The present disclosure discloses a high-content buckwheat dried noodle and a preparation method thereof, and belongs to the field of multi-grain flour products processing. The high-content buckwheat dried noodle of the present disclosure includes whole buckwheat flour, high-gluten wheat flour, vital wheat gluten, resistant starch, egg white powder, sodium alginate, konjac flour, sodium carbonate, glutamine aminotransferase, hemicellulase and phytase. The preparation method include: preprocessing a buckwheat raw material, optimizing a ratio of raw materials to auxiliary materials, and vacuum mixing, improved sheeting process, cutting, hanging, drying, strip shortening, packaging and other techniques and preparing high-content buckwheat dried noodles. By using the enzyme modification technique, the present disclosure improves protein cross-linking, increases soluble dietary fiber content, and biodegrades the anti-nutritional factor phytic acid, thereby effectively improving the utilization rate of nutrients, controlling the generation of post-prandial blood glucose and preventing obesity. Moreover, the high-content buckwheat dried noodle of the present disclosure includes no edible salt in its formula, is a healthy low-salt product which conforms to the concept of modern healthy diet.

The present disclosure discloses a high-content buckwheat dried noodle and a preparation method thereof, and belongs to the field of multi-grain flour products processing. The high-content buckwheat dried noodle of the present disclosure includes whole buckwheat flour, high-gluten wheat flour, vital wheat gluten, resistant starch, egg white powder, sodium alginate, konjac flour, sodium carbonate, glutamine aminotransferase, hemicellulase and phytase. The preparation method include: preprocessing a buckwheat raw material, optimizing a ratio of raw materials to auxiliary materials, and vacuum mixing, improved sheeting process, cutting, hanging, drying, strip shortening, packaging and other techniques and preparing high-content buckwheat dried noodles. By using the enzyme modification technique, the present disclosure improves protein cross-linking, increases soluble dietary fiber content, and biodegrades the anti-nutritional factor phytic acid, thereby effectively improving the utilization rate of nutrients, controlling the generation of post-prandial blood glucose and preventing obesity. Moreover, the high-content buckwheat dried noodle of the present disclosure includes no edible salt in its formula, is a healthy low-salt product which conforms to the concept of modern healthy diet.

A taco shell is produced using a rotary cutter including a shaft, an outer blade extending radially outward from the shaft and a first inner blade extending radially outward from the shaft. The outer blade defines an interior area, enclosed by the outer blade, and an exterior area. The first inner blade is located in the interior area and includes a plurality of teeth. A dough piece is cut from a dough sheet with the outer blade, and a first arcuate line of depressions is created in the dough piece with the plurality of teeth. The dough piece is folded to form a shaped dough piece, and the shaped dough piece is baked to produce a hard taco shell.

A stuffed food forming machine disclosed includes a framework (600), a rotation assembly (100). A sending and cutting station (20) and a filling station (30) are settled around the rotation assembly. An opening (106) for collecting wrapper residues is set on the rotation assembly. A distance between an internal side of a shaping mold (1001) and a center of the rotation assembly (100) is bigger than a distance between the edge of the opening (106) and the center of the rotation assembly (100). The opening (106) is able to collect the wrapper residues while takes advantage of the space below the rotation assembly, which requires no extra space and the whole machine remains the compact size.

An extruder assembly includes a rolling assembly. An extrusion block includes a plurality of extruding ports that receive an extrudable material from the rolling assembly. A regulating mechanism is positioned within, above, or otherwise near each extruding port of the plurality of extruding ports. The regulating mechanism is operable with respect to the rolling assembly to modify a flow of extrudable material through each respective extruding port.

Visually distinct, flaked Ready-to-Eat 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 thickness of the resulting cereal flakes can be varied by just altering an operational speed of the cutter unit.

A taco shell is produced using a rotary cutter including a shaft, an outer blade extending radially outward from the shaft and a first inner blade extending radially outward from the shaft. The outer blade defines an interior area, enclosed by the outer blade, and an exterior area. The first inner blade is located in the interior area and includes a plurality of teeth. A dough piece is cut from a dough sheet with the outer blade, and a first arcuate line of depressions is created in the dough piece with the plurality of teeth. The dough piece is folded to form a shaped dough piece, and the shaped dough piece is baked to produce a hard taco shell.

A food condiment slice, method of using, composition and method for making, and methods for manufacturing are described. The food condiment slices are used with sandwiches, other food products, and beverages. The food condiment slices may have different structures such as face-fused, side-fused, face-fused-side-fused, woven, and chopped. The food condiment slices are formed from condiments such as catsup, ketchup, mustard, mayonnaise, barbecue sauce, steak sauce, jellies, jam, preserves, butter, margarine, marinades, creamers, and syrups. More than one food condiment can be integrated into a single food condiment slice. The food condiment slices eliminate the need and inconvenience of using and carrying spreadable, squeezable, and pourable food condiments. Also included are beverage condiment slices or discs such as coffee or tea dairy and non-dairy creamers.

A Magnetic Rolling System for Pliable Material is described as a rolling board having the ability to magnetically attract spacing and guide rails on which a rolling pin travels, thus keeping a rolling pin a specified distance above the rolling board and on track. In addition, these spacing and guide rails are also used to hold a rolling diagram, a cutting mat, and a sheet of parchment paper firmly in place. The Magnetic Rolling System for Pliable Material makes rolling pliable material such as dough and compounds to a precise thickness, simple and almost effortless.

A rotary dough molding machine (10). The machine has a frame (6), a die roller (4) rotatably mounted to the frame (6), a knife (3) for scraping dough from the die roller (4), the knife (3) extending along the die roller (4), and a driver for moving the knife (3) between a scraping position and an inactive position, with the driver having a first drive (1) acting on the first end (31) of the knife (3) and a second drive (2) acting on the second end (32) of the knife (3). The first drive (1) and the second drive (2) can be actuated independently of each other.