A warming apparatus that has a formable apparatus and a chamber coupled to the formable apparatus and configured to fluidly contain a heating agent. Wherein the formable apparatus is movable to reposition the chamber to heat a vessel.

Provided are a smart bottle and a method for controlling the smart bottle. A smart bottle comprises a bottle for containing liquid; a base formed to be combined to one side of the bottle; a first sensor installed in the bottle or the base, and configured to obtain level information of liquid contained in the bottle; a third sensor configured to obtain inclination information of the bottle; a heater configured to heat the liquid contained in the bottle; a controller configured to control operation of the heater based on the temperature information, determine a feeding start and a feeding end based on the inclination information, and modify the level information based on the inclination information; a communication unit configured to transmit the inclination information and the level information to an external device; and a battery configured to supply power to the first sensor and the base.

An infant bottle-preparing device is provided. The device is comprised of a body comprised of at least one water container, at least one formula container, at least one mixing structure, at least one warming structure, at least one pump, and at least one motor. During use, the design allows a user to prepare an infant's bottle by heating and mixing formula powder and water stored on the device from within the device, wherein said mixture is then dispensed to an attached infant bottle which can be removed for feeding.

A container made from an electrically insulating material whose walls are functionally connected to a temperature sensor and incorporate heating groups consisting of a plurality of elongate metal elements; should the container be made from glass, the coefficient of thermal expansion of the heating groups is similar to that of glass. The container is functionally associated with an electronic power and control module, connected to the heating groups and comprising a rechargeable energy accumulator of a type with one or several high-performance cells. The metal elements are heated by Joule effect by the flow of a pulsed current provided by the energy accumulator and controlled by the electronic power and control module.

A warming apparatus that has a formable apparatus and a chamber coupled to the formable apparatus and configured to fluidly contain a heating agent. Wherein the formable apparatus is movable to reposition the chamber to heat a vessel.

A bottle sleeve warmer apparatus for conveniently heating a dental procedure water bottle includes a sleeve body having a front side separated from a rear side to form an inside. An attachment mechanism is coupled to the sleeve body and is configured to secure the sleeve body around a bottle. A control housing is coupled to the front side of the sleeve body. A temperature sensor is coupled to the rear side of the sleeve body and is configured to read the temperature of the bottle. A temperature display is coupled to the control housing to display a reading from the temperature sensor. A plurality of controls is coupled to the control housing and activates a heating element coupled within the inside of the sleeve body to maintain the temperature of the bottle at a preset level.

A device for food and/or beverage temperature regulation includes a cooler for providing a cooling mode in which the food and/or beverage is cooled, a heater for providing a heating mode in which the food and/or beverage is heated, and a pre-heating mode in which the food and/or beverage is pre-heated. A controller is configured to control the cooler and heater. The controller is further configured to activate the cooling or heating mode in response to signals indicative of a change in the behavior of a recipient of the food and/or beverage, and to activate the pre-heating mode in response to predicted behavior. The signals may represent sound and/or movement and may originate from sensors, such as microphones and/or radar sensors.

Provided are a smart bottle and a method for controlling the smart bottle. A smart bottle comprises a bottle for containing liquid; a base formed to be combined to one side of the bottle; a first sensor installed in the bottle or the base, and configured to obtain level information of liquid contained in the bottle; a third sensor configured to obtain inclination information of the bottle; a heater configured to heat the liquid contained in the bottle; a controller configured to control operation of the heater based on the temperature information, determine a feeding start and a feeding end based on the inclination information, and modify the level information based on the inclination information; a communication unit configured to transmit the inclination information and the level information to an external device; and a battery configured to supply power to the first sensor and the base.

An infant bottle is provided. The infant bottle comprises an open-top receptacle for receiving liquid, a nipple sealably connectable to the open-top end of the receptacle, a formula compartment disposed adjacent the open-top end of the receptacle, an open-top end of the formula compartment corresponding and fitted within the open-top end of the receptacle, and a formula release mechanism to empty the contents contained in the formula compartment into the receptacle. A removable warming cover substantially covering at least a portion of the outer surface of the receptacle and comprising a sleeve of material for receiving the receptacle, a base comprising a rechargeable battery, and a heating element operatively connected to the battery, is also provided. A method of using the same is also provided.

Provided are a smart bottle and a method for controlling the smart bottle. A smart bottle comprises a bottle for containing liquid; a base formed to be combined to one side of the bottle; a first sensor installed in the bottle or the base, and configured to obtain level information of liquid contained in the bottle; a third sensor configured to obtain inclination information of the bottle; a heater configured to heat the liquid contained in the bottle; a controller configured to control operation of the heater based on the temperature information, determine a feeding start and a feeding end based on the inclination information, and modify the level information based on the inclination information; a communication unit configured to transmit the inclination information and the level information to an external device; and a battery configured to supply power to the first sensor and the base.