A break-open single-dose package includes a panel defining one or more frangible regions, one or more sheets coupled to the panel and defining one or more pockets therebetween for storing one or more spreadable consumables, and an applicator. The frangible region(s) are adapted to form one or more openings through which the spreadable consumable(s) can exit in response to folding of the panel. The applicator may include one or more optional features such as a chamber, a backing, a tab, a blade, a grip, etc. to permit a user to spread on a surface any spreadable consumable(s) that exit the pocket(s) using the applicator without requiring the user's hand(s) to contact the spreadable consumable(s).

A volatile dispenser for use in a volatile dispensing system is provided. The volatile dispenser includes a blister with a surface having at least one flexible portion, a permeable membrane sealable to the surface and configured to form a sealed reservoir with the blister, and a volatile material contained within the sealed reservoir. Diffusion of the volatile material through the permeable membrane generates a pressure differential between the sealed reservoir and an ambient atmosphere to induce a movement of the at least one flexible portion to perform at least one function for the volatile dispensing system.

A break-open single-dose package includes a panel defining a frangible region, one or more sheets coupled to the panel and defining a pocket therebetween for storing a spreadable consumable, and an applicator. The frangible region is adapted to form an opening through which the spreadable consumable can exit in response to folding of the panel. The applicator includes a backing and a vessel extending from the backing. The vessel defines a channel for receiving any spreadable consumable that exits the pocket. The applicator is positioned adjacent to the frangible region for permitting a user to spread on a surface any spreadable consumable that exits the pocket using the applicator without requiring the user's hand(s) to contact the spreadable consumable. The backing is configured to move with the panel and separate from the vessel in response to folding of the panel. Other example packages and/or applicators are also disclosed.

A mold configuration for forming a pocket in a film comprising: a film support surface; a perimeter edge at said film support surface; wall surfaces inward of the perimeter edge defining a mold cavity; the wall surfaces including transition wall surfaces extending to a bottom wall surface; and a plateau surface inward of the perimeter edge. In one form, the perimeter edge includes sharp corner profile perimeter edge portions defining at least one sharp corner profile. A method of forming a pouch, includes using the disclosed mold configuration.

Child-resistant packaging (1), which comprises at least one blister card (10), known per se, with a carrier film (20) and a cover film (30), wherein the carrier film (20) forms, with at least one blister cavity (25) for receiving a packing product (40), a top side (11) of the blister card (10), and the cover film (30) is connected extensively to the carrier film (20), closes the blister cavity (25) filled with the packing product (40), and forms an underside (12), located opposite the top side (11), of the blister card (10). At least one backing card (50) is fastened in a movable manner at two opposite side edges (15, 16) or peripheral portions (17, 18) of the blister card (10), said backing card (50) resting in a planar manner against the underside (12) of the blister card (10) in a securing position (70) and in the process securing the enclosed packing product (40) against unintentional removal, wherein the backing card (50) is transferable reversibly from the securing position (70) into a removal position (80) by means of external force application (90) by mirror-inverted compression (91, 92) of two mutually opposite packaging portions (5, 6), wherein, during the external force application (90), the backing card (50) is spaced apart from the underside (12) of the blister card (10), forming a packaging interior (100), and the packing product (40) can be released into and removed from the packaging interior (100) by pushing through (35) the cover film (30).

A mold configuration for forming a pocket in a film comprising: a film support surface; a perimeter edge at said film support surface; wall surfaces inward of the perimeter edge defining a mold cavity; the wall surfaces including transition wall surfaces extending to a bottom wall surface; and a plateau surface inward of the perimeter edge. In one form, the perimeter edge includes sharp corner profile perimeter edge portions defining at least one sharp corner profile. A method of forming a pouch, includes using the disclosed mold configuration.

A cover material for blister packs according to the present invention is sequentially provided with a base material layer, an absorption layer and an easily releasable layer in this order. This cover material for blister packs is configured such that: the absorption layer has a skin layer on the easily releasable layer-side surface; the absorption layer contains a resin for absorption layers and an absorbent the skin layer contains a resin for skin layers, but does not contain an absorbent; and the easily releasable resin layer contains an easily releasable resin.

A medical device packaging assembly includes a cover (10), a medical packaging paper (20), a medical device (50), and an adhesive dressing (30). The cover has a pocket (14) and a perimeter (12) extending from the perimeter of the pocket. The medical packaging paper forms a hermetically tight seal between the medical packaging paper and the perimeter of the cover around the pocket. The medical device is contained in the hermetically sealed pocket along with the adhesive dressing. The adhesive dressing is removably adhered to the medical packaging paper.

A mold configuration for forming a pocket in a film comprising: a film support surface; a perimeter edge at said film support surface; wall surfaces inward of the perimeter edge defining a mold cavity; the wall surfaces including transition wall surfaces extending to a bottom wall surface; and a plateau surface inward of the perimeter edge. In one form, the perimeter edge includes sharp corner profile perimeter edge portions defining at least one sharp corner profile. A method of forming a pouch, includes using the disclosed mold configuration. A resultant pouch has a perimeter seal seam having at least one sharp corner profile.

A packaging subassembly for containing at least one foodstuff item. The packaging subassembly includes at least one foodstuff item container and foodstuff-containing packaging portion. The foodstuff-containing packaging portion supports the at least one foodstuff item container. The foodstuff-containing packaging portion includes an illuminator having one or more light sources that is configured to produce light for illuminating the at least one foodstuff item container. A packaging assembly is also disclosed. A method is also disclosed.