The invention relates to a process for the manufacture of a coated frozen confection, the process comprising the steps of (a) manufacturing a frozen confection, followed by; (b) imparting thermal energy to the surface of the frozen confection, sufficient to cause at least partial melting of the surface of the frozen confection, followed by; (c) allowing the surface of the frozen confection to refreeze, followed by; (d) coating the frozen confection in a liquid coating, which subsequently solidifies to provide a solid coating.

An apparatus (10) for delivering particulate material to a frozen confectionery material to provide a single serving to a consumer, the apparatus comprising a chamber (12) for storing the particulate material, and a supply of frozen confectionery, the chamber having an open exit (24), wherein the chamber is adapted to be rotatable in use such that the open exit follows a pathway having both an upper region and a lower region, and arranged to pass through the lower region at a non-zero speed a plurality of times during a single serving; the open exit being sized to allow a portion of stored particulate material to fall out of the chamber via the open exit under gravity each time the open exit passes through the lower region of the pathway, the apparatus also being arranged to bring particulate material that has left the chamber into contact with the supply of frozen confectionery.

An apparatus (10) for delivering particulate material to a frozen confectionery material to provide a single serving to a consumer, the apparatus comprising a chamber (12) for storing the particulate material, and a supply of frozen confectionery, the chamber having an open exit (24), wherein the chamber is adapted to be rotatable in use such that the open exit follows a pathway having both an upper region and a lower region, and arranged to pass through the lower region at a non-zero speed a plurality of times during a single serving; the open exit being sized to allow a portion of stored particulate material to fall out of the chamber via the open exit under gravity each time the open exit passes through the lower region of the pathway, the apparatus also being arranged to bring particulate material that has left the chamber into contact with the supply of frozen confectionery.

Various embodiments relate to a device for simultaneous consumption of a fluid and a frozen substance. In some embodiments, the device can include a squeezable chamber configured to store at least a portion of the fluid substance. A flange can be connected at a first end to the squeezable chamber. The flange can define a cavity in fluid communication with an interior of the squeezable chamber such that, when the squeezable chamber is squeezed by a user, the fluid substance is driven from the squeezable chamber and through at least a portion of the cavity defined by the flange. In some embodiments, one or more optical emitters can be coupled with the device.

The invention relates to an apparatus (1) for making a frozen confectionery product (3) by rotary vertical extrusion into a container (2), said apparatus comprising a nozzle (3) comprising a frozen confectionery passage (4) with one inlet port (5) and a single outlet port (6) having an elongated cross-section, two coating passages (7) with two coating inlet ports (8) and two corresponding coating outlet ports (9) having elongated cross-sections, wherein the frozen confectionery passage inlet port (5) and the single elongated outlet port (6) are joined by a funnel passage (10) expanding at an angle of at least 35-25, preferably 32-27, relative to the flow direction in the nozzle (3) and a land length passage (11) having walls parallel to the flow direction of the nozzle, and wherein the coating outlet ports (9) are positioned on the inside walls of the land length passage (11) upstream of the frozen confectionery outlet port (6) and extends in parallel to the frozen confectionery outlet port (6), so as to form an annular or helical coating layer (12) in or on the frozen confectionery (13) upon rotation of the nozzle (3) and the container (2) with respect to one another. The invention also relates to a method of making frozen confectionery product with large inclusions and to the product as such.

The invention relates to A frozen confection coating composition, the composition comprising, expressed in weight % based on the total weight of the coating, 35-75 wt. % of non-interesterified fat, preferably 40-65 wt. % of non-interesterified fat which comprises a fat blend of medium soft fat and liquid oil, and 25-65 wt. % of non-fat solids, preferably 35-60 wt. % of non-fat solids, wherein, the coating composition comprises, less than 35 wt. % of saturated fatty acid, preferably less than 30 wt. % of saturated fatty acids 15-50 wt. %, preferably 18-30% of monounsaturated fatty acid and less than 10%, preferably less than 5% of polyunsaturated fatty acid, and wherein the medium soft fat has above 40%, preferably between 50-70%, of solid fat content at 20 C., and medium soft fat has 54-60% of saturated fatty acid, and wherein the fat blend in the coating crystallizes in a first and second crystallization step at a temperature below 15 C. and displays a solid fat content of 30-50% within 2 min. of crystallization and a solid fat content of 40-70% after 60 min. of crystallization. The invention also relates to a process of making this composition and a frozen confection at least partly coated with the composition.

The invention relates to A frozen confection coating composition, the composition comprising, expressed in weight % based on the total weight of the coating, 35-75 wt. % of non-interesterified fat, preferably 40-65 wt. % of non-interesterified fat which comprises a fat blend of medium soft fat and liquid oil, and 25-65 wt. % of non-fat solids, preferably 35-60 wt. % of non-fat solids, wherein, the coating composition comprises, less than 35 wt. % of saturated fatty acid, preferably less than 30 wt. % of saturated fatty acids 15-50 wt. %, preferably 18-30% of monounsaturated fatty acid and less than 10%, preferably less than 5% of polyunsaturated fatty acid, and wherein the medium soft fat has above 40%, preferably between 50-70%, of solid fat content at 20 C., and medium soft fat has 54-60% of saturated fatty acid, and wherein the fat blend in the coating crystallizes in a first and second crystallization step at a temperature below 15 C. and displays a solid fat content of 30-50% within 2 min. of crystallization and a solid fat content of 40-70% after 60 min. of crystallization. The invention also relates to a process of making this composition and a frozen confection at least partly coated with the composition.

Ethanol-containing nanolipid particles are disclosed which can be used in food products, frozen desserts, or beverages. The nanolipidic vehicles in which ethanol-containing substances are encapsulated can be combined with food products, desserts or beverage ingredients, including foods that are subsequently frozen. The frozen food product, dessert or beverage can remain in a frozen state during consumption by an individual. A composition comprising ethanol-containing nanolipid particles, which can be used in food products, frozen desserts, or beverages is disclosed.

Ethanol-containing nanolipid particles are disclosed which can be used in food products, frozen desserts, or beverages. The nanolipidic vehicles in which ethanol-containing substances are encapsulated can be combined with food products, desserts or beverage ingredients, including foods that are subsequently frozen. The frozen food product, dessert or beverage can remain in a frozen state during consumption by an individual. A composition comprising ethanol-containing nanolipid particles, which can be used in food products, frozen desserts, or beverages is disclosed.

The present invention is in the field of ice cream shaping, in particular it is relating to a heated tool to imprint a pattern a frozen confectionery product, and especially a heated tool that melts away a channel of an outer coating layer of a frozen confectionery, thereby creating a peelable frozen confectionery product. It is an object of the present invention to provide a shaping tool that is suitable for making cleaner grooves in frozen confectionery products. We have found that a shaping tool that comprises of at least one heated element provides a molten channel in the outer surface of a frozen confection.