A case for storing collectibles (each having a standard height and a standard width). The case includes a foam layer with openings. The width (and, optionally, height) of each opening is equal to or less than the standard width (and, optionally, standard height) of the collectible (such that the collectible is held in the opening by a friction fit). The foam layer is pliable to allow collectibles to be inserted into each opening. In some embodiments, the case may include a base and lid and handle for carrying the case. In some of those embodiments, the lid may include a transparent display window for viewing the collectibles. In other embodiments, the case may include a front facing layer and side panels. In any of the aforementioned embodiments, the case may include attachment mechanisms allowing the case to be hung on a wall.

A utility box or storage system that includes one or more configurable storage compartments. The utility box or storage system can comprise a compartment having a first wall that includes a guide and a second wall, and a plurality of storage units, including at least one of the plurality of storage units that implants into the compartment between the first wall and the second wall. The at least one storage unit can include a ridge that aligns with the guide. The guide can engage the ridge to guide the storage unit during implantation.

The present application provides a cushioning device, a display screen storage device, and a display screen storage box. The cushioning device includes a cushioning block body and a cushioning pad. One side of the cushioning block body defines a holding groove configured for holding and supporting a display screen, and an inner surface of the holding groove is an arcuate surface. A shape of the cushioning pad corresponds to a shape of the arcuate surface. The extrados is fixedly connected with the arcuate surface.

The present disclosure provides a packaging article (10). In an embodiment, the packaging article comprises (A) a rigid container (12) having side walls (14) and a bottom wall (16), the walls defining a compartment (20), and (B) a sheet (22) of 3-dimensional random loop material (3DRLM) in the compartment. A food item (C) may be located in the compartment, the food item contacts the sheet of 3DRLM.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.

The invention discloses a dunnage bag arrangement for securing loads, includes an inflatable dunnage bag having a gastight inflatable bladder; and a hanger member connected to the dunnage bag and adapted to being supported on top of loads and adapted to support the dunnage bag in a void between loads. The dunnage bag includes a reinforcing sleeve made of at least one material ply, the sleeve having a first opening and a second opening, and the sleeve being folded and sealed and/or stitched to close off at least one of the openings.

The present disclosure provides a packaging assembly for mailing a home security device by direct mail package. The packaging assembly includes an envelope. The envelope includes a first panel, a second panel and a seal flap. The seal flap is affixed on a first side of the first panel. The envelope provides space for encapsulating a foam cushioning. The foam cushioning is characterized by a cuboidal shape. The envelope encapsulates the home security device. The home security device includes a protective housing encapsulating a plurality of electrical components. The rectangular pocket on the second face of the foam cushioning receives the home security device. The envelop encapsulates a first layer. The first layer covers the first face of the foam cushioning. The envelope encapsulates a second layer. The second layer covers the second section of the second face of the foam cushioning and a segment of the home security device.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.

A method for forming a structural wall section by sandwiching a corrugated metal panel between correspondingly corrugated EPS inner and outer panels. Also disclosed is a structural wall formed from a corrugated metal wall sandwiched between inner and outer EPS panels with a corrugated side on each of the EPS panels engaged with the corrugated metal panel.

An overbox packaging system for a high aspect ratio inner box includes an outer box, at least four modular packaging inserts, and tape to seal the outer box closed. Four modular packaging inserts are adapted to a width of the high aspect ratio inner box by selective removal of zero or more first tear-away pieces and are adapted to a difference in a second dimension of the outer box in the inner box by selective removal of zero or more second tear-away pieces of at least two of the four modular packaging inserts. A second module of additional modular packaging inserts is removed, leaving a first module which is adapted to the width of the high aspect ratio inner box by selective removal of zero or more first tear-away pieces and placed in the outer box with its slot holding a section of the inner box.