The invention relates to a method for transferring an item to be transported (10; 11; 12) from an end portion (2) of a flow storage system (1) to a removal device (20), comprising the steps of: using an end stop (4) arranged in the shut-off position for retaining at least one first item to be transported (10) on the end portion (2) of the flow storage system (1) and/or using a separator (5) arranged in the shut-off position to retain at least one second item to be transported (11) on a retaining section (3) of the flow storage system (1); arranging (100) the removal device (20) adjacent to the end portion (2) of the flow storage system (1) in a removal position; using at least one sensor (21) of the removal device (20) for checking (101; 111) whether the end stop (4) and/or the separator (5) is arranged in its respective shut-off position; and transferring (104) the first item to be transported (10) from the end portion (2) to the removal device (20).

Embodiments of the present disclosure include a network-enabled lockbox for securely dispensing a substance includes a wireless communication device, one or more sensors, and a rotating carousel containing one or more doses of the controlled substance. The carousel provides a dose of the substance during a preconfigured period of time. The one or more sensors detect one or more alert conditions. The wireless communications wirelessly communicate information between the network-enabled lockbox and a remote server. For example, the network-enabled lockbox for securely dispensing a substance includes an outer compartment, an interior frame inserted into the compartment and secured to the compartment, a top plate, a worm drive, an electric motor connected to the worm drive, control electronics for controlling the motor, a carousel connected to the worm drive, a plurality of sensors, and a communications subsystem for communicating data to a backend server.

Embodiments of the present disclosure include a network-enabled lockbox for securely dispensing a substance includes a wireless communication device, one or more sensors, and a rotating carousel containing one or more doses of the controlled substance. The carousel provides a dose of the substance during a preconfigured period of time. The one or more sensors detect one or more alert conditions. The wireless communications wirelessly communicate information between the network-enabled lockbox and a remote server. For example, the network-enabled lockbox for securely dispensing a substance includes an outer compartment, an interior frame inserted into the compartment and secured to the compartment, a top plate, a worm drive, an electric motor connected to the worm drive, control electronics for controlling the motor, a carousel connected to the worm drive, a plurality of sensors, and a communications subsystem for communicating data to a backend server.

A pharmaceutical order processing system for filling prescription orders in dose-based packaging includes a pathway and a plurality of individual dispensing pharmaceutical (“IDP”) dispensers. The IDP dispenser dispenses pharmaceuticals one at a time and is movable along the pathway. A dose-based packager is positioned adjacent the pathway. The dose-based packager receives pharmaceuticals from one or more of the IDP dispensers when said one or more IDP dispensers are disposed adjacent the dose-based packager. The dose-based packager packages pharmaceuticals received from the one or more IDP dispensers in dose-based packaging.

A pharmaceutical order processing system for filling prescription orders in dose-based packaging includes a pathway and a plurality of individual dispensing pharmaceutical (“IDP”) dispensers. The IDP dispenser dispenses pharmaceuticals one at a time and is movable along the pathway. A dose-based packager is positioned adjacent the pathway. The dose-based packager receives pharmaceuticals from one or more of the IDP dispensers when said one or more IDP dispensers are disposed adjacent the dose-based packager. The dose-based packager packages pharmaceuticals received from the one or more IDP dispensers in dose-based packaging.

An inventory management system includes pick stations, automated vehicles having an onboard power source, a first drive system configured to horizontally displace the vehicle, a second drive system configured to vertically displace the vehicle along a guide system, and a platform for supporting an item during displacement of the vehicle. A first plurality of storage locations store inventory items at a first zone of vehicle operation and a second plurality of storage areas store inventory items at a second zone of vehicle operation. A first pick station is closer to the first storage locations than to the second storage locations, Vehicles are configured to transfer a selected item from one of the second plurality of storage locations to the first pick station or to transfer the selected item from the second plurality of storage locations to the first plurality of storage locations.

An operator inducted object processing system is disclosed that includes an object induction station at which objects are provided for processing, said object induction station including at least one perception unit for providing perception data regarding an object, an object processing system for receiving objects from the object induction station, said object processing system including a carrier configured for movement in a first generally horizontal direction between two mutually opposing arrays of destination locations, each of which extends along the first generally horizontal direction, and the carrier also being configured for movement in a second generally vertical direction between the two mutually opposing arrays of destination locations, each of which also extends along the second generally vertical direction, wherein the movement in the first generally horizontal direction is independent of the movement in the second generally vertical direction, and wherein the carrier is further configured for movement in mutually opposing third directions that are generally orthogonal to the first and second directions, for urging an object thereon into a first end of an adjacent selected destination location, each of the destination locations including a first end that is accessible by the carrier, and a plurality of object collection stations, each of which is associated with a second end of each of the destination locations.

Disclosed are systems and methods for a pill dispenser system. The dispenser system includes a dispenser software application that manages the administration of pills to a patient. The pills can be stored in multiple compartments of a hopper. The hopper includes openings in the bottom of each compartment. A disc below the hopper has openings that correspond to the hopper openings, but are offset, keeping the pills in each compartment. The hopper and the disc move together to index a compartment above a dispensing cup. The hopper moves in the opposite direction, without the disc, creating a dispensing aperture, where a pill is dropped onto an elevator. The elevator lowers the pill and drops it into a dispensing cup.

Disclosed are systems and methods for a pill dispenser system. The dispenser system includes a dispenser software application that manages the administration of pills to a patient. The pills can be stored in multiple compartments of a hopper. The hopper includes openings in the bottom of each compartment. A disc below the hopper has openings that correspond to the hopper openings, but are offset, keeping the pills in each compartment. The hopper and the disc move together to index a compartment above a dispensing cup. The hopper moves in the opposite direction, without the disc, creating a dispensing aperture, where a pill is dropped onto an elevator. The elevator lowers the pill and drops it into a dispensing cup.

A storage includes a first opening section, a second opening section, and a moving section. An article used in a board working machine configured to perform predetermined board work on a board is received or delivered through the first opening section. The second opening section is an opening section different from the first opening section, and when reception work or delivery work of the article is performed through the first opening section, an article different from the article can be received or delivered through the second opening section. The moving section moves the article to a predetermined storage section when the article is received through the first opening section or the second opening section and moves the article stored in the storage section to the first opening section or the second opening section when the article is delivered.