A footwear assembly, such as a cycling show, includes a plantar shell, a dorsal shell, and a closure mechanism. The plantar shell that at least partially defines an interior area sized to receive a wearer’s foot and is shaped to conform to a bottom surface contour of the wearer’s foot. The dorsal shell shaped to conform to an upper surface contour of the wearer’s foot and includes a region positioned to apply a compressive force to a portion of the wearer’s foot. The closure mechanism configured to couple the dorsal shell to the plantar shell to apply the compressive force to the portion of the wearer’s foot to at least partially prevent movement of the wearer’s foot relative to the plantar shell.

A footwear assembly, such as a cycling show, includes a plantar shell, a dorsal shell, and a closure mechanism. The plantar shell that at least partially defines an interior area sized to receive a wearer’s foot and is shaped to conform to a bottom surface contour of the wearer’s foot. The dorsal shell shaped to conform to an upper surface contour of the wearer’s foot and includes a region positioned to apply a compressive force to a portion of the wearer’s foot. The closure mechanism configured to couple the dorsal shell to the plantar shell to apply the compressive force to the portion of the wearer’s foot to at least partially prevent movement of the wearer’s foot relative to the plantar shell.

The present invention is embodied in a mounting standard for mounting a cleat assembly to a shoe sole having a curved underside portion and a plurality of mounting holes. The mounting standard is configured so that the cleat assembly can be moved forward or rearward with respect to the curved underside portion of the shoe sole without significantly affecting the distance between the cleat assembly and a user's foot. The present invention is also embodied in a shoe configured to receive a user's foot, the shoe comprising a shoe sole and a mounting standard.

The present invention is embodied in a mounting standard for mounting a cleat assembly to a shoe sole having a curved underside portion and a plurality of mounting holes. The mounting standard is configured so that the cleat assembly can be moved forward or rearward with respect to the curved underside portion of the shoe sole without significantly affecting the distance between the cleat assembly and a user's foot. The present invention is also embodied in a shoe configured to receive a user's foot, the shoe comprising a shoe sole and a mounting standard.

A bicycle pedal system which allows riders to engage the sole of their shoe with the pedal to feel an operative engagement therebetween during normal riding conditions, while allowing the rider to easily detach the shoe from the pedal should the need arise. The system includes a shoe sole wearable on the foot of a user, wherein the shoe sole includes a lower surface and a plurality of first engagement elements extending from the lower surface. The system further comprises a bicycle pedal including a first surface, an opposing second surface, and a plurality of second engagement elements extending from the first surface and being complimentary to the first engagement elements. The shoe sole is configured to be selectively engageable with the pedal, with the first engagement elements being registered with the second engagement elements when the shoe sole is engaged with the pedal.

A bicycle pedal system which allows riders to engage the sole of their shoe with the pedal to feel an operative engagement therebetween during normal riding conditions, while allowing the rider to easily detach the shoe from the pedal should the need arise. The system includes a shoe sole wearable on the foot of a user, wherein the shoe sole includes a lower surface and a plurality of first engagement elements extending from the lower surface. The system further comprises a bicycle pedal including a first surface, an opposing second surface, and a plurality of second engagement elements extending from the first surface and being complimentary to the first engagement elements. The shoe sole is configured to be selectively engageable with the pedal, with the first engagement elements being registered with the second engagement elements when the shoe sole is engaged with the pedal.

A monitoring system includes a shoe and a sole integrated into the shoe. The monitoring system also includes a connection mechanism attached to an underside of the sole and is shaped to connect the sole to a pedal. A pressure sensor is incorporated into the shoe that senses a force exerted on the pedal when the shoe is connected to the pedal through the connection mechanism.

A monitoring system includes a shoe and a sole integrated into the shoe. The monitoring system also includes a connection mechanism attached to an underside of the sole and is shaped to connect the sole to a pedal. A pressure sensor is incorporated into the shoe that senses a force exerted on the pedal when the shoe is connected to the pedal through the connection mechanism.

A pedal comprising: (a) a housing; (b) a magnet have a portion located within the housing and a portion extending outside of the housing; and (c) a hall effect sensor connected to or located within the housing and configured to measurement movement, rate of movement, or both of the pedal.

A pedal comprising: (a) a housing; (b) a magnet have a portion located within the housing and a portion extending outside of the housing; and (c) a hall effect sensor connected to or located within the housing and configured to measurement movement, rate of movement, or both of the pedal.