A thermal insulated cup can include cup module and a battery module. The battery module is provided with a first magnetic absorption module. The cup module is provided with a second magnetic absorption module, and an electric heating component and a power interface, the power interface is connected with the electric heating component, and the first magnetic absorption module and second magnetic absorption module absorb jointly to enable an electrical connection between the battery module and the power interface. A magnetic absorption type contact between the battery module and the cup module by arranging a first magnetic absorption module on the battery module and a second magnetic absorption module on the cup module, so that the power supply is easy to detach or change, enabling a long-time thermal holding of the thermal insulated cup.

An actively heated mug, travel mug, baby bottle, water bottle or liquid container is provided. The mug, travel mug, baby bottle, water bottle or liquid container can include a body that receives a liquid therein and a heating or cooling system at least partially disposed in the body. The heating or cooling system can include one or more heating or cooling elements that heat a surface of the receiving portion of the body and one or more energy storage devices. The mug, travel mug, baby bottle, water bottle or liquid container can include a wireless power receiver that wirelessly receives power from a power source and control circuitry configured to charge one or more power storage elements and to control the delivery of electricity from the one or more power storage elements to the one or more heating or cooling elements. The mug, travel mug, baby bottle, water bottle or liquid container also can have one or more sensors that sense a parameter of the liquid or sense a parameter of the heating or cooling system and communicates the sensed information to the control circuitry. The control circuitry can turn on, turn off, and/or operate the heating or cooling element to actively heat or cool at least a portion of the body to maintain the liquid in a heated or cooled state generally at a user selected temperature setting based at least in part on the sensed parameter information. The mug, travel mug, baby bottle, water bottle or liquid container can also be paired with a remote device or mobile electronic device to send or receive communications or commands.

The present invention relates to an assembly for the preparation of a heated beverage, comprising a case or cover or box (battery cover) (8) for mobile phone (60) or external device (6) comprising an internal seat for the corresponding insertion of at least a container (7), said container (7) comprising means (13) for the production of heat, wherein said container (7) comprises contacts (12) to electrically feed said means (13) when said container is inserted in the seat.

A smart inductive heating appliance includes an interface for interacting with a package intelligence and communication module on a smart package. The smart heating appliance may also detect and charge chargeable devices inductively. A number of data sets may be utilized to enhance control of heating/cooking and to enhance safety. A thermodynamic load profile of the package may include detailed data correlations established in a package testing step and utilized to control heating of the package as well as to validate and authenticate the package.

Various smart package configurations may include a package intelligence and communication module (PICM) intelligently interacting with smart heating appliances and users. A thermodynamic load profile may correlate thermodynamic response characteristics of the package and be stored in or associated with a unique identifier in the PICM. The TLP enables efficient and safe heating of packages on a smart appliance as well as package validation and authentication. Package configurations also include structural elements for efficient heating of food, beverage, cosmetic and personal care products.

An actively heated or cooled dishware or serverware device (e.g., a plate, a bowl, a serving dish, such as a platter) can have a temperature control system that can include one or more heating or cooling elements operable to heat or cool a surface of the dishware or serverware device to thereby heat or cool the food on said surface.

The present invention relates to an assembly for the preparation of a heated beverage, comprising a case or cover or box (battery cover) (8) for mobile phone (60) or external device (6) comprising an internal seat for the corresponding insertion of at least a container (7), said container (7) comprising means (13) for the production of heat, wherein said container (7) comprises contacts (12) to electrically feed said means (13) when said container is inserted in the seat.

An actively heated mug, travel mug, baby bottle, water bottle or liquid container is provided. The mug, travel mug, baby bottle, water bottle or liquid container can include a body that receives a liquid therein and a heating or cooling system at least partially disposed in the body. The heating or cooling system can include one or more heating or cooling elements that heat a surface of the receiving portion of the body and one or more energy storage devices. The mug, travel mug, baby bottle, water bottle or liquid container can include a wireless power receiver that wirelessly receives power from a power source and control circuitry configured to charge one or more power storage elements and to control the delivery of electricity from the one or more power storage elements to the one or more heating or cooling elements. The mug, travel mug, baby bottle, water bottle or liquid container also can have one or more sensors that sense a parameter of the liquid or sense a parameter of the heating or cooling system and communicates the sensed information to the control circuitry. The control circuitry can turn on, turn off, and/or operate the heating or cooling element to actively heat or cool at least a portion of the body to maintain the liquid in a heated or cooled state generally at a user selected temperature setting based at least in part on the sensed parameter information. The mug, travel mug, baby bottle, water bottle or liquid container can also be paired with a remote device or mobile electronic device to send or receive communications or commands.

An actively heated or cooled food container can have a lid movable between an open and a closed position and an insulated body to which the lid can be attached. The insulated body can have a sidewall that defines a perimeter of the container body and a base, the sidewall and base defining one or more chambers that can be sealed by the lid. The food container can have a temperature control system that can include one or more heating or cooling elements in thermal communication with one or both of the sidewall and the base and operable to heat or cool one or both of the sidewall and the base to thereby heat or cool the one or more chambers in the food container.

A wireless temperature maintenance container has an accommodating space accommodating a transmitter circuit and a receiver circuit. The transmitter circuit comprises a first power processing circuit and a transmitter coil. The first power processing circuit receives a utility power and outputs a first direct current. The transmitter coil receives the first direct current and generates a magnetic field. The receiver circuit comprises a receiver coil, a second power processing circuit and a temperature controller. The magnetic field passes the receiver coil and an alternating current is generated. The second power processing circuit receives the alternating current and outputs a second direct current. The temperature controller receives the second direct current to control the temperature of the container. The transmitter circuit is on the first circuit board, and the receiver circuit is on the second circuit board. Distance between the first circuit board and the second board is 2 mm4 mm.