A cleat adapter assembly is provided for a cycling shoe. The cleat adapter assembly basically includes a first connecting portion, a second connecting portion and an adjuster. The first connecting portion is configured to be connected to a cleat. The second connecting portion is adjustably connected to the first connecting portion. The adjuster is configured to adjust a relative position between the first connecting portion and the second connection portion.

A spacer is provided for adjusting the tread of a bicycle pedal. The sole can fit to its tread force receiving surface without causing damage to a user’s foot or shoe. The non-slipping effect is high. A spacer is detachable from the main body of a bicycle pedal and includes an elastic material for adjusting a height from a deck surface and, when tread force is applied to the elastic material, is pushed down in the direction of thickness according to the tread force, and the tip of a stud pin attached to the main body of the pedal is exposed more from the spacer. The detachable spacer can cover and protect a large portion of the exposed part of the stud pin when no foot is placed on the pedal, and when a foot is placed on the pedal, a stud pin protrudes to provide the non-slipping effect.

Various embodiments of a pedal for use on a device such as a bicycle or stationary bicycle are provided. A pedal may include a pedal body member having an internal cavity. The pedal may include an axle having a shaft adapted to extend into the internal cavity. The pedal body member may be adapted for transverse or side-to-side rotatable movement relative to a longitudinal axis of the axle shaft. The pedal body member may be self-centering and include one or more springs (such as coil, leaf, cantilever, torsion, etc., for example) to apply force to move the pedal body member toward a home or resting position relative to the axle shaft. The pedal may be adapted so that the user's foot can be placed on either a top surface or a bottom surface of the pedal body member.

A clipless bicycle pedal auxiliary tool includes two cramp bodies, each cramp body includes a pivot part, a holding section and a clamping section, the two pivot parts are pivoted with each other, and the holding sections and the clamping sections are disposed on two sides of the pivot parts, respectively. Each clamping section includes a clamping pin and a pushing pin protruded thereon. The two holding sections can be operated to pivotally swing the two clamping section relative to each other, and make the two clamping pins and the two pushing pins move close to and away from each other, so that the two clamping pins can clamp the two inner sides of the clamping fastener of the clipless bicycle pedal, and the two pushing pins push the two outer sides of the clamping fastener to form a force pivot.

The present invention relates to a movable magnet type bicycle pedal, and a shoe coupling device equipped with a means for preventing attachment of metal powder. More particularly, the present invention relates to a movable magnet type bicycle pedal and a shoe coupling device equipped with a means for preventing attachment of metal powder, wherein the shoe coupling device and the pedal are respectively provided with a magnet, and are coupled to each other by magnetic force only during pedaling, and, when the pedaling is stopped or the running of a bicycle is stopped, the coupling between the magnets is released through a magnetic separation means and at the same time metal powder attached to a shoe is caused to fall so as to prevent the metal powder from being attached to the shoe.

A bicycle pedal adapted for use with a plurality of different shoe cleats each having a respective cleat configuration. The bicycle pedal includes a front hook adapted to be engageable with a first portion of a shoe cleat, a cleat contact surface coupled to the front hook and adapted to be engageable with a second portion of the shoe cleat, and a rear hook coupled to the cleat contact surface and adapted to be engageable with a third portion of the shoe cleat. The front hook, cleat contact surface, and rear hook define an engagement configuration complimentary to the cleat configuration and are configured such that the engagement configuration is selectively adjustable to conform to the cleat configuration.

A bicycle container including a main body for containing objects and an engagement member provided on the main body. The engagement member is configured to engage with a pedal of a bicycle to enable the bicycle container to be detachably coupled to the pedal to hold the bicycle in an uptight position.

A pedal connection mechanism includes a left and a right pedal, and a transverse connecting member. The first cylindrical shaft is provided along the bottom of the left pedal. The left side of the top wall of the transverse connecting member is provided with the first support member. The second cylindrical shaft is provided along the bottom of the right pedal. The right side of the top wall of the transverse connecting member is provided with the second support member. The present invention further provides an electric balancing vehicle using this pedal connection mechanism. The left pedal and the right pedal are not connected with each other through an intermediate shaft. Their motion statuses are controlled respectively by the left foot and the right foot independently. The transverse connecting member shares the weight of a human body. The force distributes evenly. The balancing vehicle is flexible and durable.

A double clamp clipless pedal includes a pedal body, a main shaft, and a clamp assembly. The pedal body has a first surface and a second surface. The clamp assembly is provided with a front clamp and a rear clamp rotatably disposed on two sides of the main shaft, such that the front clamp and the second clamp permanently rotate toward the main shaft for engaging a shoe cleat. The front clamp and the rear clamp are allowed to automatically swing together with the shoe cleat movement for maintaining the engagement. The front and rear clamps are able to resiliently and rotationally open, whereby the shoe cleat is easily clamped and disclamped by the front and rear clamps.

A pedal includes a pedal body and a shaft. The pedal body has a shaft hole and a ball bearing disposed in the shaft hole. The ball bearing has an inner sleeve and an outer sleeve. The shaft has a locking end with a large diameter and a pivoting end with a small diameter. The pivoting end has a thread section screwed by a fixing nut which presses the inner sleeve of the ball bearing. The outer sleeve is fixed by a cap mounted in an opening of the shaft hole. The shaft is received in the shaft hole and fixed by the fixing nut. The shaft axially passes through the ball bearing. An end of the fixing nut is integrally formed with a flange to press the inner sleeve.