A thermal stabilization vessel may include a double walled tube. The tube may have an outer wall, an inner wall, and a sealed off volume located between the inner and outer walls. A removable base may close off a bottom opening of the tube and conduct heat to or from a container placed within the vessel. A top may partially close off a top opening of the tube. The top may include an annulus of elastomeric material. The annulus may have a plurality of resilient tabs extending radially inward toward a central axis of the tube. When a container such as a bottle of wine is placed within a vessel, the tabs of the annulus may resiliently deflect as needed to accommodate the container and then restrict air exchange between an ambient environment and a space located interior to the inner wall of the tube and exterior to the container.

An insulating container can be configured to retain a volume of liquid, and include a first inner wall having a first end having an opening extending into an internal reservoir, and a second outer wall forming an outer shell. The second outer wall can include a second end configured to support the container on a surface. The second outer wall can include a dimple, and the dimple can include a circular base and an inner portion converging to an hole extending into the second outer wall. The hole can be sealed by a resin, and the circular base can be covered by disc formed of the material. Alternatively, a cap can cover the dimple, and a weld can connect the cap to the second outer wall. The container can also include a sealed vacuum cavity forming an insulated double-wall structure between the first inner wall and the second outer wall.

A thermal stabilization vessel may include a double walled tube. The tube may have an outer wall, an inner wall, and a sealed off volume located between the inner and outer walls. A removable base may close off a bottom opening of the tube and conduct heat to or from a container placed within the vessel. A top may partially close off a top opening of the tube. The top may include an annulus of elastomeric material. The annulus may have a plurality of resilient tabs extending radially inward toward a central axis of the tube. When a container such as a bottle of wine is placed within a vessel, the tabs of the annulus may resiliently deflect as needed to accommodate the container and then restrict air exchange between an ambient environment and a space located interior to the inner wall of the tube and exterior to the container.

An insulated container for food particulate and beverages is described. The insulated container includes a double-walled structure composed of a metal, and a glass structure arranged within a hollow interior of the double-walled structure. The glass structure includes a body and a sipping portion extending from the body. The sipping portion isolates the user's lips from contacting the double-walled structure. The glass structure may be repeatably removed for cleaning or replacement. The insulated structure includes a deformable flange that secures the glass structure to the double-walled structure. The insulated container may be vacuum-insulated.

The present invention relates to a portable insulated food container. More particularly the present invention relates to a portable insulated food container with a greater heat-retaining capacity. The portable insulated food container comprises of a vacuum insulated removable outer cover, a vacuum insulated base, a vacuum insulated base carrier, one or more non-insulated container(s), one or more detachable lid(s), a supporting base, and one or more interlocking units. Advantageously the present invention relates to a portable insulated food container with different shapes like oval, rectangle, square, hexagon, etc and sizes.

Disclosed is a vacuum compartment structure for a cup lid and a manufacturing method thereof. The vacuum compartment structure for a cup lid includes a stainless steel cylinder body and a compartment upper cover. The compartment upper cover is covered on the cylinder body and has an inwardly recessed shape, and the compartment upper cover and the cylinder body are fixedly connected and sealed by laser welding. The compartment upper cover and the cylinder body form a vacuum chamber, which has a getter therein. The compartment upper cover is arranged with a plastic upper cover layer, an outer surface of the cylinder body is wrapped with a plastic lower cover layer, and the plastic upper cover layer is combined with the plastic lower cover layer to fasten and wrap the compartment upper cover and the cylinder body.

Multi-vessel drink containers. In examples, a multi-vessel drink container includes a primary vessel, a secondary vessel, a primary closure configured to close the primary vessel, and a secondary closure configured to close the secondary vessel. In examples, the primary closure includes a primary closure base portion that defines a storage compartment and a compartment closure configured to close the storage compartment. In examples, the secondary vessel is configured to be selectively transitioned between a nested configuration, in which the secondary vessel is operatively coupled to the primary vessel, and a drink configuration, in which the secondary vessel is removed from the primary vessel. In examples, the secondary closure is configured to be selectively transitioned between a stowed configuration, in which the secondary closure is received within the storage compartment, and a use configuration, in which the secondary closure is operatively coupled to the secondary vessel.

A beverage container system may include a vessel having an interior volume for containing a beverage and shell having an interior volume for removably coupling vessel therein. The shell may include an inner wall, an outer sidewall, and a sealed volume between the inner wall and the outer wall. The sealed volume may be at a vacuum pressure. The vessel may be constructed from glass while the shell may be constructed from a durable material such as stainless steel.

A beverage container system may include a vessel having an interior volume for containing a beverage and shell having an interior volume for removably coupling vessel therein. The shell may include an inner wall, an outer sidewall, and a sealed volume between the inner wall and the outer wall. The sealed volume may be at a vacuum pressure. The vessel may be constructed from glass while the shell may be constructed from a durable material such as stainless steel.

A vacuum heat insulating container 1 includes an outer tube 2 having a bottom and an inner tube 3 having a bottom and an inner tube 3 having a bottom, the outer tube 2 and the inner tube 3 being arranged in such a way that the central axes thereof being a horizontal direction, an opening end of the outer tube 2 and an opening end of the inner tube 3 being bonded to each other, and a depressurized sealed space 8 being formed between the outer tube 2 and the inner tube 3, in which the vacuum heat insulating container further includes a load receiving part 7 for causing the outer tube 2 to support the inner tube 3, and the location of the load receiving part 7 in a vertical direction coincides with the location of the central axis of the outer tube 2.