A scissor jack kit to elevate each vehicle quadrant for maintenance including one scissor jack for each wheel. Each scissor jack includes a parallelepiped bottom base, a lower support base atop thereof, and mirror image first and second arms, each having top and bottom ends hinged at a central elbow. Each of proximal and distal ends of the bottom and top ends, respectively, pivotably couples to the respective lower and upper support base. An aperture in the central elbow receives a rotatable leadscrew therethrough having a socket with a hole which receives a hook of a jack speed crank handle to rotate the leadscrew to adjust the scissor jack height. Mount holes in the upper support base provide for chassis mounting. A groove in an axle mount body on the upper support base supports the axle proximal the respective wheel and has a cushioned lining thereon.

A system for retrofitting a trailer having a crank jack with a jack housing and a drop leg includes a hydraulic cylinder including a main cylinder and a ram piston extending outwardly therefrom as the main cylinder is filled with pressurized fluid, a first mounting ear on the hydraulic cylinder and a second mounting ear on the hydraulic cylinder, the first mounting ear opposite the second mounting ear, a cylinder port positioned orthogonally to the first mounting ear and the second mounting ear and positioned between the first mounting ear and the second mounting ear, and a conversion foot sized and shaped to fit within the jack housing and adapted to support the hydraulic cylinder.

Aspects herein relate to using a three or more points to control the angular orientation of a structure via three or more jacks, and then stabilizing the structure via one or more stabilizers. In some aspects, the foregoing structure may include, for example, a motor home, recreational vehicle, travel trailer or fifth wheel trailer.

A device and method used to raise or lower the landing gear of a semi-trailer. The device is coupled to the landing gear of the semi-trailer and actuates the landing gear according to user selection. The user may select to actuate the landing gear through a motorized gear assembly within the device, by optionally attaching a handle to the landing gear via the device, or by engaging a separate motorized hand tool to the landing gear via the device. To use the handle or the motorized hand tool, the user actuates a shift lever disposed on the device which disengages the related mechanical means for actuating the landing gear. The flexibility for actuating the landing gear allows a user to raise or lower the landing gear according to the surrounding circumstances or in case one of the means for actuating breaks or fails.

The application discloses a Drop Deck Trailer having a pivoting axle system that allows the deck of the trailer to be incrementally lowered to the ground. When coupled to a tow vehicle, the partially lowered deck becomes a ramp to load and unload a vehicle. The unloaded trailer can be backed into a standard garage, uncoupled, and lowered completely to the ground. The UTV or light vehicle can then be front-loaded on the trailer. This capability allows the convenience and cost savings of simultaneously storing a UTV or other light vehicle in the same standard garage space. A unique articulated tongue assembly allows the operator to minimize the footprint of the parked trailer, allowing smaller spaces to be used for storage or simply eliminate a trip hazard. The Drop Deck Trailer is a combination of innovative features that provides convenience and cost savings.

An automatic vehicle jack assembly includes a plurality of scissor jacks that is each mounted to a bottom side of a vehicle. Each of the scissor jacks is positioned adjacent to a respective one of a plurality of wheels on the vehicle for lifting the respective wheel upwardly from a support surface. Conversely, each of the scissor jacks is actuatable into a retracted position thereby facilitating the respective wheel to roll along the support surface. A control panel is positioned within a cab of the vehicle such that the control panel is accessible to a driver of the vehicle. The control panel is in communication with each of the scissor jacks thereby facilitating the control panel to independently or simultaneously actuate each of the scissor jacks between the extended position or the retracted position.

An automatic vehicle jack assembly includes a plurality of scissor jacks that is each mounted to a bottom side of a vehicle. Each of the scissor jacks is positioned adjacent to a respective one of a plurality of wheels on the vehicle for lifting the respective wheel upwardly from a support surface. Conversely, each of the scissor jacks is actuatable into a retracted position thereby facilitating the respective wheel to roll along the support surface. A control panel is positioned within a cab of the vehicle such that the control panel is accessible to a driver of the vehicle. The control panel is in communication with each of the scissor jacks thereby facilitating the control panel to independently or simultaneously actuate each of the scissor jacks between the extended position or the retracted position.

A lifting system for generating a lifting force on a portion of a vehicle includes a vehicle wheel and a force-generating mechanism structured to be received inside a rim cavity of the wheel. The force-generating mechanism is also structured to be operably connected to a frame of a vehicle. A bearing member is operably connected to the force-generating mechanism. The bearing member is structured to transmit a force generated by the force-generating mechanism to a surface in physical contact with the bearing member. The bearing member is also structured for operably connecting the wheel to the force-generating mechanism. Force applied by the force-generating mechanism may be sufficient to lift a portion of the vehicle off of a ground surface, or the force may only be sufficient to apply a parking brake force without lifting the vehicle.

A lifting system for generating a lifting force on a portion of a vehicle includes a vehicle wheel and a force-generating mechanism structured to be received inside a rim cavity of the wheel. The force-generating mechanism is also structured to be operably connected to a frame of a vehicle. A bearing member is operably connected to the force-generating mechanism. The bearing member is structured to transmit a force generated by the force-generating mechanism to a surface in physical contact with the bearing member. The bearing member is also structured for operably connecting the wheel to the force-generating mechanism. Force applied by the force-generating mechanism may be sufficient to lift a portion of the vehicle off of a ground surface, or the force may only be sufficient to apply a parking brake force without lifting the vehicle.

Aspects herein relate to using a three points to control the angular orientation of a structure via three or more jacks, and then stabilizing the structure via one or more stabilizers. In some aspects, the foregoing structure may include, for example, a motor home, recreational vehicle, travel trailer or fifth wheel trailer.