A flexible polishing apparatus for granulated grains is provided. The flexible polishing apparatus includes a housing, a feeding device, at least one flexible polishing unit, a bran discharging device, and a rice outlet. The flexible polishing unit includes a radial gravity self-flow flexible polishing chamber. The feeding device, the flexible polishing chamber and the rice outlet are sequentially arranged from top to bottom along the gravity direction. The flexible polishing apparatus for granulated grains avoids the shear effect of granulated grains in the polishing chamber, improves the flexible friction effect, and greatly reduces the damage to rice in the polishing process while ensuring that rice bran is cleaned and the rice is polished, thereby improving the rate of polished rice and reducing energy consumption.

A system and method for flaking. The system includes a stationary roller, and moveable roller, and an adjustable fixator applying tension between the stationary and moveable rollers. The fixator includes a pressure transducer and a linear indicator. The transducer and indicator allow the fixator to read pressures and make fine adjustments to the fixator to obtain a desired gap between the two rollers.

A method and an apparatus for controlling a milling roll machine capable of accurately monitoring a surface temperature of a roll and preventing a high temperature abnormality occurring on a roll surface from being overlooked are provided A temperature sensor S that monitors surface temperatures of a pair of rolls 4 and 5 and a temperature of a milled product after passing through the rolls is provided in the vicinity of the pair of rolls 4 and 5, and opening/closing control of the gap between the rolls 4 and 5 or flow rate control of the raw material stock is performed according to the surface temperatures of the rolls and the temperature of the milled product after passing through the rolls detected by the temperature sensor S.

The present invention relates to a pulse polishing machine. In one embodiment, the machine includes a base frame having protruded vertical supports at longitudinal ends 5 and a rotor assembly placed between the vertical supports through a drive shaft. Rotor assembly having plurality of rotary disks mounted at the ends and centre of the drive shaft and a circular cam assembly fixed on the rotary disks. Further, a sheet basket assembly having plurality of circular shaped segments surrounds the rotor assembly defines the polishing chamber. An inlet means and an outlet means are positioned on the 0 sheet basket assembly at diagonally opposite ends. Segments of split covers are used to cover the polishing chamber from either ends. And the ends of the polishing chamber are covered by a pair of split covers. An electric motor is connected to one end of the drive shaft to impart rotary motion to the rotor assembly for polishing pulses.

The present invention relates to a pulse polishing machine. In one embodiment, the machine includes a base frame having protruded vertical supports at longitudinal ends 5 and a rotor assembly placed between the vertical supports through a drive shaft. Rotor assembly having plurality of rotary disks mounted at the ends and centre of the drive shaft and a circular cam assembly fixed on the rotary disks. Further, a sheet basket assembly having plurality of circular shaped segments surrounds the rotor assembly defines the polishing chamber. An inlet means and an outlet means are positioned on the 0 sheet basket assembly at diagonally opposite ends. Segments of split covers are used to cover the polishing chamber from either ends. And the ends of the polishing chamber are covered by a pair of split covers. An electric motor is connected to one end of the drive shaft to impart rotary motion to the rotor assembly for polishing pulses.

A surface-worked granular product is produced by supplying raw granular material to a cylindrical retainer having apertures and retaining sites, floating the granular material by suctioning air from the cylindrical retainer, rotating a rotary working device installed in the cylindrical retainer, and contacting working protrusion protruding from the working device with the granular material to remove foreign substances and to perform surface-working of the granular material so as to form a rough surface without causing degeneration, denaturation or substantial removal of useful ingredients, wherein the surface-worked granular product has surface characteristics different from raw granular material.

A surface-worked granular product is produced by supplying raw granular material to a cylindrical retainer having apertures and retaining sites, floating the granular material by suctioning air from the cylindrical retainer, rotating a rotary working device installed in the cylindrical retainer, and contacting working protrusion protruding from the working device with the granular material to remove foreign substances and to perform surface-working of the granular material so as to form a rough surface without causing degeneration, denaturation or substantial removal of useful ingredients, wherein the surface-worked granular product has surface characteristics different from raw granular material.

A rotor (1) for a grinding machine (2) for the foodstuffs and feedstock industry, having an external diameter of between 0.5 and 0.6 m, comprising a plurality of substantially cylindrical, in particular hollow cylindrical, grinding elements (3). One such grinding element (3) has an outer grinding surface (4) substantially in the form of a circular cylinder jacket, and the grinding elements (3) are arranged coaxially above one another and in such a way that a substantially annular air gap (5) is produced between the grinding surfaces (4) of two adjacent grinding elements (3). A ratio between an enveloping surface (H) of the rotor (1) and a total grinding surface of the rotor (1) is greater than 1.05 and less than 1.25.

A rotor (1) for a grinding machine (2) for the foodstuffs and feedstock industry, having an external diameter of between 0.5 and 0.6 m, comprising a plurality of substantially cylindrical, in particular hollow cylindrical, grinding elements (3). One such grinding element (3) has an outer grinding surface (4) substantially in the form of a circular cylinder jacket, and the grinding elements (3) are arranged coaxially above one another and in such a way that a substantially annular air gap (5) is produced between the grinding surfaces (4) of two adjacent grinding elements (3). A ratio between an enveloping surface (H) of the rotor (1) and a total grinding surface of the rotor (1) is greater than 1.05 and less than 1.25.

The present invention is directed to setting an operation parameter of a grain milling machine appropriately according to the characteristics of grain targeted for processing. An operation aid apparatus for a grain milling facility including a grain milling machine and a color sorter includes a first acquisition portion configured to acquire first information regarding characteristics of grain that should be processed in the grain milling facility, and a second acquisition portion configured to acquire second information regarding an evaluation of a sorting result acquired by milling first grain by the grain milling machine and sorting them by the color sorter after that. The second information is associated with the first information regarding the first grain. The operation aid apparatus further includes a setting portion configured to determine an operation parameter for processing second grain by the grain milling machine based on the first information regarding the second grain that should be newly processed in the grain milling facility and the second information associated with the first information regarding the first grain.