A packaging device for eyewear frames has a structure for supporting lenses. The device has a first and a second lateral temple, including a body, having a front abutment wall, configured to abut against an inner side of the structure of the frame. A rear wall is opposite the front abutment wall relative to a longitudinal direction, to abut the second lateral temple in a folded configuration towards the frame. A transverse notch extends along a transverse direction, perpendicular to the longitudinal direction, and passing through the body. The transverse notch partially extends between a pair of lateral walls of the body, from an open insertion end, which emerges onto a pair of the lateral walls, at a closed bottom end. The body includes a hole passing through the body, between the transverse notch and the front abutment wall, positioned to substantially align with the closed bottom end.

A packaging device for eyewear frames has a structure for supporting lenses. The device has a first and a second lateral temple, including a body, having a front abutment wall, configured to abut against an inner side of the structure of the frame. A rear wall is opposite the front abutment wall relative to a longitudinal direction, to abut the second lateral temple in a folded configuration towards the frame. A transverse notch extends along a transverse direction, perpendicular to the longitudinal direction, and passing through the body. The transverse notch partially extends between a pair of lateral walls of the body, from an open insertion end, which emerges onto a pair of the lateral walls, at a closed bottom end. The body includes a hole passing through the body, between the transverse notch and the front abutment wall, positioned to substantially align with the closed bottom end.

In response to a request to package item(s), embodiments determine characteristic data for the item(s), which include an indication of a volume of each item. Container(s) for packaging the item(s) is determined based at least on the volume of each item. An arrangement of the item(s) in the container(s) is determined. One or more protective structures including one or more features are configured to position the item(s) in the container(s) according to the arrangement. Relative positions are determined for a plurality of modular elements to form the one or more protective structures. Subsets of the plurality of modular elements are deposited to corresponding relative positions to form at least one of the protective structures. The item(s) are packaged in the container(s) with the one or more protective structures to position the item(s) in the container(s) in the arrangement.

In response to a request to package item(s), embodiments determine characteristic data for the item(s), which include an indication of a volume of each item. Container(s) for packaging the item(s) is determined based at least on the volume of each item. An arrangement of the item(s) in the container(s) is determined. One or more protective structures including one or more features are configured to position the item(s) in the container(s) according to the arrangement. Relative positions are determined for a plurality of modular elements to form the one or more protective structures. Subsets of the plurality of modular elements are deposited to corresponding relative positions to form at least one of the protective structures. The item(s) are packaged in the container(s) with the one or more protective structures to position the item(s) in the container(s) in the arrangement.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.

A shipping system for shipping planar substrates includes a plurality of planar substrates stacked to form a pack and a plurality of interleaving material including substantially spherical beads positioned between the substrates of the pack and configured to carry a load. Substantially all of the beads have a diameter within 25% of D.sub.max, where D.sub.max is a diameter corresponding to a size of an opening of an upper limit sieve used in the shipping system. Also disclosed are a spacer for use in a shipping system for shipping planar substrates, a wrapped system for shipping planar substrates, a method of wrapping a system for shipping planar substrates, and a powder applicator.

A novel and advantageous packaging system for card packaging system is provided. The card packaging system can hold a card and a promotional item and can display the serial number of the card while keeping the personal identification number for the card hidden. The card packaging system can be easily hung from a merchandise display. The card packaging system may include a card unit comprising a card, a hanger, and a stem, the stem being positioned between the card and the hanger, wherein the card may be separate from the hanger and the stem. The card packaging system may further comprise a case for receiving the card unit, the case including a slot for receiving the stem such that the card is positioned in the case and the hanger extends outwardly from the case.

An article of manufacture and process for manufacturing a reusable stackable resilient container formed from lightweight materials and coated with a polyurea coating to provide structural support. An article of manufacture may be formed in the various dimensions and shape to enclose items and objects that are delicate and of high-value for shipping. The reusable stackable resilient container has advantages of a long service life, less weight, a lower cost of production, impact-resistant, impervious to environmental factors and other improved characteristics.