Components and systems for a flexible tensioning member for construction equipment. A tensioning member is comprised of a fiber having a specific tensile strength greater than 1,000 kilonewton meters per kilogram. The tensioning member connects two components and has an attachment allowing the tensioning member to flex relative to a component. The attachment may provide a system for connecting multiple tensioning members.

A bracket support system to connect a hoist to a connector rod and at least one hoist connector of a tractor, the bracket support system including an upper mask bracket removably disposed on a mounting mask to connect to the connector rod, at least one lower bracket removably disposed on a rear of the hoist, a stiffener bracket disposed on at least a portion of the hoist to prevent damage to the mounting mask in response to lifting at least one object on the hoist, and a support shaft disposed within at least a portion of the rear of the hoist.

A bracket support system to connect a hoist to a connector rod and at least one hoist connector of a tractor, the bracket support system including an upper mask bracket removably disposed on a mounting mask to connect to the connector rod, at least one lower bracket removably disposed on a rear of the hoist, a stiffener bracket disposed on at least a portion of the hoist to prevent damage to the mounting mask in response to lifting at least one object on the hoist, and a support shaft disposed within at least a portion of the rear of the hoist.

A method for transporting a workpiece from an initial work cell to a subsequent work cell in a manufacturing environment having a plurality of work cells, the workpiece is supported by a support beam. The method includes monitoring the initial work cell for presence of a ready-to-move condition and monitoring the subsequent work cell for presence of a ready-to-receive condition. When both the ready-to-move condition and the ready-to-receive condition are present, the method includes interfacing the support beam with a gantry and, after the interfacing, moving the support beam with the gantry from the initial work cell to the subsequent work cell.

A method for transporting a workpiece from an initial work cell to a subsequent work cell in a manufacturing environment having a plurality of work cells, the workpiece is supported by a support beam. The method includes monitoring the initial work cell for presence of a ready-to-move condition and monitoring the subsequent work cell for presence of a ready-to-receive condition. When both the ready-to-move condition and the ready-to-receive condition are present, the method includes interfacing the support beam with a gantry and, after the interfacing, moving the support beam with the gantry from the initial work cell to the subsequent work cell.

A vehicle may be configured with an adjustable horizontal planar platform for receiving a load, such as a boom arm of a crane and transporting the load to a new location. In some cases, the platform is configured to swivel and tilt in order to maintain an alignment with a second vehicle during transport of a load.

According to embodiments, a method for operating a lifting device monitoring with a control unit, monitoring current supplied to the lift actuator when the lift actuator is actuated; discontinuing the current supplied to the lift actuator when the current exceeds a current threshold value; determining an accumulated number of overload stops based on the current supplied to the lift actuator; determining at least one operating characteristic of the lifting device and an operating time of the lifting device as the lifting device is actuated; determining an accumulated load-time parameter for the lifting device based on the at least one operating characteristic and the operating time; and uploading, with a transceiver, at least one of the accumulated number of overload stops and the accumulated load-time parameter to at least one of the computer, the network, and the data storage device.

According to embodiments, a method for operating a lifting device monitoring with a control unit, monitoring current supplied to the lift actuator when the lift actuator is actuated; discontinuing the current supplied to the lift actuator when the current exceeds a current threshold value; determining an accumulated number of overload stops based on the current supplied to the lift actuator; determining at least one operating characteristic of the lifting device and an operating time of the lifting device as the lifting device is actuated; determining an accumulated load-time parameter for the lifting device based on the at least one operating characteristic and the operating time; and uploading, with a transceiver, at least one of the accumulated number of overload stops and the accumulated load-time parameter to at least one of the computer, the network, and the data storage device.

A container scanning system includes: a camera/sensor unit movably mounted on a container handling crane, having a camera and/or sensor for scanning the exterior surface of a container; a control unit configured to control movement of the camera/sensor unit; and a rail mounted on a support beam of the container handling crane, the camera/sensor unit being movably mounted on the rail. The container scanning system includes a washing station mounted on the support beam or the rail at a predetermined location. In a washing mode, the control unit moves the camera/sensor unit to the predetermined location and controls the washing station to wash at least a surface of the camera and/or sensor.

A container scanning system includes: a camera/sensor unit movably mounted on a container handling crane, having a camera and/or sensor for scanning the exterior surface of a container; a control unit configured to control movement of the camera/sensor unit; and a rail mounted on a support beam of the container handling crane, the camera/sensor unit being movably mounted on the rail. The container scanning system includes a washing station mounted on the support beam or the rail at a predetermined location. In a washing mode, the control unit moves the camera/sensor unit to the predetermined location and controls the washing station to wash at least a surface of the camera and/or sensor.