A system and method for dispensing a first and second baking material where the baking materials are simultaneously dispensed through a discharge tube. The discharge tube is moved with respect to a male mold while dispensing the baking materials. An optional pressure foot follows the discharge tube and assists with joining the dispensed layer with the previous layer by applying pressure. The baking materials are dispensed and layered to form complex shapes not possible by pouring or application of a sheet of dough. The dough and mold are baked together and the baked item is removed from the mold after baking.

A method for producing stuffed food(s), each stuffed food having an outer envelope in a first food product, and an inner stuffing in a second food product. The method includes the steps of providing a sheet of the first food product, and a roller of the second food product, and winding the sheet around the roller.

A method for producing stuffed food(s), each stuffed food having an outer envelope in a first food product, and an inner stuffing in a second food product. The method includes the steps of providing a sheet of the first food product, and a roller of the second food product, and winding the sheet around the roller.

Visually distinct, flaked Ready-to-Eat (R-T-E) cereal products with varied texture and thickness are produced by forming a cereal dough and forcing the same through an extrusion die assembly including various spaced openings which establish a plurality of dough streams which are merged prior to reaching a die outlet. Directly at the die outlet, a resulting dough extrudate is sliced by a cutter unit to form dough discs which are then dried and cooled, during which the discs curl and form cereal flakes having varying textures defined, at least in part, by distinct sets of surface bumps. The number and configuration of the bumps can be altered by changing the number, shape and/or position of the various spaced openings of the die assembly, while the thickesses of the resulting cereal flakes can be varied by just altering an operational speed of the cutter unit.

Visually distinct, flaked Ready-to-Eat (R-T-E) cereal products with varied texture and thickness are produced by forming a cereal dough and forcing the same through an extrusion die assembly including various spaced openings which establish a plurality of dough streams which are merged prior to reaching a die outlet. Directly at the die outlet, a resulting dough extrudate is sliced by a cutter unit to form dough discs which are then dried and cooled, during which the discs curl and form cereal flakes having varying textures defined, at least in part, by distinct sets of surface bumps. The number and configuration of the bumps can be altered by changing the number, shape and/or position of the various spaced openings of the die assembly, while the thickesses of the resulting cereal flakes can be varied by just altering an operational speed of the cutter unit.

Provided is a process and system for the production of a nutritional low-caloric food product, and food products produced thereby.

A device for a system for producing food includes a movable nozzle which is configured to expel a printable mass in various positions, in order to produce a spatial configuration of the printable mass for food. A movable heating unit is configured to supply thermal energy to the printable mass which has been expelled from the nozzle. A control unit is configured to determine a recipe for producing food. The recipe indicates position data with a plurality of positions at which the printable mass is to be expelled from the nozzle, in order to produce the spatial configuration of the printable mass for the food. In addition, the control unit is configured to move the movable nozzle and the movable heating unit in accordance with the position data.

A device for a system for producing food includes a movable nozzle which is configured to expel a printable mass in various positions, in order to produce a spatial configuration of the printable mass for food. A movable heating unit is configured to supply thermal energy to the printable mass which has been expelled from the nozzle. A control unit is configured to determine a recipe for producing food. The recipe indicates position data with a plurality of positions at which the printable mass is to be expelled from the nozzle, in order to produce the spatial configuration of the printable mass for the food. In addition, the control unit is configured to move the movable nozzle and the movable heating unit in accordance with the position data.

A scooped out bagel dough product, bagel mold halves, and an apparatus using the bagel mold halves for making a scooped out bagel product. The scooped out bagel product is a baked bagel product half having: a crunchy blistered outer shell with a substantially reduced amount of doughy inner chamber that provides its unique flavor. This scooped out bagel product utilizes a predesigned custom mold that creates stalactites, i.e., flavor spikes, and holes or flavor pit formations that each encapsulate the soft doughy inner contents within a boiled and baked blister shell and increases a surface area of dough on an inner surface thereof. The product is a scooped out half bagel crunchy on its outer surface but filled with the flavor spikes, and flavor pits in which substantially reduced amounts of dough are encased relative to a comparable sized whole bagel.

Food processing devices capable of performing multiple functions, including mixing and extruding pasta or other food products, are described. The food processing devices have a door assembly with a feed chute extending from an opening in the mixing bowl and leading to an extruder. The door assembly can be closed or opened, depending on the type of food processing to be performed. The food processing device mixes food ingredients within the mixing bowl while the door assembly is in a closed position. When the food ingredients are sufficiently mixed, the door assembly is moved to an open position to allow the mixed food ingredients to flow through the feed chute to the extruder. The disclosed food processing devices conveniently allow for both mixing and extruding of food products within a single device configured to efficiently and safely perform both tasks.