An inflatable web includes two juxtaposed sheets, seals between the sheets that define chambers, and two longitudinal edges. The chambers extend in a transverse direction between the two longitudinal edges. The seals include side seals that extend between the two longitudinal edges. The side seals include a two intermittent side seals and a continuous side seal. Each of the intermittent side seals includes side seal portions and gaps between the side seal portions. The gaps permit gas to pass between chambers on either side of the intermittent side seals. The continuous side seal is located between the two intermittent side seals. The continuous side seal does not permit gas to pass between chambers on either side of the continuous side seal. The gaps in the two intermittent side seals are aligned a longitudinal direction to form a non-continuous longitudinal channel across the continuous side seal.

A package includes a storage portion that stores an object to be stored, and a buffer portion that reduces a gap generated between the object to be stored and the storage portion. The storage portion includes a bottom and a lid facing the bottom, and the buffer portion includes a base facing the object to be stored in a stacking direction from the bottom toward the lid, a first fold, and a space adjusting portion connected to the base at the first fold. The space adjusting portion includes an adjusting region extending in the stacking direction, a plurality of second folds distributed in a first direction intersecting the first fold, and a contact region connected to the adjusting region at one of the plurality of second folds.

A package includes a storage portion that stores an object to be stored, and a buffer portion that reduces a gap generated between the object to be stored and the storage portion. The storage portion includes a bottom and a lid facing the bottom, and the buffer portion includes a base facing the object to be stored in a stacking direction from the bottom toward the lid, a first fold, and a space adjusting portion connected to the base at the first fold. The space adjusting portion includes an adjusting region extending in the stacking direction, a plurality of second folds distributed in a first direction intersecting the first fold, and a contact region connected to the adjusting region at one of the plurality of second folds.

A dunnage assembly that is quickly and easily installed within a shipping container and is easily reworked while remaining secure and adjustable during use is provided. The dunnage assembly of the present disclosure may also include a locking mechanism to keep the sling assembly securely positioned during shipping. Finally, according to one aspect the dunnage assembly of the present disclosure may collapse into the base of the shipping container, allowing it to remain mounted within the shipping container when the shipping container is collapsed for the return shipment back to be reused.

A dunnage assembly that is quickly and easily installed within a shipping container and is easily reworked while remaining secure and adjustable during use is provided. The dunnage assembly of the present disclosure may also include a locking mechanism to keep the sling assembly securely positioned during shipping. Finally, according to one aspect the dunnage assembly of the present disclosure may collapse into the base of the shipping container, allowing it to remain mounted within the shipping container when the shipping container is collapsed for the return shipment back to be reused.

A dunnage assembly that is quickly and easily installed within a shipping container and is easily reworked while remaining secure and adjustable during use is provided. The dunnage assembly of the present disclosure may also include a locking mechanism to keep the sling assembly securely positioned during shipping. Finally, according to one aspect the dunnage assembly of the present disclosure may collapse into the base of the shipping container, allowing it to remain mounted within the shipping container when the shipping container is collapsed for the return shipment back to be reused.

A dunnage assembly that is quickly and easily installed within a shipping container and is easily reworked while remaining secure and adjustable during use is provided. The dunnage assembly of the present disclosure may also include a locking mechanism to keep the sling assembly securely positioned during shipping. Finally, according to one aspect the dunnage assembly of the present disclosure may collapse into the base of the shipping container, allowing it to remain mounted within the shipping container when the shipping container is collapsed for the return shipment back to be reused.

An inflatable packaging box to protect an item during storage and shipment, including a plurality of sidewalls, and a chamber formed within the plurality of sidewalls adapted to receive the item. An opening through at least one of the plurality of sidewalls is included, through which the chamber is accessible. A plurality of films are each secured to one of the plurality of sidewalls. Each of the plurality of films forming one of a series of elongated sections which form the chamber in the space between the series of elongated sections. Each of the series of elongated sections are inflatable to conform to the item's shape.

An insulated container for storing or shipping bottles includes a body and a lid. The body has a shell and an insert portion formed from an insulating material. The lid also has a shell and an insert portion formed from the insulating which meets the insert portion of the body to form cavities. The cavities include a temperature control pack cavity and four or more separate bottle storage cavities distributed around the temperature control pack cavity. Each of the bottle storage cavities is configured for receiving a bottle from among three or more different bottle types. Each of the bottle types has a different shape and/or size than each of the other bottle types. Each of the bottle storage cavities includes at least three bottle stop features on one or more internal surfaces. Each bottle stop feature is associated with a different one of the three or more bottle types.

An insulated container for storing or shipping bottles includes a body and a lid. The body has a shell and an insert portion formed from an insulating material. The lid also has a shell and an insert portion formed from the insulating which meets the insert portion of the body to form cavities. The cavities include a temperature control pack cavity and four or more separate bottle storage cavities distributed around the temperature control pack cavity. Each of the bottle storage cavities is configured for receiving a bottle from among three or more different bottle types. Each of the bottle types has a different shape and/or size than each of the other bottle types. Each of the bottle storage cavities includes at least three bottle stop features on one or more internal surfaces. Each bottle stop feature is associated with a different one of the three or more bottle types.