81 |
Dry concentrator |
US69954057 |
1957-11-29 |
US2864501A |
1958-12-16 |
BOLANDER GROVER T |
|
82 |
Air washer |
US61454956 |
1956-10-08 |
US2810481A |
1957-10-22 |
LOFQUIST RALPH J; MILLIGAN EMERY O |
|
83 |
Separator deck |
US13148237 |
1937-03-17 |
US2163734A |
1939-06-27 |
FRANKLIN MCCLEARY LOUIS; HAMMOND HOWARD L |
|
84 |
Apparatus for accurate pneumatic separation of particles of a mass |
US14251237 |
1937-05-13 |
US2163332A |
1939-06-20 |
SUTTON HENRY M; STEELE EDWIN G |
|
85 |
Ore concentrator |
US8390836 |
1936-06-06 |
US2148068A |
1939-02-21 |
FULLER CHARLES M |
|
86 |
Apparatus for air floatation separation |
US68866033 |
1933-09-08 |
US2101295A |
1937-12-07 |
RUSK EDWIN M |
|
87 |
Apparatus for the separation of solid materials of different specific gravities |
US64325832 |
1932-11-18 |
US2100670A |
1937-11-30 |
GEORGE RAW |
|
88 |
Apparatus for the pneumatic separation of materials |
US82435 |
1935-01-08 |
US2060966A |
1936-11-17 |
FRANCOIS ALLARD |
|
89 |
Ore concentrator |
US73914834 |
1934-08-09 |
US2034225A |
1936-03-17 |
BYE CHARLES E |
|
90 |
Process and mechanism for separating intermixed divided materials |
US5477725 |
1925-09-05 |
US1812365A |
1931-06-30 |
RICHARD PEALE |
|
91 |
Circular-deck concentrator |
US13748326 |
1926-09-24 |
US1650726A |
1927-11-29 |
STEBBINS ALBERT H |
|
92 |
Concentrator |
US47539621 |
1921-06-06 |
US1494480A |
1924-05-20 |
HAWKESWORTH FRANK E |
|
93 |
Vorrichtung zur pneumatischen Vakuumsichtung von Schüttgut |
DE112010005677 |
2010-09-23 |
DE112010005677B4 |
2020-03-12 |
KUZMIN ALEXANDR VLADIMIROWICH; KALINA ANDREY VLADIMIROWICH; TABAKOV GRIGORY NIKOLAEVICH; BOYKO DIMITRIY YURIEVICH; POLOMARCHUK VLADIMIR SEMENOVICH |
Vorrichtung zur pneumatischen Vakuumsichtung von Schüttgut, aufweisend :einen Füllkasten (1) für Schüttgut,einen Aufschütter-Trenner (2), der eine gerippte Fläche mit Längsspalten zur Trennung des Schüttguts und zur Sicherung der gleichmäßigen Aufschüttung enthält,einen Drahtgutförderer (3), der ein Fließband aufweist,eine Einrichtung zur Erzeugung eines Saugluftstroms und damit verbundene Transportsaugdüsen (4), die mit einer Absetzkammer verbunden und über dem Drahtgutförderer (3) angeordnet sind, um die leichteren Partikel anzusaugen,ein Luftgebläse (8) mit zugeordneten Druckdüsen (7), die unter dem Fließband des Drahtgutförderers angeordnet sind und eine Reinigung und Sichtung des Drahtgutes nach Dichte ermöglichen sollen,eine Einrichtung zur Regelung der Stärke des Luftgebläses (8) sowie ein Staubabsaugungssystem (5),wobei die Stoffe aus der Absetzkammer durch einen Ausräumer (9) auf einen bandförmigen Abförderer (10) gefördert werden. |
94 |
INSTALLATION DE CRIBLAGE A ETOILES ROTATIVES PERMETTANT UN DEMONTAGE ET UN REMONTAGE RAPIDE DES ARBRES ROTATIFS ET DES ETOILES ROTATIVES |
FR1759075 |
2017-09-29 |
FR3071751B1 |
2019-10-11 |
BLANC DYLANE; GERBELOT DOMINIQUE |
Il est décrit une installation de criblage à étoiles rotatives, comprenant au moins une table de séparation (10) pour séparer des marchandises en vrac en parties fines passant à travers la table de séparation (10) et en parties grossières évacuées à une extrémité de la table de séparation (10). La table de séparation (10) comprend un châssis en forme de cadre et une pluralité d'arbres rotatifs (11) parallèles, chaque arbre rotatif (11) comprenant une pluralité d'étoiles rotatives (12). L'installation de criblage comprend un mécanisme d'entrainement accouplé à une extrémité de chacun des arbres rotatifs (11). Les premier et deuxième organes d'accouplement (111c, 112c) de première et deuxième parties d'arbre (111, 112) en lesquelles chaque arbre est subdivisé peuvent occuper une configuration d'accouplement dans laquelle les premier et deuxième organes d'accouplement (111c, 112c) sont en prise mutuelle d'une manière telle que la première partie d'arbre (111) est couplée en rotation avec la deuxième partie d'arbre (112), chaque arbre rotatif (11) comprenant un mécanisme de verrouillage fonctionnant par serrage radial transversalement à l'axe de l'arbre rotatif (11) et pouvant occuper une configuration de verrouillage dans laquelle le mécanisme de verrouillage bloque, sous l'effet dudit serrage radial, les premier et deuxième organes d'accouplement (111c, 112c) dans la configuration d'accouplement. |
95 |
A DRY-PROCESS COAL SEPARATOR |
AU2015101177 |
2015-08-26 |
AU2015101177A4 |
2015-10-08 |
YANG ZHIHUI |
The invention discloses a dry-process coal separator that comprises machine frame and devices fixed on the machine frame, such as coal supply device, coal preparation device and wind supply device. The innovation has some beneficial effects: the dry-process coal separator effectively realizes the separation of all granularity for raw coal from 0 to 80mm by setting stepped bed surfaces inside of the bed frame. The operation is easy and economical. The innovation can be widely used in all kinds of gangue discharging and desulphurisation of raw coal in order to reduce ash and improve the quality of coal. The dry-process coal separator is specialized in some water shortage areas. 223- Z5 31 31 35- / 3133 U; ~ 313 34 I 13 < 3A :34 321 32 323 322 |
96 |
Apparatus for pneumatic vacuum separation of bulk materials |
AU2010352883 |
2010-09-23 |
AU2010352883B2 |
2014-04-17 |
KUZ MIN ALEKSANDR VLADIMIROVICH; KALINA ANDREY VLADIMIROVICH; TABAKOV GRIGORY NIKOLAEVICH; BOYKO DMITRIY YUR IEVICH; POLOMARCHUK VLADIMIR SEMENOVICH |
PNEUMATIC VACUUM SEAPARTION PLANT FOR BULK MATERIALS Abstract The invention refers to coal, ore mining, construction, chemical, food, agricultur al and metallurgic industries and can be used for preliminary and final coal benefica tion, ferrous, non-ferrous, rare and noble metal ores, metal slag, nonmetallic materials, separation of food products, industrial and domestic wastes etc. The target of the pro posed invention is to improve the quality of separated products, to increase the capacity of a single unit, and to increase its service and technological reliability. The pneumatic vacuum separation plant for bulk materials, consisting of loading bin, separating feed er, mesh conveyor, compressed air blowing device for the conveyor mesh, trans porting nozzles unified with separation bins and located over the conveyor mesh, discharge nozzles under the conveyor mesh in a single plane with transporting nozzles and simultaneously adjusted for separation of the primary material into products of spe cific density, aspiration systems (cyclones) as well as devices for generation of ascend ing sucking air flows in the transporting nozzles and discharge flows in the discharge nozzles, where the separating feeder represents a finned surface with lengthwise slots for removal of the plate-shaped part of the bulk mixture, and ensuring uniform supply of the remaining part to the conveyor belt, which is cleaned by the means of compressed air blowing device, all the transporting nozzles are located at different distance from the conveyor mesh, enabling separation of the remaining part the bulk mixture by the target densities, all the discharge nozzles are located under the transporting nozzles at different distance from the conveyor mesh, transporting and discharge nozzles along the conveyor mesh can be moved vertically, discharge nozzles are connected directly to devices ge nerating the discharge air flow of different velocity and power, aspiration systems (cyc lones) connect the transporting nozzles unified with the separating bins to the suction devices, that generate the specific velocity and lifting power of the air flow. 3 dependant claims, 2 illustrations. |
97 |
|
TR201201170 |
2010-09-23 |
TR201201170T1 |
2012-05-21 |
KUZ MIN ALEKSANDR VLADIMIROVICH; KUZ MIN DMITRY YUR IEVICH BOYKO VLADIMIROVICH; KALINA ANDREY VLADIRIROVICH; TABAKOV GRIGORY NIKOLAEVICH; POLOMARCHUK VLADIMIR SEMENOVICH |
|
98 |
SEPARATION APPARATUS |
CA2689041 |
2009-12-23 |
CA2689041A1 |
2010-06-24 |
FRYARS THOMAS |
Disclosed is a separation apparatus comprising a conveyor; and a material separator positioned above a conveyor, the conveyor being arranged to convey a mixture of materials to the material separator; the material separator comprising a suction duct comprising a sidewall which defines a passageway linking an inlet positioned adjacent the conveyor to an outlet positioned away from the conveyor; and an airflow generator arranged to blow air through a slit in the sidewall into the passageway at a position between the inlet and the outlet; wherein, in use, the airflow generator blows air through the slit in a direction which is towards the outlet for creating a pressure difference between the inlet and the outlet thereby generating an airflow which causes relatively low density materials to be lifted from the conveyor and sucked into the passageway. |
99 |
|
BRPI0609145 |
2006-03-16 |
BRPI0609145A2 |
2010-02-17 |
VASSHUS JAN KRISTIAN; MELHUS TROND; KNUTSEN HARALD |
|
100 |
A grit elevator |
GB0816289 |
2008-09-05 |
GB2454768B |
2010-01-13 |
SHEPHERD NIGEL R C |
|