CN103447149A

CN103447149A - Iron-titanium ore magnetic separator

Info

Publication number: CN103447149A
Application number: CN2013103933909A
Authority: CN
Inventors: 罗烈怀; 杜洋
Original assignee: PANZHIHUA CHANGSEN INDUSTRIAL AND TRADING Co Ltd
Current assignee: PANZHIHUA CHANGSEN INDUSTRIAL AND TRADING Co Ltd
Priority date: 2013-09-02
Filing date: 2013-09-02
Publication date: 2013-12-18

Abstract

The invention relates to an iron-titanium ore magnetic separator which comprises a rack, a magnetic separation mechanism and a feeding hopper, wherein the magnetic separation mechanism comprises a titanium concentration device, an iron-titanium separation device, a titanium selection motor and an iron-titanium separation motor; the titanium concentration device is driven by the titanium selection motor, a titanium concentrate discharging hopper, a titanium ore recovery hopper and a tailings discharging hopper are arranged at the lower side of the titanium concentration device; a titanium concentrate precision regulator is arranged at one sides of feeding ports of the titanium concentrate discharging hopper and the titanium ore recovery hopper; a tailings precision regulator is arranged at one side of a feeding port of the tailings discharging hopper; the iron-titanium separation device is driven by the iron-titanium separation motor and comprises a first iron-titanium separation device and a second iron-titanium separation device; iron-titanium separation precision regulators are arranged at one sides of an iron-titanium mixture discharging hopper and an iron-titanium powder discharging hopper which are arranged at the lower side of the first iron-titanium separation device and at one sides of a titanium-in-iron discharging hopper and an iron powder discharging hopper which are arranged at the lower side of the second iron-titanium separation device. The iron-titanium ore magnetic separator is simple and reasonable in structural design, high in magnetic separation efficiency, good in effect and capable of effectively screening and separating minerals, and is environment-friendly.

Description

The arizonite magnetic separator

Technical field

The present invention relates to a kind of magnetic plant, relate in particular to a kind of arizonite magnetic separator.

Background technology

Magnetic separator is one of most popular in industrial circle, that versatility is high machine, is applicable to recycle remove iron powder etc. in the powdery plastochondria.The resource that magnetic separator is widely used in the workshops such as lumbering, mining industry, ceramic industry, chemistry, food reclaims.Magnetic separator is applicable to wet type or the dry type magnetic separation of the materials such as the following manganese ore of granularity 3mm, magnetic iron ore, magnetic iron ore, roasted ore, ilmenite, also for the deironing operation of the materials such as coal, nonmetallic ore, building materials.The magnetic separation process is in the magnetic field of magnetic separator, by magnetic force and mechanical force to the effect of ore particle and realize sorting.The ore particle of different magnetic, along different orbiting motions, is elected two or more independent dressing products as thereby divide.Yet, existing magnetic separator is the common more complicated of structure not only, cost is higher, and efficiency of magnetic separation is low, weak effect and the choosing amount lower, can not carry out Effective selection to some mineral, screen second-rate, can't meet existing industrial needs, by repeatedly after final election, just reaching selected mineral products quality, in the untreated direct discharge of production process dust, very large to production work environment sound, not environmental protection.

Above-mentioned known, be necessary prior art further perfect.

Summary of the invention

The present invention be in order to solve existing magnetic separator complex structure, cost is high, problems such as efficiency of magnetic separation is low, weak effect and to propose a kind of structural design simple, efficiency of magnetic separation is high, effective, can carry out Effective selection and separate mineral, the high arizonite magnetic separator of screening quality.

The present invention is achieved by the following technical solutions:

Above-mentioned arizonite magnetic separator, comprise that frame, coupling are installed in the magnetic separation mechanism of described frame and the feed hopper arranged with described magnetic separation mechanism coupling; Described magnetic separation mechanism comprises the ferrotitanium sorting motor that selects the titanium motor, arranges with described ferrotitanium sorting unit coupling that coupling is located at the inner titanium selecting device of described frame and ferrotitanium sorting unit and is arranged with described titanium selecting device coupling; Described titanium selecting device is driven by the described titanium motor that selects, and its downside coupling is provided with the ilmenite concentrate discharge bucket, titanium ore reclaims hopper and mine tailing discharge bucket; The charging aperture one side coupling that described ilmenite concentrate discharge bucket and titanium ore reclaim hopper is provided with the ilmenite concentrate precise regulator; The charging aperture one side coupling of described mine tailing discharge bucket is provided with the mine tailing precise regulator; Described ferrotitanium sorting unit is driven by described ferrotitanium sorting motor, and it comprises that coupling is located at the second ferrotitanium sorting unit that the first ferrotitanium sorting unit of described feed hopper downside and coupling are located at bottom in described frame; Described the first ferrotitanium sorting unit downside coupling is provided with under the ferrotitanium mixture ore bucket under ore bucket and ferrotitanium powder; Under described ferrotitanium mixture under ore bucket and ferrotitanium powder the charging aperture one side coupling of ore bucket be provided with the first ferrotitanium sharpness of separation adjuster; Described the second ferrotitanium sorting unit downside coupling is provided with titanium discharge bucket and iron powder discharge bucket in iron, and in described iron, the charging aperture one side coupling of titanium discharge bucket and iron powder discharge bucket is provided with the second ferrotitanium sharpness of separation adjuster.

Described arizonite magnetic separator, wherein: described titanium selecting device is to be symmetrically set at least one pair of of the inner both sides of described frame, and each described titanium selecting device includes the selected magnet drum of titanium, coupling and is installed in the selected end cap of titanium at cylindrical shell two ends of the selected magnet drum of described titanium and inner barrel and the two ends hinged selected rotating shaft of titanium that is limited in described frame respectively that coupling is arranged in the selected magnet drum of titanium; Described the first ferrotitanium sorting unit is positioned at described frame inside and, for mating at least one pair of that be located at described feed hopper downside, itself and described the second ferrotitanium sorting unit include ferrotitanium sorting magnet drum, the ferrotitanium sorting cover plate that mates the cylindrical shell two ends that are installed in ferrotitanium sorting magnet drum and inner barrel and the two ends hinged ferrotitanium sorting rotating shaft that is limited in described frame respectively that coupling is arranged in ferrotitanium sorting magnet drum; The described titanium motor that selects is to be at least one pair of that is symmetrically set in the relative both sides of described frame, and each described titanium motor that selects all is connected by the selected rotating shaft coupling of belt and described titanium; Described ferrotitanium sorting motor comprises the first ferrotitanium sorting motor and the second ferrotitanium sorting motor; Described the first ferrotitanium sorting motor is to be symmetrically set at least one pair of of the relative both sides of described frame, and each described first ferrotitanium sorting motor all is positioned at and describedly selects titanium motor one side and all be connected with described ferrotitanium sorting rotating shaft coupling by belt; Described the second ferrotitanium sorting motor is located at the center bottom of described frame, and it also is connected by the described ferrotitanium sorting of belt and another rotating shaft coupling.

Described arizonite magnetic separator, wherein: described ilmenite concentrate discharge bucket and titanium ore reclaim hopper and all are vertical setting, and its lower end discharging opening all protrudes out the bottom of described frame; Described mine tailing discharge bucket from top to bottom is obliquely installed at an angle towards the outside of described frame.

Described arizonite magnetic separator, wherein: the upper end of described the second ferrotitanium sorting unit of the discharging opening of ore bucket coupling aligning under ore bucket and ferrotitanium powder under described ferrotitanium mixture; Under described ferrotitanium mixture, ore bucket tilts towards the center of described frame and the discharging opening coupling is aimed at the upper end of described the second ferrotitanium sorting unit from top to bottom at an angle; Under described ferrotitanium powder, ore bucket mates towards the inclination at an angle of the described frame outside and discharging opening the upper end of aiming at described titanium selecting device from top to bottom.

Described arizonite magnetic separator, wherein: in described iron, titanium discharge bucket and iron powder discharge bucket are vertically and are arranged side by side, and its lower end discharging opening all protrudes out the bottom of described frame.

Described arizonite magnetic separator, wherein: described feed hopper is to be symmetricly set at least one pair of of inboard, described frame top; Each described feed hopper all is inverted vertebral body structure, and its upper end charging aperture is concordant with the top of described frame and be opening-wide state, and the bottom discharging opening is provided with feed controller.

Described arizonite magnetic separator, wherein: the bottom of described frame is arranged with leg, and one group of opposing sidewalls is arranged with respectively at least one pair of dust-exhausting port.

Described arizonite magnetic separator, wherein: described magnetic separator also comprises that coupling is arranged at the dusting fan of described frame inside, the air outlet coupling of described dusting fan is aimed at described dust-exhausting port.

Beneficial effect:

Arizonite magnetic separator structural design of the present invention is simple, reasonable, wherein, by being the analysis of technical performance feature to magnetic, has optimized the magnetic architecture, has improved magnetic field intensity and the magnetic field gradient of magnetic separator, has increased the depth of interaction of magnetic field force; By the adjustment to the magnetic separator product structure, the substance magnetic separation is upgraded to multiple magnetic separation, increased the rolling number of times of magnetic mineral in magnetic field, improved concentrate grade; Per hour treating capacity can reach 20 tons, decrease production cost, improved production efficiency; After the ore that magnetic separator obtains tailings discarding by preconcentration selects by mill rank, rank, can obtain iron ore concentrate Fe taste is 57.08%, and the rate of recovery reaches 53.16% iron ore concentrate; The magnetic separation function makes the titanium taste in the titanium mine tailing drop to 1.5%, and the iron ore concentrate titaniferous amount of selecting drops to 15%, and the dry separation operation recovery is more than 85%; Simultaneously, the dusting fan that adds autonomous Design dust in process of production directly is not discharged in air, can greatly improve working environment; The significant points such as the end cap of titanium selecting device and ferrotitanium sorting unit, rotating shaft and frame adopt the T-Vi Microalloyed Steel manufacture, what the cylindrical shell of the magnet drum of titanium selecting device and ferrotitanium sorting unit adopted is stainless steel, has improved magnetic separator wearability and stability; Whole magnetic separator not only efficiency of magnetic separation is high, effective, and can carry out Effective selection and separate mineral, and the screening quality is high, and environmental protection more simultaneously, be suitable for propagation and employment.

The accompanying drawing explanation

The structural representation that Fig. 1 is arizonite magnetic separator of the present invention;

Another structural representation that Fig. 2 is arizonite magnetic separator of the present invention.

The specific embodiment

The noun of locality related in the present invention " on ", D score and " top ", " end ", " interior ", " outward " all with accompanying drawing 1 towards consistent.

As shown in Figure 1, 2, arizonite magnetic separator of the present invention, comprise frame 1, feed hopper 2, magnetic separation mechanism 3 and dusting fan 4.

Frame 1 is symmetrical box typed structure, and its bottom is arranged with 11, one groups of opposing sidewalls of leg and is arranged with respectively at least one pair of dust-exhausting port 12.

Feed hopper 2 is for being symmetricly set at least one pair of of frame 1 inboard, top, each feed hopper 2 all is inverted vertebral body structure, its upper end charging aperture is concordant with the top of frame 1 and be opening-wide state, the bottom discharging opening is positioned at frame 1 inboard, top and also is provided with feed controller 21, can control the discharging speed of feed hopper 2 by feed controller 21 in good time.

Magnetic separation mechanism 3 coupling is installed on frame 1, and it comprises and selects titanium motor 31, ferrotitanium sorting motor 32, titanium selecting device 33 and ferrotitanium sorting unit 34.

Select titanium motor 31 for to be symmetrical set at least one pair of in frame 1 relative both sides, wherein, each selects titanium motor 31 all to be connected with titanium selecting device 33 couplings by belt 5.

Ferrotitanium sorting motor 32 comprises the first ferrotitanium sorting motor 321 and the second ferrotitanium sorting motor 322;

Wherein, at least one pair of that this first ferrotitanium sorting motor 321 is the relative both sides that are symmetricly set in frame 1, each first ferrotitanium sorting motor 321 all is positioned at and selects titanium motor 31 1 sides and all by belt 5, with ferrotitanium sorting unit 34, mate and be connected;

This second ferrotitanium sorting motor 322 is located at the center bottom of frame 1, and it also is connected with ferrotitanium sorting unit 34 couplings by belt 5.

Titanium selecting device 33 is for being symmetrically set at least one pair of of frame 1 inner both sides, each titanium selecting device 33 is by the selected magnet drum of titanium, the selected end cap of titanium that mates the cylindrical shell two ends that are installed in the selected magnet drum of titanium and inner barrel and the two ends hinged selected rotating shaft of titanium that is limited in frame 1 respectively that is arranged in the selected magnet drum of titanium, and the selected rotating shaft of this titanium is connected with selecting titanium motor 3 couplings by belt 5; In the present embodiment, the selected end cap of titanium and the selected rotating shaft of titanium all adopt containing the T-Vi Microalloyed Steel manufacture, and the cylindrical shell of the selected magnet drum of titanium adopts the stainless steel manufacture.Wherein, each titanium selecting device 33 is by selecting titanium motor 31 to drive, its downside also mate be provided with ilmenite concentrate discharge bucket 331, titanium ore reclaims hopper 332 and mine tailing discharge bucket 333; Ilmenite concentrate discharge bucket 331 and titanium ore reclaim hopper 332 and all are vertical setting, its upper end charging aperture one side coupling is provided with ilmenite concentrate precise regulator 334, the lower end discharging opening all protrudes out the bottom of frame 1, but controls from titanium selecting device 33 precision of ilmenite concentrate out by 334 timely adjustments of ilmenite concentrate precise regulator; Mine tailing discharge bucket 333 from top to bottom is obliquely installed at an angle towards the outside of frame 1, its upper end charging aperture one side coupling is provided with mine tailing precise regulator 335, but controls from titanium selecting device 33 precision of mine tailing out by 335 timely adjustments of mine tailing precise regulator.

Ferrotitanium sorting unit 34 also mates and is arranged at frame 1 inside, it comprises ferrotitanium sorting magnet drum, the ferrotitanium sorting cover plate that mates the cylindrical shell two ends that are installed in ferrotitanium sorting magnet drum and inner barrel and the two ends hinged ferrotitanium sorting rotating shaft that is limited in frame 1 respectively that coupling is arranged in ferrotitanium sorting magnet drum, and this ferrotitanium sorting rotating shaft is connected with ferrotitanium sorting motor 32 couplings by belt 5; In the present embodiment, this ferrotitanium sorting cover plate and ferrotitanium sorting rotating shaft all adopt containing the T-Vi Microalloyed Steel manufacture, and the cylindrical shell of ferrotitanium sorting magnet drum adopts the stainless steel manufacture; Wherein, this ferrotitanium sorting unit 34 comprises the first ferrotitanium sorting unit 341 and the second ferrotitanium sorting unit 342;

This first ferrotitanium sorting unit 341 is for mating respectively at least one pair of that is arranged at a pair of feed hopper 2 downsides, each first ferrotitanium sorting unit 341 all mates the discharging opening downside that is positioned at feed hopper 2 and drives by ferrotitanium sorting motor 32, and its downside also mates and is provided with under the ferrotitanium mixture ore bucket 344 under ore bucket 343 and ferrotitanium powder; Wherein, under this ferrotitanium mixture, ore bucket 343 tilts towards the center of frame 1 and the discharging opening coupling is aimed at the upper end of the second ferrotitanium sorting unit 342 from top to bottom at an angle; The upper end that under this ferrotitanium powder, ore bucket 344 tilts at an angle towards frame 1 outside from top to bottom and discharging opening mates aligning titanium selecting device 5; Under the ferrotitanium mixture, under ore bucket 343 and ferrotitanium powder, ore bucket 344 upper end charging aperture one sides are also mated and are provided with the first ferrotitanium sharpness of separation adjuster 345, but control from ferrotitanium sorting unit 34 precision of arizonite out by the first ferrotitanium sharpness of separation adjuster 345 timely adjustments.

The interior bottom side of frame 1 is located at by this second ferrotitanium sorting unit 342 and, between a pair of titanium selecting device 5, it is driven by the second ferrotitanium sorting motor 322, and upper end is aimed at the discharging opening coupling of ore bucket 344 under ore bucket 343 under the ferrotitanium mixture and ferrotitanium powder; Wherein, the downside of this second ferrotitanium sorting unit 342 also mates and is provided with titanium discharge bucket 346 and iron powder discharge bucket 347 in iron, in this iron, titanium discharge bucket 346 and iron powder discharge bucket 347 vertically are arranged side by side, upside charging aperture one side is also mated and is provided with the second ferrotitanium sharpness of separation adjuster 348, and the lower end discharging opening protrudes out the bottom of frame 1.

Dusting fan 4 is positioned at the inside of frame 1, and its coupling is arranged at frame 1 inside and air outlet is aimed at the dust-exhausting port 12 of frame 1, the dust of frame 1 inside can be discharged from dust-exhausting port 12.

Structural design of the present invention is simple, reasonable, and wherein, not only efficiency of magnetic separation is high, effective, and can carry out Effective selection and separate mineral, and the screening quality is high, is suitable for propagation and employment.

Claims

1. an arizonite magnetic separator, comprise that frame, coupling are installed in the magnetic separation mechanism of described frame and the feed hopper arranged with described magnetic separation mechanism coupling; It is characterized in that: described magnetic separation mechanism comprises the ferrotitanium sorting motor that selects the titanium motor, arranges with described ferrotitanium sorting unit coupling that coupling is located at the inner titanium selecting device of described frame and ferrotitanium sorting unit and is arranged with described titanium selecting device coupling;

Described titanium selecting device is driven by the described titanium motor that selects, and its downside coupling is provided with the ilmenite concentrate discharge bucket, titanium ore reclaims hopper and mine tailing discharge bucket; The charging aperture one side coupling that described ilmenite concentrate discharge bucket and titanium ore reclaim hopper is provided with the ilmenite concentrate precise regulator; The charging aperture one side coupling of described mine tailing discharge bucket is provided with the mine tailing precise regulator;

Described ferrotitanium sorting unit is driven by described ferrotitanium sorting motor, and it comprises that coupling is located at the second ferrotitanium sorting unit that the first ferrotitanium sorting unit of described feed hopper downside and coupling are located at bottom in described frame;

Described the first ferrotitanium sorting unit downside coupling is provided with under the ferrotitanium mixture ore bucket under ore bucket and ferrotitanium powder; Under described ferrotitanium mixture under ore bucket and ferrotitanium powder the charging aperture one side coupling of ore bucket be provided with the first ferrotitanium sharpness of separation adjuster;

Described the second ferrotitanium sorting unit downside coupling is provided with titanium discharge bucket and iron powder discharge bucket in iron, and in described iron, the charging aperture one side coupling of titanium discharge bucket and iron powder discharge bucket is provided with the second ferrotitanium sharpness of separation adjuster.

2. arizonite magnetic separator as claimed in claim 1, it is characterized in that: described titanium selecting device is to be symmetrically set at least one pair of of the inner both sides of described frame, and each described titanium selecting device includes the selected magnet drum of titanium, coupling and is installed in the selected end cap of titanium at cylindrical shell two ends of the selected magnet drum of described titanium and inner barrel and the two ends hinged selected rotating shaft of titanium that is limited in described frame respectively that coupling is arranged in the selected magnet drum of titanium;

Described the first ferrotitanium sorting unit is positioned at described frame inside and, for mating at least one pair of that be located at described feed hopper downside, itself and described the second ferrotitanium sorting unit include ferrotitanium sorting magnet drum, the ferrotitanium sorting cover plate that mates the cylindrical shell two ends that are installed in ferrotitanium sorting magnet drum and inner barrel and the two ends hinged ferrotitanium sorting rotating shaft that is limited in described frame respectively that coupling is arranged in ferrotitanium sorting magnet drum;

The described titanium motor that selects is to be at least one pair of that is symmetrically set in the relative both sides of described frame, and each described titanium motor that selects all is connected by the selected rotating shaft coupling of belt and described titanium;

Described ferrotitanium sorting motor comprises the first ferrotitanium sorting motor and the second ferrotitanium sorting motor;

Described the first ferrotitanium sorting motor is to be symmetrically set at least one pair of of the relative both sides of described frame, and each described first ferrotitanium sorting motor all is positioned at and describedly selects titanium motor one side and all be connected with described ferrotitanium sorting rotating shaft coupling by belt;

Described the second ferrotitanium sorting motor is located at the center bottom of described frame, and it also is connected by the described ferrotitanium sorting of belt and another rotating shaft coupling.

3. arizonite magnetic separator as claimed in claim 1 is characterized in that: described ilmenite concentrate discharge bucket and titanium ore reclaim hopper and all are vertical setting, and its lower end discharging opening all protrudes out the bottom of described frame;

Described mine tailing discharge bucket from top to bottom is obliquely installed at an angle towards the outside of described frame.

4. arizonite magnetic separator as claimed in claim 1, is characterized in that: the upper end of described the second ferrotitanium sorting unit of the discharging opening of ore bucket coupling aligning under ore bucket and ferrotitanium powder under described ferrotitanium mixture;

Under described ferrotitanium mixture, ore bucket tilts towards the center of described frame and the discharging opening coupling is aimed at the upper end of described the second ferrotitanium sorting unit from top to bottom at an angle;

Under described ferrotitanium powder, ore bucket mates towards the inclination at an angle of the described frame outside and discharging opening the upper end of aiming at described titanium selecting device from top to bottom.

5. arizonite magnetic separator as claimed in claim 1 is characterized in that: in described iron, titanium discharge bucket and iron powder discharge bucket are vertically and are arranged side by side, and its lower end discharging opening all protrudes out the bottom of described frame.

6. arizonite magnetic separator as claimed in claim 1 is characterized in that: described feed hopper is to be symmetricly set at least one pair of of inboard, described frame top; Each described feed hopper all is inverted vertebral body structure, and its upper end charging aperture is concordant with the top of described frame and be opening-wide state, and the bottom discharging opening is provided with feed controller.

7. described arizonite magnetic separator as arbitrary as claim 1 to 6, it is characterized in that: the bottom of described frame is arranged with leg, and one group of opposing sidewalls is arranged with respectively at least one pair of dust-exhausting port.

8. arizonite magnetic separator as claimed in claim 7 is characterized in that: described magnetic separator also comprises that coupling is arranged at the dusting fan of described frame inside, and the air outlet coupling of described dusting fan is aimed at described dust-exhausting port.