Described is a stabiliser (1) for a telehandler, comprising a supporting frame (11) designed to be mounted on the carriage (2) of a telehandler (1) and two telescopic arms (12, 13) fixed to the frame (11), each of which includes a first hollow segment (121, 131) directly connected to the frame (11) and a second hollow segment (122, 132) inserted in a slidable fashion in the first segment (121, 131).

A pull-out linear actuator (18) of the electric type is positioned inside each arm (12, 13) and has one end fixed to the first segment (121, 131) and one end fixed to the second segment (122, 132).

A vehicle includes a hydraulic actuator configured to move an implement relative to the chassis, a hydraulic motor configured to propel the vehicle, a drive pump fluidly coupled to the hydraulic motor, a charge pump configured to provide a flow of pressurized fluid, and a valve assembly fluidly coupled to the charge pump. The valve assembly is configured to (a) direct a first portion of the flow of pressurized fluid to the drive pump, the first portion of the flow having a first flow rate and (b) direct a second portion of the flow of pressurized fluid to the hydraulic actuator, the second portion of the flow having a second flow rate. The valve assembly includes a valve element that is configured to vary at least one of the first flow rate or the second flow rate based on a pressure at a position upstream of the valve element.

A working machine including a machine body having an operator cab, a ground engaging propulsion structure to permit movement of the machine over the ground, a load handling apparatus coupled to the machine body and moveable by a movement actuator with respect to the machine body, and an electric energy storage unit for providing power to the working machine. The working machine includes a longitudinal axis, wherein the operator cab is positioned towards a first side of the working machine with respect to the longitudinal axis, and the electric energy storage unit is positioned towards a second side of the working machine with respect to the longitudinal axis, wherein the first and second sides are located opposite each other.

A materials handling vehicle comprises an operator compartment, a compartment tower, a multi-field scanning tool, and mechanisms that facilitate movement along a travel plane in a warehouse. The tool establishes a scan field, and, within scan field bounds, an occupancy detection field and an obstacle detection field. Tool scanning hardware is configured to generate the scan field from a point of origin that is elevated relative to the operator compartment and to expand the scan field such that it intersects the operator compartment and extends laterally beyond lateral edges of the operator compartment such that the occupancy detection field falls within the operator compartment, the obstacle detection field falls outside of the operator compartment, and the multi-field scanning tool is configured to indicate the presence of an occupant in the occupancy detection field and obstacles in the obstacle detection field.

A mobile lift device includes a body supported on a driven wheel and a lift supported by the body and configured for vertical movement relative to the body. The lift is configured to support a load. An electric drive motor is configured to cause rotation of the driven wheel and a drive motor brake is coupled to the motor. An electromechanical linear actuator is configured to raise and lower the lift and includes an electric actuator motor. A controller is configured to determine the weight of the load. In one embodiment, the controller determines the weight by determining a level of current required by the electric actuator motor. The controller controls at least one of the electric drive motor and the drive motor brake responsive to the weight of the load.

An operating method for an industrial truck. The industrial truck includes a hydraulic pump which provides a hydraulic output, an output setpoint value generator which controls the hydraulic output to influence a traveling speed, two drive wheels which respectively comprise a hydraulic drive unit driven via the hydraulic pump, and a hydraulic device. The hydraulic device is switchable between a first switching state, where the hydraulic drive units are supplied with hydraulic outputs which are different, and a second switching state, where the hydraulic drive units are supplied with hydraulic outputs that have a particular ratio with respect to each other. The operating method includes detecting at least one operating parameter of the output setpoint value generator, comparing the at least one operating parameter with a predefined threshold value, and moving the hydraulic device from the first switching state to the second switching state based on the comparison.

Disclosed is an industrial vehicle, which includes a handle (32), a main vehicle frame (2), and a drive wheel assembly (33), a vertical column (1) being mounted on the main vehicle frame (2), the vertical column (1) comprising an upper top plate (11) and a back plate (13) connected to the upper top plate (11); the industrial vehicle also includes a controller (52), a pump station (53), and a jacking device (51) that abuts against the upper top plate (11); in the horizontal direction, the jacking device (51) is farther from the handle (32) than the drive wheel assembly (33). The foregoing industrial vehicle has high stability and stable lifting, optimizes the positional relationships of each component of the vehicle, and has a shorter vehicle body, such that a smaller turning radius is thus obtained.

A materials handling vehicle comprises an operator compartment, a compartment tower, a multi-field scanning tool, and mechanisms that facilitate movement along a travel plane in a warehouse. The tool establishes a scan field, and, within scan field bounds, an occupancy detection field and an obstacle detection field. Tool scanning hardware is configured to generate the scan field from a point of origin that is elevated relative to the operator compartment and to expand the scan field such that it intersects the operator compartment and extends laterally beyond lateral edges of the operator compartment such that the occupancy detection field falls within the operator compartment, the obstacle detection field falls outside of the operator compartment, and the multi-field scanning tool is configured to indicate the presence of an occupant in the occupancy detection field and obstacles in the obstacle detection field.

A vehicle includes an electric machine, a detachable lift, and a controller. The detachable lift has a lift battery that is electrically connected to the electric machine. The controller is programmed to, responsive to the vehicle traveling on a predetermined route, transfer power between the electric machine and lift battery such that a lift battery charge is within a desired range at an end of the route.

The various embodiments disclosed herein relate to an interchangeable hitch mechanism that is coupleable to a pusher device. Other implementations relate to a pusher device having such an interchangeable hitch mechanism that can be removably coupleable to a manual jack pallet.