A method for delivering items in a pneumatic delivery system includes receiving delivery information corresponding to an item to be delivered from a first workstation of a plurality of workstations to a second one of the workstations, configuring a first one of a plurality of blowers and a corresponding workstation diverter corresponding to the first workstation to create a path from the first workstation to the first blower, operating the first blower to generate suction drawing the item to the first blower, configuring a subset of the plurality of diverters of the system to create a continuous path from the first blower to the second workstation and routing, when the first and second workstations are in separate subsystems of the pneumatic delivery system, the item through an inter-subsystem exchange unit so that the item is delivered to the second workstation using only the first blower.

Provided herein is a pneumatic tube system station having a rotating carriage with multiple carrier ports. The multiple carrier ports allow for receiving multiple carriers and/or staging multiple carries for dispatch. In one arrangement, one or more carriers may be securely maintained within the station while permitting users to continue utilizing the station.

Provided herein is a pneumatic tube system station having a rotating carriage with multiple carrier ports. The multiple carrier ports allow for receiving multiple carriers and/or staging multiple carries for dispatch. In one arrangement, one or more carriers may be securely maintained within the station while permitting users to continue utilizing the station.

A method for delivering items in a pneumatic delivery system includes receiving delivery information corresponding to an item to be delivered from a first workstation of a plurality of workstations to a second one of the workstations, configuring a first one of a plurality of blowers and a corresponding workstation diverter corresponding to the first workstation to create a path from the first workstation to the first blower, operating the first blower to generate suction drawing the item to the first blower, configuring a subset of the plurality of diverters of the system to create a continuous path from the first blower to the second workstation and routing, when the first and second workstations are in separate subsystems of the pneumatic delivery system, the item through an inter-subsystem exchange unit so that the item is delivered to the second workstation using only the first blower.

A method for delivering items in a pneumatic delivery system includes receiving delivery information corresponding to an item to be delivered from a first workstation of a plurality of workstations to a second one of the workstations, configuring a first one of a plurality of blowers and a corresponding workstation diverter corresponding to the first workstation to create a path from the first workstation to the first blower, operating the first blower to generate suction drawing the item to the first blower, configuring a subset of the plurality of diverters of the system to create a continuous path from the first blower to the second workstation and routing, when the first and second workstations are in separate subsystems of the pneumatic delivery system, the item through an inter-subsystem exchange unit so that the item is delivered to the second workstation using only the first blower.

A canister delivery system includes a vacuum unit. The vacuum unit includes a tube, a canister receiving cylinder and a canister that is slidably positioned within the tube. The vacuum unit selectively urges the canister in the tube. Thus, the canister is selectively delivered into and drawn out of the canister receiving cylinder. The canister is selectively removed from the canister receiving cylinder. The tube is vertically oriented in a vehicle drive through and the canister receiving cylinder is aligned with a vehicle. An extension unit is coupled to the tube. The extension unit selectively extends the canister receiving cylinder outwardly from the tube when the canister is delivered into the canister receiving cylinder. Thus, the extension unit positions the canister receiving cylinder within reach of the vehicle.

A canister delivery system includes a vacuum unit. The vacuum unit includes a tube, a canister receiving cylinder and a canister that is slidably positioned within the tube. The vacuum unit selectively urges the canister in the tube. Thus, the canister is selectively delivered into and drawn out of the canister receiving cylinder. The canister is selectively removed from the canister receiving cylinder. The tube is vertically oriented in a vehicle drive through and the canister receiving cylinder is aligned with a vehicle. An extension unit is coupled to the tube. The extension unit selectively extends the canister receiving cylinder outwardly from the tube when the canister is delivered into the canister receiving cylinder. Thus, the extension unit positions the canister receiving cylinder within reach of the vehicle.

A system for instrument conveyance may include a shuttle device including an internal compartment for containing instruments; at least one handling unit configured to dispense instruments, where the handling unit includes: an opening mechanism configured to open the shuttle device to expose the internal compartment of the shuttle device, and a loading mechanism configured to load instruments into the internal compartment of the shuttle device; at least one head unit configured to obtain input from a user in connection with a transaction involving instruments; and a transportation system disposed between the at least one handling unit and the at least one head unit, where the transportation system is configured to transport the shuttle device between the at least one handling unit and the at least one head unit.

A system for instrument conveyance may include a shuttle device including an internal compartment for containing instruments; at least one handling unit configured to dispense instruments, where the handling unit includes: an opening mechanism configured to open the shuttle device to expose the internal compartment of the shuttle device, and a loading mechanism configured to load instruments into the internal compartment of the shuttle device; at least one head unit configured to obtain input from a user in connection with a transaction involving instruments; and a transportation system disposed between the at least one handling unit and the at least one head unit, where the transportation system is configured to transport the shuttle device between the at least one handling unit and the at least one head unit.

A pneumatic delivery system is used to facilitate delivery of canisters comprising delivery payloads by unmanned systems, such as unmanned aerial vehicles (UAVs). The pneumatic delivery system comprises a tube having a channel within a tube wall, where a canister is configured to move through the tube. The tube comprises a tube opening and a transfer mechanism proximate the tube opening. The transfer mechanism engages a canister having a payload that is moved within the tube. The transfer mechanism moves the canister through the tube opening by extending from a first transfer position to a second transfer position. At the second transfer position, the transfer mechanism orients the tube and releases it to a UAV for delivery.