Beverage container packing assemblies and methods are disclosed. An assembly includes a bottom tray defining first compartments. The first compartments are configured to receive a first portion of a beverage container. The assembly includes a center support defining through holes. The through holes are configured to receive a second portion of a beverage container. The center support is configured to accommodate a thermo pack between a first row and a second row of the through holes. The assembly includes a top tray defining second compartments. The second compartments are configured to receive a third portion of a beverage container.

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.

A packing insert includes a panel that defines a periphery, a location inward of the periphery, and a plurality of flaps each defining an outer end and an inner end such that each flap extends inwardly from its outer end to its inner end. Each of the flaps is foldable about its outer end so that the flaps collectively define a void. A first one of the flaps has a second outer end spaced outwardly from the outer end of the first flap. The panel defines at least one frangible portion between the outer end and the second outer end of the first flap. The first flap is selectively foldable about 1) its outer end so as to at least partially define the void, and 2) its second outer end, after breaking the at least one frangible portion, so as to increase a size of the void.

A packing insert includes a panel that defines a periphery, a location inward of the periphery, and a plurality of flaps each defining an outer end and an inner end such that each flap extends inwardly from its outer end to its inner end. Each of the flaps is foldable about its outer end so that the flaps collectively define a void. A first one of the flaps has a second outer end spaced outwardly from the outer end of the first flap. The panel defines at least one frangible portion between the outer end and the second outer end of the first flap. The first flap is selectively foldable about 1) its outer end so as to at least partially define the void, and 2) its second outer end, after breaking the at least one frangible portion, so as to increase a size of the void.

A container includes a container body and an air processing system. The container body includes a plurality of walls defining an interior space for receiving wafers. The air processing system is attached to the container body. The air processing system includes an exchange module, an air extraction module, a first contaminant removal module, a processing module, a second contaminant removal module, a controller module and a power module. The exchange module is coupled to one of the walls of the container body. The air extraction module extracts air from the container body. The first contaminant removal module is coupled to the air extraction module and the exchange module. The processing module is coupled to the air extraction module. The second contaminant removal module is coupled to the processing module and the exchange module. The controller module is configured to turn the air extraction module on and off.

A container includes a container body and an air processing system. The container body includes a plurality of walls defining an interior space for receiving wafers. The air processing system is attached to the container body. The air processing system includes an exchange module, an air extraction module, a first contaminant removal module, a processing module, a second contaminant removal module, a controller module and a power module. The exchange module is coupled to one of the walls of the container body. The air extraction module extracts air from the container body. The first contaminant removal module is coupled to the air extraction module and the exchange module. The processing module is coupled to the air extraction module. The second contaminant removal module is coupled to the processing module and the exchange module. The controller module is configured to turn the air extraction module on and off.

The invention is directed to a support for a work of art comprising a base element for fixing the support to an interior wall of a shipping container and a clamping element for clamping the work of art and wherein the base element and the clamping element are fixed to each other by wire rope isolators.

A photovoltaic module packing box and a photovoltaic module package structure are provided. The photovoltaic module packing box includes a tray having an accommodation space; a support plate having an edge hinged to an edge of the tray, and the support plate is lapped on the tray; an airbag assembly arranged in the accommodation space; an air valve assembly connected to the airbag assembly by a pipeline; an enclosure frame connected to the support plate and configured to enclose, together with the support plate, a receiving space for photovoltaic modules, and the enclosure frame includes a fixation part and a movable part; the fixation part is fixed to the support plate with one side thereof configured as an open structure; the movable part is detachably connected to the open structure of the fixation part, and the movable part and the fixation part together form an annular structure.

A photovoltaic module packing box and a photovoltaic module package structure are provided. The photovoltaic module packing box includes a tray having an accommodation space; a support plate having an edge hinged to an edge of the tray, and the support plate is lapped on the tray; an airbag assembly arranged in the accommodation space; an air valve assembly connected to the airbag assembly by a pipeline; an enclosure frame connected to the support plate and configured to enclose, together with the support plate, a receiving space for photovoltaic modules, and the enclosure frame includes a fixation part and a movable part; the fixation part is fixed to the support plate with one side thereof configured as an open structure; the movable part is detachably connected to the open structure of the fixation part, and the movable part and the fixation part together form an annular structure.