A method for dispensing discrete medicaments with a dispensing device includes the steps of predicting a depletion time in the future when the medicaments in the container of a first feeder unit of the plurality of feeder units will be depleted; providing a notification ahead of said depletion time that a second feeder unit holding medicaments with the same composition as the first feeder unit needs to be presented to the dispensing device, together with a due time for presenting said second feeder unit to the dispensing device; and continuing the dispensing of the medicaments from the first feeder unit at least until the due time.

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 storage system is described where goods are stored in containers and the containers are stored in stacks. Above the stacks runs a grid network of tracks on which load handling devices run to lift containers from the stacks and deposit them at alternative locations in the stacks or at stations where goods may be removed or alternative functions may be undertaken. The containers can provide the following exemplary services: power, power control, heating, lighting, cooling, sensing, and data logging. The provision of these services within individual containers rather than across the system as a whole, allows for flexibility in storage whilst reducing cost and inefficiency. The containers when removed from the stacks are electrically connected to the load handling device, power being supplied by a power supply within the load handling device.

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.

An automatic apparatus used for installing a goods delivery terminal comprising a plurality of transporting modules, the transporting module is provided with a first guide rail. The automatic apparatus comprises a sliding assembly. After the transporting modules are joined and installed, the sliding assembly can slide upwards or downwards along the first guide rails from a side of one transporting module to a side of another transporting module. The automatic apparatus further comprises a holding component, a moving mechanism and an operating assembly. The holding component is used for holding the transporting module. After the sliding assembly slides to a position at or near the top portion of installed transporting module, the moving mechanism is used for moving the transporting module to be installed to a position right above the installed transporting module. The operating assembly is used for enabling and/or disabling fixed connection of the adjacent transporting modules.

In general, the subject matter described in this disclosure can be embodied in a multi-level pallet-conveying system for a storage facility. The conveying system includes a first-level conveying system, a first-level into-storage conveying lane adapted to receive pallets from the first-level conveying system and provide such pallets to a first-level station of a storage lifting system, and a first-level from-storage conveying lane adapted to receive pallets from the first-level station of the storage lifting system and provide such pallets to the first-level conveying system. The conveying system also includes a second-level conveying system, a second-level into-storage conveying lane adapted to receive pallets from the second-level conveying system and provide such pallets to a second-level station of the storage lifting system, and a second-level from-storage conveying lane adapted to receive pallets from the second-level station of the storage lifting system and provide such pallets to the second-level conveying system.

In general, the subject matter described in this disclosure can be embodied in a pallet-conveying system. The pallet-conveying system includes a vehicle-traversing loop, multiple vehicles configured to travel around the vehicle-traversing loop and move pallets around the vehicle-traversing loop, an inbound conveying lane arranged to move inbound pallets from a docking area to the vehicle-traversing loop, multiple outbound conveying lanes arranged to transfer pallets from the vehicle-traversing loop to the docking area, an into-storage conveying lane arranged to move pallets from the vehicle-traversing loop to a storage area, a from-storage conveying lane arranged to move pallets from the storage area to the vehicle-traversing loop, and multiple pallet stands located within an interior of the vehicle-traversing loop to receive pallets from the multiple vehicles.

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.

A lift structure of a rack storage system including a pair of vertical post, a pair of guide rail portions stacked one on top of the other, a mounting brace, and a mounting platform attached to the pair of vertical post. The mounting brace includes an adjustment mechanism to adjust an alignment between the pair of guide rail portions fastened together by a clamping plate. A load handling station is secured to the mounting platform to support loads transported to and from the rack storage system, wherein the load handling station is located by locating a position of the mounting platform.

An automated storage and retrieval system includes a framework structure having a plurality of internal and peripheral upright members arranged to define a storage grid including multiple storage columns for storing storage containers on top of each other in vertical stacks. The upright members are interconnected at their upper ends by a rail system arranged to guide at least one container handling vehicle thereon. The container handling vehicle is configured to raise storage containers from, and lower storage containers into the storage columns and to transport the storage containers horizontally above the storage columns. The peripheral upright members of the framework structure define a horizontal periphery of the framework structure. A vehicle elevator includes a vertically extending support, a platform, and a lift mechanism. The platform includes a horizontally extending structure arranged to carry the container handling vehicle and a connection device moveably attaching the platform to the vertically extending support. The lift mechanism is arranged to move the platform between a first lift stop position, which establishes access between the platform and the rail system, and a second lift stop position arranged within an accessing area such that a human operator/service personnel and/or robot can perform in-situ maintenance on the container handling vehicle while the container handling vehicle is arranged on the platform. The first and second lift stop positions are arranged vertically offset.