Examples of the present disclosure relate to a bicycle configured to easily and efficiently adapt for riders of different sizes while providing both balance bike and pedal bike functionality. An exemplary bicycle is a children's bicycle designed and developed to grow with a child. An exemplary bicycle is configured to enable utility adjustments to a front assembly, among other components, which creates a setup that comfortably accommodates either smaller riders or larger-sized riders. The bicycle is adjustable with minimal effort and without tools, enabling re-configuration on the fly. Further disclosed is an exemplary training wheel device that is attachable to an exemplary bicycle. An exemplary training wheel device extends functionality of the bicycle and assist with training a young child to ride the bicycle.

A ride-on toy includes a handle unit; a front leg unit including a front leg and a front wheel mounted to the front leg; a rear leg unit including a rear leg and a rear wheel mounted to the rear leg; a pedal unit; a saddle unit; and a chassis. In a first state, in response to a first downward force applied to the saddle unit and a forward force applied to the handle unit, the front leg moves with the front wheel forward and away from the rear leg, and the rear leg stays still. In a second state, in response to a second downward force applied to the pedal unit and a rearward force applied to the handle unit, the rear leg moves with the rear wheel forward and toward the front leg, and the front leg stays still.

A ride-on toy includes a handle unit; a front leg unit including a front leg and a front wheel mounted to the front leg; a rear leg unit including a rear leg and a rear wheel mounted to the rear leg; a pedal unit; a saddle unit; and a chassis. In a first state, in response to a first downward force applied to the saddle unit and a forward force applied to the handle unit, the front leg moves with the front wheel forward and away from the rear leg, and the rear leg stays still. In a second state, in response to a second downward force applied to the pedal unit and a rearward force applied to the handle unit, the rear leg moves with the rear wheel forward and toward the front leg, and the front leg stays still.

A bicycle has a bicycle frame, two handle bars, and a clamping assembly. The bicycle frame has a front fork having a steerer tube mounted within a head tube of the bicycle frame and a handle mount fastened to the steerer tube and having two receiving tubes longitudinally disposed at two sides of the head tube, respectively. The two handle bars are rotatably mounted to the two receiving tubes, respectively, and each handle bar has a first section inserted inside a corresponding one of the two receiving tubes and a second section integrally fixed to the first section. The clamping assembly has two clamping units respectively mounted around the two receiving tubes and an operating unit connected to the two clamping units and being configured to abut the two clamping units for respectively clamping the two receiving tubes.

A ridable kart having a front portion rotatably coupled to a rear portion. The front portion includes an inner surface that is adjacent to an outer cover portion and the two surfaces move relative to one another. The outer cover portion includes window portions or openings through which a portion of the inner surface is visible. The inner surface includes a visual feature that is visible through the window portions and the visual features moves relative to the window portions when the front portion rotates relative to the rear portion.

A ridable kart having a front portion rotatably coupled to a rear portion. The front portion includes an inner surface that is adjacent to an outer cover portion and the two surfaces move relative to one another. The outer cover portion includes window portions or openings through which a portion of the inner surface is visible. The inner surface includes a visual feature that is visible through the window portions and the visual features moves relative to the window portions when the front portion rotates relative to the rear portion.

A telescoping carer's handle for a child's kick scooter comprising a padded handle on one end of a telescoping pole mechanism. The telescoping pole mechanism is arranged parallel to and attaches to the vertical portion of the child kick scooter's T-bar handlebar by means of one or more clamps and brackets. The telescoping carer's handle is reversibly extendable and retractable from the scooter in a direction substantially upwards and downwards, respectively, relative to the handlebar portion of the scooter. There can be a locking mechanism between adjacent telescoping tubes that allows the user to raise or lower the top of the pole and then lock it into position so that, in use, a carer located adjacent to the scooter can grasp the handle at a comfortable height and safely steer, stop and or propel the scooter and child, and alternatively retract the carer's handle when not in use.

A telescoping carer's handle for a child's kick scooter comprising a padded handle on one end of a telescoping pole mechanism. The telescoping pole mechanism is arranged parallel to and attaches to the vertical portion of the child kick scooter's T-bar handlebar by means of one or more clamps and brackets. The telescoping carer's handle is reversibly extendable and retractable from the scooter in a direction substantially upwards and downwards, respectively, relative to the handlebar portion of the scooter. There can be a locking mechanism between adjacent telescoping tubes that allows the user to raise or lower the top of the pole and then lock it into position so that, in use, a carer located adjacent to the scooter can grasp the handle at a comfortable height and safely steer, stop and or propel the scooter and child, and alternatively retract the carer's handle when not in use.

A child balance bike includes a bike body and a coat. The bike body includes a frame, a stem and wheels. The coat includes a main coat body and a head body, wherein the main coat body is provided with lower ends corresponding to legs of an animal, and an inside of the lower ends is provided with an end pocket and a locking portion. The main coat body and the head body are connected as a whole behind the stem, a portion of the coat behind the stem is a filling housing segment through which the head body and the main coat body penetrates and filled with a filler, and the head body is hung on the stem through the filling housing segment filled with the filler. The present invention has a simple structure and convenient operation for connecting.

A child vehicle includes a power mechanism having a motor, at least one wheel selectively operatively coupled to the motor, and a propulsion switch coupled to the power mechanism and having a first position and a second position. The first position is from a user-initiated force. The propulsion switch automatically moves to the second position upon disengagement of the force. In the first position, the child vehicle is in the first operational mode and the wheel is being driven by the motor. In the second position, the child vehicle is in the second operational mode and the wheel is allowed to rotate substantially free from drag or resistance due to the motor. A method is also disclosed.