An automatic storage and retrieval system includes: a delivery vehicle; a storage container carried by the delivery vehicle; and an unloading station for unloading an item from the storage container while it is being carried by the delivery vehicle. The unloading station includes: an unloading device; and a destination conveyor configured to convey the item to a target destination, wherein the unloading device is configured to move the item through a side opening of the storage container to the destination conveyor.

A warehouse storage and retrieval system including an array of multilevel storage racks having at least one transfer deck, picking isles and storage areas disposed along picking isles, the storage areas being configured to hold differing loads, and a controller including a management module configured to variably size the storage areas of the array of multilevel storage rack modules and assign each of the variably sized storage areas to a corresponding one of the differing loads, wherein the storage and retrieval system is arranged to transport the differing loads for placement in the variably sized storage areas assigned by the controller.

A processing system for processing objects using a programmable motion device is disclosed. The processing system a perception unit for perceiving identifying indicia representative of an identity of an object associated with an input conveyance system, and an acquisition system for acquiring the object from a plurality of objects at an input area using an end effector of the programmable motion device, wherein the programmable motion device is adapted for assisting in the delivery of the object to an identified processing location. The identified processing location being associated with the identifying indicia and said identified processing location being provided as one of a plurality of processing locations. The processing system also includes a delivery system for receiving the object in a carrier and for delivering the object toward the identified processing location.

A storage, retrieval and processing system is disclosed for processing objects. The system includes a plurality of bins including objects to be distributed by the processing system, said plurality of bins being provided in at least a partially generally circular arrangement, a programmable motion device that includes an end effector for grasping and moving any of the objects, said programmable motion device being capable of reaching any of the objects within the plurality of bins, and a plurality of destination containers for receiving any of the objects from the plurality of bins, said plurality of destination containers being provided in a region that is generally within the at least partially generally circular arrangement of the plurality of bins.

A method and system for autonomous picking or put-away of items, totes, or cases within a logistics facility. The system includes a remote server and at least one manipulation robot. The system may further include at least one transport robot. The remote server is configured to communicate with the various robots to send and receive picking data, and the various robots are configured to autonomously navigate and position themselves within the logistics facility.

This disclosure is directed to automated warehouse facilities that are configured to assemble mixed pallets. The warehouse facilities can include one or more layer handling devices that are configured to remove layers from pallets in a delayering operational mode, and to add layers to pallets in a palletizing operation mode. The warehouse facilities also may include one or more item retrieval devices that are configured to retrieve individual items from storage racks. The warehouse facilities can include other automated devices as well.

A hybrid modular storage fetching system with a robot execution system (REX) is described. In an example implementation, a REX may induct, into the hybrid modular storage fetching system, an order identifying items to be fulfilled by automated guided vehicles (AGVs) at an order fulfillment facility. The REX may generate at task list including tasks for a first and second AGV, instruct the first AGV to retrieve a first item in the order from a first storage area based on the task list and deliver the first item to a pick-cell station. The REX may also instruct the second AGV to retrieve a second item of the order from a second storage area and deliver the second item to the pick-cell station. The REX may communicate with other components of the hybrid modular storage fetching system to coordinate the paths of the AGVs to fulfill the order.

The present disclosure provides a method of accumulating order-goods, including: acquiring a collection order queue; acquiring a collection order from the collection order queue, assigning a first slide to the collection order, and sending goods in the collection order to the first slide in response to a presence of a first slide in an idle state, wherein the first slide only allows sending of goods in one collection order at one time; and activating a second slide in response to a predetermined condition being satisfied, wherein the second slide allows simultaneous sending of goods in a plurality of collection orders. The present disclosure further provides a system of accumulating order-goods, an electronic apparatus, a computer-readable storage medium, and a device of accumulating order-goods.

A conveyor carriage movable on a guide rail. The conveyor carriage includes a conveyor frame; a pair of side rails spaced apart from each other; and a load carrying portion coupled to the pair of side rails. A drop-down plate hingedly mounted to the conveyor frame and positioned in between the pair of side rails. The drop-down plate is pivotable between an open position and a closed position, wherein the drop-down plate encloses a component of the conveyor carriage in the closed position. The conveyor carriage to pick up and deposit loads from and to a load handling station. The load handling station including a control box with a pivotable lid to enclose one or more components of the load handling station in the closed position.

Warehouse automation and methods of sorting and sequencing garment items can be used to enhance efficiencies of order fulfillment processes. For example, this document describes warehouse automation of systems and methods for efficiently compiling store replenishment orders for garment items. The systems and methods make store replenishment of garment items highly efficient. In some examples, the systems and methods are focused on automation (e.g., using autonomous mobile robots that transport pods containing garment items) and arranging the garment items in store-ready containers that can be wheeled out directly into the retail area for efficient store replenishment.