A weight transfer apparatus for use in combination with a vehicle includes a hoist bar connected to a pair of spaced-apart frames. The hoist bar being responsive to actuation of a motor to vertically to be removable between a downward position and upward into a retracted position. The structure further includes a pair of opposed frame members including longitudinally extending beams. The assembly further includes means for moving the rectangular frame member between a retracted position entirely in the vehicle and an extended position partially outside of the vehicle.

A delivery vehicle for autonomously delivering a plurality of packages is described. The delivery vehicle includes a set of rails and a cargo management unit slidably engaged with the set of rails. The cargo management unit is configured to engage with a package and move the package inside the delivery vehicle. The cargo management unit includes a gripping member that includes a lower claw and an upper claw. The lower claw and the upper claw are attached with each other via a pair of first line screws, and are configured to move along the pair of first line screws to secure the package. The cargo management unit further includes a second line screw configured to engage the gripping member with a first rail, and is configured to rotate the gripping member along a second line screw axis and move the gripping member vertically along the second line screw.

A weight transfer apparatus for use in combination with a vehicle includes a hoist bar connected to a pair of spaced-apart frames. The hoist bar being responsive to actuation of a motor to vertically to be removable between a downward position and upward into a retracted position. The structure further includes a pair of opposed frame members including longitudinally extending beams. The assembly further includes means for moving the rectangular frame member between a retracted position entirely in the vehicle and an extended position partially outside of the vehicle.

Computer program products, methods, systems, apparatus, and computing entities are provided for automated loading and retrieval of items. In various embodiments, items are received at a loading station where identification data may be captured for each item and handling instructions may be generated. In some embodiments, a label having indicia associated with the item may be generated and affixed to the item. The items may then be deposited through an access door into the vehicle identified in the handling instructions. Once the items are loaded into the access door, an automated load/unload device may deposit the item in the appropriate storage location. The automated load/unload device may also retrieve and rearrange items as desired.

Computer program products, methods, systems, apparatus, and computing entities are provided for automated loading and retrieval of items. In various embodiments, items are received at a loading station where identification data may be captured for each item and handling instructions may be generated. In some embodiments, a label having indicia associated with the item may be generated and affixed to the item. The items may then be deposited through an access door into the vehicle identified in the handling instructions. Once the items are loaded into the access door, an automated load/unload device may deposit the item in the appropriate storage location. The automated load/unload device may also retrieve and rearrange items as desired.

Computer program products, methods, systems, apparatus, and computing entities are provided for automated loading and retrieval of items. In various embodiments, items are received at a loading station where identification data may be captured for each item and handling instructions may be generated. In some embodiments, a label having indicia associated with the item may be generated and affixed to the item. The items may then be deposited through an access door into the vehicle identified in the handling instructions. Once the items are loaded into the access door, an automated load/unload device may deposit the item in the appropriate storage location. The automated load/unload device may also retrieve and rearrange items as desired.

The present invention provides an automated product transport and storage system designed to enhance efficiency, precision, and safety in logistics and delivery operations. The system includes automated bots, such as porch bots, railed fork bots, and railed crane bots, which perform tasks like loading, unloading, and positioning products within transport vehicles. These bots reduce the reliance on manual labor, mitigate the risk of injuries, and improve productivity by operating autonomously or semi-autonomously in confined or complex environments, such as urban and suburban delivery routes. The system is equipped with advanced control systems, GPS tracking, and obstacle detection, enabling precise navigation and real-time responsiveness. Versatile and adaptable, the system can be used across various industries, from food distribution to industrial supply chains, while reducing infrastructure requirements and contributing to energy efficiency. This invention represents a significant advancement in automated logistics and product handling.

A delivery vehicle for autonomously delivering a plurality of packages is described. The delivery vehicle includes a set of rails and a cargo management unit slidably engaged with the set of rails. The cargo management unit is configured to engage with a package and move the package inside the delivery vehicle. The cargo management unit includes a gripping member that includes a lower claw and an upper claw. The lower claw and the upper claw are attached with each other via a pair of first line screws, and are configured to move along the pair of first line screws to secure the package. The cargo management unit further includes a second line screw configured to engage the gripping member with a first rail, and is configured to rotate the gripping member along a second line screw axis and move the gripping member vertically along the second line screw.

The present invention provides an automated product transport and storage system designed to enhance efficiency, precision, and safety in logistics and delivery operations. The system includes automated bots, such as porch bots, railed fork bots, and railed crane bots, which perform tasks like loading, unloading, and positioning products within transport vehicles. These bots reduce the reliance on manual labor, mitigate the risk of injuries, and improve productivity by operating autonomously or semi-autonomously in confined or complex environments, such as urban and suburban delivery routes. The system is equipped with advanced control systems, GPS tracking, and obstacle detection, enabling precise navigation and real-time responsiveness. Versatile and adaptable, the system can be used across various industries, from food distribution to industrial supply chains, while reducing infrastructure requirements and contributing to energy efficiency. This invention represents a significant advancement in automated logistics and product handling.