A predetermined volume of ice-cream mix is provided to an ice cream making system or method. The ice-cream mix is cooled and whipped to form ice cream.

A predetermined volume of ice-cream mix is provided to an ice cream making system or method. The ice-cream mix is cooled and whipped to form ice cream.

The present invention relates to an apparatus for producing edible ice products comprising: (a) a thermally insulated food grade material chamber; (b) at least one atomizing beverage nozzle(s) inserted in said thermally insulated chamber for spraying beverage droplets into said thermally insulated chamber; (c) at least one beverage valve(s), disposed between a beverage source and said atomizing beverage nozzle(s), for controlling the beverage flow rate into said chamber; (d) at least one gas expansion nozzle(s), inserted in said thermally insulated chamber, for expanding the gas in its liquid state to its gaseous state, and for jetting gas on said beverage droplets, in said thermally insulated chamber; (e) at least one gas flow regulator(s), disposed between a gas source and said gas nozzle(s) for regulating the gas flow rate into said gas expansion nozzle (s); (f) a controller for controlling said beverage valve(s) and said gas flow regulator(s); and (g) wherein said controller controls said beverage valve(s) and said gas flow regulator(s) for ensuring that said sprayed beverage droplets meet the jetted gas for freezing said droplets for forming a texture controlled edible ice product in said thermally insulated chamber.

A frozen food appliance and related method of making a frozen food product. A rotational drive assembly configured in an axial alignment using a direct drive to produce rotational movement of a blade element to contact a frozen food precursor in a frozen food container associated with the frozen food appliance where the rotational drive assembly omits rotational speed modifying gears and transmissions positioned between a drive motor and the blade element. In another aspect, a rotational drive assembly may be kept in axial alignment with a frozen food container via a multi portioned container mount having a float connector.

Systems and methods of producing a frozen food product include mixing ingredients with a liquefied gas, e.g. liquid nitrogen. The texture and quality of the food product may be determined by sensing temperature or viscosity, and controlling the rate at which the liquefied gas flows into the mixture, i.e. dosing. This functionality may be achieved using one or more scoops, the position of which may be controlled by actuators. The dosing may be controlled by a program that receives input from one or more sensors, and the program may be responsive to input of the type or amount of ingredients being mixed. In addition, the dosing may be controlled by a human being through a user interface, e.g. by pushing a ‘dose’ button.

Systems and methods of producing a frozen food product include mixing ingredients with a liquefied gas, e.g. liquid nitrogen. The texture and quality of the food product may be determined by sensing temperature or viscosity, and controlling the rate at which the liquefied gas flows into the mixture, i.e. dosing. This functionality may be achieved using one or more scoops, the position of which may be controlled by actuators. The dosing may be controlled by a program that receives input from one or more sensors, and the program may be responsive to input of the type or amount of ingredients being mixed. In addition, the dosing may be controlled by a human being through a user interface, e.g. by pushing a ‘dose’ button.

A frozen food appliance and related method of making a frozen food product. A rotational drive assembly configured in an axial alignment using a direct drive to produce rotational movement of a blade element to contact a frozen food precursor in a frozen food container associated with the frozen food appliance where the rotational drive assembly omits rotational speed modifying gears and transmissions positioned between a drive motor and the blade element. In another aspect, a rotational drive assembly may be kept in axial alignment with a frozen food container via a multi portioned container mount having a float connector.

Systems and methods of producing a frozen food product include dosing ingredients with a liquefied gas while mixing the ingredients using self-cleaning interlocking beaters. The beaters are optionally also disposed to clean a container in which the ingredients are frozen. The rate and amount of cooling is controlled by measuring the quantity of liquid nitrogen, measuring viscosity of the frozen food product, measuring temperature, and/or the like.

Systems and methods of producing a frozen food product include dosing ingredients with a liquefied gas while mixing the ingredients using self-cleaning interlocking beaters. The beaters are optionally also disposed to clean a container in which the ingredients are frozen. The rate and amount of cooling is controlled by measuring the quantity of liquid nitrogen, measuring viscosity of the frozen food product, measuring temperature, and/or the like.

A system and method for rapidly preparing ice cream or other frozen food/beverage products at a point-of-sale/consumption is provided. For example, the apparatus and method are suited to freeze liquid ice cream mix and distribute it at a predetermined temperature and with a smooth consistency and texture.