An apparatus for storing one or more battery modules (100) comprising a containment tray (300, 500, 700, 1000) defined by opposing front and back faces (314, 316, 714, 716, 1014, 1016), opposing side faces (318, 718, 1018), and opposing top and bottom surfaces (310, 312, 522, 532, 710, 712 1010, 1011, 1012) oriented perpendicular to the front, back, and side faces, wherein the containment tray has a receiving area (302, 518, 702, 1002) formed in the top surface for receiving one or more battery modules, the receiving area comprising a receiving surface (320, 520, 720, 1020) oriented parallel to and located between the opposing top and bottom surfaces for supporting the one or more battery modules.

An apparatus for storing one or more battery modules (100) comprising a containment tray (300, 500, 700, 1000) defined by opposing front and back faces (314, 316, 714, 716, 1014, 1016), opposing side faces (318, 718, 1018), and opposing top and bottom surfaces (310, 312, 522, 532, 710, 712 1010, 1011, 1012) oriented perpendicular to the front, back, and side faces, wherein the containment tray has a receiving area (302, 518, 702, 1002) formed in the top surface for receiving one or more battery modules, the receiving area comprising a receiving surface (320, 520, 720, 1020) oriented parallel to and located between the opposing top and bottom surfaces for supporting the one or more battery modules.

In accordance with a broad embodiment of the invention, a novel paper product is comprised of two or more slit sheet packing material layers, each layer having its own slit pattern design to create interlocking layers of expansion sheet packaging materials. Each layer expands to create a three dimensional open netting of cells of hexagons, and the like, and is designed to have limited nesting with its opposing layer, thereby maximizing the thickness of the combined layers as compared to nested layers. Adjacent layers have differing slit patterns and can be expanded through expander type machinery such that the expansion rates of the differing slit pattern layers can be varied to deliver the same width of exiting expanded material from each layer. Preferably the differing slit pattern produce when expanded, inclined land areas that have the same number of rows per inch, but different angles of inclination of the land areas, such that adjacent layers can interlock, that is, have a restricted amount of nesting.

Disclosed herein is a protective housing for carrying a rigid vessel. In use, the vessel will contain liquid. The housing comprises a casing. The casing includes a peripheral wall, a base and a top. The base and top are connected to the peripheral wall to define a volume for containing the vessel. The protective housing further comprises an impact absorber. The impact absorber is disposed, in use, between the vessel and casing to reduce transferral, to the vessel, of a force applied to the casing. There is also an aperture in the casing for accessing a closure section of the vessel while the vessel is in the protective housing.

A substrate storage container according to the present invention is configured such that: a substrate W slides with respect to a second contact surface 601 at least when transitioning from a state in which an container body opening is not closed by a lid to a state in which the container body opening is closed by the lid, or when transitioning from a state in which the container body opening is closed by the lid to a state in which the container body opening is not closed by the lid; and an inner-side substrate support part 6 is composed of an alloy resin mainly containing a polycarbonate resin and polybutylene terephthalate resin, with the mass of the polybutylene terephthalate resin being greater than the mass of the polycarbonate resin.

A substrate storage container according to the present invention is configured such that: a substrate W slides with respect to a second contact surface 601 at least when transitioning from a state in which an container body opening is not closed by a lid to a state in which the container body opening is closed by the lid, or when transitioning from a state in which the container body opening is closed by the lid to a state in which the container body opening is not closed by the lid; and an inner-side substrate support part 6 is composed of an alloy resin mainly containing a polycarbonate resin and polybutylene terephthalate resin, with the mass of the polybutylene terephthalate resin being greater than the mass of the polycarbonate resin.

Packaging may include a front box having a cavity to receive a product, a rear box coupled to the front box in a closed position, and a floating band to be slid around the front box and the rear box, thereby maintaining the front and rear box in a closed configuration. The band may be positioned with features such as folded protrusions with corresponding folded protrusions provided on the front box or the rear box.

Packaging may include a front box having a cavity to receive a product, a rear box coupled to the front box in a closed position, and a floating band to be slid around the front box and the rear box, thereby maintaining the front and rear box in a closed configuration. The band may be positioned with features such as folded protrusions with corresponding folded protrusions provided on the front box or the rear box.

A bottle insert includes an insert body defining a bottle opening, the bottle opening configured to receive a portion of a bottle therethrough; and an insert partition disposed substantially within the insert body, the insert partition defining a partition wall, the partition wall aligned with and spaced from the bottle opening, the partition wall configured to confront an end of the bottle.

A bottle insert includes an insert body defining a bottle opening, the bottle opening configured to receive a portion of a bottle therethrough; and an insert partition disposed substantially within the insert body, the insert partition defining a partition wall, the partition wall aligned with and spaced from the bottle opening, the partition wall configured to confront an end of the bottle.