An equalizer includes a pivot arm pivotally connected between first and second spaced-apart plates fixedly connected to each other. First and second bump stops extend from one of the first and second plates to or toward the other of the first and second plates. A first shock absorber is disposed and selectively compressible between the pivot arm and the first bump stop. A second shock absorber is disposed and selectively compressible between the pivot arm and the second bump stop.

A method of maneuvering a vehicle in reverse for attachment to a trailer including: receiving, at a user interface in communication with the neural network, an indication of a vehicle hitch ball location; receiving an indication of a selected trailer hitch receiver location; determining, a vehicle path from an initial position to a final position adjacent the trailer, the vehicle path including maneuvers configured to move the vehicle along the vehicle path from the initial position to the final position; autonomously following the vehicle path from the initial position; stopping the vehicle at an intermediate position before reaching the final position, the intermediate position being closer to the final position than the initial position; modifying the vehicle suspension to align a vehicle hitch with a trailer hitch; autonomously following the vehicle path from the intermediate position to the final position; and finally connecting the vehicle hitch with the trailer hitch.

A trailer has a three-section flat bed in which the front and rear sections fold onto the middle section. The trailer has an airbag suspension system and one wheel on each side. When the airbags are deflated, the entire flat bed forms a ramp for loading and unloading. When the airbags are deflated and the flat bed is folded, the trailer can be stored vertically while resting on its wheels.

A recreational vehicle includes a frame, left and right air suspensions, a front jack, a tilt sensor configured to measure lateral and longitudinal tilt data associated with the frame, and a controller. The controller is configured to receive the lateral and longitudinal tilt data to thereby level the frame laterally via operation of the left and right air suspensions and level the frame longitudinally via operation of the left and right air suspensions and the front jack. Methods for performing a leveling operation include utilizing left and right air suspensions of the recreational vehicle in combination with operating a front jack of the recreational vehicle until the recreational vehicle is level along lateral and longitudinal axes.

A trackless train with complementary steering couplings between axles and cars transmits steering forces from one axle to the next, in succession. Couplings couple axles of cars, as well as adjacent axles between adjacent cars. Each axle assembly may either pivot about a central bearing or include a pivoting steering arm for each wheel that pivots about a steering pin, with wheels on the inside of a turn pivoting more than wheels on the outside of a turn. Differentials may be provided to transfer power to each wheel, including from car to car.

An axle/suspension assembly for a heavy-duty vehicle supported by a frame and a hanger includes a beam, an axle, and a bumper. The axle is supported by a first portion of the beam for pivotal movement of the beam relative to the hanger at a pivot joint. The first portion of the beam is located on a first side of the pivot joint. The bumper is fixed to at least one of the frame, the hanger, and a second portion of the beam. The second portion of the beam is located on an opposite second side of the pivot joint. The bumper includes a portion for contacting structure of at least another of the frame, the hanger, and the beam to limit pivotal movement of the axle in one direction.

The present disclosure relates to shipping and storage containers. Specifically, the present disclosure relates to shipping and storage containers, which are traditionally stationary, converted to easily-portable containers. More specifically, the portable containers include a deployable/retractable landing/moving apparatus, a removable tow bar assembly, and leveling support systems. The portable containers can have many uses including as temporary to permanent housing, office space, and school rooms, or to house equipment for use in mobile telecommunication networks and systems, including cellular towers that can be set-up in both permanent and temporary locations.

A walking beam assembly mounts onto the main frame of an agricultural trailer in place of a single axle assembly. The walking beam assembly has a main axle beam serving as the only connection to the main frame. Two walking beams, with a pair of wheels on each, are supported at opposing ends of the main axle beam. Two hubs are pivotally supported on the main axle beam at respective hub locations spaced inward axially of the main axle beam relative to the ends of the main axle beam. A pair of brace members are coupled between each hub and the respective walking beam at diametrically opposing sides of the walking beam pivot. The hubs and the brace members are pivotal relative to the main axle beam about the same walking beam axis as the walking beams.

A vehicle stabilization system including a frame; a wheel; a control arm connected to the frame and the wheel; a fluid spring connected to the frame and the control arm; a stabilizer connected to the frame and operable between a retracted and extended position; a reservoir; and a fluid manifold connected to the fluid spring and the chamber, fluidly coupling the spring interior and stabilizer chamber to the reservoir interior. A vehicle stabilization method including maintaining an orientation of the vehicle frame, coupling the frame to a support surface using a stabilizer by introducing a fluid to a chamber of the stabilizer, and retracting a wheel by reducing a quantity of fluid within a fluid spring coupling the wheel to the frame.

A locking mechanism configured to selectively secure a vehicle slider frame assembly to a vehicle frame assembly includes a locking member configured to move between a locked position and an unlocked position, an actuator shaft operably coupled with the locking member such that turning the actuator shaft along a longitudinal axis of the actuator shaft moves the locking member between the locked and unlocked positions, the actuator shaft including a first portion and a second portion that telescopingly engage one another and are releasably secured to one another, and a spring member positioned over the actuator shaft and configured to bias the at least one locking member toward the locked position.