A self-powered vibration mechanism is provided that can be mounted on an existing pedal shaft yet operates independent from the existing pedal. Mechanical isolation or mechanical decoupling permits transferring the vibrating energy to the foot rather than to the pedal shaft and the bicycle. In another embodiment, a full removable pedal with self-powered vibration mechanism can replace an existing pedal.

A self-powered vibration mechanism is provided that can be mounted on an existing pedal shaft yet operates independent from the existing pedal. Mechanical isolation or mechanical decoupling permits transferring the vibrating energy to the foot rather than to the pedal shaft and the bicycle. In another embodiment, a full removable pedal with self-powered vibration mechanism can replace an existing pedal.

A bicycle component comprising a stress/strain sensor aligned according to a stress/strain to be detected, and a temperature sensor associated with said stress/strain sensor, wherein said stress/strain sensor and said temperature sensor lie in planes that do not coincide with one another and are not parallel to each another.

A bicycle pedal attachment includes an elongated pole, similar to hiking pole, which is removably attachable to the pedals of a bicycle or tricycle. The bike pedal attachment includes a bracket assembly and a pole assembly. The bracket assembly includes a support bracket attachable to a bicycle pedal. The distal end of the support bracket includes a ball joint extend therefrom. The ball joint then serves as an operative connection point for the pole assembly. The pole assembly includes an elongated telescopic pole with a locking mechanism at a distal end. The locking mechanism includes a slidable locking member that engages with the ball joint thereon. Once assembled thereon, the bike pedal attachment allows a user to use their hands eases the cycling motion performed on the bicycle.

A bicycle pedal attachment includes an elongated pole, similar to hiking pole, which is removably attachable to the pedals of a bicycle or tricycle. The bike pedal attachment includes a bracket assembly and a pole assembly. The bracket assembly includes a support bracket attachable to a bicycle pedal. The distal end of the support bracket includes a ball joint extend therefrom. The ball joint then serves as an operative connection point for the pole assembly. The pole assembly includes an elongated telescopic pole with a locking mechanism at a distal end. The locking mechanism includes a slidable locking member that engages with the ball joint thereon. Once assembled thereon, the bike pedal attachment allows a user to use their hands eases the cycling motion performed on the bicycle.

An apparatus for determining bicycle pedaling may include a sensor that detects the angular velocity and position of a drivetrain or rear sprocket assembly of the bicycle and a processor that is configured to compare the detected values against values indicative of at least one pedaling state. The apparatus may be configured to be housed within a component of the bicycle, such as within a hollow opening of the spindle or crank axle. The apparatus also may include a wireless transmitter to communicate with another component, such as a suspension controller.

A pedal thickness supplementary device is provided. The pedal thickness supplementary device includes two supplementary assemblies and a plurality of fasteners. The two supplementary assemblies disposed on two corresponding sides of the pedal respectively, in which the two supplementary assemblies clamp and couple to the pedal, so that the thickness of the two supplementary assemblies clamping to the pedal is thicker than the thickness of the pedal. Further, each of the two supplementary assemblies includes two anti-slip portions, a plurality of first fasten grooves, a plurality of second fasten grooves and a through hole.

A pedal for bicycles comprising: a pedal-pin which extends along a reference axis, a pedal-body that comprises a hub coupled in a freely rotatable manner on the pedal-pin, an electronic measurement circuit firmly coupled to the pedal-pin to provide electrical measurement signals indicative of the deformation of the pedal-pin, a mechanical clamping member comprising: a first clamping element which is arranged on the pedal-pin to rotate around the reference axis and is positioned in abutment against a shoulder of the pedal-pin in order to be axially clamped along said axis), and a second clamping element that firmly couples the hub to the first clamping element so that the hub is axially clamped to the pedal-pin.

A pedal for bicycles comprising: a pedal-pin which extends along a reference axis, a pedal-body that comprises a hub coupled in a freely rotatable manner on the pedal-pin, an electronic measurement circuit firmly coupled to the pedal-pin to provide electrical measurement signals indicative of the deformation of the pedal-pin, a mechanical clamping member comprising: a first clamping element which is arranged on the pedal-pin to rotate around the reference axis and is positioned in abutment against a shoulder of the pedal-pin in order to be axially clamped along said axis), and a second clamping element that firmly couples the hub to the first clamping element so that the hub is axially clamped to the pedal-pin.

A piezoelectric energy hunting device and a voltage signal application system thereof are disclosed. The piezoelectric energy hunting device includes a plurality of curved piezoelectric elements, a plurality of rigid foams, and a flexible foam structure. The plurality of curved piezoelectric elements are arranged side by side with one another, wherein each curved piezoelectric element is attached to one of the rigid foams. The flexible foam structure includes a top foam and a bottom foam covering the outer surface of the plurality of curved piezoelectric elements and the plurality of rigid foams; when the flexible foam structure is compressed, the plurality of curved piezoelectric elements are simultaneously deformed, thereby generating a voltage signal. When the flexible foam structure is not compressed, the flexible foam structure and the plurality of rigid foams provide an elastic force to restore the plurality of curved piezoelectric elements.