A method and apparatus for moving trailers using a trailer moving apparatus coupled to a forklift is shown and described herein. The method and apparatus for moving trailers uses a trailer moving apparatus engagably coupled to a forklift when lifted off a surface with a plurality of hitches at different heights. The method for moving trailers using a trailer moving apparatus operatively coupled to a forklift tine via a guided channel on a channel member and not requiring an operator to leave the cabin of the forklift during operation.

Apparatuses, systems and methods associated with powered vehicles are disclosed herein. In examples, a system for controlling a vehicle may include sensors and a processor coupled to the sensors. The processor may identify one or more values received from the one or more sensors, wherein the one or more values are associated with one or more conditions of the vehicle and/or the vehicle's environment, and determine, based on the one or more values, a net resultant force vector of one or more forces acting on a center of mass of the vehicle. The processor may further determine a relationship between the net resultant force vector and a stability polygon that is superimposed at a base of the vehicle, and determine whether to limit one or more of a speed, rate of change, and/or travel amount for one or more of the operational systems controlled by the processor based on the relationship between the net resultant force vector and the stability polygon. Other examples may be described and/or claimed.

Systems and methods for towing, hitching, and connecting devices are described. An autonomous guided vehicle includes an automated hitch capable of connecting to a variety of types of containers.

A frame rack system for the transportation, storage and inventory of commodities using intermodal open and closed frame racks configured to be compatible with ISO shipping container conventions. The open framed rack is preloaded and secured for transport or staging by yard personnel from a ground level position. ISO compatible corner pin blocks and forklift pockets allow for flexibility in handling loads at departure and destination. Material handling equipment compatibility allows for materials to be shipped and stored at unimproved sites. Tie-down rings allow for many options in securing loads. The stackability of units provides for an overall working deck height of less than 6 feet. Closed framed racks fit over the open frame racks to allow for multiple decks. Color-coded identifiers and identification codes facilitate storage and inventory. The present invention offers a simple, identifiable, contents-protected, multi-modal logistical solution, incorporating a “One Man One Machine” philosophy.

In accordance with an example embodiment a clamping device comprising a first clamping device frame element coupled with a portion of a work tool coupled with the utility vehicle, a second clamping device frame element pivotally coupled with the first clamping device frame element, where the second clamping device frame element includes a first section and a second section, where the first section and the second section are positioned at an angle of approximately 90 degrees relative to each other, and a first movement actuator that movably couples the first clamping device frame element and the second clamping device frame element.

An automated mobile vehicle (AMV) including a frame forming a pallet bed for a pallet, and having an automated mobile robot bus, separate and distinct from the pallet bed, a drive section coupled to the frame to provide automated vehicle mobility, and a controller operably coupled to the drive section to effect automated vehicle mobility, wherein, the robot bus has a bus interface for docking independent automated mobile robots (AMR) to the frame so that the AMR is carried by the frame, wherein the AMR has independent automated mobility so that undocked from the frame, the AMR is free to roam independent from the AMV, and wherein the AMR is fungible for docking with the frame from a number different AMRs, to effect a predetermined material handling characteristic, and wherein the controller is coupled to the AMR to manage control of the predetermined material handling characteristic with the AMR undocked from the frame and moving as a unit apart from the frame.

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.

A layover bracket system is provided for supporting an industrial vehicle in a horizontal position on a floor surface. The layover bracket system includes a base section removably attached to a first portion of the vehicle at a first location, and an extension section removably attached to a second portion of the vehicle at a second location spaced apart in a first direction from the first location. The first direction is parallel to a vertical axis of the vehicle when positioned in an upright position. The extension section is pivotably coupled to the base section.

A system and method for reconfiguring a factory having equipment at different workstations throughout the factory includes a plurality of mobile transporters configured to engage and transport the equipment to the different workstations throughout the factory. Each mobile transporter includes a transmitter, a receiver, at least one proximity sensor, and an engagement mechanism for engaging the equipment. A factory configuration module includes a 3D model of the factory and a plurality of predetermined factory configurations. A supervisory control module is in communication with the plurality of mobile transporters, the equipment, and the factory configuration module. The plurality of mobile transporters are configured to receive instructions from the supervisory control module to engage and reposition the equipment throughout the factory based on the predetermined factory configurations and dynamic inputs.

The present disclosure provides a material sorting system adapted to engage a material handling vehicle. The material sorting system can include a base including fork pockets adapted to receive a pair of forks from the material handling vehicle and a carousel assembly coupled to the base. The carousel assembly can include a plurality of storage units, and an actuation mechanism configured to move the plurality of storage units relative to the base. The base can also include at least one electrical contact within the base and in electrical communication with the carousel assembly.