A tilt hauling frame comprising a base assembly configured to mount onto a trailer bed, a column assembly supported by the base assembly at a first end of the column assembly, and a panel arm assembly pivotally coupled proximate to a second end of the column assembly.

A carrier system and method for assisting in handling cargo of a vehicle. A carrier container includes an interior storage space surrounded by a front side facing the rear of the vehicle, rear, left, right, and bottom sides, and an open top that allows access to the interior storage space with a lid that closes and opens the top. A carrier support structure mounted to the carrier container is inserted into the hitch of the vehicle and holds the top surface of the container flush with the cargo bed of the vehicle. The lid is opened to deploy a ramp stored inside which is anchored to the container so that it is flush with the top surface of the container and reaches the ground. The lid is closed and a bridge plate commonly hinged with the lid is deployed over any gap between the cargo bed and the container top, providing a continuous surface between the cargo bed and the ground for use by pets for ingress and egress of the vehicle and for handling cargo.

A carrier system and method for assisting in handling cargo of a vehicle. A carrier container includes an interior storage space surrounded by a front side facing the rear of the vehicle, rear, left, right, and bottom sides, and an open top that allows access to the interior storage space with a lid that closes and opens the top. A carrier support structure mounted to the carrier container is inserted into the hitch of the vehicle and holds the top surface of the container flush with the cargo bed of the vehicle. The lid is opened to deploy a ramp stored inside which is anchored to the container so that it is flush with the top surface of the container and reaches the ground. The lid is closed and a bridge plate commonly hinged with the lid is deployed over any gap between the cargo bed and the container top, providing a continuous surface between the cargo bed and the ground for use by pets for ingress and egress of the vehicle and for handling cargo.

The invention relates to a method by means of which an unmanned transport device (3) docked on a receiving container (1) is loaded with a payload container (7) for a consignment (4), having a loading device (8) for loading the transport device (3) with the payload container (7), wherein the payload container (7) has a bearing means (9) at its first end (8a), the transport device (3) has a loading opening (6) on its underside (5) for receiving the payload container (7), and the loading opening (6), at its front end (19), has a mating contour (20) corresponding to the bearing means (9), and the method has the following steps: the payload container (7), arranged on the loading device (8), is pivoted in relation to the horizontal by the loading device (8) such that the first end (8a) is elevated in relation to a second, opposite end (14) of the payload container (7), the loading device (8) is raised until the payload container (7) ends up at least with its first end (8a) located within and/or beneath the loading opening (6), and the payload container (7) is pivoted by the loading device into the horizontal for introduction into the loading opening (6) such that, first of all, the bearing means (9) comes into engagement with the mating contour (20) and, subsequently, the second end (14) of the payload container (7) comes into engagement with a rear end (22) of the loading opening (6).

The invention relates to a method by means of which an unmanned transport device (3) docked on a receiving container (1) is loaded with a payload container (7) for a consignment (4), having a loading device (8) for loading the transport device (3) with the payload container (7), wherein the payload container (7) has a bearing means (9) at its first end (8a), the transport device (3) has a loading opening (6) on its underside (5) for receiving the payload container (7), and the loading opening (6), at its front end (19), has a mating contour (20) corresponding to the bearing means (9), and the method has the following steps: the payload container (7), arranged on the loading device (8), is pivoted in relation to the horizontal by the loading device (8) such that the first end (8a) is elevated in relation to a second, opposite end (14) of the payload container (7), the loading device (8) is raised until the payload container (7) ends up at least with its first end (8a) located within and/or beneath the loading opening (6), and the payload container (7) is pivoted by the loading device into the horizontal for introduction into the loading opening (6) such that, first of all, the bearing means (9) comes into engagement with the mating contour (20) and, subsequently, the second end (14) of the payload container (7) comes into engagement with a rear end (22) of the loading opening (6).

A row of docking stations to stow containers or trolleys is provided along at least one side of a van cargo storage area and a corridor for loading and unloading containers or trolleys individually or in groups from the rear of the van is provided. Preferably, the docking stations are automated. Interference with the storage and removal of containers or trolleys by the wheel wells of the vans or other vehicles is eliminated. Motorized mechanisms capture and lift the containers or trolleys above the level of the wheel wells for stowage in the docking stations to maximize the available storage area beyond that available on the floor of the cargo area. Individual containers or trolleys may be maintained in docking stations until needed.

A carrier system and method for assisting in handling cargo of a vehicle. A carrier container includes an interior storage space surrounded by a front side facing the rear of the vehicle, rear, left, right, and bottom sides, and an open top that allows access to the interior storage space with a lid that closes and opens the top. A carrier support structure mounted to the carrier container is inserted into the hitch of the vehicle and holds the top surface of the container flush with the cargo bed of the vehicle. The lid is opened to deploy a ramp stored inside which is anchored to the container so that it is flush with the top surface of the container and reaches the ground. The lid is closed and a bridge plate commonly hinged with the lid is deployed over any gap between the cargo bed and the container top, providing a continuous surface between the cargo bed and the ground for use by pets for ingress and egress of the vehicle and for handling cargo.

A carrier system and method for assisting in handling cargo of a vehicle. A carrier container includes an interior storage space surrounded by a front side facing the rear of the vehicle, rear, left, right, and bottom sides, and an open top that allows access to the interior storage space with a lid that closes and opens the top. A carrier support structure mounted to the carrier container is inserted into the hitch of the vehicle and holds the top surface of the container flush with the cargo bed of the vehicle. The lid is opened to deploy a ramp stored inside which is anchored to the container so that it is flush with the top surface of the container and reaches the ground. The lid is closed and a bridge plate commonly hinged with the lid is deployed over any gap between the cargo bed and the container top, providing a continuous surface between the cargo bed and the ground for use by pets for ingress and egress of the vehicle and for handling cargo.

A delivery tower for receiving a package from an aerial vehicle. The delivery tower has a table top coupled to a base. The base includes telescoping members. The delivery tower has a controller and communications module operably coupled to the base. The table top moves between a first, retracted position and a second, extended position with extension of the telescoping members. In the first, retracted position the delivery tower is configured to operate as an outdoor table. In the second, extended position, the delivery tower is configured to receive a package from the aerial vehicle.

A delivery tower for receiving a package from an aerial vehicle. The delivery tower has a table top coupled to a base. The base includes telescoping members. The delivery tower has a controller and communications module operably coupled to the base. The table top moves between a first, retracted position and a second, extended position with extension of the telescoping members. In the first, retracted position the delivery tower is configured to operate as an outdoor table. In the second, extended position, the delivery tower is configured to receive a package from the aerial vehicle.