A plant for automated packaging of items in cardboard boxes includes a forming station of open sheet boxes starting from a cardboard web, an item introduction system, a box closing station, and a feeding system. A cutting and creasing system at the forming station produces a longitudinal elongate element defining the bottom and top walls and a first pair of side walls of the box, and transverse panels providing the second pair of side walls. A first gluing system bonds the transverse panels to the elongate element by applying hot-melt strips on the side edges of the elongate element, and a pair of suction-cup manipulators applies the transverse panels on the elongate element at the glue strips to obtain a cross-shaped blank. The closing station includes a folding and automatic gluing system that folds and bonds the side walls and the top wall of the box to produce finished packages.

A packaging machine includes a series of stations or assemblies, including a carton feeding system and a product conveyor that receives a series of articles or products at a first, upstream or intake end of the packaging machine. The products generally can be grouped into a series of products, such as for forming six-packs, four-packs or other package configurations, and will be wrapped by or loaded into a series of carton blanks, after which the loaded cartons will be moved through a discharge station. The discharge station meters the loaded cartons or packages for discharge from the packaging machine.

A method and a system for erecting boxes from box templates of different sizes, said method comprising the steps of: adjusting a size of a frame (5; 105) according to a size of a box template (3; 103) which should be erected; wrapping the box template (3; 103) to be erected around the frame (5; 105); and separating the frame (5; 105) from the box template.

The present invention relates to a simplified device and a process-technically simplified and also more rapidly applicable method for transporting readily cut and filled hose pieces within a machine for producing pouches filled with brewable material. The device according to the invention has a transport wheel which has several supports distributed over its circumference, each holding a pouch which are pivotally mounted on the transport wheel. In the method according to the invention, a hose piece for forming a pouch with at least one chamber between a head and a bottom is inserted in the radial direction into a support of the transport wheel. In a removal station the pouch is removed radially from the transport wheel with the bottom leading.

The present invention relates generally to a new and improved fishing bait bucket or container. More specifically, this invention relates to a bait bucket that has a generally cylindrical insulated main body, a suction hose assembly, a water pump, an overflow hose assembly, a main lid, and a secondary lid. This invention allows for the continuous passive cycling of water through the bait bucket to optimize the conditions therein and the lifespan of the baitfish.

A system for re-securing a bale with defective or broken wrapping. The system has a waterproof material; at least one rope loop wherein the at least one rope loop is hermetically attached to the waterproof material and maintains waterproofing of the waterproof material; at least one rope wherein the at least one rope passes through an aperture defined by the at least one rope loop; and at least one O-ring wherein the at least one of O-ring is attached to a first end of rope of the at least one rope.

A system including a pair of prongs extending in a transverse direction, spaced apart from one another by a gap configured to receive carton blanks and product containers therein, and to crease retention flaps of the carton blank, wherein each prong travels along a cam path, a panel extending in a longitudinal direction in-between the pair of prongs configured to support the product containers and guide the retentions flaps, a pair of asymmetrical guide rails underneath the panel configured to alternatingly crease a first primary flap and a second primary flap of the carton blank, and a conveyor mechanism proximate to the panel configured to move they product container and a carton blanks along the panel.

A wraparound sleeving system is provided and comprises a sleeving machine having a conveyor for transporting packaging sleeves. The packaging sleeves comprise one or more apertures for receiving a portion of one or more respective products. The sleeving machine comprises a folder for folding the sleeve so as to wrap a portion of said sleeve over or around a portion of said product after said portion of said product is received in said aperture.

Forming a cardboard blank includes making two score lines on a cardboard sheet to define a central sector with three portions and two lateral sectors. Four cuts are made in a direction transverse to the score lines to form in one lateral sector a first closing flap and first and second reinforcing flaps and, in the other lateral sector, a second closing flap and third and fourth reinforcing flaps. The first and second closing flaps are folded at respective score lines, and one portion folded to cover a flank of an article on another portion so the first and third reinforcing flaps project. A third portion is folded to cover another flank and an upper article face so the second and fourth reinforcing flaps project. A band folds the first two reinforcing flaps towards the first closing flap and the third and fourth reinforcing flaps towards the second closing flap.

Disclosed is a packaging sheet for packaging of cheese, in particular white moulded soft cheese. The packaging sheet comprises: an inner surface and an outer surface of the packaging sheet, said inner surface being configured for facing the cheese in a packaged use position of the packaging sheet; a paper layer with a first surface and a second surface; a coloured layer provided on a first surface of the paper layer, an outer surface of the coloured layer establishing said outer surface of the packaging sheet; and a polymer layer with a water vapour transmission rate of at least 300 g/m2/24 hours at 38° C. and 90% atmospheric humidity. The polymer layer being coated on the second surface of the paper layer with a first surface of the polymer layer facing the paper layer and a second surface of the polymer layer establishing said inner surface of the packaging sheet.