An improved and safer opening mechanism for a container, such as a pressurized container, is provided that includes a synchronous relationship between a safety cap and a sealable plate, such that the safety cap covers the sealable plate when it is removed from the container.

The present disclosure provides a lid assembly for adjusting internal pressure and a container, including a lid main body. The lid main body is provided with a gas nozzle, a sliding plug cavity, a slider nut, an elastic component and an adjusting assembly. The gas nozzle is configured to mount a gas bottle. The adjusting assembly adjusts a movement distance of a sliding plug in the sliding plug cavity and controls a gas output of the gas nozzle so as to control the content and pressure of gas in the container provided with the lid assembly, and improve a drinking taste of a gas-containing drink in the container. The container for containing the gas-containing drink of the present disclosure can maintain a gas (carbon dioxide) content in the drink, improve the drinking taste, and can be adjusted according to requirements to produce different tastes, being adaptable to different users.

A sealed plastic container having an airtight chamber. The container includes an elongated body portion having at least one opening and at least one enclosure portion welded to the opening of the body portion, thereby hermetically sealing the chamber. The chamber may have a pressure above atmospheric pressure. The enclosure portion and the body portion may be biodegradable.

In some embodiments, a sealing and pressure dosing apparatus may be provided. The sealing and pressure dosing apparatus may include a sealing machine having one or more of a driven turret, a sealing head, a pressure sealing member, and a pressure sealing chamber. The sealing and pressure dosing apparatus may also include a pressure dosing system which may be integrated with the sealing machine.

Provided are a seamless can body having excellent pressure resistance and a method for producing the seamless can body. The seamless can body according to the present invention includes a tubular body section (10), a peripheral ground section (20b) continuing from a lower end of the tubular body section, and a raised bottom section (30) continuing from the peripheral ground section toward a center-axis side. When an outer surface area of the raised bottom section is denoted by A.sub.D and an area of a virtual plane an outline of which is formed by the peripheral ground section is denoted by A.sub.B, a relation of 1.55 ≥ (A.sub.D/A.sub.B) ≥ 1.40 is satisfied.

A method of making a pressurized packaged liquid beverage including filling a container including a one-way valve with a liquid mixture including a base liquid and a gum; sealing the container; introducing a volume of gas through the one-way valve after sealing the container; and agitating the container. When the container is opened, the liquid mixture increases in volume and separates into a liquid phase and a drinkable foam phase, which may persist for an extended period of time. The base liquid includes milk, coffee, fruit juice, or mixtures thereof.

The present specification discloses an insert for a fluid product container that provides one or optionally both of a fluid aeration insert, that aerates the fluid product during the pour, and a cryogenic additive insert, that protects the fluid product container from exposure to the extreme low temperatures of a cryogenic additive, such as liquid nitrogen, that can cause damaging interaction with the container lining that exposes fluid product to the bare metal of the container, negatively affecting the flavor or safety of a beverage and/or causing structural damage to the container. The cryogenic additive insert provides a cryogenic additive tray having a cryogenic additive holding concavity that receives and hold a cryogenic additive during the filling process such that the cryogenic additive is isolated from the walls of the container. The fluid aeration insert includes a multiplicity of aeration openings through which the fluid product must flow during pouring.

Devices and methods to extract a desired product from organic matter using supercritical fluid extraction processes are described herein. The extraction vessel generally includes a reaction chamber, a water jacket affixed to the reaction chamber capable of separate pressurization, and a closure mechanism with a gasket, a plug, and a cap ring with ACME threading. The extraction vessel may be sealed by hand closure without a need for additional tools to create a seal able to withstand pressures up to 5,000 psi.

A unit for bonding the container with the lid, made of plastic, designated especially for pressurised beverages, having a profiled rim of the container opening and a profiled rim of the lid, characterised in that the profiled rim of the opening (2) of the container (1) comprises a flange (3) formed around the said opening (2), extending outwards away from the side wall of the container, where the flange (3) has a top surface (4), side surface (5) and bottom surface (6) bonded to the external side surface of the container (1), and where formed on the top surface (4) around the opening (2) of the container (1) there is a rib (7) protruding above the surface (4), while the profiled rim of the lid (8) comprises a groove (9) formed on the bottom surface (10) of the lid (8) around its bottom edge, the groove (9) accommodating the said rib (7) which supports the lid (8) without touching on the top surface (4) of the flange (3), where there is an energy director (12, 13) formed on the bottom of the groove (9) or the top surface of the rib (7), which focuses ultrasonic energy in the process of ultrasonic welding of the rib (7) and the lid (8).

Devices for cooling beverages in cooperation with a compressed gas cartridge. The devices include a housing, a head, a working fluid, and a release mechanism. The housing defines a chamber complementarily configured with the compressed gas cartridge to receive the compressed gas cartridge. The head couples to the housing and defines an interior void in fluid communication with the chamber. The working fluid is contained with the interior void of the head. The release mechanism is operably connected to the housing and configured to selectively release compressed gas from the compressed gas cartridge into the interior void of the head. The compressed gas cools the working fluid when the compressed gas is selectively released from the compressed gas cartridge and contacts the working fluid in the interior void. The head is configured to be placed in a beverage to cool the beverage.