An apparatus for vacuumizing and sealing a package includes a plurality of platens and vacuum chambers, each chamber adapted to mate with a dedicated one of the platens; a conveying system for conveying the platens and chambers along a generally angular path having a single axis of rotation; an automated loading assembly having a linear component and configured to load a package onto each of the platens; an automated unloading assembly having a linear portion and configured to unload a vacuumized, sealed package from each loaded platen onto an outfeed conveyor; and a vacuumizing/sealing system configured to cause relative movement of each chamber/platen pair, along a portion of the angular path, to form therebetween an air-tight enclosure accommodating the package and effect vacuumization and sealing of the package.

A system for processing delivery items, the system including a delivery item monitoring device comprising one or more sensor and a processor that is communicatively connected to the delivery item monitoring device and that is configured to perform operations comprising obtaining sensor data from the one or more sensor. The operations can also include calculating a depth of the received delivery items in the container based on the sensor data and generating an under-filled indicator, a transport indicator, or an over-filled indicator based on the depth of the received delivery items in the container. Furthermore, the operations can include transmitting the under-filled indicator, the transport indicator, or the over-filled indicator to a control system, wherein the under-filled indicator, the transport indicator, and the over-filled indicator designate how to process the container to the control system.

A system for processing delivery items, the system including a delivery item monitoring device comprising one or more sensor and a processor that is communicatively connected to the delivery item monitoring device and that is configured to perform operations comprising obtaining sensor data from the one or more sensor. The operations can also include calculating a depth of the received delivery items in the container based on the sensor data and generating an under-filled indicator, a transport indicator, or an over-filled indicator based on the depth of the received delivery items in the container. Furthermore, the operations can include transmitting the under-filled indicator, the transport indicator, or the over-filled indicator to a control system, wherein the under-filled indicator, the transport indicator, and the over-filled indicator designate how to process the container to the control system.

A replenishment receptacle comprised of a volumetric region for storing a consumable good during shipping to a consumer location, a processor, a transceiver, programmatic instructions stored in a non-transitory storage medium, an a sensor for determining a quantity of the consumable good in the volumetric region. The sensor periodically detects and reports changes in the quantity of the consumable good present the volumetric region. When the quantity is low (below an established threshold), the consumer good is automatically reordered from a vender, purchased, and shipped to a consumer location. In embodiments, a rate of consumption of the consumable good affects when automatic reordering occurs to ensure the consumable good does not run-out before a new quantity arrives at the consumer location. The replenishment receptacle is able to be discarded in embodiments, where in others it is reusable and/or partially recyclable.

A replenishment receptacle comprised of a volumetric region for storing a consumable good during shipping to a consumer location, a processor, a transceiver, programmatic instructions stored in a non-transitory storage medium, an a sensor for determining a quantity of the consumable good in the volumetric region. The sensor periodically detects and reports changes in the quantity of the consumable good present the volumetric region. When the quantity is low (below an established threshold), the consumer good is automatically reordered from a vender, purchased, and shipped to a consumer location. In embodiments, a rate of consumption of the consumable good affects when automatic reordering occurs to ensure the consumable good does not run-out before a new quantity arrives at the consumer location. The replenishment receptacle is able to be discarded in embodiments, where in others it is reusable and/or partially recyclable.

A device for attaching to a container for storing a fluid, wherein the device comprises one or more sensors for measuring a parameter of the fluid or the container, and wherein the device has a flexible outer construction for conforming to curvature of an upper or lower rim of a container having a substantially cylindrical or barrel shape.

Reservoir systems with improved wake up and fill volume detection techniques are provided. An example reservoir system may include a flexible reservoir and electrical components for detecting fill volume of the flexible reservoir without adversely affecting performance of the flexible reservoir when receiving or dispensing a liquid drug.

Reservoir systems with improved wake up and fill volume detection techniques are provided. An example reservoir system may include a flexible reservoir and electrical components for detecting fill volume of the flexible reservoir without adversely affecting performance of the flexible reservoir when receiving or dispensing a liquid drug.

Embodiments described herein generally relate to devices, systems and methods for measuring a volume or number of doses remaining in a drug delivery device that is used for delivering a dose to a patient. In some embodiments, a dose measurement system for measuring the liquid volume in a container includes a light guide disposed and configured to reflect electromagnetic radiation toward the container. The dose measurement system also includes a light guide disposed and configured to emit electromagnetic radiation into the light guide. A plurality of sensors are located in the apparatus that are optically coupleable to the light guide and are disposed and configured to detect the electromagnetic radiation emitted by at least a portion of the light guide. The apparatus also includes a processing unit configured to receive data representing the portion of the detected electromagnetic radiation from each of the plurality of sensors. The processing unit is further operable to convert the received data into a signature representative of the electromagnetic radiation detected by the plurality of sensors.

Embodiments described herein generally relate to devices, systems and methods for measuring a volume or number of doses remaining in a drug delivery device that is used for delivering a dose to a patient. In some embodiments, a dose measurement system for measuring the liquid volume in a container includes a light guide disposed and configured to reflect electromagnetic radiation toward the container. The dose measurement system also includes a light guide disposed and configured to emit electromagnetic radiation into the light guide. A plurality of sensors are located in the apparatus that are optically coupleable to the light guide and are disposed and configured to detect the electromagnetic radiation emitted by at least a portion of the light guide. The apparatus also includes a processing unit configured to receive data representing the portion of the detected electromagnetic radiation from each of the plurality of sensors. The processing unit is further operable to convert the received data into a signature representative of the electromagnetic radiation detected by the plurality of sensors.