A wheelchair lift for a passenger vehicle such as a passenger bus, a motorcoach, or a class A motorhome. The wheelchair lift includes a housing having sidewalls and a plurality if bearings and a carriage supporting one or more of electrical, mechanical, and hydraulic components. A lift assembly is coupled to the carriage and includes a first rail and a second rail supported by the plurality of bearings. A first scissor leg assembly is coupled to the first rail and a second scissor leg assembly is coupled to the second rail, wherein each of the first scissor leg assembly and the second scissor leg assembly move between an expanded and a collapsed condition. A platform is coupled to the first the second scissor leg assemblies, wherein movement of the first scissor leg assembly and second scissor leg assembly between the expanded and collapsed condition adjusts a position of the platform.

The present invention relates to a vehicle elevator for lifting a vehicle and a method for lifting a vehicle. The vehicle elevator includes a carrier configured for lifting the vehicle. The carrier includes a first and a second carrier part each extending in a longitudinal direction and each having a longitudinal central axis and a lifting mechanism configured for raising and lowering the carrier. The lifting mechanism includes a lifting drive with at least one lifting cylinder configured for raising the first and/or second carrier part. The at least one lifting cylinder is mounted at a mounting distance from the longitudinal central axis of the respective carrier part.

The present invention relates to a vehicle elevator for lifting a vehicle and a method for lifting a vehicle. The vehicle elevator includes a carrier configured for lifting the vehicle. The carrier includes a first and a second carrier part each extending in a longitudinal direction and each having a longitudinal central axis and a lifting mechanism configured for raising and lowering the carrier. The lifting mechanism includes a lifting drive with at least one lifting cylinder configured for raising the first and/or second carrier part. The at least one lifting cylinder is mounted at a mounting distance from the longitudinal central axis of the respective carrier part.

A lift and tilt mechanism (1) is disclosed, comprising a base frame (10) and an upper lever arm (2) rotatably connected to each other by a lower lever arm (3) and a control rod (4), wherein a rotating arm (6) is rotatably connected to an upper lever arm (2), a torque arm (9) is rotatably connected to a lower lever arm (3), and the rotating arm (6) and the torque arm (9) are rotatably connected to each other, and wherein a power source (8) is rotatably connected to the upper lever arm (2) and directly or indirectly to the connection joint (19) for the rotating arm (6) and the torque arm (9), in such a way that an extension of the length of the power source (8) causes its suspension point (11) on the upper lever arm (2) to move in an substantially vertically direction, whereby the upper lever arm (2) is tilted towards a more upright position. Furthermore, a tilt system (21) comprising such a mechanism (1) is disclosed.

A lift and tilt mechanism (1) is disclosed, comprising a base frame (10) and an upper lever arm (2) rotatably connected to each other by a lower lever arm (3) and a control rod (4), wherein a rotating arm (6) is rotatably connected to an upper lever arm (2), a torque arm (9) is rotatably connected to a lower lever arm (3), and the rotating arm (6) and the torque arm (9) are rotatably connected to each other, and wherein a power source (8) is rotatably connected to the upper lever arm (2) and directly or indirectly to the connection joint (19) for the rotating arm (6) and the torque arm (9), in such a way that an extension of the length of the power source (8) causes its suspension point (11) on the upper lever arm (2) to move in an substantially vertically direction, whereby the upper lever arm (2) is tilted towards a more upright position. Furthermore, a tilt system (21) comprising such a mechanism (1) is disclosed.

A system includes a platform to support a vehicle on a first side of the platform and a passive motion device arranged on a second side of the platform, opposite the first side, to move upon actuation. A mechanical actuator actuates the passive motion device based on movement of one or more wheels of the vehicle to change a position of the vehicle. The position of the vehicle relative to the platform is unchanged and the passive motion device is actuated by only the movement of the one or more wheels of the vehicle to change the position of the vehicle.

An integrated lift and dolly is presented which includes a lift mechanism for elevating a vehicle while simultaneously positioning wheels underneath to enable moving the vehicle as the vehicle's wheels are elevated off the ground. The lift assembly can further elevate the supporting frame to remove weight from the wheels of the lift assembly to allow long term storage without relying on the wheels to support the weight of the vehicle. This integrated lift and dolly lifts and supports the vehicle for storage and also facilitates easier service, inspection and cleaning.

An integrated lift and dolly is presented which includes a lift mechanism for elevating a vehicle while simultaneously positioning wheels underneath to enable moving the vehicle as the vehicle's wheels are elevated off the ground. The lift assembly can further elevate the supporting frame to remove weight from the wheels of the lift assembly to allow long term storage without relying on the wheels to support the weight of the vehicle. This integrated lift and dolly lifts and supports the vehicle for storage and also facilitates easier service, inspection and cleaning.

A side saddle slingshot drilling rig includes a left and right substructure including a left and right lower box. The side saddle slingshot drilling rig includes a drill rig floor mechanically and pivotably coupled to the left and right lower boxes such that it is pivotably movable from a lowered position to a raised position. The drill rig floor includes a V-door. The V-door is positioned on the V-door side of the drill rig floor. The V-door side of the drill rig floor is oriented to face the right substructure. A mast coupled to the drill rig floor may include an open side, defining a mast V-door side. The mast V-door side may be oriented to face the right substructure. The mast may pivot into its raised position or may be a bootstrap mast.

A side saddle slingshot drilling rig includes a left and right substructure including a left and right lower box. The side saddle slingshot drilling rig includes a drill rig floor mechanically and pivotably coupled to the left and right lower boxes such that it is pivotably movable from a lowered position to a raised position. The drill rig floor includes a V-door. The V-door is positioned on the V-door side of the drill rig floor. The V-door side of the drill rig floor is oriented to face the right substructure. A mast coupled to the drill rig floor may include an open side, defining a mast V-door side. The mast V-door side may be oriented to face the right substructure. The mast may pivot into its raised position or may be a bootstrap mast.