The present invention concerns a method for loading and/or unloading a loading space delimited by structural elements of at least one road or rail vehicle using a manipulator to move the loads from outside the loading space to a position onto the structural elements in the loading space and vice versa. The method includes: inputting or importing primary data relative to the loads into a logic controller, automatically calculating the optimum loading position for each load, determining the automated movements of the manipulator, automatically picking up a pallet in a storage position inside the loading space with the manipulator and positioning the pallet in a loading position located at the rear of the vehicle, placing a load on the pallet, and automatically moving the pallet supporting the load into the optimum loading position, and locking the pallet to the structural elements.

The present invention concerns a method for loading and/or unloading a loading space delimited by structural elements of at least one road or rail vehicle using a manipulator to move the loads from outside the loading space to a position onto the structural elements in the loading space and vice versa. The method includes: inputting or importing primary data relative to the loads into a logic controller, automatically calculating the optimum loading position for each load, determining the automated movements of the manipulator, automatically picking up a pallet in a storage position inside the loading space with the manipulator and positioning the pallet in a loading position located at the rear of the vehicle, placing a load on the pallet, and automatically moving the pallet supporting the load into the optimum loading position, and locking the pallet to the structural elements.

A loading system laterally loads and unloads an upper body structure onto a vehicle platform of a motor vehicle. The system includes two loading arms pivotably mounted on lengthwise ends of the vehicle platform. The loading arms jointly swivel between upward and lateral orientations with respect to the vehicle platform and jointly extend and retract. Each loading arm has an engaging portion at a distal end of the respective loading arm to engage a corresponding support portion at a respective lengthwise end of the upper body structure. The loading arms engage and release the upper body structure by swiveling into the lateral orientation and extending and retracting within the lateral orientation. The loading arms mount the engaged upper body structure on top of the vehicle platform by swiveling with the engaged upper body structure into the upward orientation and retracting with the engaged upper body structure within the upward orientation.

A method of gathering at least one item from an area is provided. The method includes providing at least one grasping mechanism for capturing at least one item, gathering information regarding a first item, including information regarding the first item's orientation in the area, and determining whether the grasping mechanism is able to capture the first item from the area based on the information regarding the first item's orientation. The method further includes manipulating, via the grasping mechanism, the first item if necessary based on the information regarding the first item's orientation to ensure the first item is in an orientation in which the grasping mechanism is able to capture the first item from the area, and capturing the first item with the grasping mechanism and moving the first item to another area.

A method of gathering at least one item from an area is provided. The method includes providing at least one grasping mechanism for capturing at least one item, gathering information regarding a first item, including information regarding the first item's orientation in the area, and determining whether the grasping mechanism is able to capture the first item from the area based on the information regarding the first item's orientation. The method further includes manipulating, via the grasping mechanism, the first item if necessary based on the information regarding the first item's orientation to ensure the first item is in an orientation in which the grasping mechanism is able to capture the first item from the area, and capturing the first item with the grasping mechanism and moving the first item to another area.

A deployment assembly is mounted in a delivery vehicle and holds an autonomous robot that can be deployed to deliver or pick up packages. The assembly has a base and extendable members that move the robot from a retracted position inside the vehicle and an extended position outside the vehicle. The assembly also has securement features that hold the robot in during transport and can also recharge the robot if necessary.

A deployment assembly is mounted in a delivery vehicle and holds an autonomous robot that can be deployed to deliver or pick up packages. The assembly has a base and extendable members that move the robot from a retracted position inside the vehicle and an extended position outside the vehicle. The assembly also has securement features that hold the robot in during transport and can also recharge the robot if necessary.

The invention relates to a loading arm assembly for a load-handling vehicle, having a main arm, having an auxiliary arm, and having a gripping hook, wherein the loading arm assembly is configured for unloading and loading transportation containers having a hook, wherein a pivot arm part is disposed on the auxiliary arm so as to be pivotable by way of an articulation, wherein a gripping hook is disposed so as to be pivotable on the pivot arm part. The loading arm assembly is improved in that the pivot arm part in a transporting position engages in a clearance of the auxiliary arm.

A hydraulic deck comprising a frame consisting of a pair of horizontal members and a pair of vertical members, wherein the frame is configured to be mounted in a bed of a pickup truck; a pair of pivot arm members in telescoping engagement with the pair of horizontal members and a pair of extension members in telescoping engagement with the pair of vertical members; a platform member configured to support at least one vehicle; a pair of pillars rotationally connected to pin members positioned on the pair of extension members, wherein the pair of pillar extend perpendicularly from the platform member; and a mechanically operating lifting system configured to slide and lower the platform from the bed in a stored position to a ground surface in a loading position.

A hydraulic deck comprising a frame consisting of a pair of horizontal members and a pair of vertical members, wherein the frame is configured to be mounted in a bed of a pickup truck; a pair of pivot arm members in telescoping engagement with the pair of horizontal members and a pair of extension members in telescoping engagement with the pair of vertical members; a platform member configured to support at least one vehicle; a pair of pillars rotationally connected to pin members positioned on the pair of extension members, wherein the pair of pillar extend perpendicularly from the platform member; and a mechanically operating lifting system configured to slide and lower the platform from the bed in a stored position to a ground surface in a loading position.