A lifting platform with two lifting devices distanced from one another and oriented to a common center axis of the lifting platform, with a working space for lifting/lowering vehicles therebetween. Each lifting device includes a vertically movable carrier. Each carrier receives at least two support arms, respectively pivotably-mounted about a pivot-axis on the carrier, the arms being orientable between a starting position parallel to the center axis to a use position in the working space. Each carrier longitudinal axis is parallel to the center axis, and a straight connecting line extends between the at least two pivot axes of each carrier to be oriented in an acute angle to the carrier longitudinal axis, such that two of the opposite pivot axes arranged to the center axis in a mirror-inverted manner have a greater distance to the center axis than the other at least two pivot axes of the carriers.

A pallet jack includes a base and a pair of tines extending from the base. The pair of tines including a first tine and a second tine. A load wheel supports an outer end of each of the pair of tines. Each load wheel is configured to move toward and away from the respective tine to raise the tine off a floor on which the load wheel is supported. The first tine including a support surface configured to selectively be a lowermost surface of the tine to facilitate lateral displacement of the first tine.

An apparatus for lifting a vehicle top is disclosed. The apparatus may include a base frame including two or more legs and one or more support structures couplable to the one or more legs at a selected angle. The apparatus may include a body frame including a main support and a lifting arm bracket couplable to the main support. The apparatus may include a lifting arm including a lifting platform couplable to a lifting support and one or more stabilizing linkages couplable to the lifting arm bracket, the lifting arm, and the lifting support. The lifting platform may engage an underside of a vehicle top and maintain an orientation substantially parallel to a ground surface as the lifting arm rotates about an axis through the lifting arm bracket.

A pallet jack includes a base and a pair of tines extending from the base. The pair of tines including a first tine and a second tine. A load wheel supports an outer end of each of the pair of tines. Each load wheel is configured to move toward and away from the respective tine to raise the tine off a floor on which the load wheel is supported. The first tine including a support surface configured to selectively be a lowermost surface of the tine to facilitate lateral displacement of the first tine.

A pallet jack includes a base and a pair of tines extending from the base. The pair of tines including a first tine and a second tine. A load wheel supports an outer end of each of the pair of tines. Each load wheel is configured to move toward and away from the respective tine to raise the tine off a floor on which the load wheel is supported. The first tine including a support surface configured to selectively be a lowermost surface of the tine to facilitate lateral displacement of the first tine.

An extendable lift assembly, comprising a sliding rail assembly, including a plate and a knuckle arm pivotably connected to the plate, and a first platform pivotably connected to the knuckle arm.

A personal lift mechanism and method are disclosed. The personal lift mechanism comprises: a lift having a base structure which pivotally retains a pair of struts which are pivotally coupled with a lift platform; an actuator coupled with at least one of the pair of struts; and a damper coupled with the actuator and operable to dissipate kinetic energy transferred between the lift platform and the actuator. In this way, less mechanically-robust components are required for the lift mechanism, damage to those components and the actuator is less likely, and any load on the lift platform and/or base structure will experience reduced shock due to the energy being instead dissipated within the damper.

A pallet jack includes a base and a pair of tines extending from the base. The pair of tines including a first tine and a second tine. A load wheel supports an outer end of each of the pair of tines. Each load wheel is configured to move toward and away from the respective tine to raise the tine off a floor on which the load wheel is supported. The first tine including a support surface configured to selectively be a lowermost surface of the tine to facilitate lateral displacement of the first tine.

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.

The invention relates to a lifting platform for lifting vehicles, with two base assembly halves (14) with in each case one lifting device (24) arranged on the base assembly half (14), which includes a load arm (25) and a guiding arm (27), which arms, by means of at least one drive, are pivotably transferable out of a starting position arranged on the floor into an operating position (32), and which comprises a carrier (31) in in each case one end region of the lifting device (24), which carrier is mounted pivotably to the load arm (25) via a pivot bolt (54) and is mounted pivotably to the guiding arm (27) via a bearing bolt (63), and each carrier (31) receives at least one support arm (34) arranged pivotably thereon, so that the support arms (34) opposite one another are pivotable in a working space (50) formed at least between the lifting devices (24), wherein an angle of inclination is adjustable between the at least one support arm (34) and the lifting device (24).