A frame (14) is useful in a packaging assembly including a box. The frame includes a panel (16) and a sheet (40). The panel has a panel length (L1) that is greater than the box length. The panel has a panel width (W11) that is greater than the box width. The panel defines a left slot (26) configured to receive the left closure flap of the box and a right slot (28) configured to receive the right closure flap of the box. The panel iincludes a left panel flap (30) extending from the left slot to the left edge (18) of the panel, a right panel flap (32) extending from the right slot to the right edge (20) of the panel, a front panel flap (34) extending from the left panel flap to the right panel flap; and a rear panel flap (36) extending from the left panel flap to the right panel flap. The left panel flap is foldably connected to the front panel flap and to the rear panel flap. The right panel flap is foldably connected to the front panel flap and the rear panel flap. The panel defines a panel opening (38) circumscribed by the left, right, front, and rear panel flaps. The sheet (40) is attached to the front panel flap and the rear panel flap and extends over the panel opening.

A frame (14) is useful in a packaging assembly including a box. The frame includes a panel (16) and a sheet (40). The panel has a panel length (L1) that is greater than the box length. The panel has a panel width (W11) that is greater than the box width. The panel defines a left slot (26) configured to receive the left closure flap of the box and a right slot (28) configured to receive the right closure flap of the box. The panel iincludes a left panel flap (30) extending from the left slot to the left edge (18) of the panel, a right panel flap (32) extending from the right slot to the right edge (20) of the panel, a front panel flap (34) extending from the left panel flap to the right panel flap; and a rear panel flap (36) extending from the left panel flap to the right panel flap. The left panel flap is foldably connected to the front panel flap and to the rear panel flap. The right panel flap is foldably connected to the front panel flap and the rear panel flap. The panel defines a panel opening (38) circumscribed by the left, right, front, and rear panel flaps. The sheet (40) is attached to the front panel flap and the rear panel flap and extends over the panel opening.

A frame useful for retaining a product includes a frame and a sheet. The panel includes a central portion and right and left retention flaps extending from the central portion. The panel also includes right and left front pieces moveable to an engaged position coupled with the right and left retention flaps, respectively. The sheet includes a front retaining portion extending between the right and left front pieces and a front remainder portion at least partially overlaying the central portion of the panel. The right and left front pieces in the engaged position connect the front retaining portion of the sheet to the right and left retention flaps, respectively. When the right and left front pieces are both in their engaged positions, the front retaining portion of the sheet extends over the central portion of the panel. The frame is positionable in a retained position having the right and left front pieces in their respective engaged positions and the right and left retention flap folded to extend beneath the central portion. The front retaining portion may be tensioned to retain the product between the front retaining portion and the front remainder portion of the sheet.

A frame useful for retaining a product includes a frame and a sheet. The panel includes a central portion and right and left retention flaps extending from the central portion. The panel also includes right and left front pieces moveable to an engaged position coupled with the right and left retention flaps, respectively. The sheet includes a front retaining portion extending between the right and left front pieces and a front remainder portion at least partially overlaying the central portion of the panel. The right and left front pieces in the engaged position connect the front retaining portion of the sheet to the right and left retention flaps, respectively. When the right and left front pieces are both in their engaged positions, the front retaining portion of the sheet extends over the central portion of the panel. The frame is positionable in a retained position having the right and left front pieces in their respective engaged positions and the right and left retention flap folded to extend beneath the central portion. The front retaining portion may be tensioned to retain the product between the front retaining portion and the front remainder portion of the sheet.

A rectangular air packaging device and a manufacturing method therefor are provided. The device includes at least one inflatable main body and at least one inflation valve. The inflatable main body includes a plurality of inflation units. Each inflation unit has an inflation chamber. The inflation valve communicates with the inflation chamber, so as to inflate the inflation unit. After being bended and heat-sealed, the inflation units form a plurality of side walls. Two adjacent side walls of the side walls are arranged roughly with a right angle, so that the side walls form a rectangular containing cavity, so as to contain item to be packaged and to provide air cushioning effect to the item to be packaged.

According to some embodiments, a vibration-isolating system comprises a case, one or more environmental buffers, a platform suspended within the case by a plurality of wire rope isolators, a crumple zone beneath the platform and configured with one or more shock-absorbing structures, and a container assembly configured on the platform. The container assembly is operable to protect a payload comprising a flexible panel. The container assembly comprises a back panel positioned behind the flexible panel and offset by a first substantially airtight compartment, a front panel positioned in front of the flexible panel and offset by a second substantially airtight compartment, and a stiffener panel positioned in front of the front panel and offset by a third substantially airtight compartment.

According to some embodiments, a vibration-isolating system comprises a case, one or more environmental buffers, a platform suspended within the case by a plurality of wire rope isolators, a crumple zone beneath the platform and configured with one or more shock-absorbing structures, and a container assembly configured on the platform. The container assembly is operable to protect a payload comprising a flexible panel. The container assembly comprises a back panel positioned behind the flexible panel and offset by a first substantially airtight compartment, a front panel positioned in front of the flexible panel and offset by a second substantially airtight compartment, and a stiffener panel positioned in front of the front panel and offset by a third substantially airtight compartment.

Implementation described and claimed herein include a cushioning structure and method for manufacturing a cellular cushioning system, which allows for maximum comfort through the compression and shock cycle. Specifically, a cushioning structure comprises void cells formed in an array, which comprise multiple outwardly curved surfaces, with varying radius measurements. Stiffness in the void cells can vary by varying the Radii. Outwardly curved surfaces prevent buckling and provide support for high impact by absorbing energy.

Implementation described and claimed herein include a cushioning structure and method for manufacturing a cellular cushioning system, which allows for maximum comfort through the compression and shock cycle. Specifically, a cushioning structure comprises void cells formed in an array, which comprise multiple outwardly curved surfaces, with varying radius measurements. Stiffness in the void cells can vary by varying the Radii. Outwardly curved surfaces prevent buckling and provide support for high impact by absorbing energy.

A method of making an inflatable panel that includes the steps of: superimposing a second layer of a material of low gas permeability upon a first layer of a material of low gas permeability; creating a plurality of first elongated seals by intermittently sealing together the first and second layers, thereby defining a plurality of first tubes between adjacent pairs of the first elongated seals. The method also includes sealing rear ends of the first tubes; inflating the first tubes from front ends thereof with a gas; and then sealing the front ends of the first tubes, such that the gas within each of said tubes is prevented from flowing between the first tubes.