A viscous liquid vessel system for presenting a gift is described herein. In some embodiments, the viscous liquid vessel system comprises a vessel containing a viscous liquid in which a gift is disposed. The vessel comprises a lid for enclosing the viscous liquid and the gift. The viscous liquid vessel system may be presented to a gift recipient and the gift recipient may remove the gift from the vessel and the viscous liquid creating a heightened emotion upon receipt and extraction of the gift.

A hybrid frame sleeve case for a portable electronic device is disclosed herein. The portable electronic device may be a laptop computer, a tablet, or another portable electronic device. The case may include flexible panels, such as neoprene or fabric panels, attached to an elastic polymer frame, such as ethylene vinyl acetate (EVA). The elastic polymer frame extends around a perimeter of the sleeve to provide cushioning or padding for the side edges of the sleeve. A magnetic latch or other latch may be used to secure an opening on one side of the sleeve. The case may optionally include a charging system that allows the portable electronic device to be charged while housed in the case or otherwise positioned to allow charging by the charging system.

A hybrid frame sleeve case for a portable electronic device is disclosed herein. The portable electronic device may be a laptop computer, a tablet, or another portable electronic device. The case may include flexible panels, such as neoprene or fabric panels, attached to an elastic polymer frame, such as ethylene vinyl acetate (EVA). The elastic polymer frame extends around a perimeter of the sleeve to provide cushioning or padding for the side edges of the sleeve. A magnetic latch or other latch may be used to secure an opening on one side of the sleeve. The case may optionally include a charging system that allows the portable electronic device to be charged while housed in the case or otherwise positioned to allow charging by the charging system.

A moisture-retaining vegetation container is provided. The container may include an outer layer of a non-porous material that is impermeable to moisture. The outer layer may further be configured to enclose an interior space. The container may further includes one or more inner layers configured to fit within the interior space enclosed by the outer layer. The inner layers may include at least one absorbent material capable of absorbing a liquid and releasing the absorbed liquid within the interior space. At least part of the vegetation may be enclosed within the interior space, thereby allowing for continued moistening of the enclosed vegetation part during transport or other usage periods.

A moisture-retaining vegetation container is provided. The container may include an outer layer of a non-porous material that is impermeable to moisture. The outer layer may further be configured to enclose an interior space. The container may further includes one or more inner layers configured to fit within the interior space enclosed by the outer layer. The inner layers may include at least one absorbent material capable of absorbing a liquid and releasing the absorbed liquid within the interior space. At least part of the vegetation may be enclosed within the interior space, thereby allowing for continued moistening of the enclosed vegetation part during transport or other usage periods.

A nonwoven fabric dispenser is provided with fixation elements attached to the body of the dispenser and a cutter assembly attached to a lid of the dispenser. Nonwoven fabric stock is secured by the fabric engagement structures when the lid of the dispenser is in a closed configuration and the cutter assembly is configured to separate a sheet of the nonwoven fabric stock of a desired length.

A nonwoven fabric dispenser is provided with fixation elements attached to the body of the dispenser and a cutter assembly attached to a lid of the dispenser. Nonwoven fabric stock is secured by the fabric engagement structures when the lid of the dispenser is in a closed configuration and the cutter assembly is configured to separate a sheet of the nonwoven fabric stock of a desired length.

A packaging container (1) for a contact lens comprises a shell (2). The shell (2) comprises a cavity (10) having a drop-shaped perimeter (12), and a flange (20) having a flat upper surface (22) extending around the drop-shaped perimeter (12) of the cavity (10) in an upper surface plane (24). The cavity (10) comprises a bowl portion (30) including an at least partially spherical section (32) for accommodating the contact lens, and a chamfer portion (40) surrounding the bowl portion (30). The chamfer portion (40) is arranged between the bowl portion (30) and the drop-shaped perimeter (12) of the cavity (10) and includes a tapered outlet section (42) forming a tip towards the flange (20) to facilitate removal of the contact lens from the cavity (10).

A packaging container (1) for a contact lens comprises a shell (2). The shell (2) comprises a cavity (10) having a drop-shaped perimeter (12), and a flange (20) having a flat upper surface (22) extending around the drop-shaped perimeter (12) of the cavity (10) in an upper surface plane (24). The cavity (10) comprises a bowl portion (30) including an at least partially spherical section (32) for accommodating the contact lens, and a chamfer portion (40) surrounding the bowl portion (30). The chamfer portion (40) is arranged between the bowl portion (30) and the drop-shaped perimeter (12) of the cavity (10) and includes a tapered outlet section (42) forming a tip towards the flange (20) to facilitate removal of the contact lens from the cavity (10).

A dry packaging in which a prosthetic heart valve is packaged within a container with hydrogel that can be provided in many forms. Certain embodiments include hydrogel that is preloaded with glycerol or the like. The hydrogel regulates the humidity within the container through a diffusion-driven mechanism if a gradient of humidity between the inside and the outside of the hydrogel exists. Humidity regulation is important to prevent the tissue of the valve structure from drying out. When the partially-hydrated hydrogel is present within container, which is saturated with air of a predefined humidity, the water molecules from the air will be absorbed by the hydrogel if the air humidity is high (i.e. when the thermodynamics favor hydrogel hydration) or vice versa. Various embodiments are configured to also house at least a portion of a delivery device for delivering the prosthetic heart valve.