This utility model released one kind of multifunctional flexibly transformable cup, comprising one internally cut-through transformable cup and a nested bottom plug that is sealed and clamped with the transformable cup body. The above-mentioned transformable cup is comprised of a foldable enclosure and pin that are successively cut-through and flexibly and tightly connected. The aforesaid seal clamp for embedded bottom plug is located at the junction between the foldable enclosure and pin. When the multifunctional flexibly transformable cup of the utility model is in use, the folding enclosure body can be overturned freely, and the whole body is made of food-grade flexible silica gel material, which is safe and reliable and not easy to be broken. It can also be used as the wine cup, bottle stopper and the bottleneck inserted into the wine bottle that can be directly used for drainage of fluid, with complete functions.

A de-oxygenation stopper configured to enable aging of an oxygen sensitive material such as wine contained within a vessel, while minimizing oxygen content within the vessel. The stopper includes an oxygen scavenging element configured to remove and/or neutralize oxygen molecules within the vessel, and a sealing element formed of one or more materials having tailored oxygen transmission rate(s) configured to enable the material to age at a desired rate.

A closure comprises a cylindrical element (1, 101) having a first portion (2, 102) and a second portion (3, 103), the latter being adapted to engage, as a removable cap, in a portion of a neck (5) of a container, an overcap (8, 108) attached to the cylindrical element (1, 101), comprising a first body (9, 109, 209) and a second body (15, 115, 215), attached together and defining a seat (19, 219). The cylindrical element (1, 101) is partially disposed in the seat (19, 219) to be locked within the seat (19, 219).

A bottle stopper adapted for self-opening and self-plugging a bottle, comprising a cylindrical cover having a bottom end and a top end. The cylindrical cover is sized and shaped to plug a bottle. A cartridge is encompassed by the cylindrical cover and has a fluid chamber; the cartridge also has at least one lateral protrusion thereon to form between the cartridge and the cylindrical cover. There is at least one fluid channel for fluidly connecting between a space below the bottom end and above the top end. A conduit having at least one inlet and at least one outlet is for fluidly connecting transferring the fluid of the fluid chamber to outside of the bottle stopper. An activation cap is mounted to push the conduit along a longitudinal axis of the cylindrical cover from a closed state to an open state.

An improved packaging assembly for storing, distributing, treating, mixing, and dispensing tissue and/or cellular material and/or implantable material. The packaging assembly may include pouches, tubes, and a bag made of a sealable, flexible polymeric material that is open at one end and a needle-free swabable connector attached to the pouch at the other end and acting as a port to allow for the introduction or discharge of biological solutions, rinsing solution, and/or preservation solutions into the packaging assembly. The designed thickness of the wall of the packaging assembly facilitates efficient heat/cold transfer, which is useful for successful controlled rate freezing, quick thawing, and resuscitation of viable cells or tissue. The packaging assembly is also useful for combining additional biological fluids with the cellular material or tissue, and for efficient mixing of the biological fluids with the tissue and/or cellular material in the assembly.

The invention features a method of reconditioning a fluid container including heating for at least one cycle the fluid container to a select temperature for a select time duration; sealing for at least one cycle the fluid container; cooling for at least one cycle the fluid container to a select vacuum for a select time duration in an interior of the fluid container; wherein the select vacuum and the select time duration of the cooling step are selected to draw substantially a fluid from at least one of a pore, a cell and a fiber of the fluid container to a surface of the fluid container. The invention also features methods of infusing an infusion agent into a reconditioned fluid container, and methods for preparing construction materials, devices adapted for the construction material preparation methods, and construction materials including wood reconditioned and prepared in accordance with the methods of the invention.

Provided is a wine stopper capable of being vacuumized, the wine stopper comprising a base capable of covering an outer side of a wine bottle, and a shell enclosing a cavity with the base. A boss capable of being clamped in a bottle opening is arranged on one side, away from the shell, of the base. The wine stopper further comprises a power source arranged in the cavity and a vacuum pump capable of creating a vacuum in the wine bottle, a through hole capable of communicating the vacuum pump with the interior of the bottle is provided in the boss, a measurement assembly capable of measuring a vacuum degree of the interior of the wine bottle is arranged in the cavity, and the measurement assembly is electrically connected with the vacuum pump.

The bottle has a neck sealed by a stopper. The safeguarding device (2) comprises a first and a second part (20, 21), the first part (20) being adapted to be integrated in the stopper (1) and the two parts (20, 21) being joined in translation while allowing a limited relative movement of one part with respect to the other when a traction force is applied to the safeguarding device (2) in order to remove said stopper (1) from the neck. According to the invention, the safeguarding device comprises an electrical component (212) disposed so that at least one electrical characteristic of said component is modified during the relative movement of the two parts (20, 21).

An aerating bottle stopper comprises a stopper component and an aerator component, which is releasably attached to the bottom of the stopper component by at least one break-away connector. During the bottling of the beverage, the aerating bottle stopper is inserted into the neck of the bottle to seal it. In order to open the bottle, the stopper component is removed causing the break-away connector to separate, releasing the aerator component so that it remains in the neck of the bottle. Multiple flow channels pass through the aerator component. When the beverage is poured through the bottle neck, its flow through the flow channels becomes turbulent so as to cause air to mix with the beverage and aerate it.

A capsule for maintaining containment of a substance within a predetermined volume includes a housing having a tubular shape and walls with an inside surface. The housing has at least one open end. A cap is configured to be assembled coaxially to the housing. The cap includes a top and a plug configured to be inside the housing when the cap is assembled to the housing through the open end. An outer surface of the plug is dimensioned to engage an adjacent inside surface of the housing in an interference fit of the cap with the housing. A method for sealing a capsule is also disclosed.