161 |
Cotton-seed huller |
US404696D |
|
US404696A |
1889-06-04 |
|
|
162 |
stevens |
US286499D |
|
US286499A |
1883-10-09 |
|
|
163 |
Improvement in corn-hullers |
US177158D |
|
US177158A |
1876-05-09 |
|
|
164 |
Improvement in coffee hullers and cleaners |
US172795D |
|
US172795A |
1876-01-25 |
|
|
165 |
Wilflelm seck |
US166416D |
|
US166416A |
1875-08-03 |
|
|
166 |
Improvement in feed-regulators |
US148395D |
|
US148395A |
1874-03-10 |
|
|
167 |
Improvement in grain-cleaners |
US55174D |
|
US55174A |
1866-05-29 |
|
|
168 |
Rice and clover hummer |
US28151D |
|
US28151A |
1860-05-08 |
|
|
169 |
Charles e |
US25981D |
|
US25981A |
1859-11-01 |
|
|
170 |
Grain-cleaner |
US25777D |
|
US25777A |
1859-10-11 |
|
|
171 |
Smut-machine |
US22395D |
|
US22395A |
1858-12-21 |
|
|
172 |
Seed Sorting Machine |
US15256960 |
2016-09-06 |
US20180065121A1 |
2018-03-08 |
Pin-Hui Chen; Tien-Yang CHENG; Michael John FURST |
A seed sorting machine contains a feeding area, a plurality of filtration units, a classification assembly, multiple guiding assemblies, a delivery unit, and at least one pressing rod. Each filtration unit includes multiple holding trays, a plurality of first partitions, and each holding tray has a filtering hole. The classification assembly includes a classifying tray, multiple guide sheets, and a plurality of outlets. Each guiding assembly includes a holder and multiple ribs, wherein between any two adjacent of the multiple ribs is defined a slot which corresponds to each of the plurality of outlets. The delivery unit includes a base on which multiple V-shaped grooves and multiple second partitions are arranged. Each pressing rod includes a plurality of rollers and multiple trenches, wherein each of the multiple trenches is defined between any two adjacent of the multiple trenches and corresponds to each of the multiple V-shaped grooves. |
173 |
Grinding type vertical grain polishing machine |
US14117034 |
2012-04-23 |
US09511371B2 |
2016-12-06 |
Yasuyoshi Seto; Fumio Tajima; Kazuto Nonaka; Yasunori Koike; Koji Yamamoto |
A bran removing wire-mesh tube includes: bran removing wire-mesh tube parts 28 divided in more than one in a circumferential direction in planar view; and a plurality of support pillars 33 erected at intervals in the circumferential direction to respectively fix both side edges of the divided bran removing wire-mesh tube parts 28. Each of the support pillars 33 is provided with an elongated resistor 34 that suppresses grains from moving in the circumferential direction along with rotation of grinding type grain cleaning rolls 26. The resistor 34 is urged by an elastic member 37 to a position at which the resistor 34 protrudes toward the inside of a grain cleaning chamber 30. Further, the resistor 34 is provided so as to be movable in a radial direction to a position farther from the grain cleaning chamber 30 due to resistance from the grains. |
174 |
Reversible conveyer assembly for milling apparatus |
US13817392 |
2010-10-27 |
US09205429B2 |
2015-12-08 |
Chaithanya B. Subbannavar; Naveen H. C. Kumar |
A reversible conveyor assembly, which comprises a screw conveyor having one or more projection means formed on both upper and lower portions of the screw conveyor. A conveyor flange has a guiding means and a groove that are engraved on upper portion of the conveyor flange. |
175 |
GRAIN-MILLING MACHINE |
US14400402 |
2013-06-04 |
US20150122924A1 |
2015-05-07 |
Kazunobu Kajihara; Yoichiro Ogura; Tsutomu Hako; Yoji Kashiwa; Somchai Keawkaika; Kazuto Nonaka; Shin Saeki |
There is provided a grain-milling machine capable of shortening the time required for lot changing and reducing electricity costs. A grain-milling machine comprising a vertical abrasive type grain-milling unit and a vertical friction type grain-milling unit mounted on a pedestal, the abrasive type grain-milling unit and friction type grain-milling unit being located on upper and lower portions of the pedestal, respectively, the abrasive type grain-milling unit including a milled grain discharge trough, the friction type grain-milling unit including a grain feed trough to which the milled grain discharge trough of the abrasive type grain milling unit is connected, and a two-way grain feed trough and change-over valve located above the abrasive type grain-milling unit and capable of selectively feeding grains either directly to the friction type grain-milling unit or to the friction type grain-milling unit via the abrasive type grain-milling unit. |
176 |
GRINDING TYPE VERTICAL GRAIN POLISHING MACHINE |
US14117034 |
2012-04-23 |
US20140174302A1 |
2014-06-26 |
Yasuyoshi Seto; Fumio Tajima; Kazuto Nonaka; Yasunori Koike; Koji Yamamoto |
A bran removing wire-mesh tube includes: bran removing wire-mesh tube parts 28 divided in more than one in a circumferential direction in planar view; and a plurality of support pillars 33 erected at intervals in the circumferential direction to respectively fix both side edges of the divided bran removing wire-mesh tube parts 28. Each of the support pillars 33 is provided with an elongated resistor 34 that suppresses grains from moving in the circumferential direction along with rotation of grinding type grain cleaning rolls 26. The resistor 34 is urged by an elastic member 37 to a position at which the resistor 34 protrudes toward the inside of a grain cleaning chamber 30. Further, the resistor 34 is provided so as to be movable in a radial direction to a position farther from the grain cleaning chamber 30 due to resistance from the grains. |
177 |
Grain Huller |
US12922223 |
2008-07-02 |
US20110192291A1 |
2011-08-11 |
Akinori Sakamoto; Tomohiro Mitsuhata; Koji Yokota; Tadashi Hamaguchi |
A supply plate, which guides a material grain to a contact point between first and second rolls supported by a position-fixed shaft and a position-movable shaft respectively, has a proximal end portion supported by a pivot shaft in a relatively non-rotatable manner, the pivot shaft being disposed parallel to the position-fixed shaft and the position-movable shaft. A position-movable shaft support member that supports the position-movable shaft in a rotatable manner around the axis line is pressed toward the position-fixed shaft by a pressing mechanism so that the first and second rolls are pressed at the contact point to each other under a predetermined pressure. A link arm, which has a proximal end portion supported in a relatively non-rotatable manner by a fulcrum shaft parallel to the pivot shaft, is pressed to a surface of the position-movable support member that faces the position-fixed shaft. The fulcrum shaft and the pivot shaft are operatively connected to each other through a link mechanism. The contact point is shifted as the position-movable shaft support member is moved toward the position-fixed shaft in accordance with the abrasion of the first and second rolls, and at the same time, the pivot shaft is rotated around the axis line by way of the link arm, the fulcrum shaft and the link mechanism in accordance with the movement of the position-movable shaft support member, whereby the slant angle of the supply plate is automatically changed so that the distal end portion of the support plate is directed to the contact point that has been shifted. |
178 |
System for dehulling by cylinder provided with a pneumatic conveyor |
US10534827 |
2003-10-14 |
US20060124000A1 |
2006-06-15 |
Frank-Otto Gorlitz |
The invention relates to a system for dehulling by cylinders, in particular to a system for dehulling grain fruits. An exemplary system includes a pair of rubber cylinders arranged in a housing. The product supply is carried out with the aid of a chute in a pneumatic conveyor which operates in a pressure mode and can be embodied in the form of a conveyor tube provided with an elbow. The system can make it possible to obtain a better supply performance and reduced breaking propensity. |
179 |
Horizontal grinding type rice milling machine |
US10480197 |
2003-12-10 |
US20040177772A1 |
2004-09-16 |
Shigeo
Ohno |
In a horizontal grinding-type rice polishing machine which is so configured that a grinding roller (1) installed circularly and fixedly on a horizontal rotation axis (10) is covered with a concentric cylindrical bran removing screen (S) that can be split into longitudinal two screen halves (2) to thereby form a rice polishing room, the total of even number of a stopper (3) and a flap (4) are fixedly provided on an inner peripheral surface of each of two-part split screen halves (2) of the bran removing screen (S) so that they align alternately in the axial direction, the stopper (3) and the flap (4) being formed by a circular arc member which curves along the circumference of a circular cross section perpendicular to the axial center of the cylinder. Between the flap (4) and the outer periphery of the grinding roller (1), a distance that allows passing of rice while restricting passing amount is secured, and a distance between the stopper (3) and the outer periphery of the grinding roller (1) prevents the rice from flowing. The screen halves (2) of the bran removing screen (S) have the same structure, and are so configured that when the respective ends in the axial direction are inverted, the stopper (3) and the flap (4) are inverted, and in the rice polishing machine, at least one screen half (2) can be arranged so that the respective ends in the axial direction are inverted. Also, position of a joint surface (J) between the screen halves (2) is variable in the circumferential direction about the rotation axis (10). |
180 |
Rice polisher, pre-polished rice producing apparatus, leveling device and pre-polished rice producing facility |
US10349245 |
2003-01-22 |
US06752072B2 |
2004-06-22 |
Soichi Yamamoto; Masashi Shibata; Yoichi Adachi; Haruo Mori; Yuji Suzuki |
A rice polisher for polishing rice, which is a preprocess necessary for producing pre-white rice having a favorable taste by using a small amount of water, a pre-polished rice producing apparatus that uses the rice polisher, a leveling device capable of uniformly leveling grains, and a pre-polished rice producing facility. The rice polisher includes a grain-lifting spiral for transporting white rice above from below, a water-pouring port for pouring polishing water, the water-pouring port being disposed at a head portion, a discharge port for discharging the white rice, the discharge port being disposed at the head portion, and a rice-polishing roll for polishing rice by agitating together with the polishing water poured from the water-pouring port the white rice pressurized by transportation by the grain-lifting spiral, with the polisher discharging from the discharge port the white rice that has been polished. |