A crank assembly for a pedal-driven vehicle includes a first member, a second member, and a rotary sensor. The first member rotates about a crank axis of the pedal-driven vehicle. The second member is rotationally coupled to the first member and is configured to pivot about the first member via a member pivot. The second member also is configured to receive a pedal at a pedal interface. The rotary sensor is coupled to the first member and configured to measure rotation of the second member relative to the first member.

A single-face clipless pedal structure includes a pedal body for a cleat to be disposed thereon. The axle portion of the pedal body is formed with a recessed stepped portion at the front end thereof The stepped portion is enclosed by a bottom wall and a lateral wall including a stopping face, a first and a second guiding faces at two ends of the stopping face. The first and the second guiding faces are arc concave-shaped. The cleat is formed with an abutting piece downward having an abutting face, a third and a fourth guiding faces at two ends of the abutting face. The abutting face abuts against the stopping face to prohibit the cleat from moving rearward and upward. The third and the fourth guiding faces correspond to the first and the second guiding faces respectively to facilitate the cleat to detach laterally.

A crankset for a pedal-driven vehicle has a frame with a bottom bracket shell. The crankset includes a crank arm rotatably mounted to the bottom bracket shell of the frame; a spindle operatively connected to the crank arm at an end spaced-apart from the bottom bracket shell and rotatable about a spindle rotation axis. A stationary member fixedly mounts to the bottom bracket shell. A rotatable member operatively engages the spindle and is configured to engage the spindle in rotation. A connecting assembly operatively engages the stationary member and the rotatable member. The connecting assembly is configured to engage the rotatable member in rotation upon rotation of the crank arm about the bottom bracket shell. A pedal angular control assembly operatively connects to the spindle and is configured to control an angle of a pedal according to an angular position of the crank arm during rotation.

The invention includes a crank, a pedal and a fastener. The crank has a flower-shaped keyed hole at an outboard end thereof. The pedal has a body and a spindle with a connecting end. The connecting end is formed with flower-shaped keys corresponding to the flower-shaped keyed hole so that the connecting end is inserted into the flower-shaped keyed hole with engagement between the flower-shaped keyed hole and the flower-shaped keys. An end surface of the connecting end is formed with a first threaded hole. The fastener passes through the flower-shaped keyed hole and screws into the first threaded hole for fixing the connecting end of the spindle to the crank.

The invention includes a crank, a pedal and a fastener. The crank has a flower-shaped keyed hole at an outboard end thereof. The pedal has a body and a spindle with a connecting end. The connecting end is formed with flower-shaped keys corresponding to the flower-shaped keyed hole so that the connecting end is inserted into the flower-shaped keyed hole with engagement between the flower-shaped keyed hole and the flower-shaped keys. An end surface of the connecting end is formed with a first threaded hole. The fastener passes through the flower-shaped keyed hole and screws into the first threaded hole for fixing the connecting end of the spindle to the crank.

A blow molded toy cycle has a female bearing area with tapered and recess sections. A fork has a corresponding male bearing area that includes a tapered section and an annular protrusion section. A protrusion spaced at a distance from the annular protrusion extends from the shaft and has a surface to contact a top surface of the body to secure the fork when the male and female bearing areas are in contact. The fork has integrally formed tabs that to bend around an axle to form a bearing area for the axle that allows the axle to rotate within the fork. A blow molded pedal attaches to a section of the axle and has a series of ribs disposed between side sections to form a bearing area that allows the pedal to rotate around the axle. Two rear and one front wheels attach to the body and fork respectively.

A removable pedal positioner to engage a crank arm and a pedal of a bicycle to position the pedal in a generally horizontal position. One embodiment comprises a bridge, at least one prong, and a mounting post. The mounting post engages the crank arm while the at least one prong extends past the crank arm to position the pedal in a generally horizontal position. In other embodiments, the positioner utilizes a flexible clamp to secure the positioner to the crank arm thereby positioning the pedal in a generally horizontal position. Upon rotation of the pedal, the device disengages from the crank arm.

The present invention is embodied in a new aerodynamic cover for a bicycle shoe and clipless bicycle pedal for improving speed when cycling. The aerodynamic cover comprises a main body including an ankle portion having a rear side, a heel portion connected to the ankle portion, and a sole portion connected to the heel portion and having an underside. An opening is formed in the sole portion for allowing a bicycle pedal to be engaged to the bicycle cleat. An outwardly extending fin stretches from the rear side of the ankle portion, around the heel portion, to the underside of the sole portion. In one embodiment, the aerodynamic cover further comprises a pedal layer, a cleat layer, and a base plate layer. A gap is defined between the pedal layer and the cleat layer. The gap inhibits excessive friction between the pedal layer and the cleat layer as the cleat is pivoted with respect to the pedal.

A blow molded toy cycle has a female bearing area with tapered and recess sections. A fork has a corresponding male bearing area that includes a tapered section and an annular protrusion section. A protrusion spaced at a distance from the annular protrusion extends from the shaft and has a surface to contact a top surface of the body to secure the fork when the male and female bearing areas are in contact. The fork has integrally formed tabs that to bend around an axle to form a bearing area for the axle that allows the axle to rotate within the fork. A blow molded pedal attaches to a section of the axle and has a series of ribs disposed between side sections to form a bearing area that allows the pedal to rotate around the axle. Two rear and one front wheels attach to the body and fork respectively.

A blow molded toy cycle has a female bearing area with tapered and recess sections. A fork has a corresponding male bearing area that includes a tapered section and an annular protrusion section. A protrusion spaced at a distance from the annular protrusion extends from the shaft and has a surface to contact a top surface of the body to secure the fork when the male and female bearing areas are in contact. The fork has integrally formed tabs that to bend around an axle to form a bearing area for the axle that allows the axle to rotate within the fork. A blow molded pedal attaches to a section of the axle and has a series of ribs disposed between side sections to form a bearing area that allows the pedal to rotate around the axle. Two rear and one front wheels attach to the body and fork respectively.