A device for bringing baby food to a certain temperature comprises a vessel having an interior for accommodating a holder for the baby food, a unit for obtaining a temperature for bringing the interior to a certain temperature, and a first sensor for determining the temperature in interior. A second sensor is present for determining the temperature of the baby food in the container. As a result, baby food can be brought to a certain temperature in a manner that is gentle, yet efficient.

An infant bottle feeding system includes an infant bottle with a chamber that receives a liquid, heating or cooling elements operable to heat or cool liquid in the chamber and sensors operable to sense parameters of the liquid in the chamber. The system optionally includes an electronic base removably attached to a bottom surface of the infant bottle and operable to deliver power to electronics in the infant bottle. The system optionally includes a thermal cover that fits over the infant bottle and releasably couples to the electronic base to enclose the infant bottle, the thermal cover insulating the infant bottle and inhibiting heat loss of the liquid in the chamber. The electronic base delivers power to the heating elements and sensors in the infant bottle only when the infant bottle is on the electronic base. The infant bottle, thermal cover and electronic base define a single travel pack unit when coupled together.

An actively heated or cooled portable container has a body with a chamber that receives and holds a liquid, and one or more heating or cooling elements in thermal communication with at least a portion of the chamber. An outer surface of the body has one or more electrical contacts. A module is removably coupled to a portion of the body. The module has one or more electrical contacts on an outer surface of the module that contact the one or more electrical contacts on the outer surface of the body, control circuitry, and one or more power storage elements that provide power to the control circuitry and/or the one or more heating or cooling elements. The control circuitry wirelessly communicates with a mobile electronic device to wirelessly transmit information to the mobile electronic device associated with the operation of the module and/or wirelessly receive instructions from a user via the mobile electronic device.

An improved baby bottle apparatus having a baby bottle adapted to be filled with a liquid and any chosen additives and then releasably attached to a base member with the base member adapted to releasably connect with the bottle member and heat a liquid to a desired temperature and stir the liquid to mix any chosen additives added to the liquid before a baby sucks on the nipple and drinks the liquid.

An infant bottle feeding system includes an infant bottle with a chamber that receives a liquid, heating or cooling elements operable to heat or cool liquid in the chamber and sensors operable to sense parameters of the liquid in the chamber. The system optionally includes an electronic base removably attached to a bottom surface of the infant bottle and operable to deliver power to electronics in the infant bottle. The system optionally includes a thermal cover that fits over the infant bottle and releasably couples to the electronic base to enclose the infant bottle, the thermal cover insulating the infant bottle and inhibiting heat loss of the liquid in the chamber. The electronic base delivers power to the heating elements and sensors in the infant bottle only when the infant bottle is on the electronic base. The infant bottle, thermal cover and electronic base define a single travel pack unit when coupled together.

Apparatus which includes an accordion sleeve having an axis and has a 1.sup.st position in which the sleeve is axially extended and a 2.sup.nd position in which the sleeve is axially contracted. The sleeve is dimensioned for receiving a generally cylindrical food product container when the sleeve is axially extended. A housing supports apparatus for generating heat in the accordion sleeve, the housing including 1.sup.st and 2.sup.nd meshing parts having a 1.sup.st position in which the 1.sup.st and 2.sup.nd meshing parts engage to hold the accordion sleeve in the 2.sup.nd position of the accordion sleeve in which the sleeve is axially contracted.

A portable device having a temperature setting element is described. In some implementations, the portable device can include a cap including an integrated power source for supplying power; a housing including a storage for storing content; and a temperature-setting element including a temperature detection component for detecting the temperature of the content and a temperature-adjusting component for adjusting the temperature of the content. The temperature-setting element can include a core and one or more flanges protruding from the core. The temperature-setting element can receive power supplied by the integrated power source to perform the adjustment of the temperature of the content.

The present invention relates to an infant feeding warming system useful to repeatedly and precisely warm breastmilk or formula for use in the NICU. The system in one form comprises a bedside unit that is attachable to an IV pole. The system may also comprise a centralized warming station with multiple chambers, wherein one chamber heats a bottle or syringe, and the remaining chambers are used for storage and/or refrigeration. The system will use a non-liquid heating system to heat feedings. A disposable liner may be used inside the chamber. The system may also contain heating algorithms that are based on a user inputting milk parameters such as volume and initial temperature.

Beverage container heating apparatuses and associated methods for using such apparatuses are disclosed. In one embodiment, for example, a flexible band or sleeve is configured to wrap around an exterior surface of a beverage container. The flexible band can include a first layer configured to be positioned in contact with the exterior surface of the beverage container. The first layer comprises a reflective surface facing the beverage container and a heating element configure dot provide heat to the exterior surface of the beverage container. The flexible band may also include a second layer that includes a removable insulation assembly. The flexible band further includes a third layer adjacent to and covering at least a portion of the second layer. The third layer can include a gripping mechanism having one or more finger sleeves positioned to receive finger(s) of a user when the flexible band is wrapped around the beverage container.

Beverage container heating apparatuses and associated methods for using such apparatuses are disclosed. In one embodiment, for example, a flexible band or sleeve is configured to wrap around an exterior surface of a beverage container. The flexible band can include a first layer configured to be positioned in contact with the exterior surface of the beverage container. The first layer comprises a reflective surface facing the beverage container and a heating element configured to provide heat to the exterior surface of the beverage container. The flexible band may also include a second layer adjacent to and covering at least a portion of the first layer. The second layer can includes a removable insulation assembly. The flexible band further includes a third layer adjacent to and covering at least a portion of the second layer. The third layer can include various electronic components, such as a control circuitry and a battery.