The disclosure relates to a sheet, a pouch containing pills made of a sheet material and a web of multiple of said pouches. The disclosure also relates to a method for manufacturing said web which makes use of said sheet. The pouches allow for optimal visibility of information printed on the pouches as well as optimal visibility of the pills for inspection purposes.

A packaging apparatus for small piece goods, the use of the packaging apparatus, and a method for producing a blister tube are provided. The packaging apparatus includes a packaging material guiding device for providing a shaped packaging material web suitable for receiving small piece goods, a longitudinal joining device which is arranged downstream of the packaging material guiding device and a transverse joining device which is arranged downstream of the packaging material guiding device. The transverse joining device joins the shaped packaging material web together at predetermined intervals transversely to the direction of travel to form a transverse joining area. The transverse joining device includes two joiners, a first joiner having a plurality of embossers that are individually movable transversely to the direction of travel and are arranged so that they can be extended from the first joiner and retracted into the first joiner.

Items may be packaged for shipping or storage using additive manufacturing techniques, also known as three dimensional (3-D) printing. Packages made by such processes may be referred to as 3-D printed packages and may include packing material printed at least partially around the item(s) and/or an outer cover printed about at least a portion of an exterior of the packing material and/or the item(s). A packaging system may include a 3-D printer and a computing device communicatively coupled to the 3-D printer. The computing device may obtain a packaging model describing a package for one or more items. A print module of the computing device may include instructions to print the package at least partially about the item(s) according to the packaging model.

A method for packaging discrete medicaments in pouches in a packaging device configured to form and fill the pouches in an elongated web, the method comprising the following steps: transporting the elongated web along a web trajectory, printing information on the elongated web related to the discrete medicaments that are fed to the elongated web at the position of the printed information on the elongated web, feeding the discrete medicaments to the elongated web at the position on the elongated web of the related printed information, inspecting the elongated web to determine whether there is a fault related to the elongated web, and in response to a fault being detected, printing a fault indication or a fault symbol on the elongated web, and forming an empty pouch at the position of the fault indication or fault symbol.

Provided are a banknote-sorting production line and device thereof for banknote-bundle stamping and code-spraying, comprising a bundle stamping apparatus, a bundle code-spraying apparatus, and a banknote-supporting platform provided with a banknote inlet and a banknote outlet; the bundle stamping apparatus comprises a conveyor belt and a stamping mechanism located above the conveyor belt; the bundle code-spraying apparatus comprises a banknote-pushing mechanism and a code sprayer located directly above the banknote-supporting platform; the side of the banknote-supporting platform that is adjacent to the banknote inlet is provided with a gap matching the shape of the conveyor belt; the outlet end of the conveyor belt extends into the gap; the banknote-pushing mechanism comprises a banknote-pushing plate and a first drive mechanism that drives the banknote-pushing plate by moving reciprocatingly from the banknote-inlet side to the banknote-outlet side.

Disclosed is a method for packaging articles, piece goods, or containers (12) and/or for grouping the articles, piece goods, or containers (12) to form bundles (32) by way of helically wrapping the articles, piece goods, or containers (12) and/or the groupings, which are transported in a conveying direction (18) in an article flow or piece goods flow (14), into multiple layers of an elastic film about a longitudinal axis extending through the article flow or piece goods flow (14), with the elastic film being applied under tension. A film packaging (30) for the articles, piece goods, or containers (12) that moves continuously in conveying direction (18) is formed thereof, which film packaging (30) is provided with perforations (42) in planes perpendicular to the longitudinal axis and/or is severed in planes perpendicular to the longitudinal axis between consecutive articles, piece goods, containers (12), or, as the case may be, between article pairs, piece good pairs, or container pairs, or between groups of a plurality of articles, piece goods, or containers (12) that are being conveyed next to each other, thereby forming bundles (32) that are conveyed one after the other.

The bundles (32) that have been separated from each other are sorted, assembled into layers, palletized, and/or stacked in transport stations and/or in handling stations (34) disposed downstream, with the film packaging (30) being severed at in each case specified and/or variable spacings to preceding separating locations for the purpose of separating bundles (32) of variable sizes or, as the case may be, bundles (32) with a variable number of articles, piece goods, or containers (12) gathered together by means of film.

Disclosed herein is a food box that includes an outer box and an inner bag located within the outer box configured to preserve food contents within the inner bag by preventing air from entering into the inner bag. The cereal box further includes an opening in the inner bag and a cap configured to seal the opening. The cap is attachable and unattachable to the opening. Air is prevented from entering into the inner bag through the opening when the cap is attached. The outer box includes a perforated portion that is removable from the outer box, and when the removable portion is removed, the cap is exposed. Further included herein is a method of forming the food box.

Implementations of the disclosure relate to tea bags that are splitable into multiple self-contained smaller portions. Smaller quantities of tea leaves are individually sealed in compartments of a tea bag with a mechanism for splitting built into the tea bag. In one embodiment, the mechanism for splitting can be pre-formed perforations along an axis of symmetry. The perforations can also be along some asymmetrical axis to divide the tea bag into inequal smaller portions. In some embodiments, the mechanism for splitting may not involve a tear, but just a separation of the smaller portions by imparting slight force by hand.

A perforated panel assembly is disposed in a shrink-wrapped bottle pack. The panel assembly includes a removable panel and an alternating series of cuts and lands bordering a portion of the removable panel. The alternating series of cuts and lands includes a first side perforation defining a first portion and a second portion. The first portion is positioned on a top panel of the bottle pack and the second portion is positioned on a first side of the bottle pack. The alternating series of cuts and lands further includes a second side perforation defining a first portion and a second portion. The first portion is positioned on the top panel of the bottle pack and the second portion is positioned on the first side of the bottle pack. The second portion of the first side perforation is oriented oblique to the first portion of the first side perforation.

Packages used to deliver items or other payloads via a drone may be customized and 3D printed to house the payload. The package may be customized to minimize the size and/or weight needed to house the payload. The customized packages may include one or more attachment mechanisms adapted to engage with or otherwise be coupled to the drone for delivery. Multiple individual customized packages can be secured together into a composite package for delivery by drone. The customized package may be designed to be aerodynamic given the shape of the payload and the flight characteristics of the drone. The drone itself may be the package, with the payload housed within a portion of the drone. The package and/or a portion of the drone (e.g., fuselage, wing, body, frame, etc.) may be printed at least partially in, on, or around an item or package to be transported by the drone.