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.

The present invention relates to a lifting column, lifting system and method for lifting a vehicle. The lifting column according to the invention includes a frame with a carrier configured for carrying the vehicle; a drive for driving the carrier in at least one of the ascent or descent of the carrier; and a modular power system configured for providing power to the drive and adapted to comprise a variable number of energy storage systems.

The present invention relates to a lifting column, lifting system and method for lifting a vehicle. The lifting column according to the invention includes a frame with a carrier configured for carrying the vehicle; a drive for driving the carrier in at least one of the ascent or descent of the carrier; and a modular power system configured for providing power to the drive and adapted to comprise a variable number of energy storage systems.

An equipment moving device for moving equipment in and out of a container includes a base, a cover rotationally coupled to the base, a driving member mounted to an outer side of the cover, a transmission assembly mounted within the base and the cover and coupled to the driving member, and a pushing member. One end of the pushing member is coupled to the transmission assembly, and another end of the pushing member is mounted to the equipment. The driving member causes the transmission assembly to drive the pushing member to move the equipment.

A height-adjustable support for a vehicle having an outer support pipe, an inner support pipe displaceably supported in the outer support pipe and deployable out of and retractable into the outer support pipe by a drive spindle, a gear unit arranged in the outer support pipe and a drive unit for driving the gear unit for moving the inner support pipe relative to the outer support pipe, wherein the drive unit has a motor arranged outside the cross section of the outer support pipe and a transmission unit, wherein a rotation axis defined by a motor shaft extends outside the outer support pipe and the transmission unit is configured to transmit a torque from the motor shaft to the gear unit, and wherein the transmission unit has a housing and a drive pinion protruding out of the housing and engaging the gear unit.

A height-adjustable support for a vehicle having an outer support pipe, an inner support pipe displaceably supported in the outer support pipe and deployable out of and retractable into the outer support pipe by a drive spindle, a gear unit arranged in the outer support pipe and a drive unit for driving the gear unit for moving the inner support pipe relative to the outer support pipe, wherein the drive unit has a motor arranged outside the cross section of the outer support pipe and a transmission unit, wherein a rotation axis defined by a motor shaft extends outside the outer support pipe and the transmission unit is configured to transmit a torque from the motor shaft to the gear unit, and wherein the transmission unit has a housing and a drive pinion protruding out of the housing and engaging the gear unit.

A telescopic lifting unit with a first segment, a second segment, and a third segment. The first and second segments may be displaced relative to one another, and the second and third segments may be displaced relative to one another. The first and second segments may be moved relative to one another by a motor unit, and the second and third segments may be moved relative to one another by a cable hoist.

A jack, comprising: a top plate adapted to contact a load; a base plate positioned below the top plate; at least one actuator coupled perpendicularly between the base plate and the top plate; wherein the at least one actuator is operable to move the top plate between a lowered position and a raised position to thereby lower and raise the load; and, at least one locking assembly adapted to lock the top plate in the raised position.

A jack, comprising: a top plate adapted to contact a load; a base plate positioned below the top plate; at least one actuator coupled perpendicularly between the base plate and the top plate; wherein the at least one actuator is operable to move the top plate between a lowered position and a raised position to thereby lower and raise the load; and, at least one locking assembly adapted to lock the top plate in the raised position.

Disclosed is a lifting robot that includes a housing and a tray. The housing includes a side wall formed by a plurality of enclosing side panels, a projection of the side wall on a horizontal plane is a regular polygon, and at least one of the plurality of side panels is provided with a connection device for connecting to a side panel of another lifting robot. Further disclosed is a robot system including a plurality of the lifting robot described above.