CN205462712U

CN205462712U - Magnetic domain closed type magnetic separator de -ironing

Info

Publication number: CN205462712U
Application number: CN201620213339.4U
Authority: CN
Inventors: 杨建�
Original assignee: Xinxiang Senyou Mechanical And Electrical Co Ltd
Current assignee: Xinxiang Senyou Mechanical And Electrical Co Ltd
Priority date: 2016-03-18
Filing date: 2016-03-18
Publication date: 2016-08-17
Anticipated expiration: 2026-03-18

Abstract

The utility model discloses a magnetic domain closed type magnetic separator de -ironing, including the frame, be equipped with working chamber, permanent magnetism deironing device and translation device in the frame, especial, this permanent magnetism deironing device is including the casing that is the tubular structure, be equipped with the closed annular permanent magnetism meson group that is of cross section in this casing, this permanent magnetism meson inter block is formed with the cylindrical space who is on a parallel with the horizontal plane, the working chamber sets up in this cylindrical space, the motion portion that can follow the vertical reciprocating motion of casing that is equipped with on this translation device, this motion portion links to each other with the casing. The utility model has the advantages of magnetic field intensity is high, demagnetization rate in magnetic field is low, use cost is low, the fault rate is low, maintain convenient, easy operation.

Description

A kind of magnetic region closed type magnetic separator de-ironing

Technical field

This utility model relates to deironing apparatus, especially relates to a kind of magnetic region closed type magnetic separator de-ironing.

Background technology

In the field raw material courses of processing such as pottery, glass, chemical industry, medicine and food, deironing apparatus generally need be used to go Except the ferromagnetic material in raw-material, to improve raw-material degree of purity.At present, deironing apparatus generally comprises deferrization machine of static type With electromagnetic type magnetic separator de-ironing two kinds.

Deferrization machine of static type Energy in use is relatively low, and regular maintenance is the simplest, such as the patent that Authorization Notice No. is CN 00995170Y File discloses a kind of high-efficient deferrization magnetic separator, the south including the working chamber made with non-magnet_conductible material, being positioned at working chamber both sides, The relative permanent magnet in the arctic, being positioned at working chamber mineral fluids import department mineral fluid dispensing port, working chamber is provided with soft magnetic materials, It is particular in that working chamber connects and has lateral dynamics mobile device, is provided above automatically rushing without magnetic region on permanent magnet side Cleaning device, the sidewall at working chamber is provided with auto-flushing mouth, is provided with the valvular remaining slurry floss hole of band in the bottom of working chamber, Slurry discharge pipe is connected in the bottom of working chamber.But, existing deferrization machine of static type is the most only enclosed shape by 3～4 block permanent magnets Becoming the magnetic region that outline is rectangular, magnetic field intensity is low, and de-ferrous effect is limited.

The magnetic field intensity of electromagnetic type magnetic separator de-ironing is higher, a kind of as disclosed in the application documents that application publication number is CN 104353549A Electromagnetic deironing machine, including frame, inner core, heat dissipation tank, solenoid, demagnetizer and power supply, inner tube installation is in frame, electric Magnetic coil is wound on outside inner core, and inner core lower end arranges charging aperture and slag-drip opening, fills soft magnetism steel wool in inner core.Inner core upper end is sheathed Lifting bucket, lifting bucket top arranges discharging opening and water inlet, and lifting bottom of the barrel arranges through hole, and lifting bucket can in inner core up and down Slide.But, the structure of electromagnetic type magnetic separator de-ironing is more more complicated than the structure of deferrization machine of static type, and fault rate is high, and regular maintenance is suitable Inconvenience, and electromagnetic type magnetic separator de-ironing energy consumption used in everyday is relatively big, and use cost is higher.

For this reason, it is necessary to a kind of magnetic field intensity of research is high, energy consumption is low, simple to operate, the convenient magnetic separator de-ironing of regular maintenance.

Utility model content

The purpose of this utility model is the magnetic separator de-ironing that a kind of magnetic field intensity is high, magnetic field demagnetization rate is low.

To achieve these goals, this utility model adopts the following technical scheme that

A kind of magnetic region closed type magnetic separator de-ironing, including frame, is provided with working chamber, permanent-magnet iron removing device and translating device in frame；Special Other, this permanent-magnet iron removing device includes the housing in tubular structure；It is provided with cross section in this housing and closes permanent magnetism meson in the form of a ring Group, is formed with, in this permanent magnetism meson group, the cylindrical space being parallel to horizontal plane；Working chamber is arranged in this cylindrical space；This translation Device is provided with can be along the portion that moves of the longitudinally reciprocal movement of housing, and this motion portion is connected with housing.

The bottom of working chamber is provided with slurry inlet, and the top of working chamber is provided with slurry outlet.Slurry enters working chamber from slurry inlet, And flow out from slurry outlet.Bank mouth additionally, the bottom of working chamber is additionally provided with one, be used for draining working chamber before cleaning soft magnetism meson The slurry of interior residual.

The top of working chamber can be provided with several and communicate with outside water tank for the cleaning shower nozzle cleaning soft magnetism meson, cleaning shower nozzle. Water tank provides water for cleaning for cleaning shower nozzle.

Translating device can be oil cylinder, cylinder or other executive components carrying out straight reciprocating motion being usually used in providing mechanical energy Or structure.

Principle of the present utility model is as follows:

For sizing material iron removing process:

Under the drive of translating device, permanent-magnet iron removing device can be along the longitudinally reciprocal movement of housing, so that working chamber can be empty through column Between debouch permanent magnetism meson group.The linear guide being connected with translating device can be installed in frame, guide permanent-magnet iron removing device to move Direction, when preventing permanent-magnet iron removing device from moving, position occurs that deviation causes working chamber cannot pass in and out permanent-magnet iron removing device.Translation dress Put drive permanent-magnet iron removing device to move, make working chamber be wrapped in permanent magnetism meson group.Soft magnetism meson in working chamber is in magnetic field Under the influence of, it is thus achieved that magnetic.Because the cross section of permanent magnetism meson group is closed in the form of a ring, the magnetic field that permanent magnetism meson device is formed has very Strong magnetic, the magnetic of the soft magnetism meson in the more traditional deferrization machine of static type of magnetic of the soft magnetism meson in working chamber is higher.

Slurry is in slurry inlet enters working chamber, and moves toward slurry outlet.When slurry flows soft magnetism meson, in slurry Iron powder, immediately under the attraction of soft magnetism meson, sticks to the surface of soft magnetism meson.Except the slurry after ferrum i.e. flows out from slurry outlet.

Cleaning process for soft magnetism meson:

Open the mouth of banking of working chamber, the slurry remained in draining working chamber, subsequently, start translating device, the fortune of translating device Dynamic portion drives permanent-magnet iron removing device to move.Permanent-magnet iron removing device vertically moves along housing, separates with working chamber.Now, working chamber Departing from effective magnetic region, the soft magnetism meson in working chamber loses magnetism.Controlling to clean shower nozzle to open, the water in storage tank is i.e. from clearly Washing shower nozzle to spray to working chamber, the iron powder on soft magnetism meson can be washed away by current, completes the cleaning of soft magnetism meson.

The enclosed cross of permanent magnetism meson group in the form of a ring, is formed in parallel with the cylindrical space of horizontal plane.It is empty that working chamber is arranged on this column In, with the magnetic of forced working intracavity soft magnetism meson.For making the magnetic field intensity in cylindrical space higher, the magnetic of permanent magnetism meson group The line of force is preferably closed in the form of a ring, to this, permanent magnetism meson group can by the first permanent magnet, the second permanent magnet, the 3rd permanent magnet, the 4th Permanent magnet, the 5th permanent magnet, the 6th permanent magnet, the 7th permanent magnet, the 8th permanent magnet, the 9th permanent magnet, the tenth permanent magnet, 11st permanent magnet, the 12nd permanent magnet, the 13rd permanent magnet and the 14th permanent magnet are sequentially connected composition, and wherein, first forever Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of Magnet is θ₁, 0 °≤θ₁≤1°；The magnetic of the magnetic line of force of the second permanent magnet The angle changed between direction and horizontal plane is θ₂, 314 °≤θ₂≤316°；The direction of magnetization of the magnetic line of force of the 3rd permanent magnet and level Angle between face is θ₃, 224 °≤θ₃≤226°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the 4th permanent magnet For θ₄, 269 °≤θ₄≤271°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the 5th permanent magnet is θ₅, 269°≤θ₅≤271°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the 6th permanent magnet is θ₆, 314°≤θ₆≤316°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the 7th permanent magnet is θ₇, 224°≤θ₇≤226°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the 8th permanent magnet is θ₈, 179°≤θ₈≤181°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the 9th permanent magnet is θ₉, 134°≤θ₉≤136°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the tenth permanent magnet is θ₁₀, 44 °≤θ₁₀≤46°； Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the 11st permanent magnet is θ₁₁, 89 °≤θ₁₁≤91°；12nd permanent magnet The magnetic line of force the direction of magnetization and horizontal plane between angle be θ₁₂, 89 °≤θ₁₂≤91°；The magnetic of the magnetic line of force of the 13rd permanent magnet The angle changed between direction and horizontal plane is θ₁₃, 134 °≤θ₁₃≤136°；The direction of magnetization of the magnetic line of force of the 14th permanent magnet and water Angle between plane is θ₁₄, 44 °≤θ₁₄≤46°.By the first permanent magnet of specific arrangements, the second permanent magnet, the 3rd permanent magnetism Ferrum, the 4th permanent magnet, the 5th permanent magnet, the 6th permanent magnet, the 7th permanent magnet, the 8th permanent magnet, the 9th permanent magnet, the tenth Permanent magnet, the 11st permanent magnet, the 12nd permanent magnet, the 13rd permanent magnet and the 14th permanent magnet, the magnetic line of force of each permanent magnet End to end, the magnetic line of force of permanent magnet group closes in the form of a ring, makes permanent magnet group can generate the strongest magnetic field.

This utility model has that magnetic field intensity is high, magnetic field demagnetization rate is low, use cost is low, failure rate is low, easy to maintenance, operation The advantage such as simple.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of magnetic separator de-ironing in utility model embodiment；

Fig. 2 is the schematic diagram of permanent-magnet iron removing device in utility model embodiment；

Fig. 3 is the schematic diagram of the direction of magnetization of the magnetic line of force of the first permanent magnet in utility model embodiment；

Fig. 4 is the schematic diagram of the direction of magnetization of the magnetic line of force of the second permanent magnet in utility model embodiment；

Fig. 5 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 3rd permanent magnet in utility model embodiment；

Fig. 6 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 4th permanent magnet in utility model embodiment；

Fig. 7 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 5th permanent magnet in utility model embodiment；

Fig. 8 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 6th permanent magnet in utility model embodiment；

Fig. 9 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 7th permanent magnet in utility model embodiment；

Figure 10 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 8th permanent magnet in utility model embodiment；

Figure 11 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 9th permanent magnet in utility model embodiment；

Figure 12 is the schematic diagram of the direction of magnetization of the magnetic line of force of the tenth permanent magnet in utility model embodiment；

Figure 13 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 11st permanent magnet in utility model embodiment；

Figure 14 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 12nd permanent magnet in utility model embodiment；

Figure 15 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 13rd permanent magnet in utility model embodiment；

Figure 16 is the schematic diagram of the direction of magnetization of the magnetic line of force of the 14th permanent magnet in utility model embodiment.

Description of reference numerals: 1-frame；2-feed pipe；3-discharge pipe；4-reflux line；5-Residue extraction pipeline；6-permanent magnetism deironing Device；7-housing；8-the first permanent magnet 8；9-the second permanent magnet；10-the 3rd permanent magnet；11-the 4th permanent magnet；12-the 5th Permanent magnet；13-the 6th permanent magnet；14-the 7th permanent magnet；15-the 8th permanent magnet；16-the 9th permanent magnet；17-the tenth permanent magnet； 18-the 11st permanent magnet；19-the 12nd permanent magnet；20-the 13rd permanent magnet；21-the 14th permanent magnet；22-rail plate； 23-cylinder；24-cylindrical space.

Detailed description of the invention

With embodiment, this utility model is further described below in conjunction with the accompanying drawings.

Magnetic separator de-ironing as shown in Figure 1, frame 1 is fixed with working chamber, and this working chamber can use existing conventional design.Working chamber Bottom be provided with slurry inlet and refluxing opening, the top of working chamber is provided with slurry outlet.Slurry inlet is connected by feed pipe 2 To entering pulp grinder, slurry outlet is communicated to collecting machine by discharge pipe 3, and refluxing opening is then communicated to into slurry by reflux line 4 Machine.Additionally, also lead to a Residue extraction pipeline 5 on reflux line, for discharging the waste water in working chamber.In each pipeline respectively The pipeline valve of correspondence is installed.

As shown in Figure 1, 2, frame 1 is provided with permanent-magnet iron removing device 6, and this permanent-magnet iron removing device 6 includes the shell in tubular structure Body 7.The cross-sectional profiles of this housing 7 is rectangular, and housing 7 surrounding encloses, both-side opening.Permanent magnetism meson it is provided with in housing 7 Group, in the present embodiment, as it can be seen, this permanent magnetism meson group by first permanent magnet the 8, second permanent magnet the 9, the 3rd permanent magnet 10, 4th permanent magnet the 11, the 5th permanent magnet the 12, the 6th permanent magnet the 13, the 7th permanent magnet the 14, the 8th permanent magnet the 15, the 9th permanent magnetism Ferrum the 16, the tenth permanent magnet the 17, the 11st permanent magnet the 18, the 12nd permanent magnet the 19, the 13rd permanent magnet the 20 and the 14th permanent magnetism Ferrum 21 is sequentially connected composition.First permanent magnet the 8, second permanent magnet the 9, the 3rd permanent magnet the 10, the 4th permanent magnet the 11, the 5th is forever Magnet the 12, the 6th permanent magnet the 13, the 7th permanent magnet the 14, the 8th permanent magnet the 15, the 9th permanent magnet the 16, the tenth permanent magnet 17, The outline of the 11st permanent magnet the 18, the 12nd permanent magnet the 19, the 13rd permanent magnet the 20 and the 14th permanent magnet 21 is triangular in shape, Each permanent magnet is sequentially connected with, and encloses circlewise thus is formed with the cylindrical space 24 being parallel to horizontal plane, and the magnetic force of each permanent magnet The direction of magnetization of line is sequentially connected, and the magnetic line of force of each permanent magnet of permanent magnetism meson group is closed in the form of a ring.

Angle as shown in figs. 3-14, in the present embodiment, between the direction of magnetization and the horizontal plane of the magnetic line of force of the first permanent magnet 8 For θ₁=0 °；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the second permanent magnet 9 is θ₂=315 °；3rd permanent magnet Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of 10 is θ₃=225 °；The magnetization side of the magnetic line of force of the 4th permanent magnet 11 Angle between horizontal plane is θ₄=270 °；Folder between the direction of magnetization and the horizontal plane of the magnetic line of force of the 5th permanent magnet 12 Angle is θ₅=270 °；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the 6th permanent magnet 13 is θ₆=315 °；7th Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of permanent magnet 14 is θ₇=225 °；The magnetic line of force of the 8th permanent magnet 15 Angle between the direction of magnetization and horizontal plane is θ₈=180 °；Between the direction of magnetization and the horizontal plane of the magnetic line of force of the 9th permanent magnet 16 Angle be θ₉=135 °；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the tenth permanent magnet 17 is θ₁₀=45 °；The Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of 11 permanent magnets 18 is θ₁₁=90 °；The magnetic of the 12nd permanent magnet 19 Angle between the direction of magnetization and the horizontal plane of the line of force is θ₁₂=90 °；The direction of magnetization of the magnetic line of force of the 13rd permanent magnet 20 and water Angle between plane is θ₁₃=135 °；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of the 14th permanent magnet 21 is θ₁₄=45 °.

Being also equipped with rail plate 22 in frame 1, this rail plate 22 is parallel to the axis of housing 7 and installs.Rail plate 22 On slidably connect slide block, this slide block then housing 7 with permanent magnetism meson group is connected.Meanwhile, frame 1 is also equipped with two gas Cylinder 23, the telescopic direction of the piston rod of two cylinders 23 is parallel to the axis of housing 7.Two cylinders 23 are as translating device, and it is lived Stopper rod is connected with slide block, thus housing 7 can be driven to move.Rail plate 22 then as linear guide, guide housing 7 Moving direction.

For sizing material iron removing process:

Under the drive of cylinder 23, permanent-magnet iron removing device 6 is along the longitudinally reciprocal movement of housing 7, so that working chamber can be through housing 7 The opening of both sides enters in cylindrical space 24.Now, working chamber is wrapped up by permanent magnetism meson group, and the soft magnetism meson in working chamber is at magnetic Under the influence of Chang, it is thus achieved that magnetic.Slurry is in slurry inlet enters working chamber, and moves toward slurry outlet.When slurry flows is soft During magnetic meson, the iron powder in slurry, immediately under the attraction of soft magnetism meson, sticks to the surface of soft magnetism meson.Except the slurry after ferrum I.e. flow out from slurry outlet.

Cleaning process for soft magnetism meson:

Open the refluxing opening of working chamber, the slurry remained in draining working chamber, subsequently, start cylinder 23, piston rod drives permanent magnetism Deironing apparatus 6 moves, away from working chamber.Working chamber removes in cylindrical space 24, and the soft magnetism meson in working chamber loses magnetism. Now, with the soft magnetism meson in water impact working chamber, the iron powder that soft magnetism meson adheres to can be washed away, and through slagging channel 5 drain.For ease of cleaning chamber, frame 1 can be installed multiple cleaning shower nozzle, each shower nozzle that cleans should be positioned at the top of working chamber Above portion.The structure cleaning shower nozzle refers to existing conventional design with installation site, repeats no more here.

The foregoing is only embodiment of the present utility model, not thereby limit the scope of the claims of the present utility model, every utilization is originally Equivalent structure or equivalence flow process that utility model description and accompanying drawing content are made convert, or it is relevant to be directly or indirectly used in other Technical field, be the most in like manner included in scope of patent protection of the present utility model.

Claims

1. a magnetic region closed type magnetic separator de-ironing, including frame, is provided with working chamber, permanent-magnet iron removing device and translating device in frame；It is special Levy and be: described permanent-magnet iron removing device includes the housing in tubular structure；It is provided with cross section in described housing to close the most forever Magnetic meson group, is formed with, in described permanent magnetism meson group, the cylindrical space being parallel to horizontal plane；Described working chamber is arranged on described post In shape space；Described translating device is provided with can be along the portion that moves of the longitudinally reciprocal movement of housing, and this motion portion is connected with housing.

Magnetic region the most according to claim 1 closed type magnetic separator de-ironing, is characterized in that: described permanent magnetism meson group by the first permanent magnet, Two permanent magnets, the 3rd permanent magnet, the 4th permanent magnet, the 5th permanent magnet, the 6th permanent magnet, the 7th permanent magnet, the 8th permanent magnetism Ferrum, the 9th permanent magnet, the tenth permanent magnet, the 11st permanent magnet, the 12nd permanent magnet, the 13rd permanent magnet and the 14th are forever Magnet is sequentially connected composition；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described first permanent magnet is θ₁, 0°≤θ₁≤1°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described second permanent magnet is θ₂, 314°≤θ₂≤316°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 3rd permanent magnet is θ₃, 224°≤θ₃≤226°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 4th permanent magnet is θ₄, 269°≤θ₄≤271°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 5th permanent magnet is θ₅, 269°≤θ₅≤271°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 6th permanent magnet is θ₆, 314°≤θ₆≤316°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 7th permanent magnet is θ₇, 224°≤θ₇≤226°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 8th permanent magnet is θ₈, 179°≤θ₈≤181°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 9th permanent magnet is θ₉, 134°≤θ₉≤136°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described tenth permanent magnet is θ₁₀, 44°≤σ₁₀≤46°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 11st permanent magnet is θ₁₁, 89°≤θ₁₁≤91°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 12nd permanent magnet is θ₁₂, 89°≤θ₁₂≤91°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 13rd permanent magnet is θ₁₃, 134°≤θ₁₃≤136°；Angle between the direction of magnetization and the horizontal plane of the magnetic line of force of described 14th permanent magnet is θ₁₄, 44°≤θ₁₄≤46°。

Magnetic region the most according to claim 2 closed type magnetic separator de-ironing, is characterized in that: described first permanent magnet, the second permanent magnet, Three permanent magnets, the 4th permanent magnet, the 5th permanent magnet, the 6th permanent magnet, the 7th permanent magnet, the 8th permanent magnet, the 9th permanent magnetism Ferrum, the tenth permanent magnet, the 11st permanent magnet, the 12nd permanent magnet, the 13rd permanent magnet and the outline of the 14th permanent magnet Triangular in shape.

Magnetic region the most according to claim 1 closed type magnetic separator de-ironing, is characterized in that: described translating device be oil cylinder, cylinder or its He is usually used in providing the executive component carrying out straight reciprocating motion or the structure of mechanical energy.