Lift trucks can have an operator compartment designed with an ergonomically improved cab door having a door frame, a set of glass sheets, upper and lower hinges, a handle, a door catch assembly, a door support member, and one or more operator handlebars. The door support member and operator handlebars can be sized and/or positioned to provide structural strength to the door. The cab door can have an unobstructed door design to facilitate maximum operator visibility. The catch assembly can maintain the door in an open position and the operator can readily close the door when desired. In one embodiment, the door includes a vertical operator handlebar and a horizontal operator handlebar that facilitate easy entry into and exit from the operator compartment without unduly obscuring operator visibility through the door.

A work assist system is provided for an industrial vehicle. The work assist system includes a support structure having a portion including a predefined cross-sectional shape. The work assist system further includes a clamp member having coupling structure for removably coupling the clamp member to the support structure portion, and mounting structure that removably supports a work assist item that is usable by an operator located in an operator compartment of the vehicle.

An operator control system is provided for a materials handling vehicle, the materials handling vehicle including an operator station having a support structure. The operator control system includes an operator control assembly having a housing mounted to or integral with the support structure, and at least one control element for controlling a function of the vehicle. One or both of the housing and/or the control element is positionable in a plurality of positions.

An all-terrain telehandler includes a pair of front tracks. Each front track may be coupled to a front bracket by an arm that telescopes relative to the front bracket. A superstructure may be coupled to the front bracket where the superstructure supports a first telescoping boom. A pair of rear tracks may be coupled to a rear body. The rear body may be coupled to the front superstructure. A maximum extension position for the first telescoping boom and a length generally corresponding to a length of the superstructure may define a ratio of approximately 4.00:1.00, whereby the all-terrain telehandler is substantially stable when moving loads supported by the first telescoping boom. A second telescoping boom may support a cab. With the second boom, the cab may be lowered beneath a top section of one of the front tracks for facilitating an operator loading sequence.

Lift trucks can have an operator compartment designed with an ergonomically improved cab door having a door frame, a set of glass sheets, upper and lower hinges, a handle, a door catch assembly, a door support member, and one or more operator handlebars. The door support member and operator handlebars can be sized and/or positioned to provide structural strength to the door. The cab door can have an unobstructed door design to facilitate maximum operator visibility. The catch assembly can maintain the door in an open position and the operator can readily close the door when desired. In one embodiment, the door includes a vertical operator handlebar and a horizontal operator handlebar that facilitate easy entry into and exit from the operator compartment without unduly obscuring operator visibility through the door.

A lift device includes a base assembly, a turntable assembly, and a controller. The base assembly includes multiple base assembly batteries. The turntable assembly is rotatably coupled with the base assembly through a slip ring transmission. The turntable assembly includes multiple turntable assembly batteries. The controller is configured to operate the base assembly batteries to discharge electrical energy to the turntable batteries through the slip ring transmission. The slip ring transmission is configured to both (1) drive the turntable assembly to rotate relative to the base assembly and (2) to electrically and communicably couple electrical components of the base assembly with electrical components of the turntable assembly.

A lift device includes a lift apparatus, a base assembly, and a controller. The lift apparatus is configured to raise and lower a removable robotic implement assembly. The base assembly is configured to support the lift apparatus and a primary mover. The primary mover is configured to provide rotational motion to one or more wheels supported by the base to move the lift apparatus. The controller is in communication with the implement assembly and the lift apparatus. The controller is configured to adjust a position of the robotic implement assembly and the lift apparatus in response to receiving instructions to perform a task.

A lift device includes a lift apparatus and a base assembly. The lift apparatus is configured to raise and lower an implement assembly. The base assembly is configured to support the lift apparatus. The base assembly includes a deployable operator station transitionable between a deployed position and a stowed position. In the deployed position, the deployable operator station is configured to provide a seating and control arrangement for an operator. In the stowed position, the deployable operator station is substantially sealed from an external environment to limit access to the deployable operator station.

A driver cab for an industrial truck comprises a driver canopy supported by four pillars, wherein two of the four pillars are configured as entry way pillars and two of the four pillars are configured as end wall pillars. A side wall extends between each of the entry way pillars and the end wall pillars, an end wall extends between the end wall pillars, and a boarding area extends between the entry way pillars. Each of the end wall pillars comprises a tubular profile and at least one of the entry way pillars comprises a corner profile which comprises two limbs arranged at an angle with respect to one another.

Vehicles, systems and methods for providing articulating two section vehicles with tracks, and a front body attached superstructure with telescopic forklift, for use on all terrain condition applications. The vehicle can include front and rear track assemblies that can tilt up and down while traveling over different ground surfaces. Each of the track assemblies can have rotatable articulating/oscillating track wheels which can traverse different contoured surfaces. The right and left tracks on both the front and rear track assemblies can separately extend outward and inward from underneath the vehicles to add stability to the vehicles. The cab can be raised and lowered to add greater visibility for the operator. Hydraulics can be used for raising and lowering the extendable boom and operator cab, as well as controlling the body articulating hinge, the articulating tracks and the tilting controls for the front track assembly.