There is disclosed a method of forming a biodegradable container, such as a cup, comprising a plurality of successive press forming operations, each press forming operation comprising relative movement between an outer die 202 and an inner punch 204 from an open configuration to a forming configuration to shape a dough 400 as it expands. There is also disclosed a corresponding forming apparatus and container.

There is disclosed a method of forming a biodegradable container, such as a cup, comprising a plurality of successive press forming operations, each press forming operation comprising relative movement between an outer die 202 and an inner punch 204 from an open configuration to a forming configuration to shape a dough 400 as it expands. There is also disclosed a corresponding forming apparatus and container.

An apparatus and method for producing flake-like cereal without the use of a flaking mill.

An apparatus and method for producing flake-like cereal without the use of a flaking mill.

Disclosed are a noodle cutter assembly and a dough extruder. The noodle cutter assembly includes: a rotary bracket including a first support arm and a second support arm opposite to each other, a bracket axis being arranged on a same side of the first support arm and the second support arm, the first support arm and the second support arm being both extended along a circumferential direction of the support axis, the rotary bracket being configured for sleeving an outer side of a noodle out-coming die and rotating relative to the noodle out-coming die; and a noodle cutter connected between the first arm and the second arm, and configured for sliding and abutting on outer edges of noodle out-coming holes.

Disclosed are a noodle cutter assembly and a dough extruder. The noodle cutter assembly includes: a rotary bracket including a first support arm and a second support arm opposite to each other, a bracket axis being arranged on a same side of the first support arm and the second support arm, the first support arm and the second support arm being both extended along a circumferential direction of the support axis, the rotary bracket being configured for sleeving an outer side of a noodle out-coming die and rotating relative to the noodle out-coming die; and a noodle cutter connected between the first arm and the second arm, and configured for sliding and abutting on outer edges of noodle out-coming holes.

An automated cutting die being produced edible biodegradable tableware contains: a cutting assembly, a holding assembly, and edible biodegradable dough. The cutting assembly includes a first cutting mold and a second cutting mold. The first cutting mold has multiple cutting portions, and the second cutting mold has multiple grooves and two first support portions. The holding assembly includes a first receiving mold and a second receiving mold. The first receiving mold has multiple pressing portions, two second support portions formed beside the multiple pressing portions, and multiple through holes defined on the multiple pressing portions, wherein the second receiving mold has a recessed portion defined thereon, a molding cavity formed in a hollow shape beside the recessed portion and multiple passing orifices defined on the molding cavity.

An automated cutting die being produced edible biodegradable tableware contains: a cutting assembly, a holding assembly, and edible biodegradable dough. The cutting assembly includes a first cutting mold and a second cutting mold. The first cutting mold has multiple cutting portions, and the second cutting mold has multiple grooves and two first support portions. The holding assembly includes a first receiving mold and a second receiving mold. The first receiving mold has multiple pressing portions, two second support portions formed beside the multiple pressing portions, and multiple through holes defined on the multiple pressing portions, wherein the second receiving mold has a recessed portion defined thereon, a molding cavity formed in a hollow shape beside the recessed portion and multiple passing orifices defined on the molding cavity.

Rolled food products are produced by cutting a dough sheet to form a roll sheet having a continuous pattern. The pattern is comprised of an asymmetrical repeat unit. The roll sheet is transported in a first direction with a conveyor system, and the roll sheet is rolled in a second direction to form a continuous roll. The second direction is not parallel to the first direction. The continuous roll is cut to form a plurality of rolls. Each of the plurality of rolls is asymmetrical.

Rolled food products are produced by cutting a dough sheet to form a roll sheet having a continuous pattern. The pattern is comprised of an asymmetrical repeat unit. The roll sheet is transported in a first direction with a conveyor system, and the roll sheet is rolled in a second direction to form a continuous roll. The second direction is not parallel to the first direction. The continuous roll is cut to form a plurality of rolls. Each of the plurality of rolls is asymmetrical.