The disclosure relates to a cardboard box for holding content comprising liquid and/or gas. The box comprising: 3 or more side walls and a bottom side, a layer of liquid and/or gas non-permeable coating, every side wall having on its upper end a brim/ collar area, the brim/collar area being folded to form an unbroken encircling receiving surface for attaching a lid foil.

A container content apparatus comprises two inserts. Each insert comprises a top portion, a bottom portion, and two side flaps. Each top portion comprises a die cut handle. The apparatus is adapted to be inserted into an inside of a container adjacent to interior walls of the container. An area defined by the inserts is adapted to receive a stack of media. When the inserts are removed via the handles, a gap or space exists between the outer edges of the stack and the interior walls of the container providing automatic alignment of the stack centered on the inside of the container and providing proper alignment to feed the stack directly from the container to an infeed of a printer.

A container, formed from a container blank, for containing therein a dispensable material of variety of form, has a plurality of panels. A first panel has severance lines that upon application of pressure disengage to create an integral spout for dispensing of the material. Opening and closing of the container is each via easy application of minimal force causing the spout to open or close as needed. The initial opening of the spout severs the severance lines that form the spout. Thereafter the spout may be open or closed upon proper application of pressure around folding lines of the container.

A tray for holding one or more food products includes a plurality of panels including a central panel, at least one attachment panel in at least partial face-to-face contact with a portion of the central panel, at least one side panel foldably connected to a respective panel of the plurality of panels, at least one end panel foldably connected to a respective panel of the plurality of panels, and at least one bottom panel foldably connected to a respective panel of the plurality of panels, the at least one side panel intersecting the at least one end panel to at least partially form a sidewall of the tray extending around an interior of the tray, the at least one bottom panel at least partially forming a bottom wall of the tray, and tray engaging features for at least partially supporting another tray in the interior of the tray.

A temperature insulated packaging system includes a container having interior surface bounding an interior volume and a liner disposed within the interior volume and at least partially bounding a compartment configured to receive an item for temperature insulated shipping. The liner includes a first sleeve made of cellulose material and at least partially bounds a channel. The first sleeve has an outside wall disposed adjacent to the container and an opposing inside wall disposed adjacent to the compartment configured to receive the item for shipping, the channel being disposed between the inside wall and the outside wall. At least one insulation sheet is disposed within the channel of the first sleeve, the at least one insulation sheet being made of a cellulose material and having a plurality of recesses formed thereon.

The invention is a shipping container for high watt-hour lithium-ion batteries, the container comprising an interior metal container and an exterior container within which the interior metal container is disposed, the interior metal container containing a free flowing expanded glass granulate having fire extinguishing properties, the interior metal container including a vent member for releasing gas from the interior container in a controlled manner, the vent having a cooperating heat shield in contact therewith to prevent ignition of gas exiting the vent and also suppress the heat associated with the exiting gas.

The invention is a shipping container for high watt-hour lithium-ion batteries, the container comprising an interior metal container and an exterior container within which the interior metal container is disposed, the interior metal container containing a free flowing expanded glass granulate having fire extinguishing properties, the interior metal container including a vent member for releasing gas from the interior container in a controlled manner, the vent having a cooperating heat shield in contact therewith to prevent ignition of gas exiting the vent and also suppress the heat associated with the exiting gas.

A sheet packaging material for producing a sealed package comprises two first boundary edges parallel to a longitudinal direction and two second boundary edges parallel to a transversal direction orthogonal to the longitudinal direction. The sheet packaging material includes at least a bottom transversal crease line including a bottom central portion, a bottom end portion and a bottom side portion. The sheet packaging material includes a pair of slanted crease lines inclined relative to both the longitudinal and transverse directions. The slanted crease lines have first ends pointing to one of the second boundary edges and second ends pointing to a continuous line parallel to the transversal direction and including the bottom central portion and the bottom end portion. The slanted crease lines delimit, with the bottom side portion, a flap area of the sheet packaging material designed to form at least part of a lateral flap of the package.

A method for producing packaging comprises providing the shell part that defines an opening, a cavity at least partially formed by a bottom wall and side walls, and a continuously circumferential lower contact surface at a constant height around the opening of the cavity and providing a collar including the circumferential edge flange. At least one bottom tool is structured to comprise aa lower contact surface and a cavity configured to receive the shell part. At least one top tool is structured to comprise an upper contact surface. The shell part is inserted into the cavity of the at least one bottom tool and the collar is placed on the lower contact surface. A barrier film is placed over the edge flange and pressed to form a tray that is filled with goods. A sealing film is then pressed against the barrier film to seal the goods within the tray.

A container that is configured to have an open state and a closed state, in which the container includes an outer cell having a plurality of side panels including a first side panel and a second side panel. The outer cell defines a chamber having a first opening. An inner locking member is attached to an inner wall of the first side panel. An extension panel is coupled to the second side panel. The extension panel includes a first cover panel and a tuck flap, in which the tuck flap includes an extension member and a tuck flap locking member. In the closed state of the container, the first cover panel covers the first opening, and the extension member and the tuck flap locking member are tucked inside the chamber. A bias member biases the tuck flap locking member toward a first position to cause the tuck flap locking member to engage the inner locking member.