Embodiments described herein include layered mesh containers and methods for using the containers to safely transport and dispose of airbag inflators having ammonium-nitrate-based propellant. For example, a container with at least two single-layer sidewalls is provided that can hold multiple airbag inflators and withstand up to 4 moles of matter being deployed from an inflator having ammonium-nitrate-based propellant. The container can contain the inflator and any shrapnel associated with the explosion while also venting gases expelled as a result of the explosion. Various container designs are provided, along with methods for using these containers.

Embodiments described herein include layered mesh containers and methods for using the containers to safely transport and dispose of airbag inflators having ammonium-nitrate-based propellant. For example, a container with at least two single-layer sidewalls is provided that can hold multiple airbag inflators and withstand up to 4 moles of matter being deployed from an inflator having ammonium-nitrate-based propellant. The container can contain the inflator and any shrapnel associated with the explosion while also venting gases expelled as a result of the explosion. Various container designs are provided, along with methods for using these containers.

A packaging system includes a base, a lid, a closure structure, and an adhesive deposit. The base has a well. The lid is hingeably connected to the base and has a user input region and a protrusion projecting into the well. The closure structure is configured for releasably retaining the lid in a closed position relative to the base. The adhesive deposit is located within the well and at least partially surrounds the protrusion, and forms a first plurality of adhesive bonds with the well and a second plurality of adhesive bonds with the protrusion. The second plurality of adhesive bonds and the closure structure are configured to exert a combined retention force of at least 20N.

A packaging system includes a base, a lid, a closure structure, and an adhesive deposit. The base has a well. The lid is hingeably connected to the base and has a user input region and a protrusion projecting into the well. The closure structure is configured for releasably retaining the lid in a closed position relative to the base. The adhesive deposit is located within the well and at least partially surrounds the protrusion, and forms a first plurality of adhesive bonds with the well and a second plurality of adhesive bonds with the protrusion. The second plurality of adhesive bonds and the closure structure are configured to exert a combined retention force of at least 20N.

A conveyor receives a cardboard box formed about an article, with a first lateral flank uncovered. An inlet receives the cardboard box with the first lateral closing wall coplanar with a base wall, a second lateral closing box wall folded to cover a second lateral article flank, a third lateral closing box wall folded to cover a third lateral article flank, a fourth lateral closing box wall folded to cover a fourth lateral article flank, and an upper closing box wall folded to cover an upper article face. An arrest stops the box, a first folding component rotates and folds the first lateral closing box wall to cover the first lateral article flank, and second folding component rotates a closing tab (AC), hinged to the upper closing wall to fold and bring a closing tab against the first lateral closing wall for closing the cardboard box.

A conveyor receives a cardboard box formed about an article, with a first lateral flank uncovered. An inlet receives the cardboard box with the first lateral closing wall coplanar with a base wall, a second lateral closing box wall folded to cover a second lateral article flank, a third lateral closing box wall folded to cover a third lateral article flank, a fourth lateral closing box wall folded to cover a fourth lateral article flank, and an upper closing box wall folded to cover an upper article face. An arrest stops the box, a first folding component rotates and folds the first lateral closing box wall to cover the first lateral article flank, and second folding component rotates a closing tab (AC), hinged to the upper closing wall to fold and bring a closing tab against the first lateral closing wall for closing the cardboard box.

A method of forming a carton. The method includes obtaining a blank having at least one panel and at least one article protection flap foldably connected to the at least one panel. The method includes positioning the at least one panel to at least partially form an interior space of the carton, loading at least one article in the interior space, and folding the at least one article protection flap relative to the at least one panel after the loading the at least one article. The folding includes moving the article protection flap from a first position that is substantially parallel to the at least one panel to a second position wherein the article protection flap is folded relative to the at least one panel.

A method of forming a carton. The method includes obtaining a blank having at least one panel and at least one article protection flap foldably connected to the at least one panel. The method includes positioning the at least one panel to at least partially form an interior space of the carton, loading at least one article in the interior space, and folding the at least one article protection flap relative to the at least one panel after the loading the at least one article. The folding includes moving the article protection flap from a first position that is substantially parallel to the at least one panel to a second position wherein the article protection flap is folded relative to the at least one panel.

Aspects of the present invention are directed to a heat sealed packaging wherein the heat seal is along a curved surface. Additional aspects of the present invention are directed to a device for heat sealing a package on a surface that is curved along the direction of force.

Aspects of the present invention are directed to a heat sealed packaging wherein the heat seal is along a curved surface. Additional aspects of the present invention are directed to a device for heat sealing a package on a surface that is curved along the direction of force.