Headsets and head tube assemblies for vehicles are provided. A vehicle includes a steerer tube and a head tube. A headset rotatably connects the steerer tube and the head tube. The headset includes a coupling ring which includes a body and a central bore defined in and extending through the body. The coupling ring is connectable to and rotatable with the steerer tube. The headset further includes a cup which includes a body and a central bore defined in and extending through the body. The cup is connectable to and rotatable with the head tube. The headset further includes a damper assembly, the damper assembly including a first damper element rotatable with the steerer tube and a second damper element rotatable with the head tube, the first damper element and the second damper element in frictional contact with and rotatable relative to each other.

A bicycle rolling-element bearing assembly includes an outer bearing ring, an inner bearing ring, a plurality of rolling elements disposed between the outer bearing ring and the inner bearing ring and rotatably supporting the outer bearing ring relative to the inner bearing ring, and a lubricant reservoir, configured as a first cage, for storing and dispensing a lubricant, the first cage including bridge elements extending between the rolling elements and at least one side ring connecting the bridge elements.

A bicycle rolling-element bearing assembly includes an outer bearing ring, an inner bearing ring, a plurality of rolling elements disposed between the outer bearing ring and the inner bearing ring and rotatably supporting the outer bearing ring relative to the inner bearing ring, and a lubricant reservoir, configured as a first cage, for storing and dispensing a lubricant, the first cage including bridge elements extending between the rolling elements and at least one side ring connecting the bridge elements.

A stop for handlebars of two-wheeled vehicles is integrated into the control head bearing of the vehicle. It is formed by a first component installed in the control head bearing with a circular arc-shaped groove that is arranged coaxially to the rotational axis of the control head bearing and a stop element protruding into this groove. The stop element is arranged on a second component that can be moved relative to the first part. The stop at the lower control head bearing is arranged within the head tube. The circular arc-shaped groove is arranged in the base and open towards the lower bearing shell. The lower bearing shell comprises an open recess extending over its height to the lower rolling bearing, which receives a stop element. The stop element has a radial lug protruding into the circular groove of the base.

A stop for handlebars of two-wheeled vehicles is integrated into the control head bearing of the vehicle. It is formed by a first component installed in the control head bearing with a circular arc-shaped groove that is arranged coaxially to the rotational axis of the control head bearing and a stop element protruding into this groove. The stop element is arranged on a second component that can be moved relative to the first part. The stop at the lower control head bearing is arranged within the head tube. The circular arc-shaped groove is arranged in the base and open towards the lower bearing shell. The lower bearing shell comprises an open recess extending over its height to the lower rolling bearing, which receives a stop element. The stop element has a radial lug protruding into the circular groove of the base.

A coupled steering tilting and embedded independent shock absorption swing arm system (STS) system of a personal mobility vehicle, for example, but not limited to, a three-wheeled trike configuration, is disclosed.

The present invention discloses an internal steering structure of a front wheel hub of a portable two-wheeled vehicle including a front wheel mounted on a front end of a vehicle body of a two-wheeled vehicle, a handlebars provided at a front end of a vehicle body of a two-wheeled vehicle, and a steering bearing sleeve vertically fixed to the front end of the vehicle body. The steering bearing sleeve is provided with a steering bearing fixing rod which is rotatable within the steering bearing sleeve. The steering bearing fixing rod is fixedly connected to the handlebars and is rotated synchronously with the handlebars. A rotatable front wheel is provided on the steering bearing fixing rod. In the internal steering structure of the front wheel hub of the portable two-wheeled vehicle according to the present invention, the steering bearing sleeve fixed to the front end of the vehicle body and the steering bearing fixing rod rotatable in the steering bearing sleeve are provided and the internal hub and the handlebars are fixedly connected to the steering bearing fixing rod. Which achieves a balanced force, simple structure, easy operation, and which can greatly improve the driving stability.

The present invention discloses an internal steering structure of a front wheel hub of a portable two-wheeled vehicle including a front wheel mounted on a front end of a vehicle body of a two-wheeled vehicle, a handlebars provided at a front end of a vehicle body of a two-wheeled vehicle, and a steering bearing sleeve vertically fixed to the front end of the vehicle body. The steering bearing sleeve is provided with a steering bearing fixing rod which is rotatable within the steering bearing sleeve. The steering bearing fixing rod is fixedly connected to the handlebars and is rotated synchronously with the handlebars. A rotatable front wheel is provided on the steering bearing fixing rod. In the internal steering structure of the front wheel hub of the portable two-wheeled vehicle according to the present invention, the steering bearing sleeve fixed to the front end of the vehicle body and the steering bearing fixing rod rotatable in the steering bearing sleeve are provided and the internal hub and the handlebars are fixedly connected to the steering bearing fixing rod. Which achieves a balanced force, simple structure, easy operation, and which can greatly improve the driving stability.

A bicycle according to the present disclosure comprises a frame assembly and a front fork. The frame assembly includes a head tube defining a steering axis. The front fork is rotatably coupled to the head tube and includes upper and lower supports aligned with the steering axis. The upper and lower supports project away from the fork assembly and rotationally couple the front fork assembly to the head tube. A buttress is coupled to the upper and lower supports at upper and lower buttress ends. A pair of laterally spaced fork legs project from the buttress lower end at one end of the fork legs. The buttress is disposed forward of the head tube and has a lateral width which tapers from a first width at the buttress lower end to a second width at the buttress upper end.

A bicycle according to the present disclosure comprises a frame assembly and a front fork. The frame assembly includes a head tube defining a steering axis. The front fork is rotatably coupled to the head tube and includes upper and lower supports aligned with the steering axis. The upper and lower supports project away from the fork assembly and rotationally couple the front fork assembly to the head tube. A buttress is coupled to the upper and lower supports at upper and lower buttress ends. A pair of laterally spaced fork legs project from the buttress lower end at one end of the fork legs. The buttress is disposed forward of the head tube and has a lateral width which tapers from a first width at the buttress lower end to a second width at the buttress upper end.