A container chassis with detachable bolster ends comprising a plurality of bolsters, each bolster with detachable bolster ends and a first configuration with detached bolster ends wherein the container chassis is less than eight feet in width for horizontal fitment into an ISO shipping container. The container chassis with detachable bolster ends may also be configured to stack vertically within a plurality of container chassis and wheeled into the ISO shipping container.

A transporting robot is utilized for rapid and efficient logistics and transportation. The transporting robot includes a main body having a flat upper surface, support frames that are respectively provided on both sides of the main body, extend downwardly, and define a predetermined angle with respect to the upper surface of the main body, a leg rotatably installed on the support frame, and a wheel installed at an end of the leg. The leg is configured to be folded below the main body, raised toward the main body, or unfolded outside of the main body.

A trailer system may have a first cargo area having a movable deck. The movable deck may be moved by an actuator. The movable deck may include a plurality of first rollers for engaging and translating cargo. And a movable tailgate may close the first cargo area when it is in a first position. The movable tailgate may have a plurality of second rollers for engaging and translating cargo when the movable tailgate is in a second position. The trailer system may have a plurality of movable decks, where each movable deck is coupled and moved by an actuator. Each actuator may comprise at least one of a hydraulic, pneumatic, and/or electromechanical system. The trailer system may further have a set of lower movable decks and a set of upper movable decks. The set of upper movable decks may be coupled to the lower movable decks by actuators.

An unloading apparatus for unloading a load contained in a tray of a load carrying vehicle having a transporter adapted to releasably receive the tray, the unloading apparatus comprising a rotator having a support surface for parking of the load carrying vehicle according to the second aspect of the invention, and a plurality of frames arranged in a spaced apart relationship with respect to each other along the support surface, the frames being adapted to secure the tray to the rotator and lifting the tray from the transporter, and means for rotating the rotator about the longitudinal axis of the tray for unloading of the load. There is also provide a load carrying vehicle including a transporter and a tray releasably attached to the transporter as well as a system and method from loading load from a first location into the tray and unloading the load at a second location using the unloading apparatus.

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.

An AV receives a delivery request made by a user. The AV navigates to the user's location. The AV's onboard controller determines that the AV has arrived at the location. The onboard controller then commands the AV's motor to pause motion. The onboard controller provides the user an access to a delivery assembly in the AV. The onboard controller or the delivery assembly detects, by using sensors in the delivery assembly, whether an item has been removed from or placed into the container. Subsequent to detecting that the item has been removed from or placed into the container, the onboard controller commands the AV's motor to resume motion. The onboard controller or delivery assembly may also control a movable element in the container to allow the user to load or unload the item from a safe spot or control a divider in the container to protect the user's privacy.

A rigid extendable storage unit that comprises a front wall and a back wall positioned adjacent to the front wall in a folded state and configured to be deployed opposite the front wall, wherein the back wall has an opening configured to be covered. Side walls that are made of at least one section are provided and positioned adjacent to the front wall in a folded state and extended between the front wall and the back wall in a deployed state. A roof is positioned adjacent to the front wall in a folded state and extended to enclose a volume formed between the front wall, the back wall and the side walls. In the folded state, the extendable storage unit occupies minimal area of the surface or the platform it is mounted on and transforming the storage unit from folded state to deployed state and vice versa can be handled manually or automatically.

A transport unit for transporting an additively manufactured three-dimensional component including a transfer interface which can be closed in a substantially gastight manner for the three-dimensional component and/or a container containing the three-dimensional component and/or a platform carrying the three-dimensional component, which transfer interface is configured and disposed so that it cooperates with an output interface of an additive manufacturing machine which has manufactured the three-dimensional component within the framework of a component transfer as intended and when a connection is made as intended between the transfer interface and output interface a substantially gastight connection can be produced, and a storage chamber for storing the component and/or the container and/or the platform in a substantially gastight sealed state towards the outside.

A method for transferring a container configured to hold at least one article used in semiconductor fabrication is provided. The method includes moving a transferring mechanism to a first position that is adjacent to the original space; producing an image of an edge of the container that is adjacent to the original space using an optical receiver before the container is moved to a destination space; and performing an image analysis of the image to determine whether to move the container to the destination space.

A silo transport system includes a vehicle and a silo configured to store material when in a vertical orientation supported on the ground surface, and to be transported in a horizontal orientation on the vehicle. The vehicle includes a pivoting cradle supporting the silo in the horizontal orientation and a lock to releasably attach the cradle to the silo. A cradle controller pivots the cradle from a lowered position to a raised position where the silo is in the vertical orientation resting on the ground surface. When the cradle is attached to the silo, the cradle controller pivots the cradle away from the raised position to the lowered position when the silo attached to the cradle is empty, and is inoperative to pivot the cradle away from the raised position toward the lowered position when the silo attached to the cradle contains greater than a threshold amount of the material.