Maneuverable ergonomic trailer stands are disclosed. An example portable trailer stand includes: a frame having an upper ledge, a post, and a lower subframe, the lower subframe connected to the upper ledge via the post; an extendible leg coupled to the post independent of the lower subframe, the upper ledge being vertically movable based on movement of the extendible leg relative to the upper ledge, the post, and the lower subframe of the frame; and a wheel connected to the frame via the lower subframe such that the wheel is to move with the upper ledge as the upper ledge is vertically moved.

A training apparatus has exercise equipment mounted to a side surface or a roof of a land vehicle or for mounting to a surface such as a wall of a building or ship. The exercise equipment includes a support structure which is attached to the surface or roof. In some embodiments the support structure is maneuverable by pivoting with respect to the surface or roof, whilst remaining attached thereto, between a stowed condition and an exercising condition.

A training apparatus has exercise equipment mounted to a side surface or a roof of a land vehicle or for mounting to a surface such as a wall of a building or ship. The exercise equipment includes a support structure which is attached to the surface or roof. In some embodiments the support structure is maneuverable by pivoting with respect to the surface or roof, whilst remaining attached thereto, between a stowed condition and an exercising condition.

A vehicle includes a chassis, an implement assembly coupled to the chassis, a stability system coupled to the chassis, and a control system. The stability system includes extendable components that selectively engage a ground surface. The control system is configured to control the stability system to level the vehicle and enable the stability system to lean the vehicle when an operational capability of the implement assembly is at a limit thereof while the vehicle is level to effectively improve the operational capability relative to when the vehicle is level.

A vehicle includes a chassis, an implement assembly coupled to the chassis, a stability system coupled to the chassis, and a control system. The stability system includes extendable components that selectively engage a ground surface. The control system is configured to control the stability system to level the vehicle and enable the stability system to lean the vehicle when an operational capability of the implement assembly is at a limit thereof while the vehicle is level to effectively improve the operational capability relative to when the vehicle is level.

The present disclosure discloses a single-sided movable battery swap station. Wheels are mounted on a chassis; an equipment compartment is fixed above the chassis and is provided with batteries therein; and a sliding part is slidably connected to the equipment compartment, a first speed reducer is fixed with the sliding part and an output shaft thereof is sleeved and fixedly provided with a gear engaged with a rack in the equipment compartment, a first telescopic cylinder is respectively fixed with the sliding part and a second speed reducer of which an output shaft is fixed with a clamping part via a transverse telescopic part, and the clamping part is detachably connected to the batteries.

The present disclosure discloses a single-sided movable battery swap station. Wheels are mounted on a chassis; an equipment compartment is fixed above the chassis and is provided with batteries therein; and a sliding part is slidably connected to the equipment compartment, a first speed reducer is fixed with the sliding part and an output shaft thereof is sleeved and fixedly provided with a gear engaged with a rack in the equipment compartment, a first telescopic cylinder is respectively fixed with the sliding part and a second speed reducer of which an output shaft is fixed with a clamping part via a transverse telescopic part, and the clamping part is detachably connected to the batteries.

A crop harvesting system for reducing compaction includes a dump mule and a trailer. The dump mule is an autonomous vehicle configured to automatically hook and drop the trailer. The mule includes one or more wheels and a conveyor system configured to transport crops from the trailer into an auger for loading. The trailer includes a set of automatic landing gear, one or more hoppers, an automatic tarp system, and two or more retractable wheels. In an example use case, the mule commands the trailer to raise the landing gear as the mule positions underneath the trailer. In one embodiment, once the trailer is properly positioned on the mule, the mule commands the trailer to raise the wheels. At this stage, the mule bears the full weight of the trailer. From here, the mule transports the trailer to a crop storage system to empty the trailer via the auger.

A crop harvesting system for reducing compaction includes a dump mule and a trailer. The dump mule is an autonomous vehicle configured to automatically hook and drop the trailer. The mule includes one or more wheels and a conveyor system configured to transport crops from the trailer into an auger for loading. The trailer includes a set of automatic landing gear, one or more hoppers, an automatic tarp system, and two or more retractable wheels. In an example use case, the mule commands the trailer to raise the landing gear as the mule positions underneath the trailer. In one embodiment, once the trailer is properly positioned on the mule, the mule commands the trailer to raise the wheels. At this stage, the mule bears the full weight of the trailer. From here, the mule transports the trailer to a crop storage system to empty the trailer via the auger.

A transportable fold-out at least partial enclosure includes in one aspect of the invention a stationary platform having a major surface defining a stationary plane, a plurality of side edges, a front edge and a back edge. A primary platform has a major surface defining a primary plane, an inside edge, an outside edge, a front edge, a back edge, the inside edge being joined to the stationary platform, the primary platform having a folded position in which the primary plane and stationary plane are oblique or orthogonal, and the primary platform having an extended position where the primary platform is unfolded from the stationary platform. An end wall assembly has at least two segments, each segment having a major surface defining a segment plane, side edges, a top edge and a bottom edge, the side edges of the segments being joined to each other, the bottom edges of each segment being joined to one of the stationary platform and the primary platform. The end wall assembly has an extended position in which the segment planes are at an angle to form a wall to both the stationary plane and the primary plane, and the end wall assembly having a folded position. At least one actuating mechanism is joined to at least one of the segments and the stationary platform or the primary platform to which said at least one of the segments is joined, said at least one actuating mechanism configured to provide a force to urge said at least one of the segments to the extended position.