A packing tray (10) for packaging glass bottles (B), such as a glass wine bottle, the packing tray comprising: a plastic foam or molded fiber sheet (12) comprising a top wall (14) and an array (20) of recessed cell pockets (22) extending from the top wall; the top wall having a peripheral surface (18) surrounding the array of cell pockets and defining a top reference plane TRP; each cell pocket (22) comprising an open ring-shaped recess (24) having an elongated longitudinal axis LA transverse to the TRP and configured to be substantially aligned with a longitudinal axis of a glass bottle disposed upright in the recess; the ring-shaped recess (24) including an upper cell portion (26) of a first diameter (FD) larger than a body diameter (BD) of the glass bottle, and lower ring portion (28) having resilient elements (30) radially disposed and spaced apart about a circumference (C) of the ring-shaped recess (24) and that extend radially inwardly from the first diameter (FD) and configured to engage the body diameter (BD) of the glass bottle and bend under lateral stress (LS) such that the resilient elements provide repeatable shock absorption; the peripheral surface (18) of the packing tray being sized to engage inner walls (42) of an outer shipping carton (40) in which the packing tray and glass bottles in the array of cell pockets are disposed for shipping.

A battery pack packing box capable of easily fixing a battery pack in a lower case by using a buffering member including an insertion hole into which the upper portion of the battery pack is inserted is provided. The buffering member includes a frame and a plurality of wing-shaped ribs.

A battery pack packing box capable of easily fixing a battery pack in a lower case by using a buffering member including an insertion hole into which the upper portion of the battery pack is inserted is provided. The buffering member includes a frame and a plurality of wing-shaped ribs.

The present invention relates to a method for manufacturing a paper buffer tray for packaging and a buffer tray manufactured thereby, wherein a plurality of papers are laminated and processed such that some papers are cut in a length direction, wrinkles or the like are formed in the other papers, and press-molding is performed using a mold, thereby providing an eco-friendly buffer tray and overcoming a disadvantage in that it is difficult to mold a buffer tray by using an existing paper. The method for manufacturing the paper buffer tray for packaging includes: a raw material preparing step of preparing a raw material for manufacturing a buffer tray in which a plurality of papers are laminated; a molding preparing step of preparing at least one mold corresponding to a shape and size of a product to be packaged; and a molding step of press-molding the raw material by using the at least one mold.

The present invention relates to a method for manufacturing a paper buffer tray for packaging and a buffer tray manufactured thereby, wherein a plurality of papers are laminated and processed such that some papers are cut in a length direction, wrinkles or the like are formed in the other papers, and press-molding is performed using a mold, thereby providing an eco-friendly buffer tray and overcoming a disadvantage in that it is difficult to mold a buffer tray by using an existing paper. The method for manufacturing the paper buffer tray for packaging includes: a raw material preparing step of preparing a raw material for manufacturing a buffer tray in which a plurality of papers are laminated; a molding preparing step of preparing at least one mold corresponding to a shape and size of a product to be packaged; and a molding step of press-molding the raw material by using the at least one mold.

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 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 more robust packaging structure for maintaining the integrity of compressible biologically active materials during storage and especially during transportation is provided. These containers protect the materials from shock, vibration, deformation, or separation from agitation. The compressible materials may be in the form of synthetic fibers, and may include a composite of fibers and beads or granules. Suitable materials that may benefit from such a robust packaging structure include synthetic materials that comprise a biologically active ceramic or glass.

The present invention discloses a foldable packing box with a foldable honeycomb structure, which includes a foldable box body with two pairs of opposite side walls, two connecting plates and the foldable honeycomb structure arranged in said foldable box body; the two connecting plates are respectively connected with one pair of opposite said side walls of the box body, the foldable honeycomb structure is arranged between the two connecting plates and connects with them; the foldable honeycomb structure includes multiple pieces of flexible cardboard with adhesive and non-adhesive parts arranged at intervals on each flexible cardboard; the adhesive parts of adjacent two the flexible cardboards are pasted together to form joints, and holes are formed between adjacent the non-adhesive parts; a top of the foldable honeycomb structure is provided with a receiving slot matching articles to be stored. The packing box with foldable honeycomb structure protects the conveying articles and avoids damage.

A shipping container, particularly suited for shipping wine bottles within a shipping box, having a pair of container halves. Each container half includes an outer tray that is shaped to fit the shipping box, and an inner tray that is configured for securely holding one or more wine bottles. Both the outer tray and inner tray are made of readily recyclable pulp material, and have a void therebetween. A starch based biodegradable insulation material fills the void therebetween, such that the shipping container is made entirely of biodegradable material, yet is sturdy and has insulative properties.