In aspects of bi-directional packaging adhesive, a sterile package includes an adhesive patch that adheres to an applied surface. The sterile package includes a non-stick backing that adheres to the adhesive patch, with the non-stick backing being removable for application of the adhesive patch. The sterile package includes packaging that encompasses the adhesive patch and the non-stick backing, and includes a bi-directional adhesive configured to release in a first package opening direction to remove the packaging while maintaining the adherence of the non-stick backing to the adhesive patch, and hold in a second package opening direction to remove the non-stick backing from the adhesive patch along with removing the packaging. A portion of the non-stick backing is attached to an inside of the packaging with the bi-directional adhesive, and the attached portion peels the non-stick backing from the adhesive patch in the second package opening direction to open the packaging.

A wrapping group for wrapping products, in containment bands, including a support structure which defines an advancing plane and with which are associated a first conveyor for conveying a plurality of products one after the other and spaced apart from each other, along the advancing plane and along an advancing direction. Each editorial product includes a book and/or a packet of sheets or of sheeted products stacked on each other. A feeding device feeds a plurality of containment bands laid in length one after the other and spaced apart from each other along a plane substantially transversal or orthogonal to the advancing direction and along a feeding direction substantially transversal or orthogonal to the advancing plane of the products.

A wrapping group for wrapping products, in containment bands, including a support structure which defines an advancing plane and with which are associated a first conveyor for conveying a plurality of products one after the other and spaced apart from each other, along the advancing plane and along an advancing direction. Each editorial product includes a book and/or a packet of sheets or of sheeted products stacked on each other. A feeding device feeds a plurality of containment bands laid in length one after the other and spaced apart from each other along a plane substantially transversal or orthogonal to the advancing direction and along a feeding direction substantially transversal or orthogonal to the advancing plane of the products.

A cluster pack comprises at least two containers connected by a glued joint. One of the containers has a thickened wall region in the region of the glued joint. This region acts as a well reinforcement to reduce the risk of tearing a container during detachment from the cluster pack.

A cluster pack comprises at least two containers connected by a glued joint. One of the containers has a thickened wall region in the region of the glued joint. This region acts as a well reinforcement to reduce the risk of tearing a container during detachment from the cluster pack.

A fluid manifold system includes a first manifold having portions of opposing flexible sheets welded together to form a fluid flow path therebetween, a fluid inlet communicating with the fluid flow path. The fluid flow path of the first manifold includes: a primary flow path communicating with the fluid inlet of the first manifold; and a plurality of spaced apart secondary flow paths that branch off of the primary flow path. Each secondary flow path has a first end communicating with the primary flow path and an opposing second end, each secondary flow path having a diameter that is smaller than a diameter of the primary flow path. The fluid manifold system also includes a plurality of tubular connectors with each tubular connector being secured to the first manifold at the second end of a corresponding one of the secondary flow paths.

A fluid manifold system includes a first manifold having portions of opposing flexible sheets welded together to form a fluid flow path therebetween, a fluid inlet communicating with the fluid flow path. The fluid flow path of the first manifold includes: a primary flow path communicating with the fluid inlet of the first manifold; and a plurality of spaced apart secondary flow paths that branch off of the primary flow path. Each secondary flow path has a first end communicating with the primary flow path and an opposing second end, each secondary flow path having a diameter that is smaller than a diameter of the primary flow path. The fluid manifold system also includes a plurality of tubular connectors with each tubular connector being secured to the first manifold at the second end of a corresponding one of the secondary flow paths.

A method for producing packagings (12a; 12b), in particular cartons, wherein in at least one method step packaging parts (32a; 32b), in particular carton parts, are conveyed by means of a transport device (14a; 14b) having a planar drive, wherein the packaging parts (32a; 32b) are in each case moved via at least one platform (30a; 30b) of the transport device (14a; 14b) which is movable by the planar drive, and are processed during a movement that is induced by the platform (30a; 30b), wherein at least one processing step for producing a packaging (12a; 12b) from a packaging part (32a; 32b) is realized at least partly by a force generated by the at least one movable platform (30a; 30b).

A method for producing packagings (12a; 12b), in particular cartons, wherein in at least one method step packaging parts (32a; 32b), in particular carton parts, are conveyed by means of a transport device (14a; 14b) having a planar drive, wherein the packaging parts (32a; 32b) are in each case moved via at least one platform (30a; 30b) of the transport device (14a; 14b) which is movable by the planar drive, and are processed during a movement that is induced by the platform (30a; 30b), wherein at least one processing step for producing a packaging (12a; 12b) from a packaging part (32a; 32b) is realized at least partly by a force generated by the at least one movable platform (30a; 30b).

A carrier for holding a plurality of containers includes a top retainer comprising a top attachment panel for at least partially receiving the plurality of containers, and a bottom retainer comprising a bottom attachment panel for being attached to the plurality of containers.