A shipping and storage stand for an airplane auxiliary power unit (APU) comprises a support stand assembly that is secured to a rectangular heavy-duty plastic crate. The crate lid is removeable, and the sides can be folded down or removed for APU access. The embodied support stand assembly holds an airplane APU by the designed lift points. The support stand assembly is placed within and bolted to a rectangular crate. The support stand assembly includes an engine cradle frame and shock isolators connected to an anchor frame. The outer crate provides two high stacking. A moisture and dust bag is included for long term storage.

A method for filling packages or containers with a padding material, wherein the padding material is fed to the package or the container by way of a feed unit. Contour properties of one or more packing pieces in the package or in the container are determined by a scanning unit, are processed by a logic device and a filling quantity of that volume of the package or the container to be filled is determined therefrom and, derived therefrom, a variable quantity of padding material is introduced into the package or the container. In order for it to be possible to fill the packages or containers simply in an automated manner, an information item of an information carrier on the package or the container is read by a reading unit and an information item is determined therefrom with respect to the internal volume of the package or the container, wherein a highest point of the packing piece or the packing pieces is determined from the contour properties of the packing piece or the packing pieces and a first filling volume of padding material is determined therefrom, which filling volume is required for filling as far as the highest point of the packing piece or the packing pieces. This invention also relates to a device for carrying out the method according to this invention.

The invention relates to a method (100) for producing a container (102) having an upper part (108), a lower part (110) and a receiving element (112), said method having at least the following steps: the lower part (110) is created (114) from a first starting material (200) in a first processing region (115a) of a processing device (115); the upper part (108) is created (116) from a second starting material (202) in a second processing region (115b) of the processing device (115); the receiving element (112) is fed (118) into the first processing region (115a) of the processing device (115); the lower part (110) receives (120) the receiving element (112) in the first processing region (115a) of the processing device (115); the upper part (108) is fed (122) from the second processing region (115b) of the processing device (115) into the first processing region (115a) of the processing device (115); and the upper part (108) and the lower part (110) are joined together (124) to form the container (102) in the first processing region (115a) of the processing device (115).

Containers such as boxes or tubes may be lined with deflated air bladders or reservoirs. When an item is placed in such a container, the container may be sealed, and the air bladders or reservoirs may be charged with air until such bladders or reservoirs surround and fully cushion the item within the container. The bladders or reservoirs may be formed from lightweight and flexible materials, such as polyethylenes, polyphenylenes or other plastics, and charged with air manually or automatically from an external source via a valve or other component extending through the containers. An internal pressure within one or more of the bladders or reservoirs may be monitored during the charging, and the charging may be secured when the internal pressure meets or exceeds a predetermined threshold.

A method for packing quartz glass cloth includes the step of packing quartz glass cloth that is at least 99.5 wt % comprised of SiO.sub.2 with packaging film to form a package, wherein the package has a volumetric absolute humidity therein of 10.0 g/m.sup.3 or less.

An assembly table for use in a remote manufacturing yard is provided. The assembly table is configured to be collapsible thereby allowing for a reduced footprint during transportation. The assembly table can include a central support base; a plurality of arms attached to the central support base; a secondary support member attached to each arm configured to provide support for and give height to the assembly table when in use; and a centering guide attached to each arm, the centering guide configured to receive a bottom portion of a partial shell, the centering guide located at a predetermined location of its own arm.

A deposition mask package according to the present embodiment includes a receiving portion, a lid portion that faces the receiving portion, a deposition mask that is arranged between the receiving portion and the lid portion and has an effective region in which a plurality of through-holes is formed. The receiving portion has a first opposing surface facing the lid portion and a concave portion provided on the first opposing surface. The concave portion is covered by a first flexible film. The effective region of the deposition mask is arranged on the concave portion with the first flexible film interposed therebetween.

A deposition mask package according to the present embodiment includes a receiving portion, a lid portion that faces the receiving portion, a deposition mask that is arranged between the receiving portion and the lid portion and has an effective region in which a plurality of through-holes is formed. The receiving portion has a first opposing surface facing the lid portion and a concave portion provided on the first opposing surface. The concave portion is covered by a first flexible film. The effective region of the deposition mask is arranged on the concave portion with the first flexible film interposed therebetween.

A packaging material web stock is provided. The packaging material web stock can include first and second plies overlaid and sealed to each other at a plurality of seals that include a plurality of transverse seals extending transversely across the plies, wherein a plurality of interior cavities are defined between the plies and the transverse seals, the first and second plies arranged in a web that includes a plurality of packaging units arranged longitudinally in a series along the web, wherein the first and second plies form walls of the packaging units, and at least some of the packaging units include at least one of the interior cavities, and an expansion material disposed in the interior cavities in an unexpanded configuration, wherein the expansion material is arranged within the inner cavities such that, when expanded to the expanded configuration, the expansion material is configured to provide cushioning in the walls.

A deposition mask package according to the present embodiment includes a receiving portion, a lid portion that faces the receiving portion, a deposition mask that is arranged between the receiving portion and the lid portion and has an effective region in which a plurality of through-holes is formed. The receiving portion has a first opposing surface facing the lid portion and a concave portion provided on the first opposing surface. The concave portion is covered by a first flexible film. The effective region of the deposition mask is arranged on the concave portion with the first flexible film interposed therebetween.