The present invention relates to a box forming machine for forming boxes of different shapes and sizes, comprising a forming station including an operating space, demarcated by upper and lower devices and receiving a box during the forming thereof, without horizontal movement of said box; flexible, pressurizable, and heatable glue conduits connected to a plurality of glue application nozzles, configured for being positioned in different positions consistent with the size of the box to be formed, and at least one electrically-operated valve configured for applying said hot glue in respective relative positions of said glue application nozzles with respect to the box, according to operative parameters associated with the dimensions of the box to be formed, including dimensions of upper and lower flaps of said box and at least one working temperature of a hot glue to be applied previously input in a user interface connected to a control device.

A converting machine is used to convert sheet material into packaging templates for assembly into boxes or other packaging. The converting machine includes a converting assembly that performs transverse conversion functions and longitudinal conversion functions on the sheet material to create the packaging templates. A fanfold crease sensing mechanism detects the presence and location of fanfold creases in the sheet material. Based on the location of the fanfold creases, the fanfold creases are either cut out of the sheet material, or the sheet material is cut to adjust the position of the fanfold crease in a packaging template.

Various embodiments of the present disclosure provide a case former configured to receive a case in a blank configuration, open the case into a tubular configuration, fold the lower minor flaps to manipulate the case into a partially closed-bottom configuration, square the case while in the partially closed-bottom configuration, and fold and tape the lower major flaps shut to manipulate the case into a closed-bottom configuration. The squaring step ensures that the case has a rectangular cross-section after taping rather than a rhomboid cross-section.

A method for manufacturing a paperboard bottle and spiral-wound paperboard bottle. The bottle has a tubular body portion, a shoulder and neck portion having a circular cross-section narrowing from the body portion to a circular mouth. The paperboard bottle is a liquid packaging board having thermoplastic polymer coating on both sides. The method includes cutting a planar elongated blank from a packaging board sheet. Protecting exposed cut raw edge of the first longitudinal edge against absorption of liquid. Securing the first end of the blank to a rotatable mandrel having a rotation axis (x) and an outer shape corresponding to the shape of the bottle. Rotating the mandrel to wind the blank spirally onto the mandrel, so that the longitudinal edges overlap applying heat-sealing energy and pressure, onto the overlapping longitudinal edges to form a bottle with hermetically sealed spiral seam and removing the mandrel from inside the bottle.

A registration system including an insert including a center segment and a rail, the rail extending upwards from the center segment; and a register defining a cutout, the rail sized to fit within the cutout of the register, the cutout receiving the rail, the register configured to slidably move along the rail while maintaining a position parallel to the center segment.

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 according to a size of a box template which should be erected; wrapping the box template to be erected around the frame; and separating the frame from the box template.

A container includes a base panel. An opposed pair of end panels extends from the base panel at opposite ends of the base panel. A front panel extends from the base panel and extends from a first one of the end panels to a second one of the end panels. A back panel extends from the base panel and extends from the first one of the end panels to the second one of the end panels. The end panels taper so top edges of the front and back panels are either longer or shorter than bottom edges of the front and back panels. Each end panel includes a plurality of overlapping end flaps adhered to one another. The end flaps of each of the end panels are connected to a respective one of the base panel and each of the front and back panel at respective fold lines.

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 according to a size of a box template which should be erected; wrapping the box template to be erected around the frame; and separating the frame from the box template.

A container includes a plurality of panels connected together at fold lines configured for extending at least partially around an interior space, including a front panel, a first side panel, a back panel and a second side panel. A plurality of end flaps are included, each end flap foldably connected to a respective one of the panels. The end flaps are overlapped with one another to enclose an end of the interior space. An air cell flap is foldably connected to at least one of the end flaps and/or one of the panels, wherein the air cell flap is within the interior space and is inwardly offset from the end flaps to define an air cell between the air cell flap and the end flaps to protect product within the interior space.

A system and method for forming knock-down blanks from die-cut flat blanks used for forming shipping cartons or cases, comprising positioning a flat blank in a forming device, wherein the flat blank has four panels each with a middle portion, a top flap hingeably connected to the middle portion and a bottom flap hingeably connected to the middle portion, wherein the fourth panel has a tab formed on the outer edge of its middle portion, wherein the forming device includes a first mechanically operated arm and a second mechanically operated arm, wherein the first arm contacts the first panel, and wherein the second arm contacts the fourth panel; applying adhesive to the tab; and using the first and second arms to fold the first and fourth panels 180° inward, wherein the adhesive on the tab joins the first and fourth panels together.