A beverage vessel for storing beverage includes an inner flask made of metal forming a base material, wherein in the inner flask is adapted to store the beverage, an outer flask, a thermally insulating layer arranged between the inner flask and the outer flask and an opening for pouring the beverage into the beverage vessel or pouring the beverage out of the beverage vessel, wherein the base material of the inner flask is coated in its interior surface with an inert metal coating. The invention also discloses a beverage vessel lid, comprising locking means adapted to engage with complimentary locking means of a beverage vessel for releasably locking the lid to the beverage vessel, a sealing adapted to engage with a sealing surface of the beverage vessel, wherein at least the portion of the lid surrounded by the sealing is covered by an inert metal coating.

The present application generally relates to devices and methods for transporting items, and it more specifically relates to insulated carriers for use in carrying temperature-controlled items such as beverages and food.

A heat exchanging thermal liquid container system that comprises a main body at least partially defining a liquid reservoir structured and operable to retain a liquid, and a phase change material (PCM) liner comprising a PCM liner PCM having a selected melting temperature, and/or at least one PCM pod. Each of the at least one PCM pod(s) comprising a respective PCM pod PCM having a respective selected melting temperature. Wherein the PCM liner and/or the at least one PCM pod are disposable within the liquid reservoir such that when a liquid is disposed within the liquid reservoir the liquid will contact at least one of the PCM liner and the at least one PCM pod such that thermal energy can be exchanged between the liquid and the respective at least one of the PCM liner PCM and the at least one PCM pod PCM.

A heat exchanging thermal liquid container system that comprises a main body at least partially defining a liquid reservoir structured and operable to retain a liquid, and a phase change material (PCM) liner comprising a PCM liner PCM having a selected melting temperature, and/or at least one PCM pod. Each of the at least one PCM pod(s) comprising a respective PCM pod PCM having a respective selected melting temperature. Wherein the PCM liner and/or the at least one PCM pod are disposable within the liquid reservoir such that when a liquid is disposed within the liquid reservoir the liquid will contact at least one of the PCM liner and the at least one PCM pod such that thermal energy can be exchanged between the liquid and the respective at least one of the PCM liner PCM and the at least one PCM pod PCM.

A closure assembly including a closure base configured to be selectively coupled to a neck of a liquid vessel and a valve assembly operatively coupled to the closure base, the valve assembly comprising a nozzle that extends away from the closure base and defines at least one drink outlet, shower outlets spaced around the at least one drink outlet, and a barrel valve, the barrel valve being configured to be selectively rotated relative to the closure base to transition the valve assembly between a closed configuration, in which a flow of liquid from the liquid vessel through the closure assembly is restricted, a drink configuration, in which liquid is permitted to flow from the liquid vessel through the drink outlet but not the shower outlets, and the shower configuration, in which liquid is permitted to flow from the liquid vessel through the shower outlets but not the drink outlet.

A helix geodesic insulated beverage container that includes a main body portion and a cap portion. The main body portion has an enclosure with an outer surface. The enclosure has an opening at the outer surface. The enclosure is adapted to receive a liquid. The outer surface has a helix shape. The outer surface has a geodesic pattern. The cap portion is removably attachable to the main body portion for sealing the opening.

A formulation for producing a polymeric material including polypropylene, a chemical blowing agent, and optional components as described.

The delaminatable container is capable of suppressing deterioration of the contents under high-temperature environment. The delaminatable container includes a container body; and a tubular outer case being installed in the container body; wherein: the container body includes an outer shell and an inner bag, and the inner bag shrinks as contents decrease.

Disclosed is a thermal insulating container with a combination inner liner, which includes a cup, surrounded with a storage space and forming an open end. The inner edge of the open end has an inner locking part. An inner liner is surrounded with a bearing space and forms an opening end, wherein the inner liner is fitted in the storage space, and the opening end is provided with a screw thread section. There is a connecting part under the screw thread section. An external member is assembled on the connecting part, and there is an outer locking part on the external surface of the external member. The outer locking part is assembled with the inner locking part of the cup body. A cover has an edge which is a circumferential wall extended downwards, and is provided with a ridge section screwed on/off the screw thread section of the inner liner.

A fluid container including a fluid vessel having a neck with an opening and having an internal compartment sized to hold a volume of fluid, the internal compartment being at least partially enclosed by an opaque layer, a closure assembly removably coupled to the fluid container to cover the opening, and two or more fluid level indicators defined in the opaque layer, each fluid level indicator comprising a translucent or transparent material configured to permit light to pass through the opaque layer and into the internal compartment, at least two of the two or more fluid level indicators being positioned on circumferentially opposed sides of the fluid vessel.