141 |
Automatic fan n ing-mill |
US441331D |
|
US441331A |
1890-11-25 |
|
|
142 |
Teeeitoey |
US357525D |
|
US357525A |
1887-02-08 |
|
|
143 |
Combined fanning-mill and seed-cleaner |
US296309D |
|
US296309A |
1884-04-08 |
|
|
144 |
Improvement in middlings-purifiers |
US157415D |
|
US157415A |
1874-12-01 |
|
|
145 |
bowetf |
US107860D |
|
US107860A |
1870-10-04 |
|
|
146 |
Daniel h |
US77935D |
|
US77935A |
1868-05-12 |
|
|
147 |
Improvement in fanning-mills |
US47839D |
|
US47839A |
1865-05-23 |
|
|
148 |
Improvement in grain-separators |
US46044D |
|
US46044A |
1865-01-24 |
|
|
149 |
Grain-winnower |
US11855D |
|
US11855A |
1854-10-31 |
|
|
150 |
Oalvin o |
US3794D |
|
US3794A |
1844-10-12 |
|
|
151 |
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. |
152 |
Purifier |
US12662090 |
2010-03-30 |
US20100243538A1 |
2010-09-30 |
Shigeki Uebayashi; Masakazu Kobayashi; Takuji Nakano |
A purifier is provided that is capable of uniformly sucking powder in a width direction of the sieve layers even when the purifier is configured to be provided with an air distribution chamber formed as being tapered upward and to have a horizontal cyclone provided above the air distribution chamber.The air distribution chamber is configured of paired inclined surfaces formed as being tapered upward, has a suction passage formed as a horizontal cyclone placed above the air distribution chamber. Also, a plurality of barrier walls are provided in the air distribution chamber in a direction perpendicular to a longitudinal direction of sieve layers, the air distribution chamber is sectioned by the barrier walls into a plurality of chambers, and rectifying plates are further provided to the air distribution chamber at a narrow position between the paired inclined surfaces to prevent non-uniformity of suction of powder on the sieve layers. |
153 |
Hulled rice distribution device in rice huller |
US10591902 |
2005-10-11 |
US20070193455A1 |
2007-08-23 |
Minoru Koreda; Hiroyuki Kagota |
A hulled rice distribution device (30) is disposed between a hulling section (10) and a wind sorting section (60) of a rice huller (1). This distribution device (30) comprises an distribution gutter (35) for receiving hulled rice falling from the hulling section, and a screw (32) for conveying the hulled rice having flowed into the distribution gutter (35) in the lengthwise direction of the distribution gutter. A plurality of holes (41, 42 and 43) for the hulled rice to fall through are formed in the distribution gutter (35), and some of them may be blocked or opened by a falling rice control plate (34). |
154 |
Process and apparatus for flaxseed component separation |
US10316892 |
2002-12-12 |
US07022363B2 |
2006-04-04 |
Wuwei Cui; Nam Fong Han |
A continuous process for separating components of flaxseed is described. Flaxseed is dried to a moisture content of from about 0.5% to about 3.0%, after which is introduced into a separation chamber having an abrasive rotator therein. As the flaxseed passes over the abrasive rotator, contact with rotator separates the flaxseed components into hulls and kernels. Hulls and kernels are separated and may be used in this form or processed further. Hulls may be further processed by extraction with water and with hexane to remove flaxseed gum and oil, respectively. These two extractions may be done in any order. The process results in a lignan-rich component of flaxseed, a gum extract and oil. These separate components of flaxseed may be used in products such as feed, personal care products or nutraceuticals. |
155 |
Process and apparatus for flaxseed component separation |
US10013494 |
2001-12-13 |
US20030131737A1 |
2003-07-17 |
Wuwei
Cui; Nam
Fong
Han |
A continuous process for separating components of flaxseed is described. Flaxseed is dried to a moisture content of about 1% or less, after which is introduced into a separation chamber having an abrasive rotator therein. As the flaxseed passes over the abrasive rotator, contact with rotator separates the flaxseed components into hulls and kernels Hulls and kernels are separated and may be used in this form or processed farther. Hulls may be further processed by extraction with water and with hexane to remove flaxseed gum and oil, respectively. These two extractions may be done ill any order. The process results in a lignan-rich component of flaxseed, a gum extract and oil. These separate components of flaxseed may be used in products such as foods, personal care products or nutraceuticals. |
156 |
Disintegrating and grain-regulating device for granules |
US09581573 |
2000-07-11 |
US06394374B1 |
2002-05-28 |
Kenji Hamada; Takashi Tashiro; Fumiaki Tanabe |
A crushing and particle sizing apparatus for granular material in which the particle size can be controlled without the use of a screen or similar apparatus. A gap region is formed as a particle size adjusting region which allows particles suited to the gap setting to pass. Particles not suited to the gap setting are brought into rotational contact with a rotating body and crushed to the suited gap setting. |
157 |
Rotary grain screener |
US278048 |
1988-11-30 |
US4919642A |
1990-04-24 |
Eugene G. Sukup; Charles E. Sukup; Steven Sukup |
A rotary grain screener is disclosed in which the primary grain-advancing flighting is mounted on the internal surface of the rotary screener drum and an inner auger is mounted on a central axial drive shaft to advance the grain forward in the drum at a greater rate than is accomplished by the flighting on the internal surface of the drum. The screener drum is supported on the central drive shaft which has a support bearing on the input auger housing and the drum is further provided at the input end with two annular bearing plates which are attached to the end plate of the drum and have a close fit around the input auger housing for closure and support purposes. A single motive power source drives the drive assembly which operates both the input auger and the screener drum. |
158 |
Mobile seed cleaning apparatus |
US937095 |
1986-12-02 |
US4785761A |
1988-11-22 |
Neville J. Greenbank |
A mobile seed cleaning and/or separating apparatus has a wheeled, self-propelled chassis mounting a plurality of cleaning and/or separating stations. The stations are interconnected by conveyors which transport the seed through the apparatus. The cleaning and/or separating stations include a coarse screen to remove material of a size larger than the seed to be separated, an aspirator to remove relatively light material, a pair of pocket cylinders to separate materials of different sizes and a screen cylinder to finally screen the seed. After cleaning, the seed passes through a weighing device which continuously batch-weights the seed and actuates a prickling machine to introduce a furyside, mold-inhibitor or other chemical. |
159 |
Vibratory grain sorting machine |
US709451 |
1985-03-08 |
US4722446A |
1988-02-02 |
Toshihiko Satake |
Disclosed is a vibratory grain sorting machine which comprises an assembly to be vibrated at least including a frame and at least one stack of sorting plate members. The assembly to be vibrated is pivotally supported on a base structure by a plurality of strut units. At least one of the strut units has a top end pivotally connected to a side wall of the frame and a bottom end pivotally connected to the base structure. Each of the remaining strut units has a top end pivotally connected to a bottom wall of the frame and a bottom end pivotally connected to the base structure. A vibrating device is connected to the frame to apply a force substantially toward and away from the center of gravity of the assembly to be vibrated, thereby angularly reciprocating the assembly to be vibrated, around the bottom ends of the respective strut units. |
160 |
Machine and process for grinding granular particles |
US582814 |
1984-02-23 |
US4553703A |
1985-11-19 |
Raul M. Villarreal |
A grinding process and machine for granular particles comprising two flexible continuously moveable belts which form a cavity separated apart a critical distance. The granular particles rub against each other when the belts relatively moving at different speeds grind the materials to achieve a predetermined condition. |