A hub unit with a steering function includes: a hub bearing that rotatably supports a wheel; a cylindrical turning shaft section extending from an outer ring thereabove and thereunder with the outer ring being located at an outer peripheral surface of an outer race of the hub bearing; a steering actuator that causes the hub bearing to rotate about an axis of the turning shaft section; a unit support member that rotatably supports the hub bearing about the axis on a vehicle body; and an arm section projecting from the outer ring rearward of a vehicle, with the actuator being coupled to the arm section. The actuator includes: an extensible and retractable assembly capable of providing extension or retraction in a direction perpendicular to the axis; and the extensible and retractable assembly is coupled to the arm section through a joint assembly providing two or more directions of freedom.

The present invention relates to a motorized machine having a chassis, a suspension system mechanically coupled on the one hand to a wheel of the motorized machine and on the other hand to the chassis, and a steering system configured to transmit the steering to said wheel of the motorized machine through the suspension system, the steering system being in a slide-type mechanical connection with the suspension system along the axis of the suspension system.

The present invention relates to a motorized machine having a chassis, a suspension system mechanically coupled on the one hand to a wheel of the motorized machine and on the other hand to the chassis, and a steering system configured to transmit the steering to said wheel of the motorized machine through the suspension system, the steering system being in a slide-type mechanical connection with the suspension system along the axis of the suspension system.

Generally, a suspension system for a wheel of a vehicle is disclosed. The system may include at least one pair of arms each including a first arm and a second arm. Each of the first arm and the second arm of the at least one pair of arms may have a first end adapted to be rotatably connected to a wheel interface and a second end adapted to be rotatably connected to a reference frame of the vehicle, while the first arm and the second arm may be set across each other and define a mobile steering axis at a virtual intersection therebetween such that the mobile steering axis moves with respect to the reference frame when the wheel interface changes its steering angle relative to the reference frame.

The present disclosure relates to a steerable wheel axle arrangement for a vehicle, the steerable wheel axle arrangement being connectable to a pair of wheels and comprising a steering linkage connectable to the pair of wheels; a cylinder comprising a fluidly controlled piston movable within the cylinder, wherein the fluidly controlled piston is connected to the steering linkage; and a fluidly controlled brake actuator adapted to be in fluid communication with a wheel brake of the vehicle for controlling braking of the wheels, wherein the fluidly controlled brake actuator is arranged in fluid communication with the cylinder, and wherein the fluidly controlled piston exerts a steering force on the steering linkage upon actuation of the fluidly controlled brake actuator for steering the wheels.

The present disclosure relates to a steerable wheel axle arrangement for a vehicle, the steerable wheel axle arrangement being connectable to a pair of wheels and comprising a steering linkage connectable to the pair of wheels; a cylinder comprising a fluidly controlled piston movable within the cylinder, wherein the fluidly controlled piston is connected to the steering linkage; and a fluidly controlled brake actuator adapted to be in fluid communication with a wheel brake of the vehicle for controlling braking of the wheels, wherein the fluidly controlled brake actuator is arranged in fluid communication with the cylinder, and wherein the fluidly controlled piston exerts a steering force on the steering linkage upon actuation of the fluidly controlled brake actuator for steering the wheels.

The invention relates to a vehicle steering system comprising a steering wheel, a first and a second steering assembly. The steering assemblies each comprise a steering linkage mechanically connected to a road wheel and a support motor. The steering wheel is configured to control a steering angle of a first road wheel via a first support motor actuating a first steering linkage. A processing circuitry is configured to receive, from the first steering assembly, input signals comprising one or more steering parameter values measured for the first steering assembly. Based on the received first input signals, the processing circuitry is configured to calculate a desired steering angle of a second road wheel and to send control signals to a second support motor so as to actuate a second steering linkage such that the desired steering angle of the second road wheel is obtained. A method is also disclosed.

The invention relates to a vehicle steering system comprising a steering wheel, a first and a second steering assembly. The steering assemblies each comprise a steering linkage mechanically connected to a road wheel and a support motor. The steering wheel is configured to control a steering angle of a first road wheel via a first support motor actuating a first steering linkage. A processing circuitry is configured to receive, from the first steering assembly, input signals comprising one or more steering parameter values measured for the first steering assembly. Based on the received first input signals, the processing circuitry is configured to calculate a desired steering angle of a second road wheel and to send control signals to a second support motor so as to actuate a second steering linkage such that the desired steering angle of the second road wheel is obtained. A method is also disclosed.

A power steering system includes a pair of wheel steering mechanisms configured to turn a pair of steered wheels of a vehicle, and a coupling mechanism coupling the steered wheels and coupling the wheel steering mechanisms including operating-side and nonoperating-side mechanisms. The operating-side mechanism includes a drive shaft coupled to one end of the coupling mechanism and extending in an axial direction, and a steering operation member engaged with the drive shaft. The nonoperating-side mechanism includes a drive shaft coupled to the other end of the coupling mechanism and extending in an axial direction, and an electric assist device engaged with the drive shaft. The operating-side mechanism includes at least two operating-side stoppers respectively configured to limit right and left turns of the steered wheels. The nonoperating-side mechanism includes at least one nonoperating-side stopper configured to limit any one of right and left turns of the steered wheels.

Methods and systems are provided for a steering axle assembly. In one example, a system may include a tapered pin coupled to a steering knuckle and to an axle beam end. A set of bushings may circumferentially surround the tapered pin and enable rotation of the steering knuckle around the tapered pin without lubricant.