A vehicle is disclosed. The vehicle may include a base portion and a modular portion. The base portion may be a four wheel vehicle having an operator area with seating for at least two occupants in a side-by-side arrangement. The modular portion may be coupled to the base portion resulting in a six wheel vehicle. The wheels of the modular portion may be powered by an engine of the base portion.

A work vehicle includes a chassis, an axle assembly, an actuator, a parking brake, and a controller. The axle assembly is coupled to the chassis. The actuator is coupled to the chassis and the axle assembly. The actuator is configured to transition the axle assembly between a raised position and a lowered position. The controller includes a processor and a memory. The controller is configured to generate signals to determine a vehicle state based on data representing at least one of a vehicle load, a vehicle location, and a vehicle operating condition; and operate the actuator to transition the axle assembly between the raised position and the lowered position based on the vehicle state.

A work vehicle includes a chassis, an axle assembly, an actuator, a parking brake, and a controller. The axle assembly is coupled to the chassis. The actuator is coupled to the chassis and the axle assembly. The actuator is configured to transition the axle assembly between a raised position and a lowered position. The controller includes a processor and a memory. The controller is configured to generate signals to determine a vehicle state based on data representing at least one of a vehicle load, a vehicle location, and a vehicle operating condition; and operate the actuator to transition the axle assembly between the raised position and the lowered position based on the vehicle state.

An autonomous work vehicle having a chassis, a power system disposed on the chassis, a field wheel system coupled to the chassis and the power system, and a hitch assembly. The power system is configured to power the autonomous work vehicle in an autonomous control mode. The field wheel system is configured to drive the autonomous work vehicle in a field in the autonomous control mode. The hitch assembly is configured to couple to a lead vehicle in a transport mode. The autonomous work vehicle may engage wheels of a transportation wheel system with a road to support the autonomous work vehicle on the road. The autonomous work vehicle may be coupled via the hitch assembly to the lead vehicle, then transported on a road. A brake system of the transportation wheel system may be coupled to the lead vehicle.

An autonomous work vehicle having a chassis, a power system disposed on the chassis, a field wheel system coupled to the chassis and the power system, and a hitch assembly. The power system is configured to power the autonomous work vehicle in an autonomous control mode. The field wheel system is configured to drive the autonomous work vehicle in a field in the autonomous control mode. The hitch assembly is configured to couple to a lead vehicle in a transport mode. The autonomous work vehicle may engage wheels of a transportation wheel system with a road to support the autonomous work vehicle on the road. The autonomous work vehicle may be coupled via the hitch assembly to the lead vehicle, then transported on a road. A brake system of the transportation wheel system may be coupled to the lead vehicle.

A pivotable wheel mount assembly may include a mounting bracket and a swing arm coupled to the mounting bracket. The swing arm may be movably coupled to the mounting bracket or the trailer and to a wheel and/or suspension so as to enable the wheel to be rotated from a downward or operational position to a horizontal or stowed position. The assembly may include an actuator support bracket coupled to the mounting bracket and an actuator that provides mechanical assistance moving the wheels between positions. One or more locking mechanisms may be provided to secure the assembly in either the operational position, the stowed position, or both.

A trailer having a liftable first axle and an air suspended second axle includes a controller, a first valve coupled to the first axle and a second valve coupled to the second axle. The controller receives an air suspension exhaust request signal and a pressure signal from an air suspension bellows coupled to the second axle. The controller transmits an air suspension control signal to the second valve in response to the air suspension exhaust request signal and transmits a lift axle control signal to the first valve to lower the first axle in response to the pressure signal being less than a predetermined pressure value.

A moving robot includes a main body, a drive assembly moving the main body, and a cleaner head performing cleaning on a cleaning area in which the main body is positioned, wherein the drive assembly includes a main wheel, a motor generating a driving force, a gear box connected to the main wheel and the motor and transferring the driving force from the motor to the main wheel, and a leg member disposed on a shaft connecting the main wheel and the gear box and providing thrust independently of the main wheel.

A moving robot includes a main body, a drive assembly moving the main body, and a cleaner head performing cleaning on a cleaning area in which the main body is positioned, wherein the drive assembly includes a main wheel, a motor generating a driving force, a gear box connected to the main wheel and the motor and transferring the driving force from the motor to the main wheel, and a leg member disposed on a shaft connecting the main wheel and the gear box and providing thrust independently of the main wheel.

A ground movement system for a land transport vehicle (2) capable of levitating, the vehicle having a plurality of wheels including at least one actuated wheel (3), a drive device (6) for driving the actuated wheel and/or a brake (8) for braking the actuated wheel (3), a vertical positioning actuator (9) arranged to move the actuated wheel (3) vertically relative to a fuselage of the vehicle (2), and control means arranged to act, during an acceleration stage and/or during a braking stage of the vehicle, to control the vertical positioning actuator (9) as to adjust the vertical position of the actuated wheel in order to increase the load carried by the actuated wheel and thus increase the maximum force that can be transmitted to the ground by the actuated wheel so as to increase the maximum drive and/or braking torque that can be produced by the drive device (6) and/or by the brake (8) without the actuated wheel (3) skidding or slipping.