Induction-heated vessels, and processes for manufacturing induction-heated vessels and vessel components, are provided. The vessels can include a ceramic outer layer and a conductive heating element, which can be provided as a conductive glaze or coating, a conductive inner layer, or a label comprising a conductive element and an RFID tag, to allow the thermal transfer or conduction of heat from the heated surface directly to the contents of the vessel, while the ceramic outer layer of the vessel insulates the contents of the vessel. Also, systems and methods for heating and controlling induction-heated vessels and for tracking loyalty, use, and/or sales using RFID-enabled induction-heated vessels are provided.

Induction-heated vessels, and processes for manufacturing induction-heated vessels and vessel components, are provided. The vessels can include a ceramic outer layer and a conductive heating element, which can be provided as a conductive glaze or coating, a conductive inner layer, or a label comprising a conductive element and an RFID tag, to allow the thermal transfer or conduction of heat from the heated surface directly to the contents of the vessel, while the ceramic outer layer of the vessel insulates the contents of the vessel. Also, systems and methods for heating and controlling induction-heated vessels and for tracking loyalty, use, and/or sales using RFID-enabled induction-heated vessels are provided.

The present disclosure may be embodied as a drinking vessel having an insulating body. The insulating body includes a cavity for containing a liquid. The cavity has a bottom and a cylindrical side wall. A top portion of the cylindrical side wall is internally threaded. The insulating body further includes a base with a storage mount. The storage mount is internally threaded. A lid having a drinking orifice is provided. The lid is externally threaded. The lid is configured to couple with the threads of the cavity or the threads of the storage mount such that the lid may be selectively coupled. The drinking vessel may further include a clamping ring. The clamping ring is externally threaded to couple with the cavity or the storage mount. The clamping ring is configured to cooperate with the cavity to secure a can or bottle within the cavity.

The present disclosure may be embodied as a drinking vessel having an insulating body. The insulating body includes a cavity for containing a liquid. The cavity has a bottom and a cylindrical side wall. A top portion of the cylindrical side wall is internally threaded. The insulating body further includes a base with a storage mount. The storage mount is internally threaded. A lid having a drinking orifice is provided. The lid is externally threaded. The lid is configured to couple with the threads of the cavity or the threads of the storage mount such that the lid may be selectively coupled. The drinking vessel may further include a clamping ring. The clamping ring is externally threaded to couple with the cavity or the storage mount. The clamping ring is configured to cooperate with the cavity to secure a can or bottle within the cavity.

A method for making a container includes forming a first cavity of a container by shaping an inner wall so that a first surface of the inner wall defines the first cavity; forming a second cavity of the container by shaping an outer wall so that a third surface of the outer wall surrounds a second surface of the inner wall such that together the third and second surfaces define the second cavity; and connecting the inner and outer walls together. The method then includes forming a hole through the outer wall to expose the second cavity to the outside ambient environment and then applying an enamel coating, while preventing the enamel coating from being deposited in the hole. After the enamel coating is applied, the method includes heating the container to glaze the enamel coating and fix the coating to the one or more surfaces.

A two-end-through vacuum heat-insulated container outer tube sealing structure includes a vacuum heat-insulated container outer tube, where a shoulder part of the vacuum heat-insulated container outer tube is provided with a plane; a vacuum cavity is formed in the plane; a vacuum hole for vacuum pumping is formed in the vacuum cavity; the vacuum cavity is filled with a sealing material; a side surface of the plane of the shoulder part is provided with a circular step from top to bottom; a shielding cover is subjected to primary welding on the circular step; a weld bead of the welding is removed by polishing; the shielding cover and the circular step are in gap-free fit; the other end of the shielding cover is subjected to secondary welding with a mouth part of a bottle body; and the weld bead of the welding is removed by sanding the mouth.

Provided are vacuum-insulated articles that comprise an evacuated space disposed between first and second walls and a reflective material disposed within the evacuated space. Also provided are methods of fabricating such articles.

Disclosed are a multifunctional heating and heat preservation container and a charging base thereof. The multifunctional heating and heat preservation container comprises a container main body (30), with the container main body (30) comprising a container inner lining (8), and a container housing (10), which forms a vacuum cavity (9) with the container inner lining (8) and enables the bottom of the container inner lining (8) to be exposed, is arranged on the peripheral side of the container inner lining (8). The charging base comprises a base housing (1), an ejector pin (2), which is in contact with a charging ring (214), is arranged in the base housing (1), an insulating layer (3) is sleeved on the ejector pin (2), an elastic member (4) which elastically ejects the ejector pin (2) towards the outside of the base housing (1) to enable the ejector pin (2) to move out of or retract into the base housing (1) is sleeved on the insulating layer (3), and a conductive terminal (5) is connected to the ejector pin (2). The problems whereby a cup body of an existing temperature control cup uses a single-layer steel plate structure, the cup body dissipates heat quickly, and heat preservation completely depends on electric energy heating, such that a battery which is in the temperature control bottom of the container and is used for power supply consumes electricity quickly, are solved; and the problems whereby a spring in an existing charging base is arranged in an ejector pin, and the spring is prone to failure due to an overlarge current in the power-on process of the charging base with the outside, such that the ejector pin cannot rebound and reset, are solved.

A heat-insulated container for beverages includes: a wooden or bamboo inner cylinder having a substantially cylindrical shape with a closed bottom; a wooden or bamboo outer cylinder having a substantially cylindrical shape with a closed bottom; and a fit body where decompressed space is provided between an inner wall having a substantially cylindrical shape with a closed bottom and an outer wall having a substantially cylindrical shape with a closed bottom. The fit body is fitted over the inner cylinder in such a manner as to cover a bottom part and a peripheral wall part around beverage storage space of the inner cylinder. The outer cylinder is fitted over the fit body in such a manner as to cover a bottom part and a peripheral wall part of the outer wall of the fit body.

A heat-insulated container for beverages includes: a wooden or bamboo inner cylinder having a substantially cylindrical shape with a closed bottom; a wooden or bamboo outer cylinder having a substantially cylindrical shape with a closed bottom; and a fit body where decompressed space is provided between an inner wall having a substantially cylindrical shape with a closed bottom and an outer wall having a substantially cylindrical shape with a closed bottom. The fit body is fitted over the inner cylinder in such a manner as to cover a bottom part and a peripheral wall part around beverage storage space of the inner cylinder. The outer cylinder is fitted over the fit body in such a manner as to cover a bottom part and a peripheral wall part of the outer wall of the fit body.