Electric, self-steer wagon-trailers may be provided. A trailer-to-tow vehicle electric, power-sharing booster system may extend the towing electric vehicle (EV) battery life/travel range. A high voltage, battery module recharge system may be provided that is compatible with standard, electric grid EV recharge connectors. A wagon style, highway speed, self-steer front axle system may eliminate trailer-to-vehicle vertical hitch load on the tow vehicle, which increases trailer and tow vehicle stability thus, increasing towing efficiencies and safety.

Electric, self-steer wagon-trailers may be provided. A trailer-to-tow vehicle electric, power-sharing booster system may extend the towing electric vehicle (EV) battery life/travel range. A high voltage, battery module recharge system may be provided that is compatible with standard, electric grid EV recharge connectors. A wagon style, highway speed, self-steer front axle system may eliminate trailer-to-vehicle vertical hitch load on the tow vehicle, which increases trailer and tow vehicle stability thus, increasing towing efficiencies and safety.

A vehicle drive system is provided and generally includes a hub assembly, a drive assembly and a clutch assembly. The hub assembly having wheel hub upon which a wheel assembly is secured. The drive assembly is configured to selectively transmit a motive force to cause the hub to turn. The drive assembly includes a motor with a rotatable motor output shaft, a transmission assembly connected to the motor and receiving in the rotatable motor output shaft into an input opening therein, and a driveshaft connected to an output from the transmission assembly. The clutch assembly connected to the hub assembly and engagebale to the driveshaft.

A trailer for towing a power vehicle is provided and generally includes a frame and a self propelled tandem wheel assembly. The frame includes an undercarriage chassis, and the self propelled tandem wheel assembly is positioned under the undercarriage chassis. The self propelled tandem wheel assembly includes a rear wheel assembly and a front wheel assembly, and the rear wheel assembly and the front wheel assembly are equally positioned to support the undercarriage chassis.

A steering system for a towable implement includes a steering sensor, an implement steering controller, a steering control valve, a steering cylinder, and an implement steering mechanism that steers the implement. The steering sensor measures, directly or indirectly, the angular position of the steerable wheels of the implement. The implement steering controller processes feedback from the steering sensor and with a desired steering angle, outputs a steering control signal that is input to the steering control valve. The steering control valve controls the flow of hydraulic fluid to the steering cylinder, which, in turn, powers the implement steering mechanism to turn the wheels of the implement. The steering system may be operated in various control modes, such as, a transportation steering mode, a corner and 180 turn steering mode, a swath tracking steering mode, crab steering mode, and a manual steering mode, which allows manual control of the steering system.

A steering system for a towable implement includes a steering sensor, an implement steering controller, a steering control valve, a steering cylinder, and an implement steering mechanism that steers the implement. The steering sensor measures, directly or indirectly, the angular position of the steerable wheels of the implement. The implement steering controller processes feedback from the steering sensor and with a desired steering angle, outputs a steering control signal that is input to the steering control valve. The steering control valve controls the flow of hydraulic fluid to the steering cylinder, which, in turn, powers the implement steering mechanism to turn the wheels of the implement. The steering system may be operated in various control modes, such as, a transportation steering mode, a corner and 180 turn steering mode, a swath tracking steering mode, crab steering mode, and a manual steering mode, which allows manual control of the steering system.

A steering system for a trailer is disclosed. A drawbar is attached to an elongated slide, with the slide attached to the trailer for rotation about a pivot axis. A carriage is mounted for movement along the slide and between ends of the slide. At least one control rod extends between the carriage and a steered wheel of the trailer. With the carriage positioned to one side of the pivot axis, the trailer wheels are steered in the direction of sideways towbar displacement when towed, and with the carriage positioned to the other side of the pivot axis, the trailer wheels are steered in the opposite direction of sideways towbar displacement when backed. An electrical, hydraulic, pneumatic or manual actuator may be used to move and position the carriage on the slide.

A steering assembly system is provided having a steering actuator comprising a double rod end cylinder having: a cylinder barrel having a length, a first end with a first cap, and a second end with a second cap, and a first, second and third fluid port, each respectively in fluid communication with a first, second, and third chamber; a piston rod having a first rod end and a second rod end with a length extending therebetween, and the first rod end extending through the first cap and the second rod end extending through the second cap of the cylinder barrel; a first piston having a first dimension and mechanically secured at a point along the length of the main piston rod; a second piston having a second dimension larger than the first dimension of the first piston, and main piston rod extending through at least the length of the barrel.

A steering mechanism intended for use in transport equipment, such as a truck, or a trailer, includes a steering knuckle on both sides of a body of the transport equipment. A king pin is fastened by articulation to the steering knuckles and a wheel of the transport equipment is fastened to each king pins. the steering knuckles being fastened by articulation to the body. The king pins are pivotable with respect to the steering knuckle to which they are fastened. The steering knuckles are pivotable so that when either of the steering knuckles pivots about the respective articulation arranged in the body, the king pin in the pivoting knuckle simultaneously remains un-pivoted with respect to the steering knuckle to which it is fastened. The other steering knuckle simultaneously remains un-pivoted and the king pin therein thus pivots with respect to the steering knuckle to which it is fastened.

A steering mechanism intended for use in transport equipment, such as a truck, or a trailer, includes a steering knuckle on both sides of a body of the transport equipment. A king pin is fastened by articulation to the steering knuckles and a wheel of the transport equipment is fastened to each king pins. the steering knuckles being fastened by articulation to the body. The king pins are pivotable with respect to the steering knuckle to which they are fastened. The steering knuckles are pivotable so that when either of the steering knuckles pivots about the respective articulation arranged in the body, the king pin in the pivoting knuckle simultaneously remains un-pivoted with respect to the steering knuckle to which it is fastened. The other steering knuckle simultaneously remains un-pivoted and the king pin therein thus pivots with respect to the steering knuckle to which it is fastened.