Provided herein is a pneumatic carrier having a leak resistant cargo area where first and second mating shells form the carrier. To provide a leak resistant cargo area, the one embodiment of the carrier employs a cantilevered sealing element on a first sealing periphery of the first shell. A free end of the cantilevered sealing element is configured to engage a sloped surface on a second shell. As the shells close, the sealing element slides down the sloped surface to form a seal between the shells. The use of the cantilevered sealing element in conjunction with the sloped surface reduces the compressive force required to form a seal between the shells.

Provided herein is a pneumatic carrier having a leak resistant cargo area where first and second mating shells form the carrier. To provide a leak resistant cargo area, the one embodiment of the carrier employs a cantilevered sealing element on a first sealing periphery of the first shell. A free end of the cantilevered sealing element is configured to engage a sloped surface on a second shell. As the shells close, the sealing element slides down the sloped surface to form a seal between the shells. The use of the cantilevered sealing element in conjunction with the sloped surface reduces the compressive force required to form a seal between the shells.

A magazine insert for a pneumatic tube conveyor capsule for receiving sample tubes filled with bodily fluids includes a magazine drum, a fastening unit, a slider and a catch element. The magazine drum has a plurality of receiving chambers for the sample tubes. The fastening unit is pivotable about the longitudinal axis from a fastening position to a release position. The slider in the central recess of the magazine drum is slidable in axial direction from a first functional position bidirectionally to a respective second functional position relative to the magazine drum. The catch element is fastened to the slider and extends in radial direction into a control cam of the fastening unit. A pivoting of the fastening unit from the fastening position to its release position can be effected by transferring the slider to its corresponding second functional position.

A pneumatic delivery capsule usable in a pneumatic delivery tube has a tubular side wall extending along and centered on a longitudinal axis, respective capsule heads fixed to respective axially opposite ends of the tubular side wall and dimensioned to slide with the tubular side wall inside the pneumatic delivery tube, and two axially spaced roller bearings each having an outer race fixed to the tubular side wall and an inner race. An insert is fixed to and extends longitudinally between the inner races for receiving an object to be transported. This insert is rotatable on the bearings in the tubular side wall about the longitudinal axis of the tubular side wall with a center of gravity of the insert together with the object to be transported being radially outward of the longitudinal axis.

A pneumatic delivery capsule usable in a pneumatic delivery tube has a tubular side wall extending along and centered on a longitudinal axis, respective capsule heads fixed to respective axially opposite ends of the tubular side wall and dimensioned to slide with the tubular side wall inside the pneumatic delivery tube, and two axially spaced roller bearings each having an outer race fixed to the tubular side wall and an inner race. An insert is fixed to and extends longitudinally between the inner races for receiving an object to be transported. This insert is rotatable on the bearings in the tubular side wall about the longitudinal axis of the tubular side wall with a center of gravity of the insert together with the object to be transported being radially outward of the longitudinal axis.

Systems and methods for tracking carriers and other critical path items are provided. The systems and methods comprise structure and functionality to allow for the real-time tracking of pneumatic tube smart carriers and other devices including the use of an IoT capable device, a computer, and an IoT access point. The present disclosure also provides monitoring and analytics capabilities to allow for complex information to be tracked. Such information includes, but is not limited to carrier velocity, air flow, and latch status of the carrier's door.

Systems and methods for tracking carriers and other critical path items are provided. The systems and methods comprise structure and functionality to allow for the real-time tracking of pneumatic tube smart carriers and other devices including the use of an IoT capable device, a computer, and an IoT access point. The present disclosure also provides monitoring and analytics capabilities to allow for complex information to be tracked. Such information includes, but is not limited to carrier velocity, air flow, and latch status of the carrier's door.

Systems and methods for tracking carriers and other critical path items are provided. The systems and methods comprise structure and functionality to allow for the real-time tracking of pneumatic tube smart carriers and other devices including the use of an IoT capable device, a computer, and an IoT access point. The present disclosure also provides monitoring and analytics capabilities to allow for complex information to be tracked. Such information includes, but is not limited to carrier velocity, air flow, and latch status of the carrier's door.

Systems and methods for tracking carriers and other critical path items are provided. The systems and methods comprise structure and functionality to allow for the real-time tracking of pneumatic tube smart carriers and other devices including the use of an IoT capable device, a computer, and an IoT access point. The present disclosure also provides monitoring and analytics capabilities to allow for complex information to be tracked. Such information includes, but is not limited to carrier velocity, air flow, and latch status of the carrier's door.

A pneumatic-tube container having a container cylinder and having a cover and a base, at least the cover can be moved from a closed position into an open position. The container cylinder contains an insert, which has at least one tubular channel extending parallel to the longitudinal axis of the container cylinder. At least one channel contains at least one clamping element, which projects laterally into the channel. The damping element can be moved out of the channel, wherein the movement out of the channel and into the same is coupled to the movement of the cover from the closed position into the open position and from the open position into the closed position, respectively. When the cover is open, and preferably also when the base is open, the sample tubes therefore fall out due to gravity when the pneumatic-tube container is held with the opening in the downward direction.