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.

Disclosed herein is a vehicle for removing foreign objects (e.g. rubbish) from an area proximal to the vehicle (e.g. along a roadside). The vehicle comprises an arm that is moveable into a foreign object collecting position, a foreign object collector located at a distal end of the arm and configured for collecting foreign objects, and a conduit for conveying collected foreign objects to a storage bin.

Lifting system (1) for mounting on a loading surface of a vehicle (3), comprising at least one first lifting arm system (4) on one side of the loading surface in the transverse direction of the vehicle (3) and at least one second lifting arm system (5) on the other side of the cargo area in the transverse direction of the vehicle (3). The lifting arm systems (4, 5) comprises at least one foundation (6) with which the respective lifting arm system (4, 5) is connected to the vehicle (3), The lift arm systems (4, 5) each comprise at least one lifting arm (9) and at least one operating mechanism (15). The lifting device (1) comprises at least one lifting boom (13) extending between the lifting arm (9) in the first lifting arm system (4) and the lifting arm (9) in the second lifting arm system (5), The operating mechanism (15) is operated with at least one actuator (27). The actuating mechanism (15) comprises at least one first operating arm (16), which is rotatably connected at one end, or end thereof, to the base (6) and at its other end, or its proximity is connected to the lifting arm (9) via at least one aim link (22). The operating arm (16) and the arm link (22) are pivotally connected to each other and the arm link (22) is pivotally arranged relative to the lifting arm (9). The operating mechanism (15) further comprises at least one operating link (25) which is pivotally connected to the operating arm (16).

Photovoltaic module feeder assemblies, systems and methods are provided which comprise two rotatable arms, a grabber bar, and at least two gripping pieces. Each arm has a proximal end and a distal end and a plurality of articulation points. The grabber bar is coupled to the distal end of each rotatable arm, and the gripping pieces are connected to each grabber bar. When the rotatable arms rotate to position the grabber bars in alignment with a photovoltaic module, the gripping pieces activate and grip or support the photovoltaic module. The rotatable arms maintain the short sides of the photovoltaic module in a horizontal position by utilizing one or more of the plurality of articulation points. The photovoltaic module feeder assembly may be coupled to a mobile unit having a conveyor and guide rails for moving and holding a pallet of photovoltaic modules. Disclosed methods may be controlled by software that can determine a just-in-time installation schedule.

A trailer adapted to haul one or more reels for carrying conveyor belts is disclosed. The trailer includes a loading means to lift the reel on the deck of the trailer. The loading means includes two articulated arms located each side of the trailer, each articulated arm comprising a first elongate member and a second elongate member pivotally mounted to the first elongate member. The first elongate members are movable relative to the trailer between a retracted position and a rearwardly extended position. The second elongate members are pivotable between a horizontal position and an upright position wherein the second elongate members are orthogonal to the first elongate members. A hoist is disposed between the second elongate members and is operable to lift the reel from the support surface to an effective height greater than an effective height of the deck. Jacks are also provided to stabilise the loading means.

A balanced lifting device comprises at least two lifting arms arranged opposite to each other, each lifting arm comprises a balance arm and an actuating arm driving the balance arm to move, the balance arm is rotatably connected to the actuating arm at a rotatably connected part, and a first drive device is arranged between the balance arm and the actuating arm to drive the balance arm to a horizontal state throughout the lifting process. A vehicle-mounted exchange box system and a multi-oil cylinder synchronization method are also provided in the present invention. A cargo box may be lifted stably to improve the operation safety, the vehicle utilization rate is improved by saving the waiting time for loading and unloading in the transfer process.

A container for delivering packages comprising a plurality of package storage modules, each module comprising an individually controlled access door on an external wall of the transport, wherein one or more packages are placed in at least some of the plurality of modules at a distribution point, wherein the container is configured to be transported to multiple delivery destinations, and wherein, upon arrival at each delivery destination, the appropriate access door receives a signal to allow access to the package intended for that delivery destination.

A system for delivering packages from a warehouse to end destinations, the system comprising a fleet of containers, each configured to be loaded at the warehouse with packages destined for drop off points at end destinations. A fleet of delivery vehicles are configured to transport the containers from the warehouse to an end destination. At least one delivery robot is carried with each container and the delivery robot is configured to carry at least one package from the container at the end destination to the drop off point.

A vehicle for delivering packages, comprising a tractor comprising a motor, a pair of front wheels, a rear wheel, and a rail between the pair of front wheels and the rear wheel, and a removable container comprising a space for storing packages where a bottom of the container is configured to fit over and mount to the rail.

A fleet for delivering packages comprising a first number of containers, each container comprising at least one compartment for receiving packages at a main distribution center. The container comprises a first attachment member on an outer surface and a second attachment member on an outer surface. The fleet comprises a second number of long-range transports, each long-range transport is configured to carry multiple containers from the main distribution center to an intermediate distribution center, each long-range transport comprising multiple first attachment receivers, whereby the multiple containers are attached to the long-range transports during transport from the main distribution center to the intermediate distribution center. The fleet comprises a third number of short-range tractors, each short-range tractor is configured to carry at least one container from the intermediate distribution center to delivery destinations for the packages in the container, each tractor comprising at least one second attachment receiver, whereby the at least one container is attached to the short-range tractor during transport from the intermediate distribution center to the delivery destinations and back to the intermediate distribution center. The third number is at least twice as large as the second number and wherein the first number is at least twice as large as the third number.