A protective carrying case for an object is disclosed, wherein the protective carrying case includes a top component, a bottom component, and semi-hexagonal ends, wherein the top component and the bottom component are constructed from carbon fiber. The protective carrying case additionally includes a retaining element with vacuum split functionality to retain elements within the case.

A first aspect of the present invention is a constant force compression construct, comprising: (a) a plurality of compressible layers, each compressible layer comprising a plurality of interconnected flexible struts configured as a regular hexagonal lattice of repeating unit cells, with the layers spaced apart from one another, and with the unit cells of each layer aligned with one another; and (b) a plurality of beams interconnecting each of the compressible layers with each respective adjacent compressible layer to form a three-dimensional lattice having an upper portion, a lower portion, and a compressible region therebetween, with the repeating unit cells contained in the compressible region.

A packaging block that includes a body section having a aperture defined therein. A hinge defines a first portion of the body section and a second portion of the body section. The first portion is rotatably coupled to the second portion via the hinge. A plurality of selectively removable sections are removably coupled to the body section. The aperture receives at least a portion of an article to facilitate securement of the article during packaging and transport.

Aspects of the disclosure provide for a product packaging that includes a sheet of material that has at least one recess in the sheet of material. The one or more recesses are configured to store a product. Namely, the one or more recesses are shaped based on an outline of the product and includes an inclined portion that is configured to slope away from the stored product. When the stored product is pressed to be in contact with the inclined portion, an end of the product extends out from the recess. The extended end may be used to remove the product from the product packaging.

A first aspect of the present invention is a constant force compression construct, comprising: (a) a plurality of compressible layers, each compressible layer comprising a plurality of interconnected flexible struts configured as a regular hexagonal lattice of repeating unit cells, with the layers spaced apart from one another, and with the unit cells of each layer aligned with one another; and (b) a plurality of beams interconnecting each of the compressible layers with each respective adjacent compressible layer to form a three-dimensional lattice having an upper portion, a lower portion, and a compressible region therebetween, with the repeating unit cells contained in the compressible region.

A more robust packaging structure for maintaining the integrity of compressible biologically active materials during storage and especially during transportation is provided. These containers protect the materials from shock, vibration, deformation, or separation from agitation. The compressible materials may be in the form of synthetic fibers, and may include a composite of fibers and beads or granules. Suitable materials that may benefit from such a robust packaging structure include synthetic materials that comprise a biologically active ceramic or glass.

The present disclosure discloses a panel fixing device, including a box, a pressing member and an expansion agent. The inner wall of the frame of the box is provided with a limiting groove, the pressing member is movably disposed in the limiting groove, the frame has a receiving through hole connecting with the limiting groove, the expansion agent is received in the receiving through hole, and the expansion agent is used for pushing the pressing member after being expanded so that the pressing member compresses the panel accommodated in the box. An injection channel of the expansion agent is reserved on the box. After inflating the expansion agent, the pressing member is pushed by the expansion force, so that the pressing member compresses the panel in the box to limit the panel so as to prevent the box from causing a second impact during the dropping process.

A packaging liner, protecting covers using the packaging liner and packaging containers using the protecting covers are disclosed. The packaging liner includes a first resisting section, a second resisting section disposed opposite the first resisting section and a deformable section connected between the first resisting section and the second resisting section. The deformable section comprises a plurality of elastic members such that when at least one of the first resisting section and the second resisting section is stressed, the deforming section is able to deform to match the outline and dimensions of a packageable object.

A protective carrying case for an object is disclosed, wherein the protective carrying case includes a top component, a bottom component, and semi-hexagonal ends, wherein the top component and the bottom component are constructed from carbon fiber. The protective carrying case additionally includes a retaining element with vacuum split functionality to retain elements within the case.

A more robust packaging structure for maintaining the integrity of compressible biologically active materials during storage and especially during transportation is provided.

These containers protect the materials from shock, vibration, deformation, or separation from agitation. The compressible materials may be in the form of synthetic fibers, and may include a composite of fibers and beads or granules. Suitable materials that may benefit from such a robust packaging structure include synthetic materials that comprise a biologically active ceramic or glass.