前苏联专利SU715012A1 Magnetic separator

专利PDF首页>>前苏联专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
A moving matrix magnetic separator including a magnetic pole unit having a first ferromagnetic pole member; a second ferromagnetic pole member aligned with and spaced from the first pole member; and a working magnetic field volume formed by the space between the first and second pole members; electromagnetic coil means encircling the magnetic pole unit proximate the working magnetic field volume for producing a magnetic field in a first direction through the working magnetic field volume between the pole members; a moveable matrix member moveable through the working magnetic field volume between the first and second pole members in a second direction transverse to the first direction; and inlet means proximate one of the pole members for directing fluid through the matrix member and the working magnetic field volume in the first direction, and outlet means proximate the other of the pole members for removing fluid from the matrix member and the working magnetic field volume.
公开号:SU715012A1
申请号:SU2002230
申请日:1974-03-04
公开日:1980-02-05
发明作者:Грант Марстон Питер；Дж.Нолан Джон
申请人:Магнетик Инджиниринг Ассошиэйтс；Магнетик Инджиниринг Ассошиэйтс, Инк (Фирма)；Инк (Фирма)；
IPC主号:

专利说明:

the source material by the magnetic field, section 3 of the washing of the magnetic fraction, section | x; generation of the polygradient medium, supply pipes 5 and 6, discharge pipes 7 and 8, moreover sections 2 and 3 have a housing 9, a common electromagnetic system with coils 10 and 11 and the poles 12 and 13, between which is placed the camera 1, the device for introducing the source material, made of plates 14, installed vertically inside the pole 12, and a device for outputting a non-magnetic fraction, made of plates 15, installed parallel to each other inside the pole 13, tank 16 for the starting material. Section 4 of the regeneration of the polygradient medium has a body 17, supplying 6 and outlet nozzles.
Camera 1 is made of two rings 18 and 19, placed coaxially and interconnected by means of plates 20.
Cat1: 10 and 11 have elements 21-24, which connect to each other, adjacent to the working gap, and elements 25-28, which are bent toward poles 12 and 13. In addition, a coil can surround a pole block in any place - on the pole or the working gap.
The input device of the source material can also be made in the form of a pipe 2 with a perforation 30 placed in the polar gap above the chamber (see Fig. 9).
Magnetic separator works as follows.
Outgoing material through nozzle 5 from the resolver 1: 6 is fed to section 2, where magnetic parts are caught on the elements of the polygradient medium, and non-magnetic particles are unloaded by nozzle 7. Rotating, chamber 1 is transferred to section 3, where the magnetic fraction is washed with water. and additional extraction of non-magnetic impurities.
Then the camera 1 is moved to section 4 of the regeneration of the polygradient medium, where the separation of the map particles from the polygradient medium and their unloading through the nozzle 8 is carried out. Then the separation process is repeated.
Placing the device for introducing the source material inside the poles of the electromagnetic system and placing the poles vertically increases the width of the chamber cross section and, consequently, its area
without changing the interpolar gap, which makes it possible to improve the performance of the separator.

权利要求:
Claims (3)
[1]
1. Magnetic separator, which includes an electromagnetic system with poles and a coil, a chamber filled with a polygradient
medium and installed horizontally in the interpolar gap, devices for introducing raw material and withdrawal of separation products, characterized in that, in order to increase the capacity of the separator, devices for introducing starting material and withdrawal of separation products are placed inside the poles and are made of plates installed vertically.
[2]
2. Separator pop. 1, reflecting on the fact that the device for inputting the original
material is made in the form of a pipe. placed in the interpolar gap above the chamber and made with perforations on the side of the chamber.
[3]
3. A separator according to claim 1, characterized in that the poles of the electromagnetic system
arranged vertically.
Sources of information taken into account in the examination
1. Karmazin V.V., Karmazin, V.I., BinkeWICH V.A. Magnetic regeneration and separation
at enrichment of ores and coals. M., Nedra, 1968, pp.166-167.
2. USSR author's certificate number 275914, cl. At 03 C 1/10, 17.0948 (prototype).
FIG.
//
/ J
FIG. five
FIG. 6
12
2
J3
.T
)9
FIG. eight
} 2
29
YU
/
/ 7
/ 3
Fiyo.9

类似技术:

公开号 | 公开日 | 专利标题

SU715012A1|1980-02-05|Magnetic separator

US3902994A|1975-09-02|High gradient type magnetic separator with continuously moving matrix

US3841486A|1974-10-15|Device for purifying the feed water of a steam power installation

US3679556A|1972-07-25|Device for treating disperse systems

US4144163A|1979-03-13|Magnetodensity separation method and apparatus

CN104128255A|2014-11-05|Pulsating high gradient superconducting magnetic separation machine

TW476735B|2002-02-21|Device for treating a fluid with ultra-high magnetic force

ES448349A1|1977-11-01|Magnetic separators, apparatus and method

GB850233A|1960-10-05|Improvements in or relating to magnetic filters for liquids

RU2049563C1|1995-12-10|Apparatus for activation of processes

CN204074244U|2015-01-07|A kind of pulsating high gradient superconducting magnetic separator

GB1179795A|1970-01-28|Method and apparatus for Removal of Filter Cake from Liquid Filter

ES433925A1|1977-02-16|Magnetic separation

GB805484A|1958-12-10|Method of and apparatus for the treatment of incrusting liquids to prevent scale deposition therefrom

US2766888A|1956-10-16|Method and apparatus for magnetic separation of ores

SU874190A1|1981-10-23|Device for magnetic cleaning of liquid

SU426705A1|1974-05-05|

US3757948A|1973-09-11|Filter separator for wet enrichment of finely dispersed materials

GB1379394A|1975-01-02|Process and apparatus for separating magnetic particles

SU722576A1|1980-03-25|Magnetic separator

SU1096234A1|1984-06-07|Apparatus for separating magnetic particles from fluids

SU908399A2|1982-02-28|Liquid cleaning apparatus

SU423486A1|1974-04-15|

RU2601338C1|2016-11-10|High-gradient magnetic filter

SU1071317A1|1984-02-07|Electromagnetic separator

同族专利:

公开号 | 公开日

IL44229D0|1974-05-16|

IN139381B|1976-06-12|

JPS50140954A|1975-11-12|

IT1004057B|1976-07-10|

DD111300A1|1975-02-12|

GB1435861A|1976-05-19|

ES423863A1|1976-10-16|

FR2220310B1|1977-09-16|

AT333217B|1976-11-10|

JPS5219354B2|1977-05-27|

ZA741045B|1975-01-29|

BR7401567D0|1974-10-29|

CA1000658A|1976-11-30|

JPS5294263U|1977-07-14|

US3920543A|1975-11-18|

CS194703B2|1979-12-31|

SE415636B|1980-10-20|

ES429368A1|1976-08-16|

DE2462151A1|1976-03-25|

AU6625374A|1975-09-04|

FR2220310A1|1974-10-04|

DE2410001C3|1982-04-22|

IL44229A|1976-08-31|

PH13145A|1979-12-18|

DE2410001B2|1977-12-01|

SU715012A3|1980-02-05|

GB1435862A|1976-05-19|

DE2410001A1|1974-09-26|

JPS5025401A|1975-03-18|

ATA168574A|1976-03-15|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US686402A|1899-10-12|1901-11-12|Thomas John Greenway|Magnetic separator.|

US1093875A|1913-08-04|1914-04-21|Byron T Mottinger|Electromagnetic separator.|

US2064771A|1933-02-06|1936-12-15|Ferrocart Corp Of America|High frequency coil|

US2074085A|1935-05-20|1937-03-16|Samuel G Frantz|Magnetic separator|

DE870532C|1942-09-26|1953-03-16|Koppers Gmbh Heinrich|Device for separating magnetizable substances from powdery material|

US2982890A|1959-07-10|1961-05-02|Furnas Electric Co|Coil retaining structure|

US3221882A|1961-07-27|1965-12-07|S G Frantz Co Inc|Magnetic-restrictive separator|

GB1054807A|1962-07-25|1900-01-01|

GB1046832A|1964-01-02|1966-10-26|Carpco Res And Engineering Inc|Magnetic separator|

US3375925A|1966-10-18|1968-04-02|Carpco Res & Engineering Inc|Magnetic separator|

US3405807A|1967-06-08|1968-10-15|Union Tank Car Co|Filter cartridge sealing means|

US3627678A|1969-09-03|1971-12-14|Magnetic Eng Ass Inc|Magnetic separator and magnetic separation method|

GB1299641A|1970-03-23|1972-12-13|Ici Ltd|Improved smoking mixture|

CA937537A|1970-07-21|1973-11-27|Ustav Pro Vyzkum Rud|High intensity multizone magnetic separator|

US3822016A|1972-04-17|1974-07-02|G Jones|Magnetic separator having a plurality of inclined magnetic separation boxes|

DE2222003B1|1972-05-05|1973-07-19|Krupp Gmbh|STARKFELD MAGNETIC SEPARATOR|US4054513A|1973-07-10|1977-10-18|English Clays Lovering Pochin & Company Limited|Magnetic separation, method and apparatus|

GB1511488A|1974-11-22|1978-05-17|English Clays Lovering Pochin|Magnetic separation|

ZA751940B|1975-03-27|1976-11-24|Josef Bernfeld Georg|Improvements in or relating to the magnetic separation of materials and,in particular,to the wet high intensity separators for use with feebly magnetic materials|

GB1539732A|1975-04-11|1979-01-31|English Clays Lovering Pochin|Magnetic separator|

ES448349A1|1975-05-29|1977-11-01|English Clays Lovering Pochin|Magnetic separators, apparatus and method|

DE2606408C2|1976-02-18|1982-12-02|Klöckner-Humboldt-Deutz AG, 5000 Köln|Strong magnetic separator for wet processing of magnetizable solid particles|

GB1576427A|1976-04-29|1980-10-08|English Clays Lovering Pochin|Magnetic separators|

JPS598731Y2|1976-05-28|1984-03-19|

SE409954B|1976-06-11|1979-09-17|Mineral Processing Dev|MAGNETIC SEPARATOR|

US4052310A|1976-09-27|1977-10-04|Sala Magnetics, Inc.|Seal assembly|

GB1592779A|1976-12-15|1981-07-08|English Clays Lovering Pochin|Magnetic separation|

US4192738A|1978-10-23|1980-03-11|The United States Of America As Represented By The Secretary Of The Interior|Process for scavenging iron from tailings produced by flotation beneficiation and for increasing iron ore recovery|

US4204948A|1978-12-18|1980-05-27|Allis-Chalmers Corporation|Self-purging seal|

US4261815A|1979-12-31|1981-04-14|Massachusetts Institute Of Technology|Magnetic separator and method|

SE443301B|1981-11-30|1986-02-24|Sala International Ab|PROCEDURE AND MAGNETIC SAFETY PROCEDURE|

ZW7284A1|1983-05-10|1984-07-18|Mineral Tech Council|Magnetic separator|

DE3413674C2|1984-04-11|1986-02-27|Krupp Polysius Ag, 4720 Beckum|Wet working strong field magnetic separator|

DE3513801C2|1985-04-17|1991-08-08|Kloeckner-Humboldt-Deutz Ag, 5000 Koeln, De|

US4874508A|1988-01-19|1989-10-17|Magnetics North, Inc.|Magnetic separator|

US5944195A|1995-07-05|1999-08-31|Exxon Production Research Company|Method for separation of solids from drilling fluids by magnetic separation and centrifugation|

DE19626999C1|1996-07-05|1997-08-21|Karlsruhe Forschzent|High gradient magnet separator|

AU2003223165A1|2002-02-01|2003-09-02|Exportech Company, Inc.|Continuous magnetic separator and process|

US8470172B2|2007-01-09|2013-06-25|Siemens Industry, Inc.|System for enhancing a wastewater treatment process|

EP2107947B1|2007-01-09|2016-03-16|Evoqua Water Technologies LLC|A system and method for removing dissolved contaminants, particulate contaminants, and oil contaminants from industrial waste water|

US20100213123A1|2007-01-09|2010-08-26|Marston Peter G|Ballasted sequencing batch reactor system and method for treating wastewater|

US20110036771A1|2007-01-09|2011-02-17|Steven Woodard|Ballasted anaerobic system and method for treating wastewater|

AU2007342680B2|2007-01-09|2010-07-22|Evoqua Water Technologies Llc|Improved collection system for a wet drum magnetic separator|

AU2010313421B2|2009-10-28|2016-04-14|Magglobal, Llc|Magnetic separator|

AU2012245294B2|2011-04-20|2015-10-29|Magglobal, Llc|Iron ore separation device|

EP2858954A1|2012-06-11|2015-04-15|Evoqua Water Technologies LLC|Treatment using fixed film processes and ballasted settling|

CA2881703C|2012-09-26|2020-12-22|Evoqua Water Technologies Llc|System for measuring the concentration of magnetic ballast in a slurry|

CN105642439A|2016-03-24|2016-06-08|陈勇|Ultra-strong magnetic field iron ore dressing device|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

US338176A|US3920543A|1973-03-05|1973-03-05|Moving matrix magnetic separator|

[返回顶部]