• 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:SU1063293A3
    申请号:SU802963349
    申请日:1980-08-20
    公开日:1983-12-23
    发明作者:МЕРЦ Вальтер;Фридли Ханс
    申请人:Швайцерише Алюминиум Аг (Фирма);
    IPC主号:
    专利说明:

    The invention relates to the electrolytic conversion of alkali from melts of fluorine salts, in particular, to continuous electrolysers feeding on alumina and fluorine salts.
    Mobile devices are known that carry out the penetration of the crust and zag. load of electrolyzers with clay clams, and systems of continuous supply of chiller noeem Clj..10
    , Shortcomings, the use of mobile devices is the need to punch the crust by not {loading them with electric electrolysis equipment, a gas, which is accompanied by the reduction of harmful V5 gases into the air and worsens the sanitary condition of the electrolyzer production. Pneumatic trans-v systems of alumina transport to loading sites are characterized by high reserve of energy for transport and increased pipe wear.
     The closest to the invention in the prior art is an apparatus for automatically loading the electrolyzer. -G including a pressure vessel for alumina. and flux, alumina bunker and transport device C2 3.
    The disadvantages of the known device are the large wear of the transport pipes and the high energy consumption of the transport junction conveyor.
    The purpose of the invention is to reduce energy consumption for transport, increase the service life of transport pipes and select feedstock.
    This goal is achieved by the fact that the device for automatic loading of aluminum electrolysis cells, including a pressure tank for alumina 40, transport pipes and an alumina hopper, has a transport pipe with a pipe for compressed air with limiting devices arranged along the entire length of the pipe. adjustable bolts entering the tube for compressed air, in the form of plates or. depressions against which holes are made on the walls of the transport tube, closed by disks of porous material.
    Moreover, both pipes are provided with a common partition along the entire length with openings in which they are made of porous material.
    In this case, the discs are made of sintered alumina, sintered bronze, or wire netting.
    In addition, the distance between the limiters and the surface of the porous material facing towards it increases in terms of movement of the transported raw material.
    FIG. 1 shows the proposed; device, longitudinal section; in fig. 2 - section of the transport pipe
    with a pipe for compressed air and limiters, a longitudinal 4th slit; in fig. 3 shows section A-A in FIG. 2, - 4 "g. 4 - limiter, made in the form of a profile element.
    The device for automatic welding (Fig. 1) of the Alvine Electro LIZER 1. With the cathode jacket 2 and cathode blocks 3 lying on the layer of refractory thermal insulation 4 is located above the anode blocks 5 with anode rods. 6 and contains a bunker 7 for alumina, provided at the ends with dosing devices, 8, vent, pipes 9 and devices 1 & For punching the electrolyte crust, a transport pipe 11, connected to the distribution section M2 by an electrically insulating insert, preventing the connection of power supply elements under different electrical potentials, connects the alumina hopper to the pressure hopper 13. The transport pipe 11 (Fig. 2 / is fitted with a pipe 14 for squeezed in air, a corner of the south section welded to the transport pipe. In the upper wall of the transport pipe (50 mm diameter and 3 mm wall thickness) there are holes in which are embedded (by welding, An adjustable bolt 16, diameter of which is close to the diameter of the disk, forming screws) with a piece 17, fitted with a locknut 18 for fixing the position of the adjustable bolt 16. Parts 16-18 together q porous disk 15 form limiters, regulating the flow of compressed air in the pipe 14 into the transport pipe 11, through which alumina 19 is supplied to the bunker 7.
    Above the plow: an element 15 (Fig. 4, a profile element 20 can be installed fixed permanently in the wall of the pipe 14, providing an unregulated (constant air flow into the transport pipe 11.
    The device works as follows.
    Under the action of compressed air, clay is fed from the pressure hopper 13 through the transport pipe 11 and its section 12 to the hopper 7, from which the dispensers 8 and the discharge pipes 9 through the holes to. the electrolyte crust, punched by the device 10, into the electrolyte of the aluminum electrolyzer.
    Minimum energy consumption for transportation, reduction of wear on the inner surface of transyor tubes 11 and the possibility of distributing raw materials through several aluminum electrodes
    is achieved by weighing alumina particles 19 in pipe 11 by delivering a metered amount of air from pipe 14 through porous disks 15, which can be made of sintered oxide, sintered broth or wire mesh. As the hydrodynamic resistance changes in the direction of movement of the raw material, the distance from the surface of the porous disk 15 to the surface of the limiter - adjustable bolt 16 or profile element 20 increases, thereby ensuring an optimal distribution of air transporting alumina.
    FIG 3
    15
    20
    .one
    TS jfif jfff f fjfjirAa fjf jf trje f ifjrj ff jf jrfA
    FIG.
    权利要求:
    Claims (4)
    [1]
    1. A DEVICE FOR AUTOMATIC LOADING OF ALUMINUM ELECTROLYZERS, 'including a pressure tank for alumina, transport pipes and a silo for alumina, which is necessary to reduce the energy consumption for transport and increase the service life of transport pipes and selection of raw materials, the transport pipe is equipped with a pipe for compressed air with limiters located along the entire length of the pipe, made in the form of adjustable bolts included in the pipe for compressed air, in the form of plates or recesses against which the wall a transport pipe provided with openings closed by disks of porous material.
    [2]
    2. The device according to π. 1, characterized in that both pipes are equipped with a common partition along the entire length with openings in which disks of porous material are mounted.
    [3]
    3. Device By π. 1, characterized in that the discs are made of sintered alumina, sintered bronze or wire mesh.
    [4]
    4. The device according to π. 1, distinguished by the fact that the distance between the limiter and the surface of the porous material facing it increases in the direction of movement of the transported raw material.
    <1
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    BR8005400A|1981-03-10|
    ES8104441A1|1981-04-01|
    CH645677A5|1984-10-15|
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    NZ194722A|1984-07-31|
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    YU212780A|1983-02-28|
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    EP0026735B1|1984-07-04|
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    DE3022643A1|1981-03-12|
    NO154525B|1986-06-30|
    ES494462A0|1981-04-01|
    DE3068436D1|1984-08-09|
    ZA805198B|1981-09-30|
    NO802501L|1981-03-02|
    TR21343A|1984-04-16|
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB770304A|1953-04-14|1957-03-20|Buehler Ag Geb|Improvements in or relating to process and means for regulating the introduction of bulk goods into a pneumatic conveying line|
    US2989349A|1956-09-19|1961-06-20|Hartley Controls Corp|Pneumatic delivery and time-controlled measuring of fine material such as powder|
    CH366976A|1957-12-19|1963-01-31|Elektrokemisk As|Process for charging furnaces for the electrolytic production of aluminum|
    US3135672A|1959-01-16|1964-06-02|Nippon Light Metal Co|Method for feeding alumina to electrolytic cell|
    NL255508A|1959-09-03|
    AT237909B|1962-12-07|1965-01-11|Vmw Ranshofen Berndorf Ag|Electropneumatic device for the automatic periodic addition of alumina in aluminum electrolysis furnaces|
    FR1526766A|1963-09-24|1968-05-31|Pechiney Prod Chimiques Sa|Automatic machine for pricking and feeding igneous electrolysis tanks|
    AT248133B|1964-04-16|1966-07-11|Vmw Ranshofen Berndorf Ag|Electropneumatic device for the automatic periodic addition of alumina in aluminum electrolysis furnaces|
    AT271924B|1965-09-07|1969-06-25|Femipari Ki|Method and device for automatically breaking up the crusts of aluminum electrolysis bath batteries and for charging these baths with alumina|
    CH459060A|1966-06-16|1968-06-30|Buehler Ag Geb|Pipeline for the pneumatic or hydraulic transport of short, similar material plugs|
    US3681229A|1970-07-17|1972-08-01|Aluminum Co Of America|Alumina feeder|
    US3664935A|1971-01-21|1972-05-23|Arthur F Johnson|Effluent filtering process and apparatus for aluminum reduction cell|
    US3797707A|1971-04-20|1974-03-19|Jenike And Johanson Inc|Bins for storage and flow of bulk solids|
    FR2139648B1|1971-05-28|1973-08-10|Prat Daniel Poelman|
    US3844446A|1971-08-04|1974-10-29|Fuller Co|System for conveying solid particulate materials|
    DE2209674A1|1972-03-01|1973-09-06|Waeschle Maschf Gmbh|PIPE FOR A CONVEYOR LINE TO BE FILLED WITH ADDITIONAL AIR|
    US3901787A|1974-03-07|1975-08-26|Nippon Light Metal Co|Alumina feeder for electrolytic cells|
    DE2440888C3|1974-08-27|1978-11-23|Waeschle Maschinenfabrik Gmbh, 7980 Ravensburg|System for the successive loading of several unloading stations connected one behind the other to a pneumatic conveying line via separators with bulk material|
    US4016053A|1975-10-01|1977-04-05|Kaiser Aluminum & Chemical Corporation|Feeding particulate matter|
    DE2625263C3|1976-06-04|1980-07-31|Waeschle Maschinenfabrik Gmbh, 7980 Ravensburg|Device for feeding bulk material into a pneumatic conveying line|
    US4299683A|1980-07-17|1981-11-10|Aluminum Company Of America|Apparatus and method for efficient transfer of powdered ore|FR2504158B1|1981-04-15|1985-08-30|Aluminium Grece|METHOD AND APPARATUS FOR PUNCTUAL ALUMINA SUPPLY OF ELECTROLYSIS TANKS FOR THE PRODUCTION OF ALUMINUM|
    FR2534891B1|1982-10-22|1987-01-09|Pechiney Aluminium|CLOSED POTENTIAL FLUIDIZATION DEVICE FOR HORIZONTAL CONTROL OF POWDER MATERIALS|
    FR2562878B2|1984-04-12|1989-06-30|Pechiney Aluminium|CLOSED POTENTIAL FLUIDIZATION DEVICE FOR HORIZONTAL CONVEYANCE IN DENSE BED OF POWDER MATERIALS|
    DE3664622D1|1985-10-31|1989-08-31|Alusuisse|Device for charging bulk material containers, and its use|
    US4938848A|1989-02-13|1990-07-03|Aluminum Company Of America|Method and apparatus for conveying split streams of alumina powder to an electrolysis cell|
    FR2778393B1|1998-05-11|2000-06-16|Pechiney Aluminium|PROCESS FOR THE CONVEYANCE OF POWDER MATERIALS IN A HYPERDENSE BED AND POTENTIAL FLUIDIZATION DEVICE FOR IMPLEMENTING THE SAME|
    FR2831528B1|2001-10-26|2004-01-16|Pechiney Aluminium|POWDER MATERIAL DISTRIBUTION SYSTEM WITH CONTROLLED WEIGHTS|
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    CN104264188B|2014-09-25|2016-11-30|中国铝业股份有限公司|Control type intelligence crust breaking System and method for|
    法律状态:
    优先权:
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