A system for regulating a temperature of a liquid within a drinking vessel. The system including a temperature regulating device including an exterior surface and a composition disposed within a cavity, the exterior surface providing thermal communication between the composition and the liquid; and a securing element releasably securing the temperature regulating device within the vessel.

A system for regulating a temperature of a liquid within a drinking vessel. The system including a temperature regulating device including an exterior surface and a composition disposed within a cavity, the exterior surface providing thermal communication between the composition and the liquid; and a securing element releasably securing the temperature regulating device within the vessel.

A heating preservation system includes a selected unit, a control unit, a detection unit, and a heating unit. The selected unit is configured to select a preset temperature from amongst a plurality of differing preset temperatures, each preset temperature corresponds to a preset voltage. The control unit is configured to send out the preset voltage according to the selected preset temperature. The detection unit is configured to detect a temperature of fluid and convert the temperature to a detected voltage. The comparison unit is configured to receive the preset voltage and the detected voltage and compare the detected voltage with the preset voltage. The heating unit is configured to heat the fluid when the detected voltage is less than the preset voltage, and stop heating the fluid when the detected voltage is more than the preset voltage. A smart cup using the heating preservation system is further disclosed.

A shock-proof mineral container and mounting structure thereof, which provides a heat insulation container with a liner formed using mineral material. The liner is provided with shock-proof protection and a mounted assembly structure. During the process of assembling the single ended suspended configuration, a blocking member having an elastic effect is inter-connected between an annular neck configured on the mineral liner and an upper link opening joined to an outer cylinder, and the elastic strain of the blocking member is used to absorb shock waves occasionally produced by an external force when carrying the container, thereby safeguarding the structural safety of the hard and brittle mineral liner. In addition, the structure is supplemented with a cylinder liner, which adds to the heat insulation capacity of the container and maintains the stability of the mineral liner.

A hot food storage assembly includes a box that may be positioned on a support surface. A cover is removably positioned on the box and the cover has a plurality of openings. A plurality of cans is provided and each of the cans may contain a food item. Each of the cans is comprised of a thermally insulating material. Thus, each of the cans may retain the food item at a pre-determined temperature. Each of the cans is slidably inserted through an associated one of the openings. A plurality of lids is provided and each of the lids is removably coupled to an associated one of the cans. Each of the lids forms a fluid impermeable seal with the associated can. Thus, each of the lids inhibits heat transfer between the food item and air.

A multi-lid heat-insulating cup is provided, including a heat-insulating cup body with an accommodating cavity and a cup lid detachably connected to the heat-insulating cup body, the cup lid being provided with a drinking mouthpiece and a drinking mouthpiece lid being disposed at the drinking mouthpiece, where an inner top surface of the cup lid is provided with a ring-shaped sealing gasket; and with the cup lid covering an opening end of the heat-insulating cup body, the sealing gasket is capable of sealing both the opening end of the heat-insulating cup body and a top periphery of a pop can placed in the accommodating cavity, and a beverage outlet of the pop can is in communication with the drinking mouthpiece. The cup lid which can cover an opening of the heat-insulating cup body is disposed to increase a heat insulation effect.

A drinking container system with multiple temperature zones, wherein the container system includes a main body having a sidewall and a bottom that define a phase change material (PCM) module receptacle, and a phase change material (PCM) module having a sidewall that defines a beverage chamber. The PCM module is disposable within the PCM module receptacle such that a beverage egress flow path is defined between the main body sidewall and the PCM module sidewall. The flow path formed in the container can make the beverage achieve the desired drinking temperature. The PCM module sidewall is at least partially filled with a phase change material and is structured and operable to provide a plurality temperature zones within the beverage chamber. Each temperature zone is operable to maintain a temperature of a respective portion of a liquid disposed within the beverage chamber within a respective temperature range.

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 container assembly has a soft-sided insulated wall structure. It has one or more internal chambers in which to place objects to be kept cool or warm. A first closure member governs access to the container assembly. The wall structure includes one or more accommodations in which to place a warming or cooling element, such as an ice pack. The accommodations in the outside walls are externally accessible without opening the main chamber, and have their own closure, and may be insulated. The inside is a thin web through which to transfer heat. An internal partition divides the container assembly into two chambers. The partition may have a thermal storage element. The container may be a collapsible foldable bag; a tote bag; back pack or a non-collapsible lunch box. The thermal storage elements may have a flat disk shape. The disks slide sideways into place in the respective accommodations.

Embodiments of the present disclosure are directed towards vacuum vessels, more specifically, embodiments are directed towards insulating devices and high insulating systems including vacuum vessels. As an example, a vacuum vessel can include a shell including a continuous surface layer with a shell locking portion, a liner including a continuous surface layer with a liner locking portion, where the liner locking portion and the shell locking portion interlock the shell and the liner and include a first sealant layer and a second sealant layer disposed along an interface between the continuous surface layer of the shell and the continuous surface layer of the liner.