A device (6) for inserting goods units (3) into a transport container (8, 81) includes a module (61) for conveying a bundle (1) having a carrier strand (11, 11′) on which a plurality of packaging units (2, 2′, 2″, 2′″) are arranged one behind the other in a row; a module (62) for separating packaging elements (2, 2′, 2″, 2′″) from a supplied bundle (1); and a module (63) for inserting packaging units (2, 2′, 2″, 2′″) separated from the bundle (1) into a transport container (8, 81).

A loading frame includes a base and two walls arranged on opposite sides of the base. The walls are flexible and are arranged to permit movement, preferably sliding, between the wall and the load space's side, the wall being supported on the side. A system and a method for loading articles utilize the loading frame.

A loading frame includes a base and two walls arranged on opposite sides of the base. The walls are flexible and are arranged to permit movement, preferably sliding, between the wall and the load space's side, the wall being supported on the side. A system and a method for loading articles utilize the loading frame.

A container packer system includes a transfer base, which receives a container packer adapted for movement longitudinally between retracted and extended positions with respect to the transfer base. The transfer base includes a power subsystem with a motor or engine driving a hydraulic pump for powering hydraulic piston-and-cylinder units of the system, including a container packer piston-and-cylinder unit for hydraulically extending and retracting the container packer. The container packer generally encloses an interior adapted for receiving bulk material for transfer to a transport container, which can comprise a standard shipping container, a trailer or some other bulk material receptacle. The container packer includes a push blade assembly longitudinally movably mounted in its interior and actuated by a push blade piston-and-cylinder unit.

A container packer system includes a transfer base, which receives a container packer adapted for movement longitudinally between retracted and extended positions with respect to the transfer base. The transfer base includes a power subsystem with a motor or engine driving a hydraulic pump for powering hydraulic piston-and-cylinder units of the system, including a container packer piston-and-cylinder unit for hydraulically extending and retracting the container packer. The container packer generally encloses an interior adapted for receiving bulk material for transfer to a transport container, which can comprise a standard shipping container, a trailer or some other bulk material receptacle. The container packer includes a push blade assembly longitudinally movably mounted in its interior and actuated by a push blade piston-and-cylinder unit.

A bulk loading system for delivering bulk material to a storage compartment of a bulk transport vehicle through a hatch opening includes a movable positioner supporting an extendable loading spout assembly, a camera coupled to the positioner and a programmable logic controller communicatively coupled to the positioner, loading spout assembly and camera for automatically positioning the loading spout assembly over the hatch opening and filling the storage compartment of the vehicle with bulk material. The system provides accurate position information to a driver of the vehicle so that the vehicle and its storage compartments can be quickly positioned within a reach zone of the loading spout.

A bulk loading system for delivering bulk material to a storage compartment of a bulk transport vehicle through a hatch opening includes a movable positioner supporting an extendable loading spout assembly, a camera coupled to the positioner and a programmable logic controller communicatively coupled to the positioner, loading spout assembly and camera for automatically positioning the loading spout assembly over the hatch opening and filling the storage compartment of the vehicle with bulk material. The system provides accurate position information to a driver of the vehicle so that the vehicle and its storage compartments can be quickly positioned within a reach zone of the loading spout.

A collaborative logistic facility management system for a logistic facility includes multiple robot autonomous guided vehicles and a system controller. The vehicles transport logistics goods or pallets between truck portals and storage locations and are configured for autonomous guidance travel, in autonomous mode and include a collaborating operator input for collaborative autonomous guided vehicle navigation and guidance. The system controller commands each vehicle to transfer the logistic goods or pallets between the truck portals and the storage locations, identifies a predetermined truck portal of a corresponding truck to be loaded or to be unloaded, and generates a collaborative zone. The controller generates a queue of robot autonomous guided vehicles on a side of the collaborative zone and commands the multiple robot autonomous guided vehicles disposed to load or unload the corresponding truck to move in autonomous mode into the queue.

A modular robot system which may be configured to accommodate packages of varying sizes is provided. The modular robot may include a base having omni-directional wheels and cameras and sensors, one or more modular containers, and a lid, which may be releasably linked together to form a small, medium or larger units. The base may include a lifting mechanism to vertically raise the robot to a desired height in alignment with a delivery vehicle. Moreover, retractable loading arms of the vehicle may be extended from the vehicle to engage with the robot to facilitate self-loading of the robot into the delivery vehicle.

The present technology provides a cargo adapter that can be inserted into a passenger compartment of a mixed-use vehicle that can be anchored to existing anchor points in the vehicle. The cargo adapter can then receive, secure, and support a cargo locker in a way that safely secures the cargo and avoids wear on the interior surfaces of the passenger compartment. The present technology further provides a system for transporting a cargo locker to a vehicle and inserting the cargo adapter and cargo locker into the vehicle quickly and easily.