A pneumatic transport system for histological samples includes a transport tube within which a carrier containing samples is transported. A station for loading/unloading the samples into/from the carrier is arranged at one tube end. When the carrier is arriving at the station, a blower of the system is deactivated and the carrier is braked, allowing stopping within the station against a stop member. Thereafter a motor imparts, via the stop member, rotation to said carrier until a carrier door is at an angular position substantially corresponding to an angular position of a station door. Thereafter, the carrier is stopped and the doors are opened by an actuator, this enabling activation of an operating cycle of loading/unloading of the samples. Upon completion, the doors are closed, a carrier locking device is deactivated and the blower is activated, allowing departure of the carrier from the station and its transport within the tube.

A pneumatic transport system for histological samples includes a transport tube within which a carrier containing samples is transported. A station for loading/unloading the samples into/from the carrier is arranged at one tube end. When the carrier is arriving at the station, a blower of the system is deactivated and the carrier is braked, allowing stopping within the station against a stop member. Thereafter a motor imparts, via the stop member, rotation to said carrier until a carrier door is at an angular position substantially corresponding to an angular position of a station door. Thereafter, the carrier is stopped and the doors are opened by an actuator, this enabling activation of an operating cycle of loading/unloading of the samples. Upon completion, the doors are closed, a carrier locking device is deactivated and the blower is activated, allowing departure of the carrier from the station and its transport within the tube.

A system for delivering items through a network of pneumatic tubing includes a network of tubing, a system controller controlling operation of the system, a plurality of carriers for delivering items. Each of the plurality of carriers includes a wireless transmission component, a plurality of workstations arranged throughout the system in communication with the network of tubing, at least one blower and at least one diverter. The at least one blower is connected to at least two workstations of the plurality of workstations via the network of tubing passing through the at least one diverter, and a plurality of system transceivers arranged throughout the network of tubing and the plurality of workstations. At least one of the system transceivers receives carrier transit information from at least one of the wireless transmission components of one of the carriers, and the system controller adjusts the operation of the system based on the carrier transit information.

Methods and system for waste collection and transport systems are provided. Systems of the present disclosure comprise at least one of a loading station and a chute providing a point of ingress for materials into a larger system. A plurality of vertical risers or branches are provided. The system and related methods generate a priority order of emptying loading stations based at least in part on loading stations that are provided on the same riser.

Methods and system for waste collection and transport systems are provided. Systems of the present disclosure comprise at least one of a loading station and a chute providing a point of ingress for materials into a larger system. A plurality of vertical risers or branches are provided. The system and related methods generate a priority order of emptying loading stations based at least in part on loading stations that are provided on the same riser.

A system for instrument conveyance may include at least one handling unit configured to dispense or accept instruments; at least one head unit configured to obtain input from a user in connection with a transaction involving instruments, where the at least one head unit includes a presentation opening between an interior side and an exterior side of the at least one head unit; a transportation system disposed between the at least one handling unit and the at least one head unit; and a shuttle device configured to transport instruments between the at least one handling unit and the at least one head unit via the transportation system, where the shuttle device includes an internal compartment for containing instruments, and where the shuttle device is configured to expose the internal compartment to the exterior side of the at least one head unit via the presentation opening.

A system for instrument conveyance may include at least one handling unit configured to dispense or accept instruments; at least one head unit configured to obtain input from a user in connection with a transaction involving instruments, where the at least one head unit includes a presentation opening between an interior side and an exterior side of the at least one head unit; a transportation system disposed between the at least one handling unit and the at least one head unit; and a shuttle device configured to transport instruments between the at least one handling unit and the at least one head unit via the transportation system, where the shuttle device includes an internal compartment for containing instruments, and where the shuttle device is configured to expose the internal compartment to the exterior side of the at least one head unit via the presentation opening.

A system for instrument conveyance may include at least one handling unit configured to dispense or accept instruments; at least one head unit configured to obtain input from a user in connection with a transaction involving instruments, where the at least one head unit includes a presentation opening between an interior side and an exterior side of the at least one head unit; a transportation system disposed between the at least one handling unit and the at least one head unit; and a shuttle device configured to transport instruments between the at least one handling unit and the at least one head unit via the transportation system, where the shuttle device includes an internal compartment for containing instruments, and where the shuttle device is configured to expose the internal compartment to the exterior side of the at least one head unit via the presentation opening.

A system for instrument conveyance may include at least one handling unit configured to dispense or accept instruments; at least one head unit configured to obtain input from a user in connection with a transaction involving instruments, where the at least one head unit includes a presentation opening between an interior side and an exterior side of the at least one head unit; a transportation system disposed between the at least one handling unit and the at least one head unit; and a shuttle device configured to transport instruments between the at least one handling unit and the at least one head unit via the transportation system, where the shuttle device includes an internal compartment for containing instruments, and where the shuttle device is configured to expose the internal compartment to the exterior side of the at least one head unit via the presentation opening.

A conduit access includes a base plate, a sensor, a motor, and a pivoting door plate. The base plate includes a pivot joint, a pass-through, and a stop. The pivot joint is at an edge of the base plate and extends toward a backside of the base plate. The pass-through is in a center of the base plate. The stop is on a rim of the base plate. The stop has a raised thickness on a frontside of the base plate. The sensor is in the pivot joint to detect motion. The motor is coupled to the pivot joint on the backside of the base plate. The motor activates on detection at the sensor. The pivoting door plate is parallel to the base plate. The pivoting door plate is coupled to the motor through the pivot joint to pivot across the frontside of the base plate to cover the pass-through.