A lift machine includes a base having a first end and a second end, a first assembly, and a second assembly. The first end has first and second pivot points defining a first lateral axis. The second end has third and fourth pivot points defining a second lateral axis. The first assembly is pivotably coupled to the first and second pivot points. The first assembly extends away from the base in a first direction such that first and second tractive elements are longitudinally offset from the first lateral axis and spaced from the first end of the base. The second assembly is pivotably coupled to the third and fourth pivot points. The second assembly extends away from the base in a second direction such that third and fourth tractive elements are longitudinally offset from the second lateral axis and spaced from the second end of the base.

A vehicular mobile storage cart, for a car having a hitch (21, 22), the cart comprising: a hitch gripping mechanism (30), connectable to the car hitch (21, 22); a lifting mechanism (40), connectable to the hitch gripping mechanism (30); and a wheel cart (10), connectable to the lifting mechanism; wherein the lifting mechanism being adapted to diminish its dimensions in a folded state thereof to allow opening a back door of a vehicle thereof when being folded.

A moving system comprising a master controller for monitoring and controlling a master operation comprising one or more individual movers such that each mover arrives at predefined end point at selected times. Each mover includes a mover control system that interacts with the master controller and has a predefined virtual vector path with one or more defined end points. The predefined virtual vector path comprises a plurality of discrete points, wherein each discrete point has a vector axis for use by the master controller and the mover control system to direct the mover to move such that it arrives at each defined end point at a selected time. In operation, the master controller functions to modify the predefined virtual path and sends commands to the mover control system in response to changes in the master operations.

A material processing system includes: an offsetter configured to receive a stack of material and including a lifting bar configured to lift a portion of the stack of material; and a processing station operably connected to the offsetter. A method of processing a material includes: loading a stack of material on an offsetter, the stack of material including a first portion and a second portion, the first portion positioned above the second portion and separated from the second portion by at least one cross tie, the stack of material including a first end and a second end distal from the first end; lifting the second portion away from the first portion by a lifting bar of the offsetter pushing upward on the second end; and removing the cross tie.

A material processing system includes: an offsetter configured to receive a stack of material and including a lifting bar configured to lift a portion of the stack of material; and a processing station operably connected to the offsetter. A method of processing a material includes: loading a stack of material on an offsetter, the stack of material including a first portion and a second portion, the first portion positioned above the second portion and separated from the second portion by at least one cross tie, the stack of material including a first end and a second end distal from the first end; lifting the second portion away from the first portion by a lifting bar of the offsetter pushing upward on the second end; and removing the cross tie.

The invention relates to apparatus for use in the movement of goods and includes a transportable goods storage area or trailer. The trailer can be moved to a position adjacent a platform of lifting apparatus to allow goods to be moved to and from the trailer. A bridging assembly including one or more bridge portions is provided to form a bridge between the plat form and floor of the trailer. In one embodiment weight detection means are provided to allow the weight of the transportable goods storage area or trailer, and the goods therein, to be detected and compared to predetermined weight limits.

A lift device includes a chassis, a boom pivotally coupled to the chassis, a first leveling assembly pivotally coupled to a first end of the chassis, a second leveling assembly pivotally coupled to an opposing second end of the chassis, and a control system. The first leveling assembly includes a first pair of actuators positioned to facilitate a first pitch adjustment and a first roll adjustment of the first end of the chassis. The second leveling assembly includes a second pair of actuators positioned to facilitate a second pitch adjustment and a second roll adjustment of the opposing second end of the chassis. The control system is configured to (i) actively control the first pair of actuators and the second pair of actuators during a first mode of operation, and (ii) actively control the first pair of actuators and facilitate passive control of the second pair of actuators during a second mode of operation.

A lifter system based traversal mechanism for a robot includes detection of the robot at a predetermined distance from a movable platform. The movable platform is part of the lifter system. Teeth orientation of cog wheels of the robot are changed to match teeth orientation of teeth of a fixed teeth structure of the movable platform. The movable platform is moved in to a predetermined proximity of the robot so that teeth are engaged. The movable platform takes the robot from a first position to a second position. On reaching the second position the robot is disengaged from the movable platform.

A retention mechanism for retaining an agricultural machine in engagement with a fork assembly. The mechanism may be provided on the fork assembly, agricultural machine or split between them. The retention mechanism may be actuated by a foot associated with either the fork assembly or the agricultural machine. The retention mechanism may employ pivoting latches or a clamping mechanism that clamps upon the forks or tines.

A retention mechanism for retaining an agricultural machine in engagement with a fork assembly. The mechanism may be provided on the fork assembly, agricultural machine or split between them. The retention mechanism may be actuated by a foot associated with either the fork assembly or the agricultural machine. The retention mechanism may employ pivoting latches or a clamping mechanism that clamps upon the forks or tines.