• 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:

    公开号:SU828949A3
    申请号:SU772464001
    申请日:1977-03-25
    公开日:1981-05-07
    发明作者:Лафос Жан
    申请人:Фив-Кель Бабкок (Фирма);
    IPC主号:
    专利说明:

    This invention relates to the beneficiation of minerals.
    Known electromagnetic separator, which includes an electromagnetic system with pole pieces installed with a gap, feeder, receivers of products divided) 1.
    The disadvantage of the separator is low productivity.
    Also known is an electromagnetic separator, which includes a chamber equipped with nozzles of the input of the material being processed and a section of products 1, an electromagnetic system placed on the outside of the chamber, and a polyradiation medium of plates made of ferromagnetic material and placed inside the chamber parallel to each other with a gap, while the plates Adjacent to the walls of the chamber are made with one-sided triangular shaped triangular shape facing the inside of chamber 2.
    The disadvantages of this separator are the low efficiency of the separation process and the low productivity.
    The purpose of the invention is to increase the separator productivity and the efficiency of the separation process.
    This goal is achieved by the fact that the plates are zigzagged and placed
    with the formation of the same gap between adjacent plates at all points of their surfaces.
    Zigzag vertices can be made rounded.
    It is advisable to make the separator multi-chamber with the sequential placement of chambers and the installation of plates in different chambers with different clearance. FIG. 1 shows a separator, a cross section; on phpg. 2 and 3 - types of plates from a ferromagnetic mat, rial.
    The separator includes a chamber 1, an electromagnetic system with poles 2 and 3, a polygradient medium made of plates 4 adjacent to the walls of the chamber / and plates 5, made zigzag with the placement of the protrusions of the prothp plates of the depressions and opposite plates, while the zigzags can have a triangular or trapezoidal section, and the tops of the zigzags can be made rounded.
    The separator works as follows.
    The source material is fed into the chamber / and moves along the plates of ferromagnetic material. The magnetic particles are driven by the plates 4 and 5, and the non-magnetic parts 1xx pass through the chamber / and
    enter the receiver of the non-magnetic fraction. After an assigned period of time, the supply of the starting material is stopped, the power of the electromagite system is turned off, and the polygradient medium is regenerated with the magnetic fraction B unloaded corresponding to the treblemNI.
    The implementation of plates 5 in a zigzag manner with the placement of the protrusions of the protiiB plates of the opposing ilastins allows eliminating the inconsistency of the gap between the chalk and food plates n, the successors-io, to increase the capacity of the separator. Placing the plates with the formation of the same gap between adjacent plates at all points on their surfaces allows ei to ensure a minimum of inactive zones in the working gap, which, along with the multi-chamber making of the senator and installing the plates in different chambers with different gaps, improves the efficiency of the separation process.
    Thus, the execution of the zig plates: -: Shaped and placing them to form the same gap between adjacent plates at all points on their surfaces, making the multi-chamber sewer and installing the plates in different chambers with different gap make it possible to increase the separator productivity and efficiency of the separation process.
    权利要求:
    Claims (4)
    [1]
    1. Electromagnetic separator comprising a chamber equipped with nozzles
    1vol of the processed material and separation products, an electromagnet system placed from the outer side of the chamber, a noligraphic medium made of plates made of ferromagnetic material and placed inside the chamber 1 parallel to each other with a gap, while the plates adjacent to the walls of the chamber are made with one-sided A triangular shaped triangle shaped by a 1G11 camera chamber, characterized in that the plates are zigzagged to increase the performance of the seaiator and the efficiency of the separation process. shaped and positioned to form a uniform gap between adjacent ilastina .mi at all points of their iovvrhnostey.
    [2]
    2. Separator io and. 1, differing from the fact that the zigzags are completed
    rounded.
    [3]
    3. Seiator no. 1, 2, which is distinguished by the fact that it is multi-chamber with a consistent placement of cameras.
    [4]
    4. Seiatortor but p. 3, about tl and ch and y and i with the fact that the plates and different chambers are installed with a different gap.
    Sources of information taken into account in the examination:
    1.; Interstate Congress, but for the enrichment of the IYP and non-konems (London, April,
    1960), M., 1962, p. 448-452.
    2. In the same place 424-425 (nrotioty).
    类似技术:
    公开号 | 公开日 | 专利标题
    SU828949A3|1981-05-07|Electromagnetic separator
    US3489280A|1970-01-13|Magnetic separator having field shaping poles
    GB1389300A|1975-04-03|Magnetic separator and apparatus
    US3947349A|1976-03-30|Permanent magnet high intensity separator
    GB1495795A|1977-12-21|Magnetic separator
    GB1348915A|1974-03-27|High intensity multizone magnetic separator
    SU394101A1|1973-08-22|ELECTROMAGNETIC SEPARATOR
    SU1282899A1|1987-01-15|Magnetic disk separator
    SU1639749A1|1991-04-07|Magnetic separator
    SU1542622A1|1990-02-15|Electric magnetic drum-type iron separator
    SU1514406A1|1989-10-15|Electromagnetic separator
    SU1639755A1|1991-04-07|Ferromagnetic ore dresser
    SU613817A1|1978-07-05|Magnetic separator drum
    SU1502109A1|1989-08-23|Magnetic separator
    SU1270866A1|1986-11-15|Magnetic separator
    SU880492A1|1981-11-15|Magnetic separating filter
    SU1553176A2|1990-03-30|Drum-type magnetic separator
    SU1251956A1|1986-08-23|Magnetic separator
    SU727205A1|1980-04-15|Granulator
    SU940854A1|1982-07-07|Magnetic separator
    GB1459028A|1976-12-22|Apparatus for the separation of magnetizable particles from a material
    SU1627255A1|1991-02-15|Magnetoelectric separator
    SU730365A1|1980-04-30|Magnetic polygradient separator
    SU1719085A1|1992-03-15|Magnetogravitational separator
    SU506431A1|1976-03-15|Magnetic separator
    同族专利:
    公开号 | 公开日
    YU73077A|1982-06-30|
    DE2713294A1|1977-10-06|
    DE2713294C2|1987-11-12|
    PL196918A1|1978-01-02|
    BR7701835A|1978-01-24|
    FR2371235A1|1978-06-16|
    PL111922B1|1980-09-30|
    GB1576071A|1980-10-01|
    CA1066666A|1979-11-20|
    FR2371235B1|1979-03-23|
    SE421590B|1982-01-18|
    YU39993B|1985-06-30|
    SE7703403L|1977-09-27|
    MX143256A|1981-04-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR1141536A|1956-01-19|1957-09-03|Magnetic separator in aqueous medium|
    GB1054807A|1962-07-25|1900-01-01|
    GB1371623A|1971-03-03|1974-10-23|Jones G H|Apparatus for the magnetic separation of solid magnetic particlesfrom a fluid current|
    GB1377511A|1971-06-25|1974-12-18|Philips Electronic Associated|Magnetic filter|DE2916634A1|1979-04-25|1980-11-13|Schloemann Siemag Ag|METHOD AND DEVICE FOR DEPOSITING SINTER OR THE LIKE. MAGNETICALLY RELATED PARTICLES FROM USED OR WASTE WATER|
    DE2929468C2|1979-07-20|1987-08-06|Siemens Ag, 1000 Berlin Und 8000 Muenchen, De|
    DD261106A1|1984-12-05|1988-10-19|Akad Wissenschaften Ddr|MATRIX FOR MAGNETIC SEPARATOR|
    DE102013008817A1|2013-05-25|2014-12-11|Technische Universität Kaiserslautern|Device for separating particles from a fluid by magnetic separation|
    JP6041280B2|2013-06-28|2016-12-07|国立研究開発法人産業技術総合研究所|Matrix for magnetic separator and magnetic separator|
    BR102016022548A2|2016-09-28|2018-05-02|Pancrácio Ribeiro José|WAVED MAGNETIC MATRIX FOR HIGH INTENSITY MAGNETIC SEPARATOR|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    FR7608797A|FR2371235B1|1976-03-26|1976-03-26|
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