Described herein is a packaging system comprising a sleeve having a plurality of sides, an open top, and an open bottom, each of the sides having an inner surface, an inner liner located on the inner surfaces of the sides of the sleeve, the inner liner having an inner surface that defines a cavity, a plurality of building panels located in the cavity, and an outer wrapping surrounding at least a portion of the sleeve and at least a portion of the plurality of building panels.

Described herein is a packaging system comprising a sleeve having a plurality of sides, an open top, and an open bottom, each of the sides having an inner surface, an inner liner located on the inner surfaces of the sides of the sleeve, the inner liner having an inner surface that defines a cavity, a plurality of building panels located in the cavity, and an outer wrapping surrounding at least a portion of the sleeve and at least a portion of the plurality of building panels.

A pharmaceutical order processing system, components thereof, and associated methods for filling a prescription order. The pharmaceutical order processing system includes a lower insert placer, a syringe placer, a dosing cup placer, a pharmaceutical container placer, and/or an upper insert placer. The lower insert placer places a lower insert into a box. The syringe placer places a syringe into a syringe compartment of the lower insert. The dosing cup placer places a dosing cup into a dosing cup compartment of the lower insert. The pharmaceutical container placer places a pharmaceutical container into a pharmaceutical container compartment of the lower insert. The upper insert placer places an upper insert into the box after the box has received the lower insert and the lower insert has received the syringe, the dosing cup and the pharmaceutical container.

The present disclosure provides a preservation method for room temperature logistics of fresh meat, e.g., pork, including the following steps: cutting a slaughtered pig into pieces while the pork is hot, and cooling to 0° C. to 4° C.; cooling again to −4° C. to −2° C. so that the meat pieces reach a chilled/slightly-frozen state; sub-packaging the chilled/slightly-frozen meat pieces; putting sub-packaging boxes with fresh meat pieces into an insulation foam box together with ice bags for packaging; and using a room temperature logistics vehicle for transportation and distribution, where, when in an ambient temperature is at least 24° C. (e.g., summer), transportation and distribution time is ≤36 h; and when the ambient temperature is less than 24° C. (e.g., spring, autumn, and winter), the transportation and distribution time is ≤72 h.

The present disclosure provides a preservation method for room temperature logistics of fresh meat, e.g., pork, including the following steps: cutting a slaughtered pig into pieces while the pork is hot, and cooling to 0° C. to 4° C.; cooling again to −4° C. to −2° C. so that the meat pieces reach a chilled/slightly-frozen state; sub-packaging the chilled/slightly-frozen meat pieces; putting sub-packaging boxes with fresh meat pieces into an insulation foam box together with ice bags for packaging; and using a room temperature logistics vehicle for transportation and distribution, where, when in an ambient temperature is at least 24° C. (e.g., summer), transportation and distribution time is ≤36 h; and when the ambient temperature is less than 24° C. (e.g., spring, autumn, and winter), the transportation and distribution time is ≤72 h.

A machine for making capsules containing powder product including a plurality of processing stations configured for performing respective processes for making capsules and movement means configured for conveying said capsules along a processing path extending through the plurality of processing stations. The movement means include a transfer drum and a plurality of units each designed to receive at least one capsule body. Moreover, each unit is coupled to a lateral surface of the transfer drum and is configured to rotate relative to the lateral surface about a respective orientation axis parallel to an axis of rotation of the transfer drum.

The present disclosure relates to a sterilization packaging method for a body-attachable biometric monitoring device. Provided is a sterilization packaging method for a body-attachable biometric monitoring device, the method in which a sterilization packaging process can be performed in a convenient and simple manner, further contamination which can occur during a sterilization process is prevented, damages due to moisture and the like after the packaging is complete are also prevented and thus complete sterilization packaging can be performed, in order to separately perform a sterilization packaging step in two steps, primary packaging is performed for a sterilizable state and then sterilization is performed, secondary packaging is performed to maintain airtightness for a primary packaged article which has been sterilized and thus penetration by an external contaminant and the like during the sterilization and packaging processes is prevented to prevent damages to a biometric monitoring device, a separate adsorbent is positioned outside the primary packaged article and then the secondary packaging is performed and thus functional degradation of the adsorbent during the sterilization process is prevented to enable inner packaging of the adsorbent in an excellent functional state, and a moisture removal function can be performed stably to enable a complete sterilization packaging.

Described are systems, methods, and apparatus for injecting dunnage into a container after an item has been placed in the container and the container has been sealed or otherwise closed. A dunnage injection apparatus is configured to penetrate a surface of the sealed container and expel gas and dunnage into an interior space of the container. The gas fills the expelled dunnage forming gas-filled pouches of dunnage that fill voids within the interior space of the container and secure and protect the item within the container.

Described are systems, methods, and apparatus for injecting dunnage into a container after an item has been placed in the container and the container has been sealed or otherwise closed. A dunnage injection apparatus is configured to penetrate a surface of the sealed container and expel gas and dunnage into an interior space of the container. The gas fills the expelled dunnage forming gas-filled pouches of dunnage that fill voids within the interior space of the container and secure and protect the item within the container.

Described herein is a packaging system comprising a sleeve having a plurality of sides, an open top, and an open bottom, each of the sides having an inner surface, an inner liner located on the inner surfaces of the sides of the sleeve, the inner liner having an inner surface that defines a cavity, a plurality of building panels located in the cavity, and an outer wrapping surrounding at least a portion of the sleeve and at least a portion of the plurality of building panels.