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WO2017005190A1 - Magnetite separation apparatus by means of ultrahigh magnetic field - Google Patents

Magnetite separation apparatus by means of ultrahigh magnetic field

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Publication number
WO2017005190A1
WO2017005190A1 PCT/CN2016/088802 CN2016088802W WO2017005190A1 WO 2017005190 A1 WO2017005190 A1 WO 2017005190A1 CN 2016088802 W CN2016088802 W CN 2016088802W WO 2017005190 A1 WO2017005190 A1 WO 2017005190A1
Authority
WO
Grant status
Application
Patent type
Prior art keywords
magnetic
magnetite
ore
sand
ultrahigh
Prior art date
Application number
PCT/CN2016/088802
Other languages
French (fr)
Chinese (zh)
Inventor
陈勇
Original Assignee
陈勇
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03CMAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03C1/00Magnetic separation
    • B03C1/005Pretreatment specially adapted for magnetic separation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03CMAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03C1/00Magnetic separation
    • B03C1/02Magnetic separation acting directly on the substance being separated
    • B03C1/16Magnetic separation acting directly on the substance being separated with material carriers in the form of belts
    • B03C1/22Magnetic separation acting directly on the substance being separated with material carriers in the form of belts with non-movable magnets
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03CMAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03C1/00Magnetic separation
    • B03C1/02Magnetic separation acting directly on the substance being separated
    • B03C1/26Magnetic separation acting directly on the substance being separated with free falling material
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING; SHOP CONVEYOR SYSTEMS; PNEUMATIC TUBE CONVEYORS
    • B65G15/00Conveyors having endless load-conveying surfaces, i.e. belts and like continuous members, to which tractive effort is transmitted by means other than endless driving elements of similar configuration
    • B65G15/30Belts or like endless load-carriers
    • B65G15/32Belts or like endless load-carriers made of rubber or plastics
    • B65G15/42Belts or like endless load-carriers made of rubber or plastics having ribs, ridges, or other surface projections

Abstract

A magnetite separation apparatus by means of an ultrahigh magnetic field and a magnetite separation combined device by means of an ultrahigh magnetic field. The magnetite separation apparatus by means of an ultrahigh magnetic field comprises: a magnetite sand drift (1), a separation plate (3), and a hopper (4), and further comprises an ultrahigh-magnetism solenoid coil (2), a magnetic field generated by the coil (2) enabling ore sand to move by a distance in a transverse direction. The magnetite separation apparatus is a magnetite separation apparatus with a belt having small grids, a watercart-type crawler belt-based ore sand scraping and magnetite separation apparatus, an apparatus for magnetite separation by impacting ore sand through a paraboloid, or an apparatus for magnetite separation by blowing ore sand through strong breeze; and the combined apparatus is a magnetite separation combined apparatus with a belt having small grids, a watercart-type crawler belt-based ore sand scraping and magnetite separation combined apparatus, a combined apparatus for magnetite separation by impacting ore sand through a paraboloid, or a combined apparatus for magnetite separation by blowing ore sand through strong breeze.

Description

One kind of ultra-high magnetic mineral magnetite means

FIELD

[0001] The present invention relates to the field of mineral processing, more particularly to a ultrahigh magnetic mineral magnetite apparatus.

Background technique

[0002] Now iron ore beneficiation, typically iron ore sand falling from a height so that, in the intermediate position of the magnetic coil safety, changing the falling direction of magnetic iron ore, mineral pool falls, falling directly affected , the waste of sand, to complete the dressing. The disadvantage is falling into the pool of ore beneficiation, waste Cheng multi-grade is not high, we have to continue to go through several dressing.

technical problem

[0003] The problem to be solved according to the present invention is to provide an ultra-high magnetic field acts on the magnetite sand, so that sand magnetite by magnetic ultrahigh magnetic fields, lateral movement distance greatly increased than before, resulting in the run far higher ore grade.

Solutions to problems

Technology Solutions

[0004] In order to achieve the above object, the present invention is magnetite mineral ultrahigh magnetic means, comprising: magnetite sand flow, the partition plate, a hopper, further characterized by comprising an electromagnetic coil and the ultrahigh magnetic field they produce the distance of lateral movement of the sand mine; sand flow in the magnetite, is the downward movement of the magnetite sand many fluid composition; the partition plate located lowermost stream magnetite sand, ore moving distance by length to distinguish different grade of ore; the hopper, is by means of different tastes ore selected partition plate; the ultrahigh magnetic solenoid, the generated magnetic field is the magnetic field generated by the electromagnetic coil of several common a hundred times or more, the intermediate position is mounted in a fall of the magnetite sand stream, the emitted electromagnetic coil conductive ultrahigh ultrahigh magnetic field acting on the magnetite sand stream; mineral sands from the lateral movement, that the present invention key, under the action of ultra-high magnetic solenoid, the more iron in the ore, the greater the distance of lateral movement; advantageous effects of invention: increase the suction force of the magnetic field, it is easy for Sand and iron ore tailings points Jian; increased lateral movement distance of magnetite sand, ore can choose different levels of multi-standard, easy dressing again; directly elected qualified ore, selection can be elected again ore elect tasteless type ore, tailings elected; tasteless type ore, ore that can be stored, waiting for the market changed for the better, it will not waste resources.

[0005] Multiple ultrahigh magnetic mineral magnetite apparatus, comprising: a magnetite sand flow, high electromagnetic coil, a separator, sink, further characterized in that the coarse ore fraction for the formation of new sand stream; the magnetite sand flow, high electromagnetic coil, magnetic ore separator consisting of ultrahigh means; said drain grooves, the partition is composed of two plates, a wide - narrow shape, positioned below the solenoid magnetic ultrahigh ; the new ore flow, from leaking from the drain trough ore stream; advantageous effects of invention: after a mineral, ore elected to immediately form a new ore flow, the new ore flow, and then immediately be new the beneficiation step, again mineral; in one step may be performed several times dressing, thereby saving energy, reducing costs.

[0006] ultrahigh magnetic mineral magnetite means, further characterized in that high-speed movement of the magnetite sand; high-speed movement of the magnetite sand, magnetite sand is high velocity flow stream; beneficial effects: a limited distance, let Sada magnetite to the required speed, ultra-high magnetic beneficiation, useful and useless ore ore points more clean and improve the elected ore grade of sand, save costs and increase efficiency.

[0007] Preferably: the high speed movement of the magnetite sand, characterized in that the further belt type ultrahigh magnetic field means is selected from magnetite, comprising: magnetite sand flow, pulleys, belts, high electromagnetic coil, a separator, hoppers, further characterized by a combination thereof; the magnetite sand stream, the moving body is composed of many of the magnetite sand; the pulley, the belt loop is rotatable power source; the belt driven pulley, to cycle between the two pulleys is rotated, the falling stream of sand to accelerate the above magnetite; ultra the electromagnetic coil mounted during movement of the magnetite sand stream, the ultra super high magnetic field emanating electromagnetic coil conductive ultrahigh field acting on the magnetite sand flow; the divider plate located in the lowermost iron sand, the length of the distance to distinguish different grade of ore; the hopper, is installed in different grade ores by the partition plate is selected from .

[0008] 5, preferably: high-speed movement of the magnetite sand, characterized in that the belt selected from magnetite means has achieved a small fraction of cells; the small belts is selected from magnetite ruled apparatus, comprising: a small sub-grid belts, motors, pulleys, ultrahigh magnetic solenoid, which is further characterized in that the separator comprises less; the motor is a power unit of the present system, the rotation driven pulley; said pulley, driven by a small ruled belt cyclical rotation; said small divisions belt mounted on two pulleys, and a belt mounted on a small separator; the small separator having a thin, short rectangular, laterally fixed to the belt; the electromagnetic coil mounted during the injection of the magnetite sand.

[0009] Preferably: the high speed movement of the magnetite sand, further characterized in that the paddlewheel is selected from magnetite ore crawler scraping means implemented; water turbine blade crawler selected from magnetite ore apparatus, comprising: work platform trough paddlewheel track, pulleys, ultrahigh magnetic solenoid, which is further characterized in that the separator comprises a paddlewheel; the working platform grooves, groove-like shape, and size of the groove corresponds paddlewheel separator, paddlewheel mounted opposite track; water turbine crawler mounted on the two pulleys, driven pulleys in the rotation cycle; the paddlewheel separator having a thin, short rectangular parallelepiped, the lateral fixed track paddlewheel ; said electromagnetic coil mounted during the injection of the magnetite sand.

[0010] Preferably: the high speed movement of the magnetite sand, further characterized in that parabolic formula is selected from magnetite ore blow means implemented; strike the parabolic type selected from magnetite ore apparatus, comprising: a motor, a parabolic wheel direction corrector, ultrahigh magnetic solenoid, which is further characterized in that it comprises a parabolic tooth; the motor is a power unit of the present system, with wheel rotational paraboloid; paraboloid said wheel, the toothed belt is mounted on a cylindrical parabolic; the said direction correction, a trapezoidal cylindrical, hollow paraboloid wheel alignment of a wide side, the narrow side of the magnet coil aligned ultra wide side of a length greater than the width of the ore flow, the narrow side of a length equal to the width of the stream of ore; the said ultrahigh magnetic solenoid, mounted behind the corrector direction, the process flow of the magnetite sand in rapid motion; the parabolic tooth, the gear teeth, the same one side, the other side into a parabola, i.e., from the bottom to the top surface into a parabolic shape.

[0011] Preferably: the high speed movement of the magnetite sand, characterized in that the formula is selected from magnetite ore strong wind means implemented; strong wind the formula selected from the magnetite ore apparatus, comprising: air outlet, the direction corrector ultrahigh magnetic solenoid, which is characterized in that a magnetic iron ore with the strong wind flow through the ultra-fast magnetic solenoid thereon; said air outlet, Chengbian rectangular, flat blowing strong wind, strong wind than or equal to the width of the magnetic iron sand flow width; the direction of correction, a trapezoidal tube, a hollow wide face air outlet, the narrow side is aligned above the ultrahigh magnetic solenoid, the width of the narrow side is also equal to the width of the magnetic iron ore stream; after the ore with the strong wind flow through the ultra-fast magnetic solenoid above, magnetic iron ore falling flowing air outlet; the ultrahigh magnetic solenoid mounted with a strong wind stream during rapid movement of the magnetite sand in , is changed to horizontal movement driven by a strong wind, but also through the above ultrahigh magnetic solenoid with the new speed.

[0012] Preferably: the high speed movement of the magnetite sand, characterized in that the nozzle means ultrahigh magnetic mineral (FIG. 8), comprising: a strong air duct, air-jet nozzle, mixing cartridge, nozzle, fan nozzle, screw feed device, ultrahigh magnetic solenoid, magnetite sand, tailings, separators, hoppers, further characterized in that the strong air jet nozzle with air from the nozzle by the rapid ore ultrahigh magnetic solenoid above through; the strong wind pipe connected discharge tuyeres, strong wind inlet; the air-jet nozzle, jet air nozzle is within the mixing bin, and its use together with the venturi principle drives the screw feeding means provided ore for high-speed movement; the mixing bin, the above connecting screw feeding means, so that in the discharge tuyeres internal spray nozzle connected to the wind direction; the spout, connected to the mixing vessel and a fan nozzle; the fan nozzles, fan-shaped, the nozzle connected to the front fan nozzle ultrahigh magnetic solenoid, the fan nozzle can uniformly ore, dispersed magnetic ultra-fast injection through the electromagnetic coil; the ultrahigh magnetic solenoid, produce ultra Magnetic field; said screw-feed device, a continuous, uniform feed device.

[0013] [0013] preferably: high-speed movement of the magnetite sand, magnetite further characterized in that the flow of irrigation water, ultra-high magnetic rotary dressing device (9), comprising: a feeding tube, the power system , the shaft, the rotating fan, mineral filling, the outlet end of Cheng, ultra-water separator, concentrate outlet, characterized in that a combination thereof; said feeding tubes, irrigation dressing positioned above the bottom of the rotating blades, external irrigation dredging, pumping sand tube, and the same flow of ore beneficiation flow direction in the filling of the discharged irrigation; the power system, irrigation dressing is outside, and the top of the shaft; said shaft, the center of mineral filling, top mineral filling through the top, and and power systems; said rotating blades, located at the lower portion of the mineral filling, the bottom end of the shaft is fixed; the irrigation dressing, a cylindrical body shape, the processing equipment; Cheng outlet of the tail, located at the top of mineral filling, which is connected with the mineral filling portion filling a circumferential direction tangent dressing; ultra the water separator, located in the middle irrigation dressing can ultrahigh magnetic separator having a magnetic field in the water work Concentrate containing selecting, collecting, outside of the apparatus parallel to the mineral filling; the concentrate outlet and the water ultrahigh magnetic separator positions match, shape, and its size is also discharged outside the selected ore beneficiation Irrigation device match.

[0014] [0014] More preferably: said rotating flow of water fill magnetite ultra-high magnetic dressing apparatus, further characterized in that the increase of delivery of the cartridge device down large particles objects (FIG. 10), comprising: a cartridge down, reverse rotation of the cartridge body, the obturator, inclined bottom wall of the container, the container, the discharge gap large particles, further characterized in that the combination thereof into a ball-type architecture; the combined ball architecture, the cartridge is inverted and a rotary body forming a sealed compartment inverted a rotary body rotatable seal structure; down the cartridge, the cartridge is located in an inverted rotatable body, a rectangular groove, and the width of the gap corresponding to the row of large particles, length, depth and reverse rotation of the cartridge body match; the reverse rotation of the cartridge body, was cylinder, and an obturator match rotatable in a sealed case; the closed body, the concave circular arc, and the reverse rotation of the cartridge body match; inclined bottom wall of the container, the container bottom is inclined planar, and the discharge side of a plane connecting gap large particles, remaining connected to the vessel wall; the container receiving objects of an object; said discharge gap large particles, rectangular, its length and width corresponding to length and width of the cartridge down; the Beneficial effects: massive container of large particles, have been accumulated to fill the container, causing the entire congestion, discharge them outside the container, so that the smooth flow of the container.

[0015] More preferably: said rotating flow of water fill magnetite ultra-high magnetic dressing apparatus, further characterized by increasing the cartridge down large particles ore automatic discharge device, comprising: an inverted cartridge, the cartridge is rotated down the body, sealed body, inclined bottom wall of the container, the container, the discharge gap large particles, transmission structure, a controller, characterized in that the further increase in the weight detector, the weight monitoring section; said weight detector installed at the bottom of the cartridge down, collecting signal connection controller ; monitoring said weight bar, mounted on the bottom down the cartridge, a weight monitoring strip is a detector array composed of weight; the inverted cartridge, the cartridge is located in an inverted rotatable body, a rectangular groove, and the width of the gap corresponding to the row of large particles , length, depth and reverse rotation of the cartridge body match; the reverse rotation of the cartridge body, a cylindrical body, and an obturator match rotatable in a sealed case; the closed body, the concave circular arc, and the reverse rotation of the cartridge-matched ; inclined bottom wall of the container, the container bottom planar inclined, with the discharge side of the plane connecting the notch large particles, remaining connected to the vessel wall; the container, Artifacts satisfied object; inclined bottom wall of the container, the container bottom planar inclined, with the discharge side of the plane connecting the notch large particles, remaining connected to the vessel wall; the container receiving object artifacts; large particles of the discharge gap, rectangular, its length and width corresponding to length and width of the cartridge down; the transmission structure, and the reverse rotation of the cartridge body, and receives command of the controller; and the controller is mounted in the outer container, connected to the detector signal collected by weight, in Analyzing closed down inch cartridge has been filled, the command transmission structure work, the cartridge down so that the drive structure rotary body; beneficial effects: Turning and large particles can sense the sand filled, automatically discharged, to achieve maximum efficiency.

[0016] More preferably: said rotating flow of water fill magnetite ultra-high magnetic dressing apparatus, further characterized in that the increasing means which controls the water falling Jian large particles off the object (FIG. 12), comprising: a cartridge down, down the cartridge body is rotated, the obturator, inclined bottom wall of the container, the container, the discharge gap large particles, further characterized by an increase in on mine walls, Jian closing plate, Jian closing shaft, rotating structure, toothed rod, rotating structure 8, the controller, the swash a separator; mine walls of the guide, connected to the container above the inclined bottom wall, the obturator is connected below, the distance between the two guide mine walls, large particles greater than a width of the discharge gap, the extra space to install Jian closed, toothed rod, rotating structure , pivot structure B; Jian said closing plate, fixed to the closing shaft Jian; Jian said closing shaft, mounted between the bottom of the container and the guide ramp mine walls, the shaft rod is fixed Jian closing plate, and the rotary shaft A connected structure ; the rotating structure a, Jian and closing shaft, a controller accepts the command, generates power, so Jian closing plate up, down; the toothed rod, toothed rod shape so thick thickened gear So long toothed rod mounted on the shaft between the opposite Jian closed container base and a guide ramp mine walls, and B are connected and the rotating structure; the rotating structure B, and a toothed rod connected at one end, to accept the command of the controller, when Jian closing plates to be closed and their inch, generating power, so that the toothed rod inches reverse rotation of the needle, the closing stop; said swash bulkhead, the upper end of the guide rod and positioned between toothed mine walls, the lower end and the upper end of the obturator consistent with the closing plate as the opposite Jian may be mounted; said controller, mounted in the outer container, when the inverted working inch cartridge, the structure of the command rotation A, B work rotating structure, so that the plate and the toothed rod Jian closed closed; the inverted cartridge, the cartridge is located in an inverted rotatable body, a rectangular groove, and the width of the gap corresponding to the row of large particles, length, depth and reverse rotation of the cartridge body match; the reverse rotation of the cartridge body, a cylindrical body, an obturator and match, in the case of the sealing the rotatable; the closed body, the concave circular arc, and the reverse rotation of the cartridge body match; inclined bottom wall of the container, the container bottom planar inclined, with the discharge side of the plane connecting the notch large particles, I is connected with the vessel wall; the container receiving objects of an object; said discharge gap large particles, rectangular, its length and width corresponding to length and width of the cartridge down; advantageous effect: when the cartridge down large particles decanted object outside the container inch, Jian closing plate and the toothed bar is closed, to avoid the large particles continue falling objects, broken causing the object card, the machine may be damaged, or jammed down positions, can not be completely let into the sealed body, is stopped down warehouse work

[0017] More preferably: said rotating flow of water fill magnetite ultra-high magnetic dressing apparatus, further characterized in that the means (FIG. 13) cartridge large particles increased capacity reservation objects fell once, comprising: a cartridge down, reverse rotation of the cartridge body, the obturator, inclined bottom wall of the container, the container, the discharge gap large particles, ore-wall, Jian closing plates A, Jian closed axes A, pivot structure A, B toothed rod, the rotation structure B, and a controller, the swash separator, Jian Jian ^ closing plate closing axis C, rotation of the structure C, D toothed rod, rotating structure D, the weight detector, the weight monitoring item, diaphragm, further characterized in that determination has accumulated a closed Jian inverted warehouse after large particles capacity to continue adding to stop large particles; down the cartridge, the cartridge is located in an inverted rotatable body, a rectangular groove, and the width of the gap corresponding to the row of large particles, length, depth and reverse rotation of the cartridge body match; the inverted bin the rotating body, a cylindrical body, and an obturator match rotatable in a sealed case; the closed body, the concave circular arc, and the reverse rotation of the cartridge body match; inclined bottom wall of the container, the container bottom planar inclined plane side of Connecting the discharge gap large particles, remaining connected to the vessel wall; the container receiving objects of an object; said discharge gap large particles, rectangular, its length and width corresponding to length and width of the cartridge down; mine walls of the guide, connected to the above inclined bottom wall of the container, connected to the obturator below, the distance between the two guide mine walls, large particles greater than a width of the discharge gap; Jian said closing plate a, fixed to the closing shaft a Jian; Jian closing the axes a, mounted on the bottom of the container between the inclined surface and the guide mine walls, the shaft rod is fixed closing plate A Jian, Jian closed structure A and the rotational axis A; said A rotating structure, and Jian closing axis A, and receives command of the controller, so that closing plate A Jian up, down; B the toothed rod, toothed rod shape so thick tooth of the gear lever to the thickened so long, mounted between the opposite axis a Jian closed container base and a guide ramp mine walls, and, and rotating structure B; said rotating structure B, B-, and toothed rod end is connected, the controller accepts the command, when the closing plate Jian A and B to be closed inch toothed rod, toothed drive bar B for the reverse-inch needle rotation, after closing stop; said controller, Mounted on the outer container, a detector connected to the signal collected by weight, determined in a closed Jian closing plate C has been filled inverted inch cartridge capacity, Jian closing command the closing plate A; upper end of the inclined partition plate is positioned obliquely separator teeth between the shaped rod and the guide mine walls, without departing from the lower end position of the closed upper end of the body, as the opposite plate may be mounted close Jian; the diaphragm, a rectangular parallelepiped, one end of the connector and the guide wall impose ore mine walls in the middle of the guide ; the other end of the large particles is not more than the discharge gap, which is closed below axis C is connected Jian; Jian said closing plate C, fixed to the closing shaft Jian C; Jian closing the C axis, mounted beneath the diaphragm, ore- central, rotating structure and the wall of the connector C; C to the rotating structure, and Jian closing axis C, and receives command of the controller, so that closing plate Jian C up, down; the toothed rod D, the shape, the size, and B- said toothed rod-like, mounted below the diaphragm, the closing plate opposite Jian. , Jian axis C corresponding to the closed; the rotating structure D, D- and toothed rod end is connected, the controller accepts the command, when the closing plate Jian C and D to a closed toothed rod inches, for reverse drive toothed lever D inches rotation of the needle, the closing stop; said weight detector is mounted on the closing plate Jian C, collecting signal connection controller; monitoring said weight bar, mounted on the closing plate Jian C, a weight of a monitor strip is the weight detector array composed; beneficial effects: large particles solved if multiple objects need to accelerate the cartridge down the speed of work, but the large particles fall object filled cartridge is not loaded with too much inch between inch required, stored an inverted positions would resolve this problem.

[0018] Preferably: the high speed movement of the magnetite sand, further characterized by increasing the rotational flow water tank ultrahigh magnetic magnetite mineral artificial intelligence device, comprising: a screw-type ultrahigh magnetic magnetite mineral water means automatic working device the cartridge down, Jian ore falling off means, a reserve cartridge down large particles ore displacement apparatus, pulverizing apparatus, milling apparatus, the transmission apparatus ore flow, further characterized in that artificial increase; the increase in AI It is controlled by artificial intelligence increased, monitoring, handling devices with their respective state between the operating state and the device, to achieve a smooth efficient operation of the entire device; the magnetite mineral water spiral ultrahigh magnetic means, a gravity principle, magnetite sand filling stall in going down, immediately drawn into the spiraling flow of sand, interaction, sand-free because lighter magnet, the filling rises to the top of the dressing, from the tailings discharge port, heavy magnetite sand filling substantially stagnant in the middle of processing, ultra high magnetic concentrator means dressing; the inverted Cartridge automatic working device, the spiral water magnetite ultrahigh magnetic beneficiation process, the large particles, and spiral flow fan rotating blade is not up, the sand of large particles will sink to the bottom filling, they are automatically put discharged to the outside of the filling apparatus; Jian the sand falling off means, means within the cartridge down large particles and sand falling falls less than the control; the reserved one ore particles fall large-capacity cartridge means, the cartridge down a reserve capacity the sand large particles, to facilitate the work faster inverted positions; the grinding means, the large particles are pulverized into sand dressing by means of sizes; said milling means, the elected magnetite sand, ground 100 mesh size, into a high-grade fine selection means; said transmission means ore flow, increase power, ore flow, the flow velocity of the sand holding means; beneficial effects: in the process of filling the reef by dredging, the kinetic energy of pumping sand, an increase of only simple equipment and a small amount of energy, the part of the magnetite sand rich magnetite concentrate is selected, a conserves resources, and secondly capable of generating economic benefits; and this Cheng is fully automatic.

[0019] An ultra-high magnetic mineral magnetite apparatus further characterized ultrasonic increase; the ultrasonic wave, mounted in the moving ore process, before it ends at ultrahigh magnetic wave dressing; beneficial effects: In a step, way to add a mineral, ore grade increase again, saves energy, reduces costs.

[0020] Preferred: increasing the ultrasonic wave further characterized in that a conveyor-type ultrahigh magnetic field means is selected from magnetite to achieve, comprising: magnetite sand flow, belts, pulleys, high electromagnetic coil, characterized by further It is the addition of ultrasonic; the magnetite sand stream, the moving body is composed of many of the magnetite sand; the belt driven pulley, between the two pulleys in the rotation cycle, the above magnetite sand falling stream acceleration; said pulley, the belt loop is rotatable power source; the ultrahigh electromagnetic coil mounted in the movement of the magnetite sand flow, high magnetic field, the magnetic field emitted from an ultra-ultra-high conductivity to the magnetic solenoid iron sand stream; the ultrasonic wave increases, the installation during the movement of the ore flow, the flow to the selected bombardment before the end of the ultra-high magnetic ore dressing; beneficial effects: in one step, way to add a mineral, ore increase again quality, saves energy, reduces costs.

[0021] Preferred: increasing the ultrasonic wave further characterized in that a kind of small divisions belt selected from magnetite means to achieve, comprising: a small belt selected from magnetite ruled apparatus further characterized in that including the addition of ultrasound; small bins of the belt means is selected from magnetite, it is ruled by a belt of a small electric motor, a pulley, consisting of ultrahigh magnetic solenoid; the ultrasonic wave, mounted in the moving process of ore , the bombardment of the selected ore before the end of the ultra-high magnetic mineral; [0022] preferably: increases the ultrasound, which are characterized by one selected from the paddlewheel magnetite ore crawler scraping means implemented, comprising: waterwheel crawler selected from magnetite ore scraping means, characterized in that the further increase of ultrasonic; water turbine blade crawler magnetite ore selected from the group means, the groove working platform paddlewheel track, motors, pulleys, ultrahigh an electromagnetic magnetic coils; the ultrasonic wave, mounted in the moving ore process, the ore is selected before the end of bombardment ultrahigh magnetic beneficiation;

[0023] Preferred: increasing the ultrasound, which are characterized by one formula selected from the magnetite ores parabolic blow means implemented, comprising: a parabolic type is selected from magnetite ore blow apparatus, which is further characterized in that the ultrasonic wave increases; the parabolic formula is selected from magnetite sand blow device, by a motor, a parabolic round, parabolic, parabolic tooth direction corrector, ultrahigh magnetic solenoid coils; the ultrasound, magnetic iron ore during the movement of the installation stream, the super before the end of the bombardment of high magnetic beneficiation stream selected magnetic iron ore;

[0024] Preferred: increasing the ultrasonic wave which are characterized by one type selected from strong wind magnetite ore apparatus implemented, comprising: a type selected from strong winds magnetite ore apparatus further characterized by comprising an ultrasonic increased ; strong wind the formula selected from the magnetite ore apparatus by a blower port, the direction corrector, ultrahigh magnetic solenoid coils; the ultrasound, magnetic iron ore during the movement of the installation stream, before the end of the ultra-high magnetic beneficiation selected magnetic iron ore flow bombardment; beneficial effects: in one step, way to add a mineral, ore grade increase again, saves energy, reduces costs.

[0025] Preferred: increasing the ultrasonic wave further characterized in that the ultra-high magnetic beneficiation A nozzle apparatus implemented, comprising: nozzle means ultrahigh magnetic beneficiation, further characterized in that the ultrasonic wave increases; the nozzle mineral ultrahigh magnetic means by a strong wind pipe, air-jet nozzle, mixing cartridge, nozzle, fan nozzles, screw feed device, ultrahigh magnetic solenoid, magnetite sand, tailings, separators, hoppers ; the ultrasound, magnetic iron ore during the movement of the installation stream, the flow of the selected magnetic bombardment before the end of ultrahigh magnetic iron ore beneficiation

[0026] Preferred: increasing the ultrasonic wave further characterized in that the swirling flow is achieved according to the present invention, a magnetite ultra-high magnetic mineral water filling apparatus, comprising: means magnetite mineral water, characterized in further It is to increase the ultrasonic wave; the magnetite mineral water apparatus, a feed tube, a power system, the shaft, the rotating fan, mineral filling, the outlet end of Cheng, water separator, an outlet concentrate composition; the ultrasound, irrigation dressing mounted on the outer movement of ore, the ore is selected for bombardment before the end of the ultra-high magnetic beneficiation; beneficial effects: in a dressing process, increased ultrasonic bombardment, increased separation of useful and useless ore ores, improve the ore grade again, save energy, reduce costs and increase efficiency.

[0027] [0027] An ultra-high magnetic mineral magnetite apparatus further characterized by a combination of dressing means sequentially; combination sequence of said dressing means, the latter is selected from the parabolic type magnetite ore blow device processing, followed by ultra-high magnetic field means is selected from magnetite; advantages: the non-error falls ore beneficiation pool needs, and then by ultra-high magnetic field means is selected from magnetite elected the ore grade increased

[0028] Preferably: the combination sequence of said dressing apparatus, further characterized in that a conveyor-type ultrahigh magnetic means selected to achieve the combination of magnetite, comprising: a conveyor-type ultrahigh magnetic field means is selected from magnetite, drain grooves, ultrahigh magnetic field means is selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; ultra-high magnetic field of the one conveyor means is selected from magnetite, the belts, pulleys, high electromagnetic coil, ultrasonic wave composition; the said sink, the separator is composed of two, a wide - narrow shape, located beneath the ultrahigh magnetic solenoid; the ultrahigh magnetic field means is selected from magnetite magnetite sand during free fall, in , by means of ultra-high magnetic beneficiation; combination sequence of said dressing means, the latter is selected from magnetite conveyorized apparatus ultrahigh magnetic beneficiation, followed by ultra-high magnetic field means is selected from magnetite; beneficial effect: the error falls non-mineral ore needs pool, and then out through the ultrahigh magnetic field means is selected from selected from magnetite, so that ore grade increased.

[0029] Preferably: the combination sequence of said dressing apparatus, which are characterized by one of the small belts is selected from magnetite ruled combining means implemented, comprising: a kind of a small belt selected from magnetite ruled means , sink, ultrahigh magnetic field means is selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; the one ruled small belt means is selected from magnetite, is ruled by a belt of a small motor, pulley, ultrasonic bombardment apparatus, ultra-high magnetic solenoid thereof; said drain tank is composed of two partitions, a wide - narrow shape, located beneath the ultrahigh magnetic solenoid; is selected from the ultra-high magnetic field It means magnetite, magnetite sand during the free fall, by means of ultra-high magnetic beneficiation; combination sequence of said dressing means, the latter is selected from magnetite conveyorized apparatus ultrahigh magnetic beneficiation, followed by ultra- a high magnetic field means is selected from magnetite.

[0030] Preferably: the combination sequence of said dressing apparatus, which are characterized by one selected from the paddlewheel magnetite ore crawler scraping combining means implemented, comprising: one kind selected from the paddlewheel track magnetite ore blade means , sink, ultrahigh magnetic field means is selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; paddlewheel the one track selected from magnetite ore scraping means, by the groove working platform paddlewheel track, the motor , pulleys, ultrasonic bombardment apparatus, ultra-high magnetic solenoid coils; the sink, by two partition plates, a wide - narrow shape, positioned below the ultrahigh magnetic solenoid; the ultrahigh magnetic field It means selected from magnetite, by the partition plate, a hopper, high electromagnetic coils, magnetite sand during the free fall, by means of ultra-high magnetic beneficiation; means for combining the mineral sequence, a waterwheel after scraping crawler selected from magnetite ore beneficiation apparatus, followed by ultra-high magnetic field means is selected from magnetite;

[0031] Preferably: the combination sequence of said dressing apparatus, which are characterized by one formula selected from the magnetite ores parabolic blow combining means implemented, comprising: one kind selected from the parabolic type magnetite ore blow means sink, ultrahigh magnetic field means is selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; the one type selected from the magnetite ores parabolic blow means by the motor, a parabolic round, parabolic tooth, parabolic, direction correction, ultrasonic bombardment means ultrahigh magnetic solenoid coils; the sink, the separator is composed of two, a wide - narrow shape, located below the ultrahigh magnetic solenoid; the ultrahigh magnetic field means is selected from magnetite, magnetic iron sand flow during free fall, the ultrahigh magnetic beneficiation means; means for combining the mineral sequence, a parabolic type is selected from magnetite ore blow means after beneficiation, followed by ultra-high magnetic field means is selected from magnetite .

[0032] Preferably: the combination sequence of said dressing apparatus, which are characterized by one formula selected from the strong wind magnetite ore achieved combining means, comprising: a potent formula selected from magnetite ore wind means, sink, ultrahigh magnetic field means is selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; the one type selected from strong wind magnetite ore apparatus, the air outlet, the direction of correction, ultrasonic bombardment apparatus, ultra-high magnetic solenoid composition; the sink, the separator is composed of two, a wide - narrow shape, located below the ultrahigh magnetic solenoid; the ultrahigh magnetic field means is selected from magnetite, magnetite sand flow in a free fall process, by means of ultra-high magnetic beneficiation; combination sequence of said dressing means, the latter is selected from magnetite conveyorized apparatus ultrahigh magnetic beneficiation, followed by ultra-high magnetic field means is selected from magnetite.

[0033] Preferably: the combination sequence of said dressing apparatus, further characterized by combining means A nozzle ultra-high magnetic beneficiation achieved, comprising: A nozzle apparatus ultra-high magnetic beneficiation, sink, ultrahigh magnetic fields is selected from magnetite apparatus further comprising means for combining mineral order; the one nozzle means ultrahigh magnetic beneficiation, from strong wind pipe, air-jet nozzle, mixing cartridge, nozzle, fan nozzles, spiral to feeding means ultrahigh magnetic solenoid, magnetite sand, tailings, separators, hoppers, ultrasonic bombardment apparatus composition; the sink, the separator is composed of two, a wide - narrow shape, located ultrahigh the following magnetic solenoid; the ultrahigh magnetic field means is selected from magnetite, magnetite sand flow during the free fall, by means of ultra-high magnetic beneficiation; combination sequence of said dressing means is a nozzle ultrahigh after magnetic mineral dressing apparatus, followed by ultra-high magnetic field means is selected from magnetite. Effect of the Invention

Beneficial effect

[0034] Advantageous Effects type described herein paragraphs.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION

[0035] FIG. 1 is a schematic view of the structure of the ultra-high magnetic field apparatus selected from iron ore of the present invention.

[0036] FIG: 1 magnetite sand flow, high magnetic electromagnetic coil 2, the partition plates 3, 4 the hopper.

[0037] FIG. 2 is a schematic view of a magnetic field is selected from iron ore ultra multiple device configuration of the present invention.

[0038] FIG: 1 magnetite sand flow, high electromagnetic coil 3, a separator 4, a new ore flow 2, sink 5, the hopper 6, 7 new mines sand flow.

[0039] FIG. 3 is a schematic view of the belt type ultra-high magnetic field apparatus selected from magnetite structures of the invention.

[0040] FIG: 1 magnetite sand, the pulley 2, a belt 3, high electromagnetic coil 4, the separator 5, the hopper 6.

[0041] FIG. 4 is a schematic view of the position of the belt structure selected from the group of small magnetite apparatus of the present invention is ruled.

[0042] FIG: 1 magnetite sand flow, the pulley 2, a small sub-grid belt 3, the electromagnetic coil 4, a small spacer 5, 6 elected ores, tailings 7, separator 8, the hopper 9.

[0043] FIG. 5 is a paddlewheel crawler of the present invention is selected from magnetite ore scraping means schematic configuration position.

[0044] FIG: 1 magnetite sand flow, 6 elected mine tailings 7, the working platform tank 2 paddlewheel track 3, pulley 4, 5 ultrahigh magnetic solenoid paddlewheel separator 8, the separator 9, the hopper 10.

[0045] FIG. 6 is a schematic view of the location of formula selected from magnetite ore device structure of the present invention strike a parabolic.

[0046] FIG: magnetite sand flow 1, 2 paraboloid, a parabolic tooth 3, 4 round paraboloid, direction corrector 5, 6 ultrahigh magnetic solenoid, magnetic iron ore elected 7, 8 tailings, separator 9, hopper 10.

[0047] FIG. 7 is a schematic view of the location of formula selected from magnetite ore device structure of the present invention is a strong wind.

[0048] FIG: magnetic iron ore flow 1: magnetite sand air outlet 2, a direction corrector 3, ultrahigh magnetic solenoid 4, 5 elected, tailings 6, a separator 7, the hopper 8.

[0049] FIG. 8 ultrahigh magnetic beneficiation nozzle means schematic structure positions.

[0050] FIG: 1 Duct strong, spray air nozzle 2, mixing bin 3, nozzles 4, 5 fan nozzle, screw-type feed device 6, high magnetic solenoid 7, 8 magnetite sand, tail 9 mine, partitions 10, hopper 11.

[0051] FIG. 9 is a schematic view of the rotational position of the filling structure stream ultrahigh magnetic magnetite mineral water apparatus of the present invention. [0052] FIG: feed tube 1, the power system 2, the shaft 3, the rotating blade 4, 5 irrigation dressing, tail Cheng outlet 6, the water separator 7, 8 concentrate outlet.

[0053] FIG. 10 is a schematic structure positions the cartridge device of the present invention is an inverted discharging large particles objects.

[0054] FIG: 1 down cartridge, the cartridge down the rotating body 2, the obturator 3, the container bottom 4, the container 5, the discharge gap 6 large particles.

[0055] FIG. 11 is a structural schematic view of apparatus of the present invention the position of the cartridge down automatically discharging large particles of ore.

[0056] FIG: down bin 1, the inverted vessel to rotate member 2, the obturator 3, the container inclined bottom wall 4, the container inclined bottom wall 4, the container 5, the discharge of large particles gap 6, the weight monitoring strip 7, the weight detector 8, the drive structure 9, the controller 10.

[0057] FIG. 12 is a structural schematic view of the position control apparatus of the present invention the water falling Jian large particles off the object.

[0058] FIG: 2, the obturator 3, 4 inclined bottom wall of the container, the container 5, the discharge gap down large particles cartridge 1, the cartridge down the rotating body 6

Guide mine walls 7, 8 Jian closing plate, Jian closing shaft 9 rotating structure AlO, toothed rod 11, rotating structure B12, the controller 13, the swash separator 14.

[0059] FIG. 13 is a schematic view of the location means a configuration object Turning and large particles of the present invention is reserved capacity.

[0060] [0060] FIG: down bin 1, the inverted vessel to rotate member 2, the obturator 3, the container inclined bottom wall 4, the container 5, the discharge of large particles gap 6, the guide mine walls 7, Jian closing plate A8, Jian closing shaft the A9, AlO rotating structure, toothed rod Bl l, rotating structure B12, the controller 13, the swash separator 14, Jian closing plate C15, Jian closing shaft C16, rotating structure C17, D18 toothed rod, D19 rotating structure, the weight detection 20, the monitoring section 21 by weight, diaphragm 22.

[0061] [0061] FIG. 14 is a schematic diagram of the present invention is a conveyor-type ultrahigh magnetic field means is selected from the magnetite structure.

[0062] [0062] FIG: 1 magnetite sand, the belt 3, pulley 2, high electromagnetic coil 4, 5 ultrasound.

[0063] FIG. 15 is a schematic view of the belt of the present invention is selected from the group A position apparatus magnetite structure in small separate compartments.

[0064] FIG.:: Magnetite sand flow 1, the pulley 2, a small sub-grid belt 3, the electromagnetic coil 4, a small spacer 5, 6 elected ores, tailings 7, separator 8, the hopper 9, ultrasonic 10.

[0065] FIG. 16 is a waterwheel is selected from magnetite ore crawler scraping means schematic configuration of the position of the present invention.

[0066] FIG: 1 magnetite sand flow, 6 elected mine tailings 7, the working platform tank 2 paddlewheel track 3, pulley 4, 5 ultrahigh magnetic solenoid paddlewheel separator 8, the separator 9, the hopper 10, 11 ultrasonic wave.

[0067] FIG. 17 is a schematic view of the position INVENTION A of formula is selected from magnetite ore apparatus hit parabolic configuration.

[0068] FIG: magnetite sand flow 1, 2 paraboloid, a parabolic tooth 3, 4 round paraboloid, direction corrector 5, 6 ultrahigh magnetic solenoid, magnetic iron ore elected 7, 8 tailings, separator 9, hopper 10, 11 ultrasonic wave.

[0069] FIG. 18 is one kind of the present invention is selected from magnetite ore type location means schematic structure strong wind. [0070] FIG: magnetic iron ore flow 1: 2 air outlet, the direction corrector 3, ultrahigh magnetic solenoid 4, 5 elected magnetite sand, tailings 6, a separator 7, the hopper 8, the ultrasonic 9 .

[0071] FIG 19 A nozzle apparatus ultrahigh magnetic beneficiation, is a schematic view of the position of the nozzle structure of a ultra-high magnetic dressing apparatus of the present invention.

[0072] [0072] FIG: 1 Duct strong, spray air nozzle 2, mixing bin 3, nozzles 4, 5 fan nozzle, screw-type feed device 6, high magnetic solenoid 7, magnetite sand 8, 9 tailings, the separator 10, the hopper 11, ultrasonic waves 12 [0073] [0073] FIG. 20 is a schematic view of the rotational position of the filling structure stream ultrahigh magnetic magnetite mineral water apparatus of the present invention.

[0074] [0074] FIG: feed tube 1, the power system 2, the shaft 3, the rotating blade 4, 5 irrigation dressing, tail Cheng outlet 6, the water separator 7, concentrate outlet 8, 9 ultrasound.

[0075] FIG. 21 is a schematic view of the device structure ultrahigh magnetic magnetite composition selected from the conveyorized present invention.

[0076] [0076] FIG: 1 ore flow, the pulley 2, a belt 3, the electromagnetic coil 4, sink 5, the hopper 6, 7 primary ore tailings 8 and 9, 10 elected iron ore, separator 11, ultrasonic waves 12.

[0077] FIG. 22 is a schematic view of a small fraction of cells selected from the belt structure of the present invention means magnetite composition.

[0078] FIG.:: Magnetite sand flow 1, the pulley 2, a small sub-grid belt 3, the electromagnetic coil 4, a small spacer 5, 6 elected ore tailings 7 and 12, the separator 8, the hopper 9, ultrasonic waves 10, the drain grooves 11, 13 ore finally elected.

[0079] FIG. 23 is a paddlewheel present invention provides a crawler belt selected from magnetite ore blade configuration bit combination means intended.

[0080] FIG: 1 magnetite sand flow, work platform tank 2 paddlewheel track 3, pulley 4, 5 ultrahigh magnetic solenoid, primary ore out of the ore to form a new stream 6, 7 and 13 of tailings, 8 waterwheel type separator, the separator 9, the hopper 10, ultrasonic waves 11, the drain grooves 12, 13 selected out of the ore. FIG 24 is a schematic view of the present invention is one kind of formula is selected from magnetite ores parabolic configuration combining means hit.

[0081] FIG: magnetite sand flow 1, 2 paraboloid, a parabolic tooth 3, 4 round paraboloid, direction corrector 5, 6 ultrahigh magnetic solenoid, primary ore out of 7, 8 and 12 tailings separator 9, the hopper 10, ultrasonic waves 11, ore 13 is eventually chosen. FIG 14 is a schematic structure of ultra-high magnetic field apparatus selected from iron ore of the present invention.

[0082] FIG. 25 is a schematic view of the present invention is one kind of formula is selected from magnetite ore structure combining means strong wind.

[0083] FIG: magnetic iron ore flow 1: 2 air outlet, the direction corrector 3, 4 ultrahigh magnetic solenoid, primary ore out of 5, 6 and tailings 10, a separator 7, the hopper 8, the ultrasonic bombardment means 9, 11 ore finally elected, the drain groove 12.

[0084] FIG. 26 is a schematic view of the position of the nozzle structure combining means a ultrahigh magnetic beneficiation present invention.

[0085] [0085] FIG: 1 Duct strong, spray air nozzle 2, mixing bin 3, nozzles 4, 5 fan nozzle, screw-type feed device 6, high magnetic solenoid 7, magnetite sand 8, 9 tailings, the spacer 11, the hopper 15, the ultrasonic bombardment apparatus 12, the final elected ore 13, sink 10, 14 tailings.

Examples of the preferred invention.

Preferred embodiment of the present invention.

[0086] below with reference to FIGS. 1 to 14 of the present invention in detail, the technical solutions in the present invention are clearly and completely described, obviously, the described embodiments are merely part of embodiments of the present invention, rather than all embodiment. Based on the embodiments of the present invention, all other embodiments of ordinary skill in the art without any creative effort shall fall within the scope of the present invention.

[0087] Example 1: ultrahigh magnetic iron present invention (FIG. 1), comprising: a magnetite sand flow, the partition plate 3, a hopper 4, further characterized by comprising an electromagnetic coil 2 and the magnetic ultrahigh magnetic field which is generated by the distance of lateral movement of mineral sands.

[0088] The present embodiment is further configured to: 1 the magnetite sand flow, the fluid is moved downwardly numerous iron sand composition; the partition plate 3, located in the lowermost iron sand, through distance length to distinguish different grade of ore; the hopper 4, the partition plate is selected by means of a different grade of ore; the ultrahigh magnetic electromagnetic coil 2, the generated magnetic field is generated by several common solenoid magnetic field ten times more than the intermediate position in the installation process of the magnetite sand falling stream 1, after the second conductive ultrahigh magnetic field emanating ultrahigh magnetic solenoid ultrahigh magnetic field acts on the magnetite sand stream 1; the lateral mineral sand moving distance, is key to the present invention, under the action of ultra-high magnetic solenoid coil 2, in the more iron ore, the greater the lateral movement distance.

[0089] The working principle: in free fall ores, iron sand flow is formed, the generated electromagnetic coil than normal on at least several tens of times higher ultrahigh magnetic field acting on the flow iron sand, iron ore containing iron sand moved laterally ; particularly short movement distance or movement does not occur, representing less free of iron or iron, impurities; move farther, the higher the content; partition plate mounted at different distances, different grade ores can be obtained; catch hopper different grade ore; ore the greater the distance traveled, the more can be broken down in several different multi-grade ore.

[0090] Example 2: ultrahigh magnetic iron ore of the present invention means a plurality of times (FIG. 2), comprising: a magnetite sand flow, high electromagnetic coil 3, a separator 4, a drain groove 5, further characterized in that including coarse ore fraction after the formation of new ore [0091] the present embodiment is further configured to: 1 the magnetite sand flow, high electromagnetic coil 3, a separator 4 composed of iron ore ultrahigh magnetic means; said drain slot 5, the partition plate 4 is composed of two compositions, a wide - narrow shape, ultrahigh magnetic positioned below the electromagnetic coil 3; 2 of the new ore flow, leaking from the drain flow grooves 5 in the ore.

[0092] The working principle: ore in free fall, when the ultrahigh magnetic field acts on the magnetic iron sand, iron ore sand so that lateral movement occurs, but due to the limitations of the production of ultra-high magnetic solenoid, not produce achieve the desired magnetic field strength mature products, natural ore moving distance does not reach the required fine separator, sand only take shorter flow distance and the electromagnetic coil, coarse fraction; the fraction obtained crude ore desired, falls in the sink the formation of new ore flow through the drain grooves; using a magnetic field again in ultrahigh magnetic iron sand, so that the magnetic iron sand by ultrahigh magnetic fields, the occurrence of lateral movement; coarsely divided several times, separated by a plurality of times, on the formation of fine points, also reached the purpose of fine-separated.

[0093] Example 3: ultrahigh magnetic mineral magnetite apparatus further characterized in that high-speed movement of the magnetite sand.

[0094] The present embodiment is further arranged to: high-speed movement of the magnetite sand, magnetite sand is high velocity flow stream.

[0095] How it works: to add external forces, so that magnetite sand accelerated in a limited distance from the magnetite sand with a strong inertia force through ultra-high magnetic electromagnetic coil, the magnetite sand magnetite and tailings points more thoroughly and improve the quality of ore beneficiation.

[0096] Example 4: (FIG. 3) of the present invention conveyorized ultrahigh magnetic field means is selected from magnetite, comprising: a magnetite sand, the belt 3, pulley 2, high electromagnetic coil 4, the separator 5, the hopper 6 , further characterized by a combination thereof.

[0097] [0097] The present embodiment is further arranged to: the magnetite sand flow (1), the moving body is composed of numerous magnetite sand; said pulley (2), a belt (3) rotating cycle a power source; the belt (3), driven pulleys (2) in rotation two pulleys circulation (2) between, the above magnetite sand falling stream (1) acceleration; ultrahigh said solenoid ( 4) mounted (1) movement of the magnetite sand stream, high ultra-high magnetic field coil (4) issued after the conductive ultrahigh magnetic field acts on the magnetite sand flow (1); said partition plate (5), located at the lowermost iron sand, the length of the distance to distinguish different grade of ore; the hopper (6), is mounted through the partition plate is selected from a different grade ore.

[0098] [0098] Principle: magnetite sand fall uniformly on the belt, the belt driven pulley speed circular motion, the motion high-speed loop belt, driven by high-speed movement magnetite sand, magnetite sand-speed moving through the ultrahigh magnetic field of inertia, formed dressing.

Belt means is selected from magnetite (FIG. 4), comprising a small grid points:: [0099] Example 5 with a small sub-grid belt 3, the motor, the pulley 2, ultrahigh magnetic solenoid 4, further characterized by comprising small partition 5.

The belt of small divisions; the motor is a power unit of the system, the drive pulley 2 is rotated; the pulley 2, to drive a small belt 3 ruled cyclical rotation: [0100] The present embodiment is further arranged to 3, mounted on the two pulleys 2, and a small spacer 5 is attached to the belt; the small separator 5, form of a thin, short rectangular, laterally fixed to the belt; the ultrahigh magnetic solenoid 4, mounted injection process magnetite sand in.

[0101] Working principle: the greater the speed of the magnetite sand flow, the greater the inertia ore, ultrahigh magnetic, useful ore change inertial trajectory, moving toward the strong magnetic field direction, so that a useful and useless ore ores sub Jian the greater the force, the more likely to be useful ores elected; a motor drive pulley, a small rotation of the sub-grid belt circulating between two pulleys, the belt laid on a small fraction of cells will inertially impinge ore belt turn inch forward, through ultra-high magnetic field, the completion of dressing; means the magnetite has pulled away from the ultra-high magnetic field of an electromagnetic coil, on the suction solenoid ultrahigh magnetic magnetite sand away, away from the field until , magnetite sand mineral processing will free fall into the pool; the initial velocity ore, depends on the rotational speed of the belt loop of the small sub-grid; promote small clapboard ore, ore in order for a limited distance, the operation reached the belt speed; the distance between the belt and the ultrahigh magnetic solenoid, is not reached ore recovery speed requirements.

[0102] Example 6: Track blade paddlewheel is selected from magnetite ore apparatus (FIG. 5), comprising: 2 paddlewheel track 3, pulley 4, high magnetic solenoid groove working platform 5, further characterized in that 8 comprises a paddlewheel separator.

[0103] The present embodiment is further configured to: channel the working platform 2, groove-like shape, and size of the groove corresponds paddlewheel separator, mounted on opposite paddlewheel track 3; 3 crawler water turbine, 4 mounted on the two pulleys, rotation cycle at the pulley 4 driven; the paddlewheel separator 8, as a thin, short rectangular, laterally fixed on the track 3 paddlewheel; said solenoid 5, a magnet mounted on the injection in the process of mineral sand.

[0104] Working principle: the greater the speed of the magnetite sand flow, the greater the inertia ore, ultrahigh magnetic, useful ore change inertial trajectory, moving toward the strong magnetic field direction, so that a useful and useless ore ores sub Jian the greater the force, the more likely to be useful ores elected; motoring waterwheel crawler paddlewheel track rotation cycle between the two pulleys, the rotary feed means emerge in the ore uniform groove on the working platform; water car blowing sand separator moved forward in the ore inch paddlewheel track turn will inertially toward the front, through ultra-high magnetic field, the completion of dressing; the ultrahigh magnetic magnetite pulled away from the solenoid magnetic field means on the suction solenoid ultrahigh magnetic magnetite sand away, away from the field until, magnetite sand beneficiation will free fall into the pool; initial velocity ore, depending on the rotation cycle of track paddlewheel speed; paddlewheel separator blowing ore, ore in order for a limited distance, the paddlewheel reach operating speed track; work platform trough, correcting the direction of movement of ore; water The distance between the crawler and ultrahigh magnetic solenoid, not meet the requirements is recycled speed and direction of motion incorrect ore.

[0105] Example 7: parabolic formula is selected from magnetite ore blow means (6), comprising: a motor, a parabolic wheel 4, the direction of corrector 5, ultrahigh magnetic solenoid 6, further characterized by comprising a parabola teeth 3.

[0106] The present embodiment is further arranged to: the motor is a power unit of the present system with a parabolic rotation wheel 4; the paraboloid wheel 4 mounted on a cylindrical parabolic toothed belt 2; and the direction of the corrector 5, trapezoidal cylindrical, hollow paraboloid wide side wheel 4 is aligned, alignment of the narrow side of the ultra-high magnetic coil 6, the wide side of a length greater than the width of the ore flow, the narrow side of a length equal to the width of the stream of ore; the ultrahigh magnetic solenoid 6, mounted at the rear direction of the corrector 5, a process flow of the magnetite sand in rapid motion; the parabolic tooth 3, the gear teeth, the same one side, the other side into a parabolic 2, i.e. from bottom to top into the form of a parabolic surface.

[0107] Working principle: the greater the speed of the magnetite sand flow, the greater the inertia ore, ultrahigh magnetic, useful ore change inertial trajectory, moving toward the strong magnetic field direction, so that a useful and useless ore ores sub Jian the greater the force, the more likely to be useful ores elected; rotary feed means to fall at a constant speed ores parabolic wheel, wheel rotation paraboloid in motoring, the paraboloid the ore falling impact, hitting after changing the horizontal direction ores, ore also with the new ultra-high speed through a magnetic field, the completion of dressing; the rotational speed and the lowering speed ores parabolic wheel matching, and ultrahigh magnetic mineral beneficiation efficiency requirements; ultrahigh the magnetite has pulled away from a magnetic field, the magnet will be attracted to the electromagnetic coil ultrahigh magnetite sand away on a magnetic solenoid, until the magnetic field away, magnetite sand beneficiation will free fall into the pool; ore the initial velocity depends on the rotational speed of the wheel paraboloid; direction corrector corrects the moving direction of the ore.

[0108] Example 8: Strong wind magnetite ore apparatus formula selected from the group (FIG. 7), comprising: air outlet 2, a direction corrector 3, ultrahigh magnetic solenoid 4, further characterized in that the magnetic iron ore with the strong wind flow 1 from the above ultrahigh magnetic quickly through the electromagnetic coil 4.

[0109] The present embodiment is further arranged to: the air outlet 2, Chengbian rectangular, flat blowing strong wind, strong wind is greater than a width equal to the width of the magnetite sand stream 1; the direction corrector 3, a trapezoidal cylindrical, hollow wide a face air outlet 2, a narrow side of the above ultrahigh magnetic alignment of the electromagnetic coil 4, the width of the narrow side is also equal to the width of the magnetic flow of iron ore; the ultrahigh magnetic solenoid 4, with a magnet mounted in strong winds iron sand flow in a process of fast movement; the ore with the strong wind flow from above through a fast ultrahigh magnetic solenoid coil 4, a magnetic iron ore falling stream 1 to the air outlet, is changed to horizontal movement driven by strong winds , also passes through ultrahigh magnetic solenoid 4 above with the new speed.

[0110] Working principle: the greater the speed of the magnetite sand flow, the greater the inertia ore, ultrahigh magnetic, useful ore change inertial trajectory, moving toward the strong magnetic field direction, so that a useful and useless ore ores sub Jian the greater the force, the more likely to be useful ores elected; rotary ore feed means fall on uniform air outlet, the air outlet flat strong the wind falling ore, ore change horizontal direction, the direction through the corrector screening ore with a new ultra high speed through the above magnetic solenoid, complete mineral, ore screening direction corrector for speed and direction of motion and improper ore does not reach not pass, again through a series of recovery equipment, and uniform drop on the air outlet; the ultrahigh magnetic magnetite pulled away from the electromagnetic coil a magnetic field, the magnet will be attracted to the electromagnetic coil ultrahigh magnetite sand away, away from the field until, magnetite sand will free drops to beneficiation pool; new moving speed of the ore, depending on the intensity of the air outlet of the wind.

[0111] Example 9: the present invention is ultra-high magnetic beneficiation nozzle means (8), comprising: a duct 1 strong, spray air nozzle 2, mixing bin 3, nozzles 4, 5 fan nozzle, screw feeder 6 apparatus, ultra-high magnetic solenoid 7, 8 magnetite sand, tailings 9, the partition 10, hopper 11, further characterized by strong air jet tuyeres 2 ore with ultra fast by the fan from the nozzle 5 the magnetic 7 through the electromagnetic coil above.

[0112] [0112] The present embodiment is further arranged to: the strong wind pipe 1, 2 are connected discharge tuyeres, strong wind inlet; said discharge tuyeres 2, 3 in the mixing compartment, and with use thereof, and venturi principle led to the spiral ore feed device 6 is provided for high-speed movement; direction of the mixing cartridge 3, the above connecting screw feeding means 6, so that the spray nozzle 2 in the interior air, air-jet nozzle 4 is connected ; the spout 4, the cartridge 3 connected to the mixing nozzle 5 and the fan; the fan nozzle 5, fan-shaped, the nozzle 4 is connected, the front fan nozzle 5 ultrahigh magnetic solenoid 7, the fan nozzle 5 capable of ore uniform dispersed magnetic ultra-fast injection through an electromagnetic coil 7; the ultrahigh magnetic electromagnetic coil 7 generates a magnetic field ultrahigh; said screw-feed device 6, a continuous, uniform feeding means .

[0113] [0113] Principle: Strong duct 1 is ejected from the air nozzle 2 by a strong wind, in a mixer cartridge 3 in the use of the venturi principle, and screw feeder 6 to the ore apparatus, forming a high-speed sand stream and a high speed along the nozzle 4 by the fan 6 passes through the nozzle 7 from the above ultrahigh magnetic solenoid, complete dressing.

[0114] [0114] Example 10: Water magnetite present invention is ultra-high magnetic rotating flow irrigation dressing apparatus (FIG. 9), comprising: a feeding tube 1, the power system 2, the shaft 3, the rotating blade 4, irrigation dressing 5, 6 tail Cheng outlet, the water separator 7, concentrate outlet 8, further characterized in that the composition thereof.

[0115] [0115] The present embodiment is further arranged to: the feed pipe 1, located in the bottom of the rotary blades 5 Irrigation dressing 4 above, the external filling dredging, pumping sand tube, the irrigation flow and ejected ore in the same direction of flow of irrigation dressing 5; the power system 2, in the mineral filling 5, the shaft 3 and the top; said shaft 3, the center 5 of mineral filling, mineral filling through the top of the top 5, and the power system, and 2; said rotating blades 4, 5 is located in a lower portion of the mineral filling, is fixed at the bottom end of the shaft 3; the mineral filling 5, a cylindrical body shape, the processing equipment; tail Cheng said outlet 6 is located irrigation dressing 5 to the top, filling it with the direction of the mineral portion 5 is connected to a circumferential tangent mineral filling 5; ultrahigh said water separator 7, is located in the middle of mineral filling 5, capable of operating in water having a magnetic separator ultrahigh magnetic fields, concentrate containing selecting, collecting, outside of the apparatus parallel to the mineral filling; the concentrate outlet 8, and the position of the water separator 7 ultrahigh match, shape, and its size is also routed to the selected ore beneficiation irrigation 5 outside the device match.

[0116] [0116] Principle: magnetite water stream through dredging sand, sand suction tube, the discharge tube through the selected mineral filling, discharging ore flow and fuse to form a new rotation of the rotating fan rotates upward ore flow, in this ore beneficiation inch perfused produce a rotating upward thrust, iron ore weight will fall to, or less of iron-free iron ore to the top is pushed into the end of the rotation Cheng outlet is excluded; pushed and fall in the middle of a mineral filling forming a relatively balanced position, is mounted on the water ultrahigh magnetic separator in this position, with the concentrate containing their elected, collected, and discharged into an outer filling beneficiation means, beneficiated; once the water has not been selected ultrahigh magnetic separator, as long as the rotation of the magnetic iron ore or filling side of this range, again often ultra high water separator can certainly be selected; not magnetite sand filling side, the intermediate layer will fall from irrigation, irrigation fall lower, will be fed to the rotating fan onto the edge of the filling will rotate in the middle of this range side, to the ultra-high magnetic water again Select the opportunity.

[0117] [0117] Example 11: pour the cartridge device (10) according to the present invention, discharging large particles an object, comprising: an inverted cartridge 1, the inverted vessel to rotate member 2, the obturator 3, the container inclined bottom wall 4, the container 5, the discharge large particles gap 6, further characterized in that the combination thereof into a ball architecture. [0118] [0118] The present embodiment is further arranged to: a combination of the ball architecture, the rotating body 2 is inverted and the cartridge 3 is formed hermetic sealing structure of a rotatable member rotatable cartridge 2 down; down the cartridge 1, is located reverse rotation of the cartridge body 2, a rectangular groove, and the width of the discharge gap 6 can be large particles, length, depth and reverse rotation of the cartridge body 2 match; the reverse rotation of the cartridge body 2, a cylindrical body, and the obturator 3 match, rotatable in a sealed case; the obturator 3, the concave circular arc, and the reverse rotation of the cartridge body 2 match; 4 inclined bottom wall of the container, the container bottom is inclined planar, while the large particles and the discharge gap 6 is connected to the plane , remaining connected to the vessel wall; the container 5, a cylindrical body; the large particle discharge gap 6, a rectangular shape, with a length and width corresponding to length and width of the cartridge 1 is inverted.

[0119] [0119] Working principle: large particles to enter the container due to too large a mass of large particles in the vessel was continuously fall, large particles through the discharge gap falls down inside the cartridge, the cartridge down rotating body is rotated 180 degrees, large particles are discharged outside of the container, to complete the job; reverse rotation of the cartridge body back, so that the inverted positions aligned row of large particles gap, starts its new job.

[0120] [0120] Example 12: The present invention is an inverted automatic discharge device of the cartridge (FIG. 11) of large ore particles, comprising: a cartridge down, down the cartridge body 2 is rotated, the obturator 3, 4 inclined bottom wall of the container, the container 5, the discharge gap 6 large particles, transmission structure 9, a controller 10, further characterized by increasing the weight sensor 8, monitoring strip 7 wt.

[0121] The present embodiment is further arranged to: said weight sensor 8, mounted on the strip 7 weight monitoring, the controller 10 connected to the signal acquisition; monitoring said weight bar 7, mounted on the bottom down the cartridge 1, the weight monitoring strip 8 is an arrangement composed of a weight detector; down the cartridge 1, the cartridge is located in an inverted rotatable body 2, a rectangular groove, and the width of the discharge gap 6 can be large particles, length, depth and reverse rotation of the cartridge body 2 match ; the reverse rotation of the cartridge body 2, a cylindrical body, the obturator 3 and the matching rotatable in a sealed case; the obturator 3, the concave circular arc, and the reverse rotation of the cartridge body 2 match; inclined bottom wall of the container 4, the inclined planar bottom of the vessel, while the large particles and the discharge gap plane 6 is connected, is connected to the rest of the container wall; the container 5, to accommodate objects of the object; said transmission mechanism 9, and the reverse rotation of the cartridge body 2 is connected, The controller 10 accepts the command. The controller 10, is mounted outside the container 5, the weight detector 8 connected to the signal collected in the closed down determination has been filled the cartridge 1 inch, the command transmission structure 9 working transmission mechanism 9 so that rotation of the rotor 2 the cartridge down.

[0122] [0122] Principle: The controller 10 receives the weight of the strip 7 and determine the signal acquisition large particle ores has been filled the cartridge 1 inch down, the command transmission structure 9 work to drive down the cartridge rotation of the rotor 2, thereby down 1 working positions; down after the cartridge 1 Daoqu large particle ore, the controller 10 drives the command structure of the work 9, driven by the inverted rotation of the cartridge body 2 is rotated to return down the cartridge 1; return after the inversion cartridge 1, the controller 10 receives wt signal detector 8 determines large particle ore loading situation.

[0123] [0123] Example 13: water according to the present invention is a control apparatus of large particles falling object Jian off (FIG. 12), comprising: a down bin 1, the inverted vessel to rotate member 2, the obturator 3, the container inclined bottom wall 4, the container 5 , large particles discharge gap 6, characterized in that the further increase in on mine walls 7, 8 Jian closing plate, Jian closing shaft 9 rotating structure AlO, toothed rod 11, rotating structure B12, the controller 13, the swash separator 14.

[0124] [0124] The present embodiment is further arranged to: the guide mine walls 7, connected to the container above the inclined bottom wall 4, connected to the obturator 3 below, from ore two guide walls 7, the row of large particles greater than the width of the gap 6, extra mounting space they close Jian 8, toothed rod 11, rotating structure AlO, B12 pivot structure; Jian said closing plate 8 is fixed to shaft 9 Jian closed; Jian closing the shaft 9 mounted on the container bottom bevel between 4 and 7 turned mine walls, the shaft rod is fixed Jian closing plate 8, and the rotating shaft 9 connecting structure A10; A10 of the rotating structure, and Jian closing shaft 9 is connected, the controller 13 accepts the command, generates power, so Jian plate 8 closing up, down; the toothed rod 11, the shape of toothed gear bar so thick so long thickened to a toothed rod mounted on the shaft 9 opposite Jian closed container inclined bottom wall 4 and a guide mine walls 7 between, and connected to and rotating structure B12; B12 to the rotating structure, and the toothed rod 11 connected at one end, the controller 13 accepts the command, when the closing plate 8 and Jian to their closed-inch, generate power, so that the lever 11 against tooth inch needle rotation, the stop is closed; the inclined separator 14, the Dentate rod 11 and between the mine walls 7, coincides with the position of the lower end and the upper end of the obturator 3, Jian opposite closing plate may be mounted at the same 8; the controller 13, mounted on the outer container 5, the cartridge 1 when the inverted working inch, the command rotational structure AlO, B12 work rotating structure, so Jian closing plate 8 and the toothed rod 11 is closed; the inverted cartridge 1, the cartridge is located in an inverted rotatable body 2, a rectangular groove, and the width of the discharge gap 6 with large particles corresponds to the length, depth and reverse rotation of the cartridge body 2 match; the reverse rotation of the cartridge body 2, a cylindrical body, the obturator 3 and the matching rotatable in a sealed case; 3, concave circular arc of the obturator, and reverse rotation of the cartridge body 2 match; 4 inclined bottom wall of the container, the container bottom is inclined planar, while the large particles and the discharge gap plane 6 is connected, is connected to the rest of the container wall; the container 5, the object receiving objects; the large particles discharge gap 6, a rectangular shape, with a length and width corresponding to length and width of the cartridge 1 is inverted.

[0125] [0125] Principle: Working inch cartridge down so that the controller knows the command controller pivot structure A, B work rotating structure, so that the plate and the toothed rod Jian closed closed; Jian closed when the plate about the lever and the toothed closing inch, inch toothed bar into a reverse rotation of the needle, pushing Jian large particles continue falling object, close the closure, after the completion of the closing stop; when poured into the cartridge port all the obturator inch, rotation command structure a, B work rotating structure , so Jian closing plate down, play Jian closed, so that large particles falling objects; separator acts obliquely inclined bottom wall of the container, so that large particles fall smoothly into the cartridge body.

[0126] [0126] Example 14: The present invention is a device reservation objects fell cartridge capacity large particles (FIG. 13), comprising: a cartridge down, down the cartridge body 2 is rotated, the obturator 3, 4 inclined bottom wall of the container, the container 5, large particle discharge gap 6, the guide mine walls 7, Jian closing plate A8, Jian shaft close the A9, AlO rotating structure, toothed rod Bl l, rotating structure B12, the controller 13, the swash separator 14, Jian closing plate C15 , Jian closing shaft C16, rotating structure C17, D18 toothed rod, rotating structure D19, weight monitoring section 20, the weight detector 21, diaphragm 22, further characterized by determining Jian 15 it has accumulated a shut down capacity cartridge 1 after the large particles, large particles continue to add stop.

[0127] [0127] The present embodiment is further arranged to: the inverted positions 1, 2, the cartridge was inverted rotary body located rectangular slot, the width and the discharge gap 6 can be large particles, length, depth and reverse rotation of the cartridge 2 matching; the reverse rotation of the cartridge body 2, a cylindrical body, the obturator 3 and the matching rotatable in a sealed case; the obturator 3, the concave circular arc, and the reverse rotation of the cartridge body 2 match; bottom of the container 4 the inclined surface, the inclined planar bottom of the container, while the large particles and the discharge gap plane 6 is connected, is connected to the rest of the container wall; the container 5, to accommodate objects of the object; the large particle discharge gap 6, a rectangular shape, the long length and width corresponding to the width of the cartridge 1 is inverted; mine walls of the guide 7, above the inclined surface connecting the bottom of the container 4, connected to the obturator 3 below, from ore two guide walls 7, the row of large particles greater than the width of the gap 6; the Jian closing plate A8, fixed to the closing shaft Jian A9; Jian said closing shaft A9, is mounted between the bottom of the container 4 and the guide ramp mine walls 7, the shaft rod is fixed Jian closing plate A8, A9 and Jian closing shaft rotating structure A10 ; said rotating structure A10, A9 and Jian closing shaft Then, the controller 13 accepts the command, so Jian closing plate A8 up, down; the toothed rod Bl l, the shape of toothed gear bar so thick so long thickened to a toothed rod mounted on the closing shaft Jian A9 between the inclined bottom wall of the container opposite the mine walls 7 and the guide 4, and is connected to the rotatable structure and B 12; the rotating structure B12, B11- and toothed rod end is connected, the controller 13 accepts the command, and when the tooth Jian closing plate A8 B11 inch shaped rod to be closed, as the reverse drive toothed rod B11 inch needle rotation, the stop is closed; the controller 13, mounted on the outer container 5, the weight detector 21 connected to the signal acquisition, the determination closed closed Jian inch plate C15 has full capacity down bin, Jian closing command the closing plate A8; the swash separator 14, a separator positioned between the upper end of the inclined toothed rod 7 and the guide mine walls, without departing from the upper end of the lower end of the obturator 3 position, the closing plate opposite the same may be mounted Jian; the diaphragm 22, a rectangular parallelepiped, one end of the mine walls and the guide in the middle guide 7 is connected impose mine walls 7; the other end of the large particles is not more than the discharge gap 6, which is below closing shaft connected Jian C16; Jian said closing plate C15, fixed Jian closing shaft C16; Jian said closing shaft C16, mounted beneath the diaphragm 22, the central guide mine walls, and rotatably connected to the structure 7 C17; C17 of the rotating structure, and Jian closing shaft C16, and receives control 13 command, so that the plate C15 Jian closed up, down; the toothed rod D18, shape, size and the like B11- toothed rod, mounted beneath the diaphragm 22, and the closing plate opposite Jian C15, Jian corresponding closing shaft C16; D19 said rotating structure, and D18- toothed rod end is connected, the controller 13 accepts the command, when the closing plate Jian C15 and D18 to be closed inch toothed rod, toothed rod drive for an inverse inch D18 rotating the needle after stop of the closing weight detector 21, mounted on the closing plate Jian C15, connection controller 13 acquired signals; monitoring said weight bar 20, mounted on the closing plate Jian C15, strip 20 is monitored by weight of a weight 21 arranged in a detector.

[0128] [0128]

Working principle: In the above control signal reception weight acquisition test strip and determining the closed Jian closing plate C has full capacity down-inch cartridge, the command structure A work rotation, driven rotation axis A Jian closed, so that the closing plate Jian A toothed bar B and is closed, when the closing plate Jian A and B to be closed inch toothed rod, the rotation command of the controller rod structure B B for reverse drive toothed inch needle rotation, the stop is closed, the rotation command of the controller structure C work, Jian closing drive shaft C is rotated so as to close down the plate C Jian, Jian large particles close objects stored on board C, falls within the ore-wall to facilitate the return inverted inch cartridge, can immediately falls down bin also you can immediately work;

[0129] [0129] After large particles fall on the object C Jian closing plate, the rotation command of the controller working configuration C, Jian closing drive shaft C is rotated, so that the closing plate Jian C and D toothed bar is closed, when the closing plate Jian C and D to a closed-inch toothed rod, the rotation command of the controller rod structure D D for the reverse drive toothed inch needle rotation, the stop is closed; a controller command structure A work rotation, driven rotation axis A Jian closed, thereby down Jian a closing plate, so that large particles falling objects; when the above signal reception controller and the weight of the strip determines collected Jian closed closing plate C has been filled inverted inch cartridge capacity, Jian closing command a and plate B toothed rod closed, when the closing plate Jian a and B to be closed inch toothed rod, the rotation command of the controller rod structure B B for reverse drive toothed inch needle rotation, the stop is closed; obliquely from the separator vessel bottom ramps, so that a large objects particles smoothly and fall into the mine walls guide the cartridge.

[0130] [0130] Example 15: The present invention is a method of increasing water ultrahigh magnetic mineral magnetite artificial intelligence device, comprising: a screw-type ultrahigh magnetic magnetite mineral water apparatus, the cartridge down automatic working device, ore falling Jian closing device, reserving a large particle ore cartridge down displacement apparatus, pulverizing apparatus, milling apparatus, the transmission apparatus ore flow, further characterized in that AI increases.

[0131] [0131] The present embodiment is further arranged to: increase the artificial intelligence, it is controlled by an increase in artificial intelligence, surveillance, the fitting state between the processing of each device's own operation state, and the equipment, to achieve the overall apparatus smooth efficient operation; the water ultrahigh magnetic mineral magnetite spiral means, is a principle of using gravity, magnetite sand filling stall in going down, immediately drawn into the spiraling flow of sand, interaction, free of sand due to the magnet lighter, rises to the top dressing is filling, the discharge port from the tailings, heavy magnetite sand in substantially stagnant central irrigation dressing, ultrahigh magnetic concentrator means beneficiation; the Turning and automatic working device, during the ultra-high magnetic coil magnetite mineral water, the large particles, and spiral flow fan rotating blade is not up, the sand of large particles will sink to the bottom filling, they automatically discharged to the outside of the filling apparatus; Jian the sand falling off means, the control means and large particles within the sand falling down bin falls less than; once the reserved cartridge down large particles ore Capacity means reserving a large sand particles down bin capacity, to facilitate work faster inverted positions; the grinding means, the grinding sand of large particles size specifications dressing device into; the milling means, the elected magnetite sand, ground into 100 mesh size, into a high-grade fine selection means; said transmission means ore flow, increase power, ore flow, means for maintaining the flow rate of sand flow.

[0132] Principle: a first step of dressing: pumping up the sand, the water enters the helical magnetite mineral ultrahigh magnetic means, and discharging the sand flow fuse to form a new rotation of the rotating fan rotates upward flow of ore , the flow of sand filling this generated a mineral inch upward rotational thrust, weight iron sand will fall to, or less of iron-free sand is pushed to the top of the iron, into the rotating tail Cheng outlet is excluded; pushed and fall in the middle of a mineral filling forming a relatively balanced position, is mounted on the water ultrahigh magnetic separator in this position, with their contained magnetite is selected, collected and discharged into an outer filling beneficiation means, beneficiated; ultrahigh a water separator is not selected, as long as the rotation of the sand or filling side of this range, again often ultrahigh bypass flow water separator will certainly be selected; no sand in the filling side, the intermediate layer will fall from irrigation, irrigation fall lower, will be fed to the rotating fan onto the edge of the filling will rotate in the middle of this range side, to the ultra-high magnetic water again Selected chance machine; speed spiral flow sheet P is to determine the size of sand, sand big points faster, or less than the normal flow of iron ore ultra-high magnetic separator, sand dot these slow, normal iron ore would otherwise flow away from the tailings outlet; stone, sand particles due to the large weight of the ore, mineral filling upward rotational flow generates a force to push it less water separator ultrahigh before, can not be selected, let alone to push the tailings discharge port is discharged, and then fall fan blades can not be rotated up, continues to fall, large particles through the discharge gap falls down inside the cartridge, the reception weight controller detection and signal acquisition section determines larger particles of ore has been filled cartridge inch down, the command transmission structure work, rotating the rotary body driven down the cartridge, the cartridge down so that the work; Daoqu large particle cartridge and pour ore, the command transmission controller work structure, Turning and driven rotating body is rotated, thereby returning the cartridge down; return positions after the inversion, the weight controller receives a detector signal, determines where a large charged particle ore; then the use of a reserve cartridge down large particles ore Capacity device, the inverted positions and has been working in inches accumulated, after the return, quickly pour warehouse capacity once reserved for large particles of sand, into the warehouse down, speed up the discharge of stone, sand large particles;

[0133] [0133] The second step of dressing: the first step out of the dressing, there are three things, large particles, magnetite sand tailings; large particles, if necessary on the pulverized mineral, pulverized ore flow via a transmission device, and then enter the first beneficiation process, beneficiated; fill the reef is not necessary to enter the cartridge loaded with sand; magnetite sand, semi-finished products to be sold or transported to plant magnetite fine featured selected from the group; mill immediately proceeds to selection means; tailings, which contains smaller particles of magnetite sand, selected from the need to re-enter the water a helical magnetite mineral ultrahigh magnetic means, but is slower flow velocity ore more conducive to beneficiation; and sand by the size specification, the water enters the helical magnetite ultrahigh magnetic ore dressing devices of different flow velocity; specifications for finer magnetite mineral water spiral ultrahigh magnetic means selected from the higher out of the magnetite grade; installed within the tailings sand to enter the warehouse filled with reef;

[0134] [0134] The third step is the selection of dressing: the first step of a dressing, the second dressing step magnetite water ultrahigh magnetic concentrator elected magnetite sand, into the milling apparatus, ore milled to 100 mesh, 100 only for the purpose of re-entering the magnetite mineral water spiral ultrahigh magnetic means, beneficiation, out of the product, the content should be 60% or more of the magnetite powder.

[0135] Example 16: - ultra-high magnetic magnetite mineral species means increased further characterized ultrasound.

[0136] The present embodiment is further arranged to: the ultrasonic motion ore mounting process, the wave before the end of ultrahigh magnetic beneficiation.

[0137] works: ultrasonic bombardment, the adhesion between small particles will hit, so that adhesions are subject to different degrees of damage even be interrupted, then the use of this feature to ultrasonic bombardment magnetite sand, as far as possible the adhesion between the magnetite sand interrupted, so ultra-high non-magnetic particles are required to maximize the component of the magnetite sand and sand particles required Jian points, necessary to remove the non-sand particles, improve ore grade.

[0138] Example 17: A conveyor belt according to the present invention, ultra-high magnetic field means is selected from magnetite (FIG. 14), comprising: magnetite sand (1), the belt (3), the pulley (2), ultrahigh solenoid (4), characterized in that the ultrasonic wave increases (5). [0139] [0139] The present embodiment is further arranged to: the magnetite sand flow (1), the moving body is composed of numerous magnetite sand; under the belt (3), driven pulley (2) , in the two pulleys (2) between the rotation cycle, the above magnetite sand falling stream (1) acceleration; said pulley (2), a belt (3) circulating rotational power source; the ultrahigh solenoid ( 4), mounted on the magnetite sand flow movement (1), the ultra-ultra-high magnetic field coil (4) issued after the conductive ultrahigh magnetic field acts on the magnetite sand flow (1); said increased ultrasound ( 5), mounted on the movement ore stream (1), before the end of the ultra-high magnetic beneficiation of ores selected stream (1) bombardment.

[0140] [0140] Working principle: before the end of the belt type ultrahigh ultrahigh magnetic field means is selected from mineral magnetite, magnetite sand and then the ultrasonic bombardment, the need for ores ingredient particles and the non-required component blocking particles interrupted ultrahigh magnetic field, the magnet particles free in the inertia smoothly through the magnetic field and the magnet containing mineral sands because of the effect of ultra-high magnetic field, are attracted changed trajectory, so as to achieve the non-required component removing particles as possible, to improve the quality of ore.

[0141] [0141] Example 18: - species are selected from the group of small magnetite ruled belt means (15), comprising: a belt selected from magnetite means has a small sub-grid, further characterized by comprising an ultrasonic increased 10.

[0142] The present embodiment is further arranged to: the small belts is selected from magnetite ruled apparatus, the belt is composed of a small fraction of cells 3, the motor, the pulley 2, ultrahigh magnetic solenoid 4; the ultrasonic 10, mounted in the moving ore process, the ore is selected before the end of bombardment ultrahigh magnetic beneficiation.

[0143] Principle: In a small separate compartments dressing process selected magnetite belt means, the end of its high magnetic field mineral processing section, and then the magnetite sand ultrasonic bombardment, to require ingredient particles ores and blocking non-required component particles interrupted in favor of the ultra-high magnetic field, the non-required component removing particles as possible, to improve the quality of ore.

[0144] Example 19: waterwheel one kind selected from magnetite ore crawler scraping means (16), comprising: a track wiper paddlewheel selected from magnetite ore apparatus further characterized in that the ultrasonic wave 11 increases.

[0145] The present embodiment is further configured to: track the paddlewheel is selected from magnetite ore scraping means, by the groove working platform

2, 3 crawler tankers, motor, pulley 4, 5 composed of ultra-high magnetic solenoid; the ultrasonic wave 11 is mounted ore flow movement 1, before the end of the ultra-high magnetic beneficiation of ores selected stream 1 bombardment.

[0146] Working principle: before the beneficiation of ore paddlewheel track scraping device selected from magnetite, the end section of its high magnetic beneficiation, then bombarded by an ultrasonic magnetite sand, the required ingredient particles ores and non-blocking particles need to try to interrupt composition, facilitates the ultrahigh magnetic field, the non-required component removing particles as possible, to improve the quality of ore.

[0147] Example 20: - kind of parabolic type is selected from magnetite ore blow means (17), comprising: a parabolic type is selected from magnetite ore blow apparatus, which is further characterized in that the ultrasonic wave 11 increases.

[0148] The present embodiment is further arranged to: the parabolic type selected from the magnetite sand blow device, by a motor, a parabolic wheel 4, 2 paraboloid, a parabolic tooth 3, correcting the direction 5, the electromagnetic coil 6 ultrahigh magnetic composition; the said ultrasonic waves 11, mounted on a magnetic iron ore in a stream of movement, before the end of the ultra-high magnetic beneficiation of magnetic iron ore selected stream 1 bombardment.

[0149] Principle: In the dressing process strike the parabolic formula is selected from magnetite ore in the apparatus, before the end of its high magnetic field mineral processing section, and then the magnetite sand ultrasonic bombardment, the required components and non-particulate ore needs blocking component particles try to interrupt, it facilitates the ultrahigh magnetic field, the non-required component removing particles as possible, to improve the quality of ore.

[0150] Example 21: - kind of formula is selected from strong wind magnetite ore apparatus (FIG. 18), comprising: a formula selected from the strong wind magnetite ore apparatus further comprising an ultrasonic 9 increases.

[0151] The present embodiment is further arranged to: the strong wind is selected from magnetite ore type apparatus, the air outlet 2, a direction corrector 3, the electromagnetic coil 4 ultrahigh magnetic composition; the ultrasound 9, is mounted a magnetic iron ore flow 1 movement, before the end of the ultra-high magnetic beneficiation of magnetic iron ore selected stream 1 bombardment.

[0152] Principle: strong wind ore beneficiation process apparatus formula selected from magnetite, the magnetic field before the end of its high mineral parabolic segment type is selected from magnetite ore blow apparatus, and then the magnetite sand ultrasonic bombardment, the ores require ingredient particles and the non-blocking particles need to try to interrupt composition, facilitates the ultra-high magnetic field, the non-required components of the particulate removal, improve the quality of ore.

[0153] Example 22 An ultra-high magnetic beneficiation nozzle means (19), comprising: nozzle means ultrahigh magnetic beneficiation, further characterized in that the ultrasonic wave increases.

[0154] [0154] The present embodiment is further arranged to: ultra-high magnetic beneficiation of the nozzle means by a strong wind pipe, air-jet nozzle, mixing cartridge, nozzle, fan nozzles, screw feed device, ultrahigh magnetic solenoid, magnetite sand

, Tailings, separators, hoppers; the ultrasound, magnetic iron ore during the movement of the installation stream, stream bombardment of the selected magnetic iron ore before the end of the ultra-high magnetic beneficiation.

[0155] [0155] Principle: ultra-high magnetic beneficiation in the nozzle means before the end of the ultra-high magnetic beneficiation, then bombarded by an ultrasonic magnetite sand, the sand required ingredient particles and a non-blocking particles as possible components required to play break, facilitates the ultrahigh magnetic field, the non-required components of the particulate removal, improve the quality of ore.

[0156] [0156] Example 23: The present invention is one kind of magnetite rotating flow of water ultra-high magnetic mineral filling apparatus (FIG. 20), comprising: means magnetite mineral water, characterized in that the further increase in the ultrasonic 9.

[0157] [0157] The present embodiment is further arranged to: the magnetite mineral water from the feed tube unit 1, the power system 2, the shaft 3, the rotating blade 4, irrigation dressing 5, 6 tail Cheng outlet, water magnetic separator 7, an outlet 8 concentrate composition; the ultrasonic wave, mounted on the outer movement irrigation dressing ore, the ore is selected for bombardment before the end of the ultra-high magnetic beneficiation.

[0158] [0158] Principle: In rotating stream magnetite mineral water filling apparatus in ultra-high magnetic field before the end of the ultra-dressing, and then the magnetite sand ultrasonic bombardment, to require ingredient particles and the non-ore We need to try to interrupt blocking component particles, facilitates ultrahigh magnetic field, the non-required component removing particles as possible, to improve the quality of ore.

24 cases of [0159] [0159] Embodiment: - an ultrahigh magnetic magnetite seed dressing apparatus, further characterized by means beneficiation composition

[0160] The present embodiment is further arranged to: means for combining the mineral sequence, the latter is selected from the parabolic type magnetite ore blow device processing, followed by ultra-high magnetic field means is selected from magnetite.

[0161] Working principle: the ultra-high magnetic beneficiation one kind of dressing apparatus magnetite particles due to some non-required speed, quality, angle, etc., mineral pool mistakenly fall, resulting in reduced quality of the mineral, and through an ultra high magnetic solenoid, is useful to suck the magnetite sand, magnetite has pulled away from the means of the magnetic field, the magnetically attracted to the electromagnetic coil ultrahigh magnetite sand away ultrahigh magnetic solenoid, away from the field, magnetite sand mineral processing will free fall into the pool.

[0162] Example 25: A conveyor belt according to the present invention is selected from the ultra-high magnetic magnetite combining means (21), comprising: a conveyor-type ultrahigh magnetic field means is selected from magnetite, sink (5), ultrahigh magnetic field means is selected from magnetite, further characterized in that the dressing means comprising a combination sequence.

[0163] [0163] The present embodiment is further arranged to: ultra-high magnetic field of the one conveyor means is selected from magnetite, by the belt (3), the pulley (2), ultrahigh electromagnetic coil (4), consisting of ultrasound ( 12); said sink (5), is composed of two partitions (11) composed of a wide - narrow shape, positioned below the ultrahigh magnetic solenoid; the ultrahigh magnetic field means is selected from magnetite, magnetite sand flow during free fall, the ultrahigh magnetic beneficiation means; means for combining the mineral sequence, a conveyor-type ultrahigh magnetic field means is selected from magnetite after beneficiation, followed by ultra-high magnetic field is selected from mine equipment.

[0164] [0164] Principle: elected by means of a conveyor-type ultrahigh magnetic field means is selected from magnetite ore, magnetite sand flow through the drain formed in the groove, again through the ultrahigh magnetic field means is selected from magnetite, an unnecessary particles filtered out to improve the ore grade again.

[0165] Example 26: - kind of small belts is selected from magnetite ruled combining means (22), comprising: a kind of belt selected from magnetite means of small divisions, sink 11, high magnetic field is selected from magnetite apparatus further characterized by comprising a dressing apparatus combination sequence.

[0166] The present embodiment is further arranged to: the one of the small belts is selected from magnetite ruled means 10, ultrahigh magnetic magnetic small ruled by the belt 3, the motor, the pulley 2, the ultrasonic apparatus bombardment coil 4 thereof; said drain tank 11, the separator 8 is composed of two compositions, a wide - narrow shape, positioned below the ultrahigh magnetic solenoid 4; the ultrahigh magnetic field means is selected from magnetite, magnetic iron sand during the free fall, with ultrahigh magnetic beneficiation means; means for combining said sequence of processing, is a conveyor-type ultrahigh magnetic field means is selected from magnetite after beneficiation, followed by ultra-high magnetic field is selected from magnetite device.

[0167] works: Magnetite sand through the apparatus A belt selected from magnetite small grid points, elected ore, magnetite sand flow through the drain formed in the groove, again through the ultrahigh magnetic field means is selected from magnetite , you do not need to filter out particles to improve the ore grade again.

[0168] Example 27: - Species waterwheel crawler selected from magnetite ore scraping combining means (23), comprising: one kind selected from the paddlewheel track magnetite ore scraping means, sink 12, high magnetic field is selected from magnetite apparatus further characterized by comprising a dressing apparatus combination sequence.

[0169] The present embodiment is further configured to: track the one paddlewheel is selected from magnetite ore scraping means, by the groove working platform 2, 3 crawler tankers, motor, pulley 4, the ultrasonic bombardment apparatus 11, ultrahigh magnetic solenoid coils 5; the sink 12, composed by two separators 9, a wide - narrow shape, the underlying ultrahigh magnetic solenoid 5; the ultrahigh magnetic field means is selected from magnetite, the separator 9, the hopper 10, consisting of ultra high electromagnetic coil 5, magnetite sand during the free fall, with ultrahigh magnetic beneficiation means; means for combining said sequence of processing, is a crawler belt scraper ore paddlewheel after the device is selected from mineral magnetite, followed by ultra-high magnetic field means is selected from magnetite.

[0170] Principle: magnetite sand through the latter paddlewheel selected from magnetite ore crawler scraping means elected ore, magnetite sand flow is formed through the drain tank through ultrahigh magnetic field means is selected from magnetite again , you do not need to filter out particles to improve the ore grade again.

[0171] Example 28: - kind of formula is selected from magnetite ores parabolic blow combining means (24), comprising: one kind selected from the parabolic type magnetite ore blow means sink 14, high magnetic field means is selected from magnetite , which is further characterized in that the dressing means comprising a combination sequence.

[0172] The present embodiment is further arranged to: the one formula selected from the magnetite ores parabolic blow means, by a motor wheel 4 paraboloid, a parabolic tooth 3, parabolic 2, the direction corrector 5, the ultrasonic means 11 bombardment, ultrahigh 6 composed of magnetic electromagnetic coil; the drain groove 14, is composed of two separators 9, a wide - narrow shape, located below the ultrahigh magnetic electromagnetic coil 6; the ultrahigh magnetic field means is selected from magnetite, magnetic iron sand flow during free fall, the ultrahigh magnetic beneficiation means; means for combining the mineral sequence, a parabolic type is selected from magnetite ore blow means after beneficiation, followed by ultra-high magnetic field means is selected from magnetite .

[0173] Principle: Magnetite sand through one kind selected from the parabolic type magnetite ore after blow means elected ore, magnetite sand flow is formed through the drain tank through ultrahigh magnetic field means is selected from magnetite again, the You do not need to filter out particles to improve the ore grade again.

[0174] Example 29: - kind of formula is selected from magnetite ore strong wind combining means (25), comprising: a potent formula selected from magnetite ore wind means, sink 12, high magnetic field means is selected from magnetite , which is further characterized in that the dressing means comprising a combination sequence.

[0175] The present embodiment is further arranged to: the one type selected from strong wind magnetite ore apparatus 2 from the air outlet, the direction corrector 3, an ultrasonic bombardment apparatus 9, the electromagnetic coil 4 ultrahigh magnetic composition; said drain groove 12, is composed of two separators 7, a wide - narrow shape, positioned below the electromagnetic coil 4 of the magnetic ultrahigh; the ultrahigh magnetic field means is selected from magnetite, magnetite sand flow during free fall in a , the ultra-high magnetic beneficiation means; means for combining said sequence of processing, the latter is a conveyor-type ultrahigh magnetic field means is selected from mineral magnetite, followed by ultra-high magnetic field means is selected from magnetite.

[0176] works: Magnetite sand blown through a potent formula selected from the magnetite ores means elected ore, magnetite sand flow is formed through the drain tank through ultrahigh magnetic field means is selected from magnetite again, the You do not need to filter out particles to improve the ore grade again.

[0177] Example 30: - Species nozzle ultrahigh magnetic beneficiation combining means (26), comprising: A nozzle apparatus ultra-high magnetic beneficiation, sink, ultrahigh magnetic field means is selected from magnetite, further characterized It means that the dressing comprises combination sequence.

[0178] [0178]

The ultra-high magnetic beneficiation A nozzle apparatus, a strong air duct (1), air-jet nozzle (2), mixing chamber (3), the nozzle (4), fan nozzles (: is a further embodiment of the present embodiment is provided 5), screw feed device (6), ultrahigh magnetic solenoid (7), magnetite sand (8), tailings (9), a separator (11), the hopper (15), consisting of an ultrasonic bombardment apparatus (12); said drain tank (10), by two baffles (11), with a wide - narrow shape, located ultrahigh magnetic solenoid (7) below; is selected from the ultra-high field magnet mine means magnetite sand flow during free fall, the ultrahigh magnetic beneficiation means; means for combining said sequence of processing, the latter nozzle means ultrahigh magnetic mineral beneficiation, followed by ultra-high magnetic field is selected from mine equipment.

[0179] [0179] Principle: A nozzle elected by the ultra-high magnetic ore dressing apparatus, formation of magnetite sand flow through the drain grooves, again through the ultrahigh magnetic field means is selected from magnetite, do not need to filter out particles to improve the ore grade again.

[0180] The above description of the well-Jian embodiment, enables those skilled in the art to make or use the present invention. Various modifications to these professionals skilled in the art of the present embodiments will be apparent, and the generic principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. Accordingly, the present invention will not be limited to the embodiments shown herein, but is to be accorded consistent with the principles and novel features herein are the well-Jian widest scope.

Embodiment of the present invention.

[0181] In the type here described embodiments of the present invention paragraphs.

Industrial Applicability

[0182] invention, an inventive apparatus 8 magnetite beneficiation process

[0183] A conveyor-type ultrahigh magnetic field means is selected from a combination of magnetite achieved (FIG. 21)

[0184] A belt selected from magnetite combining means of small divisions achieved (FIG. 22)

[0185] A is selected from the waterwheel crawler scraping magnetite ore combining means implemented (FIG. 23)

[0186] A parabolic formula is selected from magnetite ore blow combining means implemented (FIG. 24)

[0187] A strong wind magnetite ore formula selected from the combining means implemented (FIG. 25) [0188] A nozzle for ultra-high magnetic beneficiation combining means implemented (FIG. 26)

[0189] Magnetite rotating flow of water ultra-high magnetic mineral filling apparatus (FIG. 9), the cartridge comprising means inverted (FIG. 10) discharging large particles objects; means large particle ore discharged automatically inverted positions (FIG. 11) ; control water large particles falling object apparatus (FIG. 12) associated Jian; means a reservation objects fell cartridge capacity large particles (FIG. 13

[0190] increasing the swirling flow water tank ultrahigh magnetic magnetite mineral artificial intelligence means.

Sequence Listing Free content

[0191] SUMMARY OF SEQUENCE LISTING FREE type described herein paragraphs.

Claims

Claims
Means ultrahigh magnetic magnetite iron ore [claim 1], comprising: magnetite sand flow (1), the partition plate (3
), The hopper (4), further characterized by comprising an electromagnetic ultrahigh magnetic coil (2) and the magnetic field which is generated by the distance of lateral movement of the sand ore; the magnetite sand flow (1), it is one of many iron sand downward movement of the fluid composition; said partition plate (3) located lowermost iron sand, through the length of the distance to distinguish different grade of ore; the hopper (4), is mounted through the partition plate selected from different grade ore; the ultrahigh magnetic solenoid (2), the generated magnetic field, generated by the electromagnetic coil is normal tens hundred times or more the magnetic field, the installation process magnetite sand falling stream (1) intermediate position, ultrahigh magnetic solenoid (2) of the ultrahigh magnetic field emanating conductive ultrahigh magnetic field acts on the magnetite sand flow (1); mineral sands from the lateral movement of the key according to the present invention, the super under the action of high magnetic solenoid (2), and in the more iron ore, the greater the distance of lateral movement;
In free fall ores, iron sand flow forming, generated by the electromagnetic coil than the average high several hundred times more than the ultrahigh magnetic field acting on the flow iron sand, iron ore containing iron sand moved laterally; does not shift or move particularly short distance, less representative of free iron or iron is an impurity; move farther, the higher the content; partition plate mounted at different distances, different grade ores can be obtained; catch hopper different grade of ore; ore moves the greater the distance, the segments may be several different multi-grade ore.
[Claim 2] of the present invention means a plurality of times ultrahigh magnetic iron ore, comprising: magnetite sand flow (1), high electromagnetic coil (3), a separator (4), sink (5), characterized in in that the coarse ore includes the formation of new sub-ore flow (2); (1), the solenoid ultra magnetite sand flow
(3), a separator (4) composed of magnetic iron ore ultra means; said drain groove (5), is composed of two partition plates (4), with a wide - narrow shape, located ultrahigh magnetic an electromagnetic coil (3) below; the new ore stream (2), leaking from the drain groove (5) in the stream of sand;
Ore in free fall, when the ultrahigh magnetic field acts on the magnetic iron sand, iron ore sand so that lateral movement occurs, but due to the limitations of the production of ultra-high magnetic solenoid, the magnetic field strength reaches not produce the desired mature product, natural ore moving distance does not reach the required fine separator, sand only take shorter flow distance and the electromagnetic coil, coarse fraction; the fraction obtained crude ore desired, falls in the sink, a drain groove is formed by the new ores stream; using a magnetic field again in ultrahigh magnetic iron sand, so that the magnetic iron sand by ultrahigh magnetic fields, the occurrence of lateral movement; coarsely divided several times, separated by a plurality of times, on the formation of breakdown, fine reached magnetite mineral object ultrahigh magnetic separator means, and further characterized in that high-speed movement of the magnetite sand; high-speed movement of the magnetite sand, magnetite sand is high velocity flow stream;
Adding external force, so that magnetite sand in a limited distance from accelerating, the magnetite sand with a strong inertia force through ultra-high magnetic electromagnetic coil, this inch, magnetite sand on a more powerful suction, so magnetite sand and tailings component increased, easier to magnetite and magnetite sand tailings points more thoroughly and improve the quality of ore beneficiation.
The ultra-high magnetic mineral magnetite apparatus as claimed in claim 3, further characterized in that the conveyor-type ultrahigh magnetic field means is selected from magnetite, comprising: magnetite sand (1), the pulley (2), the belt (3), Ultra high electromagnetic coil (4), a separator (5), a hopper (6), further characterized by a combination thereof; the magnetite sand flow (1), the moving body is composed of numerous magnetite sand; the belt (3), driven pulley (2), and in two pulleys (2) between the rotation cycle, the above magnetite sand falling stream (1) acceleration; said pulley (2), a belt (3) circulating rotational power source; the ultrahigh electromagnetic coil (4), mounted on the magnetite sand flow movement (1), the ultra-ultra-high magnetic field coil (4) issued after the conductive ultrahigh the magnetic field, iron sand flow (1); said partition plate (5), located at the lowermost iron sand, through the length of the distance to distinguish different grade of ore; the hopper (6), is mounted through the partition plate is selected from different grade ore;
Magnetite sand fall uniformly on the belt, the belt driven pulley speed circular motion, the motion high-speed loop belt, driven by high-speed movement magnetite sand, magnetite sand moving at high speed, the inertia through ultrahigh magnetic fields, forming mineral.
The ultra-high magnetic mineral magnetite apparatus as claimed in claim 3, further characterized in that the belt is selected smaller magnetite ruled apparatus, comprising: a small sub-grid belt (3), a motor pulley (2), ultrahigh a magnetic solenoid (4), characterized in that further comprises a small spacer (5); said motor is a power unit of the system, the drive pulley (2) is rotated; said pulley (2), driven by a small fraction of cells belt (3) rotation cycle; ruled a small belt (3), mounted on the two pulleys (2), and is mounted with a small partition (5) on the belt; said small partition (5), form of a thin, short rectangular, laterally fixed to the belt; the ultrahigh magnetic solenoid (4), is mounted during the injection of the magnetite sand;
The larger the magnetite sand flow rate, the greater the inertia ore, ultrahigh magnetic, useful ore change inertial trajectory, moving toward the strong magnetic field direction, so that a useful and useless ore ores sub Jian greater force, easier to be useful ores elected; a motor drive pulley, a small rotation of the sub-grid belt circulating between two pulleys, the belt laid on the grid points of a small sand belt will turn inch inertially toward the front through the super a high magnetic field, the completion of dressing; means the magnetite has pulled away from the ultra-high magnetic field of an electromagnetic coil, on the suction solenoid ultrahigh magnetic magnetite sand away, away from the field until, on the magnetite sand will free-fall to the mineral pool; initial velocity ore, depends on the rotational speed of the belt loop of the small sub-grid; promote small clapboard ore, ore in order for a limited distance, the reach operating speed of the belt; belt and ultra-high distance between the electromagnetic coil is not reached ore recovery speed requirements.
[Claim 6] The ultrahigh magnetic mineral magnetite apparatus according to claim 3, further characterized in that the paddlewheel is selected from magnetite ore crawler scraping apparatus comprising: a tank working platform (2), paddlewheel track (3 ), the pulley (4), ultrahigh magnetic solenoid (5), further characterized in that the separator comprises a paddlewheel (8); said groove working platform (2) as a groove-shaped, slot size and paddlewheel corresponds to the spacer, mounted on the paddlewheel track (3) opposite; paddlewheel said track (3), mounted on two pulleys (4), in the rotation cycle pulley (4) driven; the paddlewheel a separator (8), form of a thin, short rectangular, fixed transversely on the paddlewheel track (3); said solenoid (5), mounted on the ejection process of the magnetite sand;
The larger the magnetite sand flow rate, the greater the inertia ore, ultrahigh magnetic, useful ore change inertial trajectory, moving toward the strong magnetic field direction, so that a useful and useless ore ores sub Jian greater force, easier to be useful ores elected; motoring waterwheel crawler paddlewheel track rotation cycle between the two pulleys, the rotary feed means emerge in the ore uniform working platform trough; paddlewheel separator blowing forward movement ores, ore waterwheel crawler will turn inch inertially toward the front, through ultra-high magnetic field, the completion of dressing; magnetite has a magnetic field to pull away from the ultra-high magnetic solenoid suction ultra magnetite sand on a high magnetic solenoid away, away from the field until, magnetite sand beneficiation will free fall into the pool; ore initial velocity, rotational speed depends on the cyclic track paddlewheel; paddlewheel separator blowing board ore, ore in order for a limited distance, the paddlewheel reach operating speed track; work platform trough, correcting the direction of movement of ore; water tankers and ultra-high magnetic track The distance between the electromagnetic coil is not recovered and the moving speed to reach the ore incorrect direction.
[Claim 7] The ultrahigh magnetic mineral magnetite apparatus according to claim 3, characterized in that a parabolic type is selected from magnetite ore blow apparatus, comprising: a motor, a parabolic wheel (4), the direction corrector (5), ultrahigh magnetic solenoid (6), further characterized by comprising a parabola teeth (3); said motor is a power unit of the present system, with parabolic rotation wheel (4); said paraboloid wheel (4), on the cylindrical installation parabolic toothed belt (2); said direction corrector (5), a trapezoidal cylindrical, hollow paraboloid wide side aligned wheels (4), aligned with the narrow side ultrahigh magnetic coil (6), width side length greater than the width of the ore flow, the narrow side of a length equal to the width of the flow ores; during the ultrahigh magnetic solenoid (6), the installation (5) behind the corrector in the direction of the magnetite sand flow (1) a fast moving ; said parabolic tooth (3), the toothed gear, wherein the same side, the other side into a parabola (2), i.e. into a parabolic surface from bottom to top;
The larger the magnetite sand flow rate, the greater the inertia ore, ultrahigh magnetic, useful ore change inertial trajectory, moving toward the strong magnetic field direction, so that a useful and useless ore ores sub Jian greater force, easier to be useful ores elected; rotary feed means to fall at a constant speed ores parabolic wheel, wheel rotation paraboloid in motoring, the ore falling impact the paraboloid, after pressing, the level of sand was changed direction, but also through the ore with a new ultra high speed magnetic field, the completion of dressing; the rotational speed and the lowering speed ores parabolic wheel matching, and ultrahigh magnetic mineral beneficiation efficiency requirements; the upper magnetic solenoid ultrahigh magnetite pulled away from a magnetic field, the magnet will be attracted to the electromagnetic coil ultrahigh magnetite sand away, away from the field until, magnetite sand beneficiation will free fall into the pool; initial velocity ore, depending rotational speed of the wheel paraboloid; direction corrector corrects the moving direction of the ore. [Claim 8] The ultrahigh magnetic mineral magnetite apparatus according to claim 3, further characterized in that the strong wind is selected from magnetite ore type apparatus, comprising: an air outlet (2), the direction corrector (3), ultrahigh a magnetic solenoid (4), characterized in that a magnetic iron ore with the strong wind flow (1) through the ultra-fast magnetic solenoid (4) above; said air outlet (2), Chengbian rectangular, flattened blown strong wind, strong wind than or equal to the width of the magnetite sand flow (1) width; the direction corrector (3), a trapezoidal tube, a hollow wide face air outlet (2), aligned with the narrow side of the ultra-high magnetic solenoid a coil (4) above, the width of the narrow side is also equal to the width of the flow of magnetic iron ore; the ultrahigh magnetic solenoid (4), mounted on the magnetite sand with strong wind flow (1) fast during movement; the ore with strong wind flow (1) through the ultra-fast magnetic solenoid (4) above, the air outlet to the magnetic iron ore falling stream (1), is changed to horizontal movement driven by a strong wind, with a new wear rate through the above ultrahigh magnetic solenoid (4); and a magnet The larger the flow rate of sand mines, ore greater inertia, ultrahigh magnetic, useful ore change inertial trajectory, moving toward the strong magnetic field direction, so that a useful and useless ore ore fraction greater force Jian, easier Useful elected the ore; the rotary feed means fall on uniform ore air outlet, the air outlet flat strong the wind falling ore, ore change horizontal direction, the direction through the corrector filter, through the ore with a new speed the above ultrahigh magnetic solenoid, complete dressing, direction corrector and screening ore not meet the requirements of speed and direction of movement of incorrect ore not pass, again through a series of recovery equipment, and uniform fall on the air outlet; ultrahigh magnetic solenoid the magnetite has pulled away from a magnetic field, it will be attracted to the ultrahigh magnetic solenoid coil magnetite sand away, away from the field until, magnetite sand beneficiation will free fall into the pool; new ore movement speed, depending on the intensity of the air outlet air
[Claim 9] The ultrahigh magnetic mineral magnetite apparatus according to claim 3, further characterized in that the nozzle ultrahigh magnetic dressing apparatus comprising: a strong air duct (1), air-jet nozzle (2), mixing bin (3), the nozzle (4), fan nozzles (5), screw feed device (6), ultrahigh magnetic solenoid (7), magnetite sand (8), tailings (9), a separator (10), the hopper (11), further characterized by strong air jet tuyere (2) with the ultrahigh magnetic ore quickly from the electromagnetic coil (7) through a fan nozzle (5) above; the strong air duct (1), is connected air-jet nozzle (2), a strong wind inlet; the air-jet nozzle (2), in a mixing bin (3), and to use, and which together drive the venturi principle spiral feeding means ( 6) providing a high speed movement of ore; the mixing bin (3), the above connecting screw feeding means (6), so that air-jet nozzle (2) in the interior, the nozzle connected to the spray direction of the wind (4) ; said nozzle (4), connected to the mixing chamber (3) and a fan nozzle (5); said fan nozzle (5), fan-shaped, connecting the nozzle (4), fan nozzles ( 5) in front of ultrahigh magnetic solenoid (7), the fan nozzle (5) ore capable of uniformly dispersed, ultra rapid injection through a solenoid magnet (7); the ultrahigh magnetic solenoid (7 ), ultra-high magnetic field is generated; the spiral feeding means (6), a continuous, uniform feeding means;
Strong wind (2) is ejected from the air nozzle by a strong air duct (1), in a mixer cartridge (3) in the use of the venturi principle, and screw feed means (6) to the ore to form a high-speed sand stream and along the nozzle (4) through a high-speed fan nozzle (6) from the ultra-high magnetic solenoid (7) above, the completed dressing.
10. ultrahigh magnetic mineral magnetite apparatus according to claim 3, further characterized in that the rotary flow-fill apparatus ultrahigh magnetic magnetite mineral water, comprising: a feed pipe (1), a power system (2), shaft (3), the rotary blade (4), mineral filling (5), the end of Cheng outlet (6), the water separator (7), concentrate outlet (8), characterized in that a combination thereof; into the feeding tube
Consistent flow direction in the above (1), located in mineral filling (5) at the bottom of the rotating fan (4), the external irrigation dredging, pumping sand tube, filling in the discharge stream and the mineral ore fed (5); the said power system (2), in the mineral filling (5), and a shaft (3) connected to the top; center (3), mineral filling (5) of the shaft, through a top dressing top filling (5), and, and power system (2); said rotary blades (4), located in the lower portion of mineral filling (5) is fixed to the bottom end of the shaft (3); and the mineral filling (5) has a cylindrical shape, the processing equipment body; Cheng outlet of the tail (6), located mineral filling (5) the top of which with mineral filling (5) is a direction connecting portion (5) tangent of the circle irrigation dressing; the ultrahigh water separator
(7), located mineral filling (5) in the middle, can ultrahigh magnetic fields in a magnetic separator having a working water, the concentrate comprising selecting, collecting, mineral filling means to the outer side by side; said concentrate outlet (8) , the location and ultrahigh water separator (7) fit, shape, and its size is also routed to the selected ore beneficiation means (5) of the irrigation match;
Magnetite sand dredging by water flow, the pumping sand tube, the inner tube through spray irrigation selected ore, ore discharge flow and fuse to form a new rotation of the rotating fan rotates upward flow of the ore, the mineral filling this inches generating a rotational flow of the sand upward thrust, iron ore weight will fall to, or less of iron-free iron ore to the top is pushed into the outlet end of Cheng excluded in rotation; push and fall in irrigation dressing a central position forming a relatively balanced, the water to ultra-high magnetic separator installed in this position, with the concentrate containing the selected own collection, side by side filling apparatus external to dressing, beneficiation; is not a water ultrahigh magnetic separator is selected, as long as the rotation of the magnetic iron ore or filling the edge of this range, again often ultra high water separator can certainly be selected; not magnetite sand filling side, the intermediate layer will be from irrigation fall, fall into the lower filling, the rotating fan will be pushed to the edge of the irrigation, irrigation will rotate in the middle of this range side, the chance of being selected to water ultrahigh magnetic separator again.
11, ultra-high magnetic rotating flow irrigation device according to claim 10 mineral water magnetite, further characterized in that the means to increase the cartridge down large particles discharged object, comprising: a pour chamber (1), reverse rotation of the cartridge body (2) , the obturator (3), inclined bottom wall of the container (4), the container 5, large particle discharge gap 6, further characterized in that the combination thereof into a ball-type architecture; the combined ball architecture, the rotating body 2 is inverted and the cartridge sealed 3 is formed a reverse rotation of the cartridge 2 a sealing structure body can rotate; down the cartridge 1, the cartridge is located in an inverted rotatable body 2, a rectangular groove, and the width of the discharge gap 6 can be large particles, length, depth and inverted positions rotated matching body 2; the reverse rotation of the cartridge body 2, a cylindrical body, the obturator 3 and the matching rotatable in a sealed case; the obturator 3, the concave circular arc, and the reverse rotation of the cartridge body 2 match; the 4 inclined bottom wall of the container, the container bottom is inclined planar, while the large particles and the discharge gap plane 6 is connected, is connected to the rest of the container wall; the container 5, a cylindrical body; the large particle discharge gap 6, a rectangular shape, which length and width and length down bin 1 Correspondence;
Large particles entering the container due to too large mass of large particles in the vessel was continuously fall, large particles through the discharge gap falls down within the cartridge, the cartridge down rotating body is rotated 180 degrees and the large particles are discharged outside the container, complete operations; inverted cartridge body is rotated back to the inverted positions aligned row of large particles gap, starts its new job. Ultra-high magnetic rotating flow irrigation dressing apparatus 12 according to claim 10 in water magnetite claims, characterized in that the increasing means further down the cartridge automatically discharging large particles ore, comprising: a pour chamber (1), reverse rotation of the cartridge body (2 ), the obturator (3), inclined bottom wall of the container (4), the container (5), large particle discharge gap (6), transmission structure (9), the controller (10), characterized in that the further increase in the weight detector (8 ), monitoring the weight section (7); said weight detector (8), mounted on a weight monitoring strip (7), a signal collection connection controller (10); said weight monitoring strip (7), mounted in inverted cartridge (1) at the bottom, the weight of a monitoring strip is arranged a weight detector (8) the composition; the inverted bin (1), the cartridge is located in an inverted rotatable member (2), rectangular grooves, the width and the row of large particles notch (6) corresponds to the length, depth and reverse rotation of the cartridge body (2) match; the reverse rotation of the cartridge body (2), a cylindrical body, closed body, and (3) matching rotatable in a sealed case; the said obturator (3), a concave circular arc, and the reverse rotation of the cartridge body (2) match Inclined bottom wall of the container (4), an inclined planar bottom of the container, and the discharge side of a plane of the large particles notch (6), connected to the rest of the container wall; the container (5), to accommodate objects of the object; said container inclined bottom wall (4), an inclined planar bottom of the container, and the discharge side of a plane of the large particles notch (6), connected to the rest of the container wall; the container (5), to accommodate objects of the object; said discharge gap large particles (6), a rectangular shape, its length and width down bin (1) corresponding to the length and width; the transmission structure (9), and the reverse rotation of the cartridge body (2), and receives a controller (10) command; the control (10), mounted on the outer container (5), connected to the signal load detector (8) is acquired, determination in the closed down bin (1) has been filled inches, the command transmission structure (9) work, transmission structure (9 ) so that rotation of the inverted cartridge body (2) is rotated;
The controller (10) receiving the signal acquisition weight detection strip (7) and large particles is determined poured sand has been filled the cartridge (1) inch, the command transmission structure (9) work to drive down the cartridge rotating body (2) rotates, so that down bin (1) work; down bin (1) after large particles decanted ore, the controller (10) command transmission structure (9) work to drive down the cartridge rotating body (2) rotates, so that the inverted bin (1) return ; down after the cartridge (1) return, the controller (10) (8) signal reception weight detector determines the charging case of large ore particles.
Ultra-high magnetic rotating flow irrigation dressing apparatus 13 according to claim 10 in water magnetite, further characterized in that the water control means increases falling Jian large particles off the object, comprising: a pour chamber (1), reverse rotation of the cartridge body ( 2), the obturator (3), inclined bottom wall of the container (4), the container (5), large particle discharge gap (6), characterized in that the further increase in on mine walls (7), Jian closing plate
(8), Jian closing shaft (9), the pivot structure A (10), toothed rod (11), rotating structure B (12), the controller (13), inclined partitions (14); said guide mine walls (7), above the connection of the container inclined bottom wall (4), the following connecting the obturator (3), from the two guide mine walls (7) is greater than the width of the row of large particles notch (6), the extra space to install Jian closed (8), the toothed rod (11), the pivot structure A (10), rotating structure B (12); Jian said closing plate (8), fixed to the closing shaft Jian (9); Jian closing the shaft ( 9), mounted between the inclined bottom wall of the container (4) and the guide mine walls (7), the shaft rod is fixed Jian closing plate (8), a shaft (9) and the pivot structure A (10); said pivot structure A (10), and Jian closing shaft (9), and receives a controller (13) command, generating power, so Jian closing plate (8) up, down; the toothed rod (11), the shape of toothed rod then the crude toothed gear lever to the thickened so long, mounted Jian closing shaft (9) between the bottom of the container opposite the inclined surface (4) and the guide mine walls (7), and the rotating structure, and B (12) is connected The rotating structure B (12), and a toothed rod (11) connected at one end to accept a controller (13) command, when Jian closing plate (8) to be closed and their inch, generating power, so that the toothed rod (11) inch reverse rotation of the needle, the closing stop; consistent position (3) between the upper end of the inclined partition plate (14), located at the upper end of the toothed rod (11) and the guide mine walls (7), and a closed lower end thereof, opposite Jian lower closing plate (8) can be installed the same; and the controller (13), mounted on the outer container (5), when the inverted bin (1) inch work, the structure of the command rotation A (10), rotating structure B (12) work, so Jian closing plate (8) and the toothed rod (11) is closed; the inverted bin (1), the cartridge is located in an inverted rotatable member (2), rectangular grooves, the width of the large particles and the discharge gap (6) corresponds to the length, depth and reverse rotation of the cartridge body (2) match; the reverse rotation of the cartridge body (2), a cylindrical body, an obturator and
(3) matching, in the case of a rotatable seal; (3), a concave circular arc, and the reverse rotation of the cartridge body of the obturator (2) match; inclined bottom wall of the container (4), an inclined planar bottom of the container , and the discharge side of the plane of the large particles notch (6), connected to the rest of the container wall; the container (5), the object receiving objects; the large particle discharge gap (6), a rectangular shape, length and width and poured bin (1) corresponding to the length and width;
Turning and work inch, allows the controller to know, the controller commanding the pivot structure A, B work rotating structure, so that the plate and the toothed rod Jian closed closed; Jian closed when the toothed rod and the closure plate is about to inch, inch toothed rod was in inverse rotating the needle, pushing Jian large particles continue falling object, close the closure, after the completion of the closing stop; when poured into the cartridge port all the obturator inch, rotation command structure a, B work rotating structure, so Jian closing plate down, play Jian closed, so that large particles falling objects; separator acts obliquely inclined bottom wall of the container, so that large particles fall smoothly into the cartridge body.
14, according to claim 10 in water irrigation flow magnetite ultra-high magnetic rotary dressing apparatus, further characterized by large particles cartridge means increased capacity reservation objects fell once, comprising: a pour chamber (1), reverse rotation of the cartridge body (2), the obturator (3), inclined bottom wall of the container (4), the container (5), large particle discharge gap (6), ore-wall (7), Jian closing plate A (. 8), the axis A closed Jian
(9), the pivot structure A (10), toothed rod B (11), rotating structure B (12), the controller (13), inclined partitions (14), Jian closing plate C (15), closing shaft Jian C (16), rotation of the structure C (17), toothed rod D (18), rotating structure D (19), monitoring the weight bar (20), the weight detector (21), diaphragm (22), characterized in in that determination closed Jian
After (15) has accumulated an inverted chamber (1) capacity of the large particles, large particles continue adding stopped; the inverted bin (1), the rotating body is located down the cartridge (2), a rectangular groove, a large width and a discharge particles notch (6) corresponds to the length, depth and reverse rotation of the cartridge body (2) match; the reverse rotation of the cartridge body (2), a cylindrical body, closed body, and (3) matching rotatable in a sealed case; said obturator (3), a concave circular arc, and the reverse rotation of the cartridge body (2) match; inclined bottom wall of the container (4), an inclined planar bottom of the container, while the large particles and the discharge gap plane
(6), connected to the rest of the container wall; the container (5), the object receiving objects; the large particle discharge gap (6), a rectangular shape, its length and width down bin (1) corresponding to the length and width; mine walls of the guide (7), connected to the container above the inclined bottom wall (4), connected below the obturator (3), two guide from mine walls (7) is greater than the width of the notch row of large particles (6); said Jian closing plate A (8), fixed to the closing shaft Jian A (9); said Jian closing axis A (9), mounted between the inclined bottom wall of the container (4) and the guide mine walls (7), the shaft rod is fixed Jian closing plate A (8), Jian closing axis A (9) and the pivot structure A (10); said pivot structure A (10), and Jian closing axis A (9), and receives a controller (13) cOMMAND , so Jian closing plate a (8) up, down; the toothed lever B (11), the shape of toothed gear bar so thick so long thickened to a toothed rod mounted on the closing shaft Jian a (9 ) between the inclined bottom wall of the container (4) and the guide mine walls (7) opposite and rotating structure and B (12); said rotatable structure B (12), and a toothed rod B (11) connected at one end to accept The controller (13) command, when Jian closing plate A (8) and the toothed rod B (11) inches to be closed, driven toothed rod B (1 1) for reverse-inch needle rotation, the stop is closed; the control (13), mounted on the outer container (5), connected to the weight detector (21) signal acquisition, the determination of the closing plate closing Jian C (15) inches down the cartridge has been filled capacity, directing Jian closing plate a ( 8) is closed; the helical spacer (14), located between the upper end of the inclined separator guide toothed rod and mine walls (7), without departing from the lower end of the upper end of the obturator (3), as the closing plate opposite Jian may be mounted; said diaphragm (22), a rectangular parallelepiped, one end of the mine walls and a guide (7) is connected in the middle of a fine ore guide wall (7); the other end of the large particles is not more than the discharge gap (6), below which closing shaft connected Jian C
(16); said closing plate Jian C (15), fixed to the closing shaft Jian C (16); said C Jian closing shaft (16), mounted beneath the diaphragm (22), the guide mine walls ( central 7), the rotating structure, and C (17); said rotatable structure C (17), and Jian closing axis C (1 6), and receives a controller (13) command, Jian closing plate so C (15) up, down; the toothed lever D (18), the shape, size, and the toothed lever B (11), as mounted in the diaphragm (22) below, with the closing plate opposite Jian C (15) , Jian closing axis C (16) corresponding to; the rotatable structure D (19), and the toothed lever D (18) connected at one end to accept a controller (13) command, when the closing plate Jian C (15) and the teeth lever D (18) inches to be closed, toothed drive lever D (18) as the reverse-inch needle rotation, stop after closing said weight detector
(21), mounted on the closing plate Jian C (15), a signal collection connection controller (13); said weight monitoring strip (20), mounted on the closing plate Jian C (15), monitoring the weight bar
(20) is made of a a weight sensor (21) arranged in composition;
The controller receives the signal collected by weight of the strip and the above judgment closed Jian closing plate C has full capacity down-inch cartridge, the command structure A work rotation, driven rotation axis A Jian closed, so that the closing plate A and a tooth Jian shaped rod B is closed, when the closing plate Jian A and B to be closed inch toothed rod, the rotation command of the controller rod structure B B for reverse drive toothed inch needle rotation, the stop is closed, the rotation command of the controller working configuration C, to drive Jian closing shaft C, thus close down the plate C Jian, Jian large particles close objects stored on the plate C, falls within the ore-wall to facilitate the return inverted inch cartridge, can immediately falls down immediately cartridge also work ; End down large particles on the object C Jian closing plate, the rotation command of the controller working configuration C, Jian closing drive shaft C is rotated, so that the closing plate Jian C and D toothed bar is closed, when the closing plate Jian toothed rod and C D is closed to inches, the rotation command of the controller rod structure D D for the reverse drive toothed inch needle rotation, the stop is closed; a controller command structure A work rotation, driven rotation axis A Jian closed, thereby closing down Jian plates A, so that large particles falling objects When the above control signal received and collected by weight of the strip determines the closed Jian closing plate C has been filled inverted inch cartridge capacity, Jian closing command A and plate B toothed bar is closed, and when the tooth plate A closed Jian inch bar B to be closed, the rotation command of the controller rod structure B B for reverse drive toothed inch needle rotation, the stop is closed; obliquely from the separator vessel bottom ramps, so that large particles into a conductive object smoothly mine walls and inverted positions .
15. The apparatus according to claim ultrahigh magnetic mineral magnetite in claim 3, further characterized in that the increase of the rotational flow irrigation ultra-high magnetic mineral magnetite artificial intelligence means water, comprising: a screw-type ultrahigh magnetic magnetite water dressing apparatus, the cartridge down automatic working device, Jian ore falling off means, a reserve cartridge down large particles ore displacement apparatus, pulverizing apparatus, milling apparatus, the transmission apparatus ore flow, further characterized in that artificial increase; the increase in labor smart, is controlled by an increase in artificial intelligence, surveillance, the fitting state between the processing of each device's own operation state, and the equipment, to achieve a smooth efficient operation of the entire device; the magnetite mineral water spiral ultrahigh magnetic means , is a principle of using gravity, magnetite sand filling stall in going down, immediately drawn into the spiraling flow of sand, interaction, since the magnet-free sand lighter, rises to the top dressing is irrigation , from the tailings discharge port, heavy magnetite sand filling substantially stagnant central beneficiation, concentrator means ultrahigh magnetic beneficiation; The automatic work down the cartridge means during the screw-type ultrahigh magnetic magnetite mineral water, the large particles, and spiral flow fan rotating blade is not up, the sand of large particles will sink to the bottom filling, they automatically discharged to the outside of the filling apparatus; Jian the sand falling off means, the control means and large particles within the sand falling down bin falls less than; once the reserved capacity inverter apparatus ore bin large particles, once reserved Turning and sand particles of large capacity, easy to work faster inverted positions; the grinding means, the large particles are pulverized into sand dressing by means of sizes; said milling means, the elected magnetite sand, ground to 100 mesh size, good access to high-grade selection device
; Said transmission means ore flow, increase power, to maintain the flow of ore, sand flow velocity means a first beneficiation step: after pumping up the sand, the water enters the helical magnetite mineral ultrahigh magnetic means, the discharge flow of sand sand and fuse to form a new rotation of the rotating fan rotates upward flow of the ore, sand upward rotational flow generates a thrust in this inch irrigation dressing, their weights to fall iron, ferrous or non-ferrous less sea is pushed to the top of the sand, into the outlet end of Cheng rotation is excluded; push and fall in the middle of a mineral filling forming a relatively balanced position, is mounted on the water ultrahigh magnetic separator in this position, with their containing magnetite selected, collected and discharged into the outside of the apparatus irrigation dressing, beneficiation; has not been selected once ultrahigh water separator, sand or rotated as long as the irrigation side of this range, the water flows again often Super high magnetic separator will surely be next to be selected; no sand in irrigation side, will fall from the middle layer of filling, falling into the lower irrigation, it will be rotating fan came onto the edge of the sink, and Will be rotated in the middle of this range irrigation side, the chance of being selected to water again ultrahigh magnetic separator; spiral flow speed is of sand sheet P to determine the size, sand big points faster, or less than the normal flow of iron ore ultra-high magnetic separator, sand dots to slow down, or you can go from normal iron ore tailings outlet stream; in the heavy mineral sands, mineral filling stone, sand due to the large particles generating a rotational flow upward force to push it in front of the water is less than ultrahigh magnetic separator can not be selected, let alone to push the tailings discharge port is discharged, and then fall fan blades can not be rotated together, continued drops, large particles through the discharge gap falls down inside the cartridge, the weight detection control signal receiving section and determines the large particles collected sand has been filled cartridge inch down, the command transmission structure work, rotating the rotary body driven down the cartridge, the cartridge down so that work; Daoqu large particle cartridge and pour ore, the controller commanding transmission structure work, rotating the rotary body driven down the cartridge, the cartridge down so that the return; return positions after the inversion, the weight controller receives a detector signal, determines a large Ore particles loaded situation; then use once reserved for large particles of sand poured warehouse capacity device, the inverted positions and has been working in inches accumulated, after the return, quickly pour warehouse capacity once reserved for large particles of sand, pour down cartridge, accelerate discharging stone, sand large particles;
The second step of dressing: the first step out of the dressing, there are three things, large particles, magnetite sand tailings; large particles, if necessary on the pulverized mineral, pulverized ore flow device through the transmission, then enter the first beneficiation process, beneficiation; fill positions within the reef is not necessary to enter the loaded with sand; magnetite sand, semi-finished products can be sold or shipped to the selection of magnetite plant selection; now featured on into the milling apparatus; tailings, which contains smaller particles of magnetite sand, selected from the need to re-enter the water a helical ultrahigh magnetic mineral magnetite means just ore flow speed is slower, beneficiation beneficial; and sand by the size specification, the water enters the helical magnetite ultrahigh magnetic ore dressing devices of different flow velocity; specifications for finer magnetite mineral water spiral ultrahigh magnetic means grade magnetite elected the higher; tailings proceeds to fill the reef cartridge loaded with the sand;
The third step is the selection of dressing: the first step of a dressing, the second dressing step magnetite water ultrahigh magnetic concentrator elected magnetite sand mill into the apparatus, ground into 100 mesh slag , and then enter the product 100 only for the purposes of magnetite mineral water spiral ultrahigh magnetic means, beneficiation, out, the content should be 60% or more of the magnetite powder
16 An ultra-high magnetic mineral magnetite apparatus further characterized ultrasonic increase; the ultrasonic wave, mounted in the moving process of ore, acting before the end of the wave ultrahigh magnetic beneficiation under ultrasonic bombardment, small adhesion between the particles will be hit, so that adhesions are subject to different degrees of damage even be interrupted, then the use of this feature to ultrasonic bombardment magnetite sand, try to break the adhesion between magnetite sand, so super high maximum magnetic particles would require a non-component of the magnetite sand and sand particles required sub Jian, the sand particles to remove the non-required, improved ore grade.
17, according to claim 16- ultrahigh magnetic magnetite mineral species apparatus claim, further characterized in that a conveyor-type ultrahigh magnetic field means is selected from magnetite, comprising: magnetite sand (1), the belt (3), the pulley (2), ultrahigh electromagnetic coil (4), characterized in that the ultrasonic wave increases
(5); the magnetite sand flow (1), the moving body is composed of numerous magnetite sand; the belt (3), driven pulley (2), in between the two pulleys (2) Cycle rotation, the above magnetite sand falling stream (1) acceleration; said pulley (2), a belt (3) circulating rotational power source; the ultrahigh electromagnetic coil (4), mounted on the magnetite sand flow (1) during exercise, ultrahigh ultrahigh magnetic field coil (4) issued after the conductive ultrahigh magnetic field acts on the magnetite sand flow (1); said increased ultrasonic (5), mounted on the ore flow (1 ) during movement, before the end of the ultra-high magnetic beneficiation of ores selected stream (1
) Bombardment
Before the end of the belt type ultrahigh ultrahigh magnetic field means is selected from mineral magnetite, magnetite sand and then the ultrasonic bombardment, to require ingredient particles ores and non-required component particles blocking interrupted ultrahigh magnetic field , the magnet-free particles in the inertia smoothly through the magnetic field and the magnet containing mineral sands because of the effect of ultra-high magnetic field, are attracted changed trajectory, so as to achieve the required non-particle component was removed as far as possible, to improve the ore grade.
18, according to claim 16- ultrahigh magnetic magnetite mineral species apparatus, characterized in that the belt selected from magnetite small divisions apparatus, comprising: a belt selected from magnetite means has a small sub-grid, further characterized in that includes the addition of ultrasound (10); said small divisions belt means is selected from magnetite, is ruled by a small belt (3), a motor pulley (2), ultrahigh magnetic solenoid (4) thereof; said ultrasonic waves (10), mounted on the moving ore process, the ore is selected before the end of bombardment ultrahigh magnetic beneficiation;
In the dressing process a small belt selected from magnetite ruled apparatus, the period before the end of its high magnetic beneficiation, then bombarded by an ultrasonic magnetite sand, blocking the required particle ore particle component and a non-required component break, facilitates ultrahigh magnetic field, the non-required component removing particles as possible, to improve the quality of ore.
19. The 16- ultrahigh magnetic magnetite mineral species apparatus claims, characterized by one selected from the paddlewheel magnetite ore crawler scraping device, comprising: a blade paddlewheel track magnetite ore selected from the group means, further characterized in that the ultrasonic wave increases (11); the scratch track paddlewheel magnetite ore selected from the group means, the groove working platform (2), paddlewheel track (3), a motor, a pulley (4), ultrahigh a magnetic solenoid (5),; the ultrasonic wave (11), mounted on the movement ore stream (1), (1) is selected from the bombardment of the ore flow before the end of the ultra-high magnetic beneficiation;
In the dressing process paddlewheel selected track magnetite ore scraping device, the period before the end of its high magnetic beneficiation, then bombarded by an ultrasonic magnetite sand, blocking the required particle ore particle component and a non-required component try to interrupt, facilitates the ultrahigh magnetic field, the non-required component removing particles as possible, to improve the quality of ore.
20, according to claim 16- ultrahigh magnetic magnetite mineral species apparatus claims, characterized by one formula selected from the magnetite ores parabolic blow apparatus, comprising: a parabolic type is selected from magnetite ore blow apparatus, which is characterized in that increased ultrasound (11); said parabolic type selected from the magnetite sand blow device, by a motor, a parabolic wheel (4), a parabolic (2), a parabolic tooth (3)
Direction corrector (5), ultrahigh magnetic solenoid (6) composed of; the ultrasonic wave (11), mounted on the movement of magnetic iron ore flow (1), the magnet pairs are selected before the end of the ultra-high magnetic beneficiation ore stream (1) bombardment;
In the dressing process strike the parabolic formula is selected from magnetite ore in the apparatus, before the end of its high magnetic field mineral processing section, and then the magnetite sand ultrasonic bombardment, the particles need blocking ingredient particles ores and non-play as possible ingredients required break, facilitates the ultrahigh magnetic field, the non-required component removing particles as possible, to improve the quality of ore.
21, according to claim 16- ultrahigh magnetic magnetite mineral species apparatus claims, characterized by one type selected from strong wind magnetite ore apparatus, comprising: a formula selected from the strong wind magnetite ore apparatus further characterized in that including the addition of ultrasound (9); the strong wind is selected from magnetite ore type apparatus, the air outlet (2), the direction corrector (3), ultrahigh magnetic solenoid (4) the composition; the ultrasound (9) , mounted on a magnetic iron ore flow movement (1), (1) is selected from the bombardment of the magnetic iron ore flow before the end of the ultra-high magnetic beneficiation;
Strong wind ore beneficiation process apparatus of formula is selected from magnetite, the magnetic field section to its high mineral ore before the end of the parabolic type is selected from magnetite blow apparatus, and then the magnetite sand ultrasonic bombardment, the need of ore ingredient particles required components and non-blocking particles try to interrupt, facilitates the ultrahigh magnetic field, the non-required components of the particulate removal, improve the quality of ore.
22, according to claim 16- ultrahigh magnetic magnetite mineral species apparatus claim, further characterized in that the ultra-high magnetic beneficiation A nozzle apparatus comprising: a nozzle apparatus ultrahigh magnetic beneficiation, further characterized in that the ultrasonic wave increases ( 12); ultrahigh magnetic beneficiation of the nozzle means by a strong air duct
(1), air-jet nozzle (2), mixing chamber (3), the nozzle (4), fan nozzles (5), screw feed device (6), ultrahigh magnetic solenoid (7), a magnet mineral sands (8), tailings (9), a separator (10), the hopper (11) consisting of; the ultrasonic wave (12), mounted on the movement of the magnetic iron ore flow, before the end of the ultra-high magnetic beneficiation selected magnetic iron ore flow bombardment;
Ultra-high magnetic field before the end of processing, and then the ultrasonic bombardment magnetite sand, the sand required ingredient particles and a non-blocking particles need to try to interrupt composition, facilitates the ultrahigh magnetic field to remove particles of non-required component to improve the ore grade.
23, according to claim 16- ultrahigh magnetic magnetite mineral species apparatus, characterized in that the rotary irrigation flow ultra-high magnetic mineral magnetite from underwater apparatus, comprising: means magnetite mineral water, which characterized in that the increased ultrasound (9); the magnetite mineral water means by the wave tube (1), a power system (2), the shaft (3), the rotary blade (4), mineral filling ( 5), the end of Cheng outlet (6), the water separator (7), concentrate outlet (8) composition; said feed tube (1), located in mineral filling (5) above the bottom of the rotary blades (4) , external irrigation dredging, pumping sand tube, filling in the discharge stream and the mineral ore filling the same flow direction (5); the power system (2), in the mineral filling (5), and a shaft (3 ) is connected to the top; center (3), mineral filling (5) of the shaft, through a top dressing irrigation
(5) at the top, and the power system, and (2); said rotary blades (4), located in the lower portion of mineral filling (5) is fixed to the bottom end of the shaft (3); and the mineral filling (5), a cylindrical body shape, the processing equipment; Cheng outlet of the tail (6), located mineral filling (5) to the top, with the direction of the portion which mineral filling (5) is connected (5) tangent of the circle irrigation dressing; the water ultrahigh magnetic separator (7), located mineral filling (5) in the middle, can ultrahigh magnetic fields in a magnetic separator having a working water, the concentrate comprising selecting, collecting, outside of the apparatus parallel to the mineral filling; the fine ore outlet (8), the position and ultrahigh water separator (7) fit, shape, and its size is also routed to the selected ore beneficiation filling means (5) is matched; the ultrasonic wave, mounted dressing filling the outer movement of the ore, the ore selected for bombardment before the end of the ultra-high magnetic beneficiation; ultrahigh magnetic field before the end of the rotary flow-fill mineral dressing apparatus ultrahigh magnetic magnetite water, then by ultrasound on the magnetic iron sand bombardment, and the need for ingredient particles need to be in non-ore Blocking particles try to interrupt, it facilitates the ultrahigh magnetic field, the non-required component removing particles as possible, to improve the quality of ore.
24- ultrahigh magnetic magnetite mineral species combining means, characterized in that the dressing means further combination sequence; means for combining the mineral sequence after one kind of ultra-high magnetic mineral magnetite dressing apparatus, followed by ultra-high magnetic field means selected from magnetite;
After the dressing by means ultrahigh magnetic beneficiation one kind of magnetite particles due to some non-required speed, quality, angle, etc., mineral pool mistakenly fall, resulting in reduced quality of the mineral, and then through a solenoid magnetic ultrahigh , useful in the magnetite sand sucked, the magnetite has pulled away from a magnetic field, the magnet will be attracted to the electromagnetic coil ultrahigh magnetite sand away, away from the ultra-high magnetic field on the electromagnetic coil, magnet mineral sands beneficiation will free fall into the pool.
25, according to claim 24- ultrahigh magnetic magnetite mineral species combining means, characterized in that a conveyor-type ultrahigh magnetic field means is selected from magnetite composition, comprising: a conveyor-type ultrahigh magnetic field is selected from magnetite means sink (5), ultra-high magnetic field apparatus selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; ultra-high magnetic field of the one conveyor means is selected from magnetite, by the belt (3), a pulley ( 2), high electromagnetic coil (4), an ultrasonic composition (12); said sink (5), is composed of two partitions (11) composed of a wide - narrow shape, located on the ultra-high magnetic solenoid below; the ultrahigh magnetic field means is selected from magnetite, magnetite sand flow during the free fall, by means of ultra-high magnetic beneficiation; combination sequence of said dressing means is a conveyor selected from the ultra-high magnetic field after the mineral ore apparatus, followed by ultra-high magnetic field means is selected from magnetite;
Elected by means of a conveyor-type ultrahigh magnetic field means is selected from magnetite ore, magnetite sand flow is formed through the drain grooves, ultra-high magnetic field by means selected from magnetite again, you do not need to filter out the particles, again to improve grade ore .
26, according to claim 24- ultrahigh magnetic magnetite mineral species combining means, characterized in that the belt further composition is selected from magnetite small divisions apparatus, comprising: a magnetic one kind selected from a belt of small divisions iron means sink (11), ultra-high magnetic field apparatus selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; the one ruled small belt means is selected from magnetite, is a small fraction grid belt (3), a motor pulley (2), ultrasonic bombardment apparatus
(10), ultrahigh magnetic solenoid (4) thereof; said drain tank (11), by two partitions (8), with a wide - narrow shape, located ultrahigh magnetic solenoid (4) the following; the ultrahigh magnetic field means is selected from magnetite, magnetite sand during the free fall, with ultrahigh magnetic beneficiation means; means for combining said sequence of processing, is a conveyor selected from the ultra-high magnetic field after the mineral magnetite apparatus, followed by ultra-high magnetic field means is selected from magnetite;
After the belt selected from magnetite magnetite sand through the apparatus a kind of small bins, ore elected to form magnetite sand flow through the drain grooves, again through the ultrahigh magnetic field means is selected from magnetite, filter out the unwanted particles out to improve the ore grade again.
27. 24- ultrahigh magnetic magnetite mineral species combination apparatus as claimed in claim, further characterized in that one kind selected from the paddlewheel track magnetite ore composition scraping apparatus, comprising: one kind selected from sand scratch track paddlewheel magnetite means sink (12), ultra-high magnetic field apparatus selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; paddlewheel the one track selected from magnetite ore scraping means, by the groove working platform (2), paddlewheel track (3), a motor, a pulley (4), an ultrasonic bombardment apparatus (11), ultrahigh magnetic solenoid coils (5); said sink
(12), by two partitions (9), with a wide - narrow shape, positioned below the ultrahigh magnetic solenoid (5); the ultrahigh magnetic field means is selected from magnetite, by a diaphragm ( 9), the hopper (10), high electromagnetic coil (5) composed of the magnetite sand during the free fall, with ultrahigh magnetic beneficiation means; means for combining the mineral sequence, a waterwheel crawler magnetite ore selected from the scraping device processing, followed by ultra-high magnetic field means is selected from magnetite; magnetite sand through the latter paddlewheel selected from magnetite ore crawler scraping means elected ore, formed by the drain groove magnetite sand flow, again through the ultrahigh magnetic field means is selected from magnetite, it does not require the screening out of particles, again to improve grade ore.
28, according to claim 24- ultrahigh magnetic magnetite mineral species combining means, characterized in that one kind of formula is selected from magnetite ores parabolic blow combining means, comprising: ??? a formula selected from the magnetite ores parabolic blow means the sink (14), ultra-high magnetic field apparatus selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; the one type selected from the magnetite ores parabolic blow means by the motor, a parabolic wheel (4), a parabolic tooth (3), a parabolic (2), the direction corrector (5), the ultrasonic bombardment apparatus (11), ultrahigh magnetic solenoid (6) the composition; said drain tank (14), by two partitions (9) composition, a wide - narrow shape, located below the ultrahigh magnetic solenoid (6); said ultrahigh magnetic field means is selected from magnetite, magnetite sand flow during free fall, the apparatus ultrahigh magnetic beneficiation ; it means the sequence of said dressing composition is a formula selected from the magnetite ores parabolic blow device processing, followed by ultra-high magnetic field means is selected from magnetite;
Magnetite sand after one kind selected from the parabolic type magnetite ore after blow means elected ore, magnetite sand flow is formed through the drain tank through ultrahigh magnetic field means is selected from magnetite again, do not need to filter out the particles, to improve the ore grade again.
29, according to claim 24- ultrahigh magnetic magnetite mineral species combining means, characterized in that a strongly wind magnetite ore formula selected from the combining means, comprising: a potent formula selected from magnetite ore wind means, drain grooves (12), ultra-high magnetic field apparatus selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; the one type selected from strong wind magnetite ore apparatus, the air outlet (2), the direction corrector ( 3), the ultrasonic bombardment apparatus (9), ultrahigh magnetic solenoid (4) composition; said drain tank (12), by two baffles (7), with a wide - narrow shape, located ultrahigh magnetic the following electromagnetic coil (4); said ultrahigh magnetic field means is selected from magnetite, magnetite sand flow (1) during the free fall, with ultrahigh magnetic beneficiation means; means for combining the mineral sequence, a conveyorized latter ultrahigh magnetic field means is selected from mineral magnetite, followed by ultra-high magnetic field means is selected from magnetite;
Magnetite sand through the sand-type is selected from a strongly wind magnetite means elected ore, magnetite sand flow is formed through the drain tank through ultrahigh magnetic field means is selected from magnetite again, do not need to filter out the particles, to improve the ore grade again.
30, 24- The ultrahigh magnetic magnetite mineral species combination apparatus as claimed in claim, characterized in that the combining means further ultrahigh magnetic beneficiation of formula A nozzle comprising: A nozzle apparatus ultra-high magnetic beneficiation, sink, ultrahigh magnetic field means is selected from magnetite, further characterized in that the dressing comprises a composition means sequentially; the one nozzle means ultrahigh magnetic beneficiation, from strong wind pipe (1), air-jet nozzle
(2), mixing chamber (3), the nozzle (4), fan nozzles (5), screw feed device (6), ultrahigh magnetic solenoid (7), magnetite sand (8), the tail mine (9), a separator (11), the hopper (15), consisting of an ultrasonic bombardment apparatus (12); said drain tank (10), by two baffles (11), with a wide - narrow shape, located ultrahigh magnetic solenoid (7) below; the ultrahigh magnetic field means is selected from magnetite, magnetite sand flow during the free fall, by means of ultra-high magnetic beneficiation; combination sequence of said dressing means is the latter nozzle means ultrahigh magnetic mineral beneficiation, followed by ultra-high magnetic field means is selected from magnetite; elected by means of a nozzle apparatus ultrahigh magnetic ore dressing, formation of magnetite sand flow through the drain grooves, again by an ultra a high magnetic field means is selected from magnetite, you do not need to filter out the particles, again to improve grade ore.
PCT/CN2016/088802 2015-07-07 2016-07-06 Magnetite separation apparatus by means of ultrahigh magnetic field WO2017005190A1 (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
CN201520483354.6 2015-07-07
CN 201520483428 CN204746575U (en) 2015-07-07 2015-07-07 Mineral processing equipment
CN 201520483354 CN204842218U (en) 2015-07-07 2015-07-07 Choice equipment of magnetic iron ore
CN201520483428.6 2015-07-07
CN 201610174050 CN105562203A (en) 2016-03-24 2016-03-24 Superhigh magnetic field iron ore dressing device
CN201610174050.0 2016-03-24

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CN103041921A (en) * 2012-12-20 2013-04-17 山东科力华电磁设备有限公司 Method for extracting iron ore concentrate under anhydrous condition
CN204842218U (en) * 2015-07-07 2015-12-09 何征徽 Choice equipment of magnetic iron ore
CN105562202A (en) * 2016-03-24 2016-05-11 陈勇 Conveyor belt type magnetite screening combined device for an ultrahigh magnetic field
CN105562201A (en) * 2016-03-24 2016-05-11 陈勇 Waterwheel track type ore sand scraping and magnetite concentrating combined device
CN105562203A (en) * 2016-03-24 2016-05-11 陈勇 Superhigh magnetic field iron ore dressing device
CN105618253A (en) * 2016-03-24 2016-06-01 陈勇 Device for magnetite separation by impacting ore sand through paraboloid
CN105618263A (en) * 2016-03-24 2016-06-01 陈勇 Repeated ultra-high-magnetic field ironstone beneficiation device
CN105618260A (en) * 2016-03-24 2016-06-01 陈勇 Device for magnetite separation by blowing ore sand through strong breeze
CN105618259A (en) * 2016-03-24 2016-06-01 陈勇 Combination device for magnetite separation by blowing ore sand through strong breeze
CN105689122A (en) * 2016-03-24 2016-06-22 陈勇 Paraboloidal magnetite sand bombarding type magnetite separation combination device
CN105689118A (en) * 2016-03-24 2016-06-22 陈勇 Belt magnetite separation combination device with small partition grids
CN105689120A (en) * 2016-03-24 2016-06-22 陈勇 Device used for pulling magnetite out of magnetic field
CN105728186A (en) * 2016-03-24 2016-07-06 陈勇 Magnetite beneficiation device with belt with small grids

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