A system for locking together sheets of semi-rigid material. The system includes a clamp with a head having a clamp face, and a threaded rod having a first end affixed to the clamp face, and a second end that penetrates through the sheets. The system also includes a nut with a face forced into contact with the second side when tightened to the rod. The clamp face includes a gripping region, in a first circumferential position, with a trough and a hook that projects beyond the plane of the clamp face; and a leverage region, in a second circumferential position, that projects axially, so that, as the nut is tightened, the leverage region contacts the sheets' first side, and upon continued tightening, exerts a torque on the clamp head, elastically deforming the clamp so as to cause the hook to dig into the first side and prevent head rotation.

An insert for a flow wrapped packaging assembly has a bottom wall (18) and a peripheral wall (20) extending from said bottom wall to define an interior volume (21) for containing product (14). The insert has a tongue (20) at a top end of the peripheral wall which is movable between a closed position in which it at least partially closes the interior volume at the top end of the insert and an open position in which it does not impede access to the interior volume. The insert (12) can be top-filled when upright with the tongue open and then moved to a horizontal orientation for flow wrapping using a HFFS process with the tongue closed to prevent the contents spilling out. The insert is particularly suitable for enabling a plurality of disc-shape products, such as beverage pads, to be flow wrapped using HFFS processes.

A reusable plastic container is provided. The container includes a plastic container body having opposing side panels and opposing end panels. The container body also includes top side panel flaps attached to a top portion of each side panel, and bottom side panel flaps attached to a bottom portion of each side panel. The container body has top end panel flaps attached to a top portion of each end panel, and bottom end panel flaps attached to a bottom portion of each end panel. The top and bottom side panel flaps are each defined with respect to the side panels by a fold line. The fold lines including at least one scored portion and at least one welded portion.

Unitary blank for forming a container includes a base panel, a back body panel, a front body panel, a first side panel, a second side panel, and a pocket portion. The pocket portion includes a support panel, a pocket flap, a first side tab, and a second side tab. The first and second side panels are configured to be joined to the back body panel such that the front and back body panels and the first and second side panels define a container. A support panel of the pocket portion is configured to be separated from the front body panel along a front upper edge and joined to the back body panel such that the pocket portion and the back body panel define a pocket therebetween. A container and a method for forming a container from a unitary blank are also provided.

A single blank for forming a box, the blank comprising a first panel, a second panel, a third panel and a fourth panel. The first panel is foldably connected to a folding support structure that is foldable and insertable inside the box. The folding support structure comprises a first inner flap which is connected to the first panel along a first inner flap fold line, a second inner flap which is connected to the first inner flap along a first inner flap second fold line, a first integral holding panel which is connected to the second inner flap along a first edge fold line, and a second integral holding panel which is foldably connected to the first integral holding panel along a second integral holding panel fold line.

A corrugated cardboard blank for making a collapsible container including one or more panels joined to a bottom panel. The bottom panel is divided into first and second sectional panels on opposing sides of an interface comprising perforated portions extending from a first pair of diagonally opposing corners of the bottom panel. Each perforated portion includes an inner end, wherein the inner ends of the perforated portions are longitudinally spaced from each other. First and second fold lines extend diagonally at least partially between a second pair of diagonally opposing corners of the bottom panel and respective perforated portions. A frangible central portion of the interface extends between the inner ends of the perforated portions, wherein a plurality of unbroken flutes of the corrugated material extend laterally across the central portion of the interface.

An exemplary, nonlimiting embodiment of the present disclosure provides a box, as well as a method of use for the box, which may be opened and closed without substantially damaging the structural integrity of the box. The box comprises a segmental lid, which comprises of a first, second, third, and fourth flap. The first and fourth flaps further comprise a first and second pivotable tab, respectfully. The pivotable tabs are pivotally configurable and are preferably configured to be oriented in substantially opposing directions, relative to one another when the first and fourth flap are disposed in the same plane. The pivotable to allow for the flaps to be disposed in a closed position without damaging the box. The method comprises disposing the flaps into their respectively closed positions such that they may be subsequently re-opened without compromising the structural integrity of the box.

Disclosed is a packaging assembly that may include a blank for forming a corner lock. The blank for forming the corner lock may include a first body panel foldably connected to a side panel, a second body panel foldably connected to the side panel, where the first and second body panels may be foldable about the side panel to form a slot within the corner lock in an assembled position. The blank may further include a first and second locking panel foldably connected to the first body panel, and a third and fourth locking panel which may be foldably connected to the second body panel.

A blank for constructing a crush-tolerant container includes a first side panel, a bottom panel, a second side panel, and a top panel coupled together in series. At least one cutout and at least one bridge portion are defined along a first fold line between the top panel and the first side panel. The at least one bridge portion and the at least one cutout are configured to maintain the top panel in a plane spaced above a top edge of the first side panel when the container is formed and the top panel is not under a stacking load, and to allow the top panel to move downwardly such that at least a portion of the top panel is substantially co-planar with the top edge of the first side panel when the container is formed and the top panel is under the stacking load.

A leak resistant bliss-type container comprising a first blank defining a bottom wall, opposed first side walls hingedly connected to longitudinal edges of the bottom wall and extending upwardly from the bottom wall, a vertical side flange hingedly connected to each of a pair of opposing lateral edges of the first side walls, and opposing bottom flanges hingedly connected to lateral edges of the bottom wall and extending upwardly in overlapping relation to the vertical side flanges. Second and third identical end blanks are provided, each end blank defining at least an end wall secured in overlapping relation to the vertical side flanges. A corner piece is defined by a web of material, each corner piece extending between a longitudinal edge of one of the vertical side flanges and a longitudinal edge of the bottom flange to define a leak resistant corner.