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 opening can be sealed by a closure, the closure having an upper portion with a handle that has a circular curvature equal to the cylindrical portion of the closure. The closure may also have a lower portion that is joined to the upper portion by an injection molded polymer element.

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.

A drinkware container system includes a container body having an outer wall and an inner wall spaced from the outer wall to define a cavity. The inner wall extends between an opening of the container body and a base wall. The inner wall and base wall define a chamber that receives a liquid, the bottom wall spaced below the base wall. A cold-side heat sink is located in the cavity in thermal contact with the inner wall and/or the base wall. Optionally, a phase change material is located in the cavity and in thermal communication with the chamber and with the cold side heat sink, the phase change material spaced apart from the outer wall. The cavity can optionally be filled with an insulation material or be under vacuum. Optionally, the container body can have magnet(s) that can removably couple it with a cooling unit. The cooling unit can have a first heat sink configured to contact the container body when the container body is placed on the cooling unit, thermoelectric module(s) in thermal communication with the first heat sink, and a second heat sink in thermal communication with the thermoelectric module(s) so that the thermoelectric module(s) are interposed between the first and second heat sinks. The thermoelectric module(s) are operable to draw heat from the first heat sink and transfer it to the second heat sink to cool the first heat sink to thereby draw heat from the container body to cool it.

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 insulating container can be configured to retain a volume of liquid, and include a canister having 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 opening can be sealed by a spout adapter, the spout adapter having a spout channel extending between the internal reservoir and a spout opening, smaller than the opening of the canister. The spout opening may be sealed with a cap having a magnetic top surface, and the spout adapter may be further removably coupled to a lid that may be used as a cup into which a volume of the liquid can be poured. In addition, spout adapter assembly with an adapter that releasably attaches to the canister and a plug that is received within the adapter that moves to place the spout adapter assembly into an open and a closed orientation. The plug may have a means to provide tactile feedback to a user that the spout adapter assembly is in an optimal pouring condition.

An insulating container can be configured to retain a volume of liquid, and include a canister having 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 opening can be sealed by a spout adapter, the spout adapter having a spout channel extending between the internal reservoir and a spout opening, smaller than the opening of the canister. The spout opening may be sealed with a cap having a magnetic top surface, and the spout adapter may be further removably coupled to a lid that may be used as a cup into which a volume of the liquid can be poured.

The present invention discloses a thermal cup, which includes a cup body with an opening and a cover, a promoter, a sealing ring and a driver. The cover is covered to the opening. The driver is installed on the top face of the cover, the promoter is installed on the bottom face of the cover, when the cover covers at the opening, the promoter is inside the opening, and a gap is formed among the opening, the top wall of the cover and the promoter, the sealing ring is accommodated in the gap. When close the cover, the driver is rotated to bring the promoter to move upwards, the gap is reduced and the sealing ring seals the gap; when open the cover, the driver is rotated to bring the promoter to move downwards, the sealing ring resets to break the sealed connection of the opening and the cover.

A secure food delivery box apparatus for preventing food tampering during delivery includes a container body defining a body inside. A plurality of compartment walls is coupled within the body. A pair of handles is coupled to the container body. A lid is hingingly coupled to a body back side to selectively cover and uncover a body top side. A zipper is coupled to the container body and the lid. The zipper has a pair of zip bodies each having a zip loop. A zipper catch is coupled to the container body. The zipper catch selectively locks and releases the zip loop of each zip body. A digital keypad is coupled to the container body and is in operational communication with the zipper catch.

A temperature control cup includes a cup body and a cup cover, and the cup cover is covered on the cup body. The cup body is provided with a cup outer shell, a cup middle shell, and a cup inner wall in order from the outside to the inside. A vacuum heat insulation layer is provided between the cup shell and the cup middle shell. A gas getter is provided in the vacuum heat insulation layer at the bottom of the cup body. A phase change material layer is provided between the middle shell and the inner wall of the cup body. The bottom center of the cup shell is recessed inward with a small through-hole, and the through-hole is sealed with glass after melting at high temperatures.