling condition of the machine the output shaft is stationary, and an overdrive of the drive gear disengages the ratchet from the engaging groove allowing for free rotation of the drive gear about the stationary output shaft.

A one-way clutch having an anti-deployment feature operable to counteract hydraulic forces acting on the strut so as to assist in maintaining the strut in a non-deployed position.

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.

A decoupler is provided that includes a pulley around which a belt is wound. A sprag limiter is fixed to an interior circumference of the pulley and has protrusions formed at predetermined intervals in a circumferential direction on an interior circumference thereof. A sprag hub is disposed in the sprag limiter and has first apertures formed at predetermined intervals from an interior circumference to an exterior circumference thereof. A shaft hub is disposed in the sprag hub and has second apertures that are formed to correspond to the first apertures from an interior circumference to an exterior circumference thereof. Sprags having lower end portions are each inserted into the second apertures, central portions are each inserted into the first apertures, and upper end portions are in contact with the interior circumference of the sprag limiter, and allow the shaft hub to rotate in one direction based on the pulley movement.

A reciprocating action drive having an elastically extensible reversing mechanism is disclosed in which drive levers are connected to a driven shaft by overrunning clutches such that when the levers are moved in a first direction, the shaft is driven, but when moved in a counter-rotating direction, it is not. The extensible reversing mechanism links the levers such that, when not extended, it causes the two levers to counter-rotate, only allowing one to drive the shaft. However, when the lever being moved in the non-driving direction changes direction, the reversing mechanism extends and does not immediately cause the other lever to change direction, but allows it to continue to move in the driving direction. Both levers may, therefore, simultaneously drive the driven shaft for as long as the extensible reversing mechanism extends, allowing latitude for unsynchronized reciprocating motions to be applied without them competing against each other.

Since one end of a spring is received by a planar portion of a spring seat provided on any one of an outer plate and an inner plate, it is possible to support the spring with a planar member without machining a bottom wall face of the outer plate into a planar shape. Since the spring seat has seat guide portions that contact the outer plate, it is possible to suppress the fluctuation of the spring seat and the fluctuation of the spring by the seat guide portions, so it is possible to reliably prevent interference of the spring with its peripheral portion. Therefore, a load on the spring is reduced, so it is possible to improve the durability of a one-way clutch.

The present invention relates to a freewheel (2) comprising a first race (18), a second race (20), and clamping elements (42; 44) between the first and second races (18, 20), said clamping elements connected in rotational engagement with the first race (18), wherein the clamping elements (42, 44) consist of first clamping elements (42) which are able to move between a first position, in which the first race (18) is able to rotate in relation to the second race (20) in a first direction of rotation (52), and a second position, in which the first race (18) is coupled in rotational engagement with the second race (20) via at least one of said first clamping elements (42) in the first direction of rotation (52). At least one first clamping element (42) is designed to be elastically deformable.

An object of the present invention is to provide a cam and a one-way cam clutch that realize a reduction in weight and production cost, provide more design freedom in setting the center of gravity of the cam, and achieve high responsiveness. The above object is achieved by a cam configured to make contact with an inner race and an outer race by a rotational moment applied in an engaged direction by an annular spring, in which a plurality of cam plates having an identical outer contour and arranged in parallel along a direction of the pivot axis are coupled together and united by a connecting pin extending in the direction of the pivot axis, and the annular spring is configured to be mountable between adjacent cam plates and/or on an outer side of the plurality of cam plates in the direction of the pivot axis.

The selectable one-way clutch includes a pocket plate, a notch plate, a cover plate, and plate-like struts. A one end portion of each strut is provided with an engagement surface and a projecting portion. Each strut comes into an erect state in which the engagement surface of the strut erects from the other surface of the cover plate toward the notch plate side. The selectable one-way clutch moves the notch plate in the axial direction to change a distance in the axial direction between the pocket plate and the notch plate, thereby carrying out switching between an out-of-engagement state in which the erecting struts cannot contact with the notches and a one-way clutch state in which the erecting struts can contact with the notches.

A transmission for a manually operated wheeled machine includes an output shaft having a close-ended axial channel. A drive gear mounted on the output shaft includes an engaging groove. A ratchet is received in the channel and is in engagement with the engaging groove. A holder mounted on the output shaft includes a relief that receives the ratchet. A friction member applies radial friction to the holder to temporarily prevent rotation of the holder with the output shaft in a drive condition of the machine moving the ratchet into engagement with the engaging groove, and in the drive condition the drive gear and holder rotate with the output shaft. In a freewheeling condition of the machine the output shaft is stationary, and an overdrive of the drive gear disengages the ratchet from the engaging groove allowing for free rotation of the drive gear about the stationary output shaft.