A pulp-molded paper container is introduced herein, which comprises a top cover body, a bottom box body and at least one pivot portion. The top cover body comprises a top sidewall having an inner surface. The bottom box body comprises a bottom sidewall having an outer surface and a recess portion. A plane-to-plane contact is constituted with occurrence of a static friction force, between the inner surface of the top sidewall and the outer surface of the bottom sidewall, by way of an elastic deformation effect of the recess portion under a manner while the bottom box body and the top cover body mutually matched in a closed manner, whereby the static friction force can make a tight retention occurring along between the top cover body and the bottom box body.

A plastic article is recited having a plastic shell including walls defining a cavity. Within the cavity is an in-situ foam core including expanded polymer beads. A layer of the expanded polymer beads includes a layer of distorted beads adjacent to the walls. The in-situ foam core has a thermal bond to the walls.

A process of manufacturing containers from polymeric materials with unwarped internal partition is described; a container with unwarped internal partition, manufactured from polymeric materials and a system for manufacturing containers with unwarped internal partition from polymeric materials, are further described; the process comprises: premanufacturing a bottom part of a container, premanufacturing a top part of the container, applying a preheating treatment, appending the top part of the container, welding, cooling down the welded complex of the container; the container comprises: a bottom part, a top part comprising a bottom plate, surrounding sidewalls and at least one interior partition; the system comprises: at least one first premanufacturing subsystem, at least one second premanufacturing subsystem, at least one preheater, an appending mechanism, a welding machine and a cooler.

An aluminum-canned wine comprising: an aluminum can including an aluminum sheet, a resin film provided on a surface of the aluminum sheet which faces an internal space of the aluminum can, and an adhesive layer interposed between the aluminum sheet and the resin film and bonding the aluminum sheet and the resin film together, wherein the resin film includes a first resin layer as a topmost layer and a second resin layer containing a dimer acid-copolymerized polyester resin, and wherein at least one of the resin layers constituting the resin film, and/or the adhesive layer contains calcium carbonate; and a wine enclosed in the aluminum can and containing 4.3 mg/L or less of molecular SO.sub.2 and 350 mg/L or less of chloride ions.

The present invention relates to a rigid plastics-material internal container (12) from a thermoplastic plastics material for a pallet container (10) or a similar large-volume retainer for storing and for transporting liquid or free-flowing filling materials, having a flexible inliner (28) from a thin-walled plastics-material or composite-material film that is inserted into the rigid plastics-material internal container (12).

For filling and removal at the base, the thin-walled inliner (28) at the base side has at least one filling and removal connector (42), said filling and removal connector (42) at the front being fixedly welded into a corresponding filling and removal connector (32) at the base side of the rigid plastics-material internal container (12). For filling from above and removal of the filling material at the base side, the rigid plastics-material internal container (12) and the thin-walled inliner (28) can in each case also be provided with an upper filling connector, wherein in this instance the upper filling connector (44) of the thin-walled inliner (28) is likewise fixedly welded into the filling connector (30) of the rigid plastics-material internal container (12).

The thin-walled inliner (28) that is inserted in the rigid plastics-material internal container (12) in the assembled final state by way of vacuuming bears in a fully planar manner on the internal surface of the rigid plastics-material internal container (12), and in the empty non-filled state as well as in the filled state of the rigid plastics-material internal container (12) adheres in an immovable fixed manner, as if adhesively bonded, on the internal surface, in particular also on the upper base of the internal container.

A reusable container is provided for storage and transport of prepared meat in log format. The container has a base, a pair of upwardly extending side walls, and a pair of upwardly extending end walls connected with the side walls to form a generally rectangular box. The box has four interior edges and four interior corners where the side and end walls join the base. The box is integrally formed of molded polyethylene. Each of the four interior edges and four interior corners has a rounded interior profile to prevent accumulation of material and facilitate sanitation between uses. A reusable container system is also provided having a removable lid, and access panel.

The present disclosure provides a chemical container and a method for manufacturing the same. The chemical container comprises a head portion having a top wall and a head sidewall extending from an edge of the top wall, as well as a body portion jointed with the head portion and defining a chamber together with the head portion. The top wall has a mouth structure configured for one or more pipelines to pass through and connect with the chamber. The manufacturing method is simple and of low cost, and the resulted chemical container is able to withstand a greater internal pressure and is configured to collect any leaking liquid chemicals.

A protective bottle enclosure includes a base portion defined by a base sidewall secured to a base bottom wall and has a base opening disposed opposite the base bottom wall. An upper portion has upper sidewalls surrounding an internal cavity. The upper portion has a cylindrical body section and the neck section is narrower than the lower section. The lower section ends in a lower opening and a lower thread. The neck section narrows in diameter between the body section and a neck opening and has a neck thread. The lower section can be inserted into the base opening and can threadably engage the base side wall. A removable cap can threadably engage the neck section and includes an elastomeric stopper connected to a cylindrical sleeve. The combination of the removable cap, the upper portion, and the base portion can surround and enclose the bottle.

A bottle enclosure that removably encloses a bottle includes a base having a sidewall that extends from a bottom wall. The base includes at least one thread, and the base bottom wall has a planar bottom surface. A body section of the bottle enclosure includes a cylindrical body wall that includes interior threading adjacent a bottom opening. The body section further includes a tapered shoulder section that is positioned between the body wall and a neck section. The neck section extends upward from the shoulder section and defines a cylindrical neck wall having a neck thread. The body section is configured to threadably and removably engage the base sidewall. The bottle enclosure further includes a removable cap with a sidewall that surrounds a cap cavity. The cap sidewall is configured to threadably and removably engage the neck.

Packing for the spaced packing of elongated bar-like or rod-like articles, in particular of rods (16) that are stored in a packing sleeve (1) that is open on at least one end while maintaining a mutual radial separation between them, wherein on the opening (5) of the packing sleeve (1) a multi-part lattice support (10) consisting of at least one lattice-like top part (7) and at least one lattice-like bottom part (8) that is detachably connected with it can be placed, that the rods (16) with their base-side ends extend through the aligned lattice openings (14a, 14b) of the top and bottom part (7, 8) and the at least one bottom part (8) is detachably connected with the top part (7) and can slide in the interior of the packing sleeve.