The present invention relates to a kit and an assembly for the storage and transportation of medical equipment including endoscopes, as well as a method for storing and transporting endoscopes. In particular, the present invention relates to a support tray (1) for endoscopes, a barrier sheet (264, 764, 864, 967 and 978) and a kit for the transportation of endoscopes comprising a support tray and barrier sheet. A kit for the transportation and storage of an endoscope comprises a rigid support tray and barrier means. The rigid support tray comprises a base plate (2, 102, 902) having opposing first and second sides; a plurality of guide walls (4, 104, 904) projecting from the first side of the base plate, the guide walls arranged to define areas for placement of parts of said endoscope on the first side of the base plate; a plurality of support members (10, 110, 910) extending from the second side of the base plate, the support members being arranged such that when two trays are stacked on top of each other, the arrangement of the support members is such that, in a first orientation the two base plates are separated by a first distance and in a second orientation the two base plates are separated by a second distance, the second distance being greater than the first distance; and retaining members (931) extending from an edge region of the support tray. The barrier means comprises a flexible sheet including a liner portion (276, 767, 967) for providing, in use, a barrier layer between the support tray and said endoscope, the flexible sheet including retaining means for engagement with the retaining members (941, 945) of the support tray to retain the sheet in contact with the tray.

Paper packaging may include a first panel formed from paper and including a first recess configured to receive a first portion of a product (e.g., optical lens, such as for an electronic headset such as a virtual reality (VR) or augmented reality (AR), eyeglasses, microscopes, etc.). The paper packaging may include a second panel formed from paper and including a second recess configured to receive a second portion of the product. A hinge panel formed from paper may coupling the first and second panels together at first and second folds, such that the product is retained within and between the first and second panels when the packaging is closed, and the recesses together retain the product when the packaging is closed.

The insert includes a base with an upper brim, the base including a first depression extending from a first flat major surface of the upper brim, the first depression including a floor with walls that define a first cavity, the walls including a first pair of opposing walls and a second pair of opposing walls, the first pair of opposing walls taper towards each other along a longitudinal length of the first depression from a first end to a second end of the first depression, and a lid connected to the upper brim, the lid covering the first cavity.

Damage to a packing device and a packed object caused by a load is prevented, and a box and the packed object are protected stably. A box of the packing device includes side surface portions, upper flaps, lower flaps, a protrusion, a fixing portion, and interior cushions. The protrusion is formed by folding part of an upper flap. The fixing portion fixes the protrusion such that the protrusion projects from the upper flap. In a state where an object is accommodated in the box, the protrusion is interposed between the upper flap and the packed object, and disperses the load applied to the box.

A cushioning apparatus includes a substrate, a first folding plate extending from the substrate, a second folding plate extending from the substrate, an annular wall, a first clamping portion, and a second clamping portion. The substrate has a first surface and a second surface opposite to each other and has an accommodation space concave towards the second surface from the first surface. The annular wall is disposed around the accommodation space. The first clamping portion is disposed on the first folding plate and is located on a same side as the second surface. The second clamping portion is disposed on the second folding plate and is located on a same side as the second surface. When the first folding plate and the second folding plate are both folded towards the second surface, the first clamping portion and the second clamping portion are clamped with each other.

A bioimplant package according to an embodiment of the present invention includes a sealing body to vacuum seal a bioimplant therein, and an inner box to accommodate the sealing body therein. The sealing body vacuum seals the bioimplant so that the bioimplant is located at a middle part of the sealing body. The inner box is made of an approximately rectangular-shaped sheet material divided into a mounting part to mount thereon the middle part of the sealing body, and a pair of winding parts which windingly fix a side part of the sealing body extending outward from the mounting part and come into linear contact with the sealing body in the vicinity of a boundary part with the mounting part. A bioimplant packaging method according to an embodiment of the present invention is a method for packaging a bioimplant by using a bioimplant package according to the above embodiment.

Packaging may include a base box having a cavity to receive a product, and a first paper spring extending from an interior of a first sidewall of the base box and a second paper spring extending from an opposing interior of a second sidewall of the base box. Each of the first and second paper springs may be formed from the same blank as the first sidewall. The first and second springs are flexible such that the cavity may accommodate products of different lengths, and may resiliently absorb vibrations or impact forces during shipping.

A protecting system for containing a biopharmaceutical fluid includes: a flexible pouch designed to contain a biopharmaceutical fluid; a protecting package including: two frames which respectively form a lower frame and an upper frame and which have a peripheral area; a fastening system able to clamp the two frames of the protecting package to each other, the frames sandwiching the flexible pouch. The fastening system includes at least an assembly only including: a snap including a backing part; and a cap including a washer. The lower and the upper frames of the protecting package are directly clamped between the washer of the cap and the backing part of the snap in a clamping position.

A lock package is provided. The package holder is suitable to simultaneously position at least two locks. The package holder includes a plate portion and a partition. The plate portion has two opposite surfaces, at least two positioning portions, and a non-positioning portion. The surfaces are configured to be disposed with the locks. The positioning portions are configured to position plural escutcheons of the locks, and a portion of each of the escutcheons is exposed, in which the non-positioning portion is configured to cover a plurality of handles of the locks.

Damage to a packing device and a packed object caused by a load is prevented, and a box and the packed object are protected stably. A box of the packing device includes side surface portions, upper flaps, lower flaps, a protrusion, a fixing portion, and interior cushions. The protrusion is formed by folding part of an upper flap. The fixing portion fixes the protrusion such that the protrusion projects from the upper flap. In a state where an object is accommodated in the box, the protrusion is interposed between the upper flap and the packed object, and disperses the load applied to the box.