CN109107757A - Magnetic separation component and concentration equipment - Google Patents

Abstract

The invention discloses a magnetic separation component and a magnetic separation device, wherein the magnetic separation component comprises: a coil; a magnetic separation shell, the magnetic separation shell is installed in the inner circle of the coil, and the coil and the magnetic separation shell are relatively movable; The magnetic pole head, the second magnetic pole head and the third magnetic pole head are arranged in the magnetic separation shell at intervals in sequence, so as to define the first magnetic separation cavity and the second magnetic separation cavity in the magnetic separation shell; the first magnetic separation cavity and the second magnetic separation cavity Each of the magnetic separation chambers has a magnetic separation position and a cleaning position. The first magnetic pole head, the second magnetic pole head and the third magnetic pole head have the function of correcting and converging the magnetic field lines generated by the coil, so as to facilitate the enhancement of the magnetic field strength of the magnetic separation magnetic field formed by the magnetic separation cavity at its magnetic separation position. The requirements for the coil can be reduced, so that not only the cost of the coil can be reduced, but also the current of the coil during operation can be reduced, so as to reduce the heat generated by the coil.

Description

Magnetic separation component and concentration equipment

Technical field

The present invention relates to slurry magnetic separation technology field, in particular to a kind of magnetic separation component and concentration equipment.

Background technique

In ceramics, chemical industry, food, medicine and other fields, need to screen out the magnetic impurity in slurry；And concentration equipment Exactly for removing the device of the magnetic impurity in slurry.

In existing concentration equipment, the requirement to coil is very high, and coil is needed to generate biggish magnetic field, in order to improving magnetic separation Effect；In this way, not only will increase the cost of coil, but also coil can also generate very big heat at work.

Summary of the invention

The main object of the present invention is to propose a kind of magnetic separation component, it is intended to solve existing concentration equipment to its coil requirement compared with High technical problem.

To achieve the above object, the present invention proposes a kind of magnetic separation component, is used for concentration equipment.Wherein, the magnetic separation component Include:

The axial direction of coil, the coil is set as first direction；

Magnetic separation shell, the magnetic separation shell are mounted in the inner ring of the coil, and in said first direction, the coil with Activity is arranged in magnetic separation shell phase；And

First magnetic pole head, the second magnetic pole head, third magnetic pole head, are successively arranged at intervals on the magnetic in said first direction It selects in shell, to limit the first magnetic separation chamber and the second magnetic separation chamber in the magnetic separation shell；

The first magnetic separation chamber all has the magnetic separation position in the inner ring of the coil with the second magnetic separation chamber and is located at Cleaning positions outside the inner ring of the coil, and when the first magnetic separation chamber is located at its magnetic separation position, the second magnetic separation chamber Positioned at its cleaning positions；When the first magnetic separation chamber is located at its cleaning positions, the second magnetic separation chamber is located at its magnetic separation position.

Optionally, the magnetic separation shell is along the inner ring that the first direction actively can be set to the coil back and forth.

Optionally, the coil can be actively sheathed on the magnetic separation shell back and forth along the first direction.

Optionally, the magnetic separation of the first magnetic separation chamber is located proximate to the one end setting of the coil, second magnetic separation The magnetic separation of chamber is located proximate to the other end setting of the coil.

Optionally, the first connecting hole being connected to the first magnetic separation chamber and second is offered on first magnetic pole head to connect Hole is connect, first connecting hole is used for the intracavitary conveying slurry of first magnetic separation or cleaning solution, and second connecting hole is used for Export first magnetic separation it is intracavitary except iron slurry or washing soiling solution.

Optionally, first connecting hole is provided with one, and there are two the second connecting hole settings, and described first connects Hole is connect between two second connecting holes.

Optionally, the magnetic separation component further includes the first magnetic medium, and first magnetic medium is set to the first magnetic separation chamber It is interior；And/or

The magnetic separation component further includes the second magnetic medium, and it is intracavitary that second magnetic medium is set to second magnetic separation.

Optionally, the magnetic separation component further include set on intracavitary the first magnetic isolation plate of first magnetic separation, described first every Several first through hole are offered on magnetic sheet；First magnetic medium is provided with multilayer, any two adjacent first magnetic mediums Between be provided with one first magnetic isolation plate.

Optionally, the magnetic separation component further includes first medium shell, and first magnetic medium and the first magnetic isolation plate are mounted on In the first medium shell, it is intracavitary that the first medium shell is set to first magnetic separation.

The present invention also proposes a kind of concentration equipment, including magnetic separation component.The magnetic separation component includes:

The axial direction of coil, the coil is set as first direction；

Magnetic separation shell, the magnetic separation shell are mounted in the inner ring of the coil, and in said first direction, the coil with Activity is arranged in magnetic separation shell phase；And

First magnetic pole head, the second magnetic pole head, third magnetic pole head, are successively arranged at intervals on the magnetic in said first direction It selects in shell, to limit the first magnetic separation chamber and the second magnetic separation chamber in the magnetic separation shell；

The first magnetic separation chamber all has the magnetic separation position in the inner ring of the coil with the second magnetic separation chamber and is located at Cleaning positions outside the inner ring of the coil, and when the first magnetic separation chamber is located at its magnetic separation position, the second magnetic separation chamber Positioned at its cleaning positions；When the first magnetic separation chamber is located at its cleaning positions, the second magnetic separation chamber is located at its magnetic separation position.

Magnetic separation component of the present invention, by the way that the first magnetic pole head being successively spaced apart, the second magnetic pole head are arranged in magnetic separation shell And third magnetic pole head, to form the first magnetic separation chamber and the second magnetic separation chamber, the first magnetic pole head, the second magnetic pole head and third magnetic pole head tool There is amendment, the magnetic induction line that convergence coil generates, so as to be formed convenient for improving the first magnetic separation chamber at its magnetic separation position The first magnetic separation magnetic field magnetic field strength, can be convenient for improving the second magnetic separation magnetic field that be formed at its magnetic separation position of the second magnetic separation chamber Magnetic field strength in this way, can not only reduce the cost of coil, but also coil can be reduced so as to reduce the requirement to coil Electric current at work, the heat to reduce coil generation.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with The structure shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of one embodiment of magnetic separation component of the present invention；

Fig. 2 is the structural schematic diagram of the another embodiment of magnetic separation component in Fig. 1；

Fig. 3 is the schematic perspective view of magnetic separation component in Fig. 2；

Fig. 4 is structural schematic diagram of the first magnetic separation chamber of magnetic separation component in Fig. 2 when carrying out magnetic separation process, wherein magnetic separation Shell activity setting；

Fig. 5 is structural schematic diagram of the second magnetic separation chamber of magnetic separation component in Fig. 4 when carrying out magnetic separation process；

Fig. 6 is in another embodiment of magnetic separation component of the present invention, and the first magnetic separation chamber of magnetic separation component is when carrying out magnetic separation process Structural schematic diagram, wherein coil activity setting；

Fig. 7 is structural schematic diagram of the second magnetic separation chamber of magnetic separation component in Fig. 6 when carrying out magnetic separation process；

Fig. 8 is the structural schematic diagram of the first magnetic medium component in Fig. 1；

Fig. 9 is the structural schematic diagram of one embodiment of concentration equipment of the present invention；

Figure 10 is the structural schematic diagram of another state of concentration equipment in Fig. 9；

Figure 11 is the partial enlarged view in Figure 10 at A；

Figure 12 is the schematic diagram of the section structure of concentration equipment in Figure 10；

Figure 13 is the structural schematic diagram of magnetic separation shell in Figure 10；

Figure 14 is the structural schematic diagram of the cooling flowing path of the coil of concentration equipment in Fig. 9.

Drawing reference numeral explanation:

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that if relating to directionality instruction (such as up, down, left, right, before and after ...) in the embodiment of the present invention, Then directionality instruction be only used for explain under a certain particular pose (as shown in the picture) between each component relative positional relationship, Motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, being somebody's turn to do " first ", " second " etc. if relating to the description of " first ", " second " etc. in the embodiment of the present invention Description be used for description purposes only, be not understood to indicate or imply its relative importance or implicitly indicate indicated skill The quantity of art feature." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one spy Sign.In addition, the meaning of the "and/or" occurred in full text is, and including three schemes arranged side by side, by taking " A and/or B " as an example, including A The scheme that scheme or B scheme or A and B meet simultaneously.In addition, the technical solution between each embodiment can be combined with each other, It but must be based on can be realized by those of ordinary skill in the art, when conflicting or nothing occurs in the combination of technical solution Method realize when will be understood that the combination of this technical solution is not present, also not the present invention claims protection scope within.

The present invention proposes a kind of magnetic separation component, is used for concentration equipment；The concentration equipment is slurry magnetic separator, for going Except the magnetic impurity in slurry.

In an embodiment of the present invention, as shown in figs. 1 to 14, the magnetic separation component 1 includes:

The axial direction of coil 20, the coil 20 is set as first direction；

Magnetic separation shell 60, the magnetic separation shell 60 are set in the inner ring of coil 20, and in said first direction, the coil 20 are arranged with the activity relatively of magnetic separation shell 60；And

First magnetic pole head 71, the second magnetic pole head 72, third magnetic pole head 73, are successively arranged at intervals in said first direction In magnetic separation shell 60, to limit the first magnetic separation chamber 61 and the second magnetic separation chamber 62 in the magnetic separation shell 60, i.e., described first magnetic pole First 71 and second are formed with the first magnetic separation chamber 61 between magnetic pole head 72, are formed between the second magnetic pole head 72 and third magnetic pole head 73 Second magnetic separation chamber 62；

The first magnetic separation chamber 61 and the second magnetic separation chamber 62 all have magnetic separation position and position in the inner ring of coil 20 Cleaning positions outside the inner ring of coil 20, and when the first magnetic separation chamber 61 is located at its magnetic separation position, second magnetic separation Chamber 62 is located at its cleaning positions；When the first magnetic separation chamber 61 is located at its cleaning positions, the second magnetic separation chamber 62 is located at it Magnetic separation position.

Specifically, in magnetic separation component 1 in use, needing to add the in the first magnetic separation chamber 61 and the second magnetic separation chamber 62 respectively One magnetic separation medium and the second magnetic separation medium, for adsorbing the magnetic impurity in slurry；It should be pointed out that first magnetic separation Medium and the second magnetic separation medium are also possible to external either what magnetic separation component 1 of the present invention carried.In the present embodiment In, in order to improve the property easy to use of magnetic separation component 1, the magnetic separation component 1 itself is configured with the first magnetic separation medium and the second magnetic Selected introductions matter.

When coil 20 is powered on, magnetic field is generated in the inner ring of coil 20, when passing through control coil 20 and magnetic separation shell 60 Relative motion, and make the first magnetic separation chamber 61 move to its magnetic separation position, simultaneously the second magnetic separation chamber 62 move to its cleaning position When setting, the first magnetic separation chamber 61 is located at its magnetic separation position, the magnetic strength that the first magnetic pole head 71 and the second magnetic pole head 72 generate coil 20 Line is modified, converges, to form the first magnetic in the first magnetic separation chamber 61, i.e. between the first magnetic pole head 71 and the second magnetic pole head 72 Magnetic field is selected, to magnetize to the first magnetic separation medium in the first magnetic separation chamber 61, with for adsorbing the magnetic impurity in slurry, That is the first magnetic separation chamber 61 carries out magnetic separation process；Second magnetic separation chamber 62 is located at its cleaning positions, and the magnetic field that coil 20 generates is second The cleaning positions of magnetic separation chamber 62 are very weak, are even not present, and the second magnetic separation medium in the second magnetic separation chamber 62, which magnetizes, to disappear, to make Magnetic impurity can not be adsorbed by obtaining the second magnetic separation medium, so as to be convenient for rinsing out the magnetic impurity in the second magnetic separation chamber 62, i.e., Second magnetic separation chamber 62 carries out cleaning process.

Similarly, when by control coil 20 and 60 relative motion of magnetic separation shell, and the first magnetic separation chamber 61 is made to move to it When moving to its magnetic separation position, the first magnetic separation chamber 61 is located at its cleaning positions, coil 20 for cleaning positions, simultaneously the second magnetic separation chamber 62 The magnetic field of generation the first magnetic separation chamber 61 cleaning positions it is very weak, be even not present, the first magnetic separation in the first magnetic separation chamber 61 is situated between Matter magnetization disappears, so that the first magnetic separation medium can not adsorb magnetic impurity, so as to convenient for will be in the first magnetic separation chamber 61 Magnetic impurity rinses out, i.e. the first magnetic separation chamber 61 carries out cleaning process；Second magnetic separation chamber 62 is located at its magnetic separation position, the second magnetic pole First 72 magnetic induction lines generated with third magnetic pole head 73 to coil 20 are modified, converge, in the second magnetic separation chamber 62, i.e. second The second magnetic separation magnetic field is formed between magnetic pole head 72 and third magnetic pole head 73, thus to the second magnetic separation medium in the second magnetic separation chamber 62 Magnetized, with for adsorbing the magnetic impurity in slurry, i.e. the second magnetic separation chamber 62 carries out magnetic separation process.

After filling the first magnetic separation medium and the second magnetic separation medium respectively in the first magnetic separation chamber 61 and the second magnetic separation chamber 62, this The course of work of invention magnetic separation component 1 is substantially are as follows: 1) by control coil 20 and 60 relative motion of magnetic separation shell, makes first magnetic Select chamber 61 to move to its cleaning positions, while the second magnetic separation chamber 62 moves to its magnetic separation position, with realize the first magnetic separation chamber 61 into Row cleaning process, while realizing that the second magnetic separation chamber 62 carries out magnetic separation process；2) it is transported by the way that control coil 20 and magnetic separation shell 60 are opposite It is dynamic, so that the first magnetic separation chamber 61 is moved to its magnetic separation position, while the second magnetic separation chamber 62 moves to its cleaning positions, to realize First magnetic separation chamber 61 carries out magnetic separation process, while realizing that the second magnetic separation chamber 62 carries out cleaning process；3) so circulating repetition is above-mentioned Two steps, and during coil 20 and 60 relative motion of magnetic separation shell, coil 20 can not power off.

Magnetic separation component 1 of the present invention is appreciated that, by the way that the first magnetic pole head being successively spaced apart is arranged in magnetic separation shell 60 71, the second magnetic pole head 72 and third magnetic pole head 73, to form the first magnetic separation chamber 61 and the second magnetic separation chamber 62, the first magnetic pole head 71, Second magnetic pole head 72 and third magnetic pole head 73 have the function of the magnetic induction line that amendment, convergence coil 20 generate, so as to be convenient for mentioning The magnetic field strength in the first magnetic separation magnetic field that high first magnetic separation chamber 61 is formed at its magnetic separation position, can be convenient for the second magnetic separation chamber of raising The magnetic field strength in 62 the second magnetic separation magnetic fields formed at its magnetic separation position, i other words can be convenient for raising magnetic separation chamber in its magnetic separation position The magnetic field strength in the magnetic separation magnetic field formed when setting, so as to reduce the requirement to coil 20, in this way, can not only reduce coil 20 Cost；But also the electric current of coil 20 at work, the heat to reduce the generation of coil 20 can be reduced, so that magnetic separation dress can be improved The job stability set.

Moreover, concentration equipment 100 of the present invention can make the first magnetic by the way that shell 10 and the activity relatively of magnetic separation shell 60 to be arranged Selecting the magnetic separation of chamber 61 and the second magnetic separation chamber 62, cleaning process is reciprocal alternate run, and can be made: the first magnetic separation chamber 61 is carrying out When cleaning process, the second magnetic separation chamber 62 is carrying out magnetic separation process simultaneously；And the first magnetic separation chamber 61 is when carrying out magnetic separation process, second Magnetic separation chamber 62 is carrying out cleaning process simultaneously；So as to make the working method of concentration equipment 100 be continuous.And coil 20 can be made It does not power off in magnetic separation and the reciprocal alternate run of cleaning, is magnetized the time with reducing, so that the work effect of concentration equipment 100 can be improved Rate.

Further, as shown in Figure 4 and Figure 5, the magnetic separation shell 60 can actively be set to coil 20 along first direction back and forth Inner ring in.In this way, by fixed coil 20, and make the movable setting of magnetic separation shell 60, it can be achieved that the coil 20 and magnetic separation shell 60 activity settings relatively.Moreover, by fixed coil 20, the problems such as can avoid coil 20 its terminals loosen during exercise.

Specifically, as shown in Figure 4 and Figure 5, the concentration equipment 100 further includes pedestal 50, the coil 20 is fixedly mounted On base 50, the magnetic separation shell 60 is slidably mounted on pedestal 50 along first direction, so that magnetic separation shell 60 is along first direction It can be movably arranged in back and forth in the inner ring of coil 20.

Specifically, the magnetic separation shell 60 is slidably mounted on pedestal 50 by slide track component；51 component of sliding rail Including the sliding connector 52 installing sliding rail 51 on base 50 and being slidably connected with sliding rail 51, the sliding connector 52 It is fixedly connected on magnetic separation shell 60, so that the magnetic separation shell 60 is slidably mounted on the pedestal 50.In the present embodiment, institute Stating sliding rail 51 includes being respectively arranged on first sliding rail 51 and the second sliding rail 51 at 20 both ends of coil, the sliding connector 52 include with First sliding connector 52 of the first sliding rail 51 adaptation and the second sliding connector 52 for being adapted to the second sliding rail 51, described the One sliding connector 52 and the second sliding connector 52 are connected to the both ends of the magnetic separation shell 60.

Specifically, as shown in figs. 1 to 14, the concentration equipment 100 further includes power device 53, the power device 53 It is mounted on the pedestal 50 or shell 10, and the output end of the power device 53 is connected to the sliding connector 52 or magnetic Shell 60 is selected, to drive the magnetic separation shell 60 to do back and forth movement.The power device 53 may be configured as hydraulic cylinder, pneumatic cylinder, belt Transmission device, etc..

In another embodiment of the invention, as shown in Figure 6 and Figure 7, the coil 20 can round-trip activity along first direction Ground is sheathed on magnetic separation shell 60.In this way, by fixed magnetic separation shell 60, and make coil 20 along the movable setting of first direction, it can be real The existing coil 20 is arranged with the activity relatively of magnetic separation shell 60.Moreover, can avoid magnetic separation shell 60 by fixed magnetic separation shell 60 and moving When piping connection (disengaging slurry pipeline, etc.) thereon the problems such as loosening.

Specifically, as shown in Figure 6 and Figure 7, the magnetic separation shell 60 is fixedly mounted on base 50, and the coil 20 is slidably Ground is set on magnetic separation shell 60.

Certainly, in other embodiments of the invention, coil 20 and the activity of magnetic separation shell 60 can also be arranged, herein need not It is described in detail.

Further, as shown in figs. 1 to 14, the magnetic separation of the first magnetic separation chamber 61 is located proximate to the one end of coil 20 Setting, the magnetic separation of the second magnetic separation chamber 62 are located proximate to the other end setting of coil 20.In this way, by by magnetic separation chamber ( One magnetic separation chamber 61, the second magnetic separation chamber 62) magnetic separation be located proximate to coil 20 end setting, guarantee (the first magnetic separation of magnetic separation chamber Chamber 61, the second magnetic separation chamber 62) magnetic induction intensity at its magnetic separation position in the case where be basically unchanged, can shorten magnetic separation chamber ( One magnetic separation chamber 61, the second magnetic separation chamber 62) stroke between its magnetic separation position and cleaning positions, so that magnetic separation component 1 can be improved With the working efficiency of concentration equipment 100.

Further, as shown in figs. 1 to 14, it offers on first magnetic pole head 71 and to be connected to the first magnetic separation chamber 61 First connecting hole (figure is not marked) and the second connecting hole (figure is not marked), first connecting hole is used for into the first magnetic separation chamber 61 Slurry or cleaning solution are conveyed, second connecting hole, which is used to export in the first magnetic separation chamber 61, removes iron slurry or washing soiling solution.

Specifically, when the first magnetic separation chamber 61 is in its magnetic separation position, through the first connecting hole into the first magnetic separation chamber 61 Slurry is conveyed, for slurry by magnetic separation in the first magnetic separation chamber 61, the iron slurry that removes after degaussing passes through the outflow of the second connecting hole；When first When magnetic separation chamber 61 is in its cleaning positions, cleaning solution is conveyed into the first magnetic separation chamber 61 by the first connecting hole, cleaning solution is to It is carried out in one magnetic separation chamber 61, washing soiling solution is flowed out by the second connecting hole.

In this way, can be convenient for making the first magnetic separation chamber by opening up the first connecting hole and the second connecting hole on the first magnetic pole head 71 61 are in communication with the outside, so as to be convenient for being formed magnetic separation flow path and cleaning flow path.Above-mentioned setting can make magnetic separation flow path and cleaning flow path Same flow is shared, in magnetic separation shell 60 so as to simplify the structure of magnetic separation component 1.

Specifically, the quantity of first connecting hole can be set to one, may be set to be multiple；Second connecting hole Quantity can be set to one, may be set to be multiple.

In the present embodiment, as shown in Figure 1, first connecting hole and the second connecting hole are provided with one.

In another embodiment of the present invention, as shown in Figures 2 to 7, first connecting hole is provided with one, and described There are two the settings of two connecting holes, and first connecting hole is between two second connecting holes.In this way, by center into Slurry, two sides pulp mode carry out magnetic separation, the working efficiency and magnetic separation effect of magnetic separation component 1 and concentration equipment 100 can be improved.

Similarly, as shown in figs. 1 to 14, the third being connected to the second magnetic separation chamber 62 is offered on the third magnetic pole head 73 Connecting hole (figure is not marked) and the 4th connecting hole (figure is not marked), the third connecting hole into the second magnetic separation chamber 62 for conveying Slurry or cleaning solution, the 4th connecting hole, which is used to export in the second magnetic separation chamber 62, removes iron slurry or washing soiling solution.

Specifically, when the second magnetic separation chamber 62 is in its magnetic separation position, through third connecting hole into the second magnetic separation chamber 62 Slurry is conveyed, for slurry by magnetic separation in the second magnetic separation chamber 62, the iron slurry that removes after degaussing passes through the outflow of the 4th connecting hole；When second When magnetic separation chamber 62 is in its cleaning positions, cleaning solution is conveyed into the second magnetic separation chamber 62 by third connecting hole, cleaning solution is to It is carried out in two magnetic separation chambers 62, washing soiling solution is flowed out by the 4th connecting hole.

The setting of the quantity of the third connecting hole and the 4th connecting hole, can refer to setting for the first connecting hole and the second connecting hole It sets, need not be described in detail herein.

Further, as shown in figs. 1 to 14, the magnetic separation component 1 further includes the first magnetic medium 81, and first magnetic is situated between Matter 81 is set in the first magnetic separation chamber 61, and when the first magnetic separation chamber 61 is in its magnetic separation position, first magnetic medium 81 is magnetized, To adsorb the magnetic impurity in slurry, when the first magnetic separation chamber 61 is in its cleaning positions, 81 magnetic of the first magnetic medium Change is slackened significantly, is even disappeared, in order to which the magnetic impurity being adsorbed on the first magnetic medium 81 is rinsed；The magnetic separation component 1 further includes the second magnetic medium 82, and second magnetic medium 82 is set in the second magnetic separation chamber 62, for adsorbing the magnetism in slurry Impurity.

Further, as shown in figs. 1 to 14, the magnetic separation component 1 further includes first in the first magnetic separation chamber 61 Magnetic isolation plate 83 offers several first through hole on first magnetic isolation plate 83；First magnetic medium 81 is provided with multilayer, any One first magnetic isolation plate 83 is provided between two first adjacent magnetic mediums 81.It is more by the way that first magnetic medium 81 to be provided with Layer, not only can be improved the adsorption effect to the magnetic impurity in slurry, but also the working efficiency of magnet assembly can be improved；It is logical It crosses and first magnetic isolation plate 83 is set between two first adjacent magnetic mediums 81, not only can avoid adjacent two first magnetic mediums, 81 phase It mutually influences, but also the support strength of the first magnetic medium 81 can be improved, so that it is magnetic in absorption to can avoid the first magnetic medium 81 Atrophy after impurity.

Further, as shown in figs. 1 to 14, the magnetic separation component 1 further includes first medium shell 85, and first magnetic is situated between Matter 81 and the first magnetic isolation plate 83 are mounted in first medium shell 85, and the first medium shell 85 is set in the first magnetic separation chamber 61；Dress First magnetic medium 81 and the first magnetic isolation plate 83 can be first mounted in first medium shell 85 by timing, then by its integral installation to In one magnetic separation chamber 61.In this way, the first magnetic medium 81 and the first magnetic isolation plate 83 can be easily installed, so that the first magnetic medium 81 can be improved With the installation effectiveness of the first magnetic isolation plate 83.

In a particular embodiment, first magnetic medium 81 is connect with the first magnetic isolation plate 83 by screw lock adhering arrangement, or Person, first magnetic medium 81 and the first magnetic isolation plate 83 are mounted in first medium shell 85 by screw lock adhering arrangement.In this reality It applies in example, as shown in figs. 1 to 14, first magnetic medium 81 and the first magnetic isolation plate 83 are mounted on by screw lock adhering arrangement In one medium shell 85；Specifically, offering the first via hole, the first screw 87 on first magnetic medium 81 and the first magnetic isolation plate 83 It wears the first via hole and is connect with first medium shell 85；The support that first magnetic medium 81 can so be further improved is strong Degree.

Further, as shown in figs. 1 to 14, the first medium shell 85 includes first shell ontology 851 open at one end And the first Cancellation Missed 852 of the opening for covering shell ontology, if first Cancellation Missed 852 is equipped with a liquid via hole, for slurry Material or cleaning solution pass through.

The first medium shell 85 and the first magnetic medium 81 being mounted in first medium shell 85 and the first magnetic isolation plate 83 etc. Collectively form the first magnetic medium component 80.

Further, as shown in figs. 1 to 14, first magnetic medium 81 includes two sub- media being oppositely arranged, accordingly , first magnetic isolation plate 83 includes two sub-dividing plates being oppositely arranged, and is provided with an axis magnetic isolation plate 86, the axis between two sub- media First magnetic separation chamber 61 is divided into two parts by magnetic isolation plate 86.

When first connecting hole is provided with one, and second connecting hole setting there are two when, two second connecting holes Respectively correspond the two parts setting of the first magnetic separation chamber 61, the first connector respective shaft magnetic isolation plate setting.

When first connecting hole and the second connecting hole are provided with one, first connecting hole and the second connecting hole Respectively correspond the two parts setting of the first magnetic separation chamber 61.

Similarly, as shown in figs. 1 to 14, the magnetic separation component 1 further includes in the second magnetic separation chamber 62 second every magnetic Plate (schemes not mark), offers several second through-holes on second magnetic isolation plate；Second magnetic medium 82 is provided with multilayer, any One second magnetic isolation plate is provided between two second adjacent magnetic mediums 82.

Further, as shown in figs. 1 to 14, the magnetic separation component 1 further includes second medium shell, second magnetic medium 82 and second magnetic isolation plate be mounted in the second medium shell.

In a particular embodiment, second magnetic medium 82 is connect with the second magnetic isolation plate by screw lock adhering arrangement, alternatively, Second magnetic medium 82 and the second magnetic isolation plate are mounted in second medium shell by screw lock adhering arrangement.

Further, as shown in figs. 1 to 14, the second medium shell includes second shell ontology open at one end and is used for The second Cancellation Missed of the opening of shell ontology is covered, if second Cancellation Missed is equipped with a liquid via hole, so that slurry or cleaning solution are logical It crosses.

In a particular embodiment, as shown in figs. 1 to 14, the shape of the magnetic separation shell both can be cylinder, can also be with It is prismatic；Certainly other shapes be may be alternatively provided as.In order to reduce the difficulty of processing of magnetic separation shell, the shape of the magnetic separation shell can be with Prismatic structures are set as, for example are cuboid, hexagonal prisms or eight prisms.

In a particular embodiment, first magnetic medium 81 and/or the second magnetic medium 82 may be configured as steel wool.

The present invention also proposes that concentration equipment 100 includes magnetic separation component 1 as described above.The specific structure of the magnetic separation component 1 At least have referring to above-described embodiment since this concentration equipment 100 uses whole technical solutions of above-mentioned all embodiments There are all beneficial effects brought by the technical solution of above-described embodiment, this is no longer going to repeat them.

Further, as shown in figs. 1 to 14, the magnetic separation component 1 further includes shell 10, and the coil 20 is mounted on institute It states in shell 10, the shell 10 has the magnetic separation through-hole positioned at the inner ring side of the coil 20, and the magnetic separation shell 60 is mounted on In the magnetic separation through-hole, and the relatively round-trip activity of the magnetic separation shell 60 and shell 10 is arranged.It, can be right so by setting shell 10 Coil 20 is isolated and is protected.

Further, as shown in figs. 1 to 14, the concentration equipment 100 further includes magnetic separation pipeline assembly, the magnetic separation tube Road component is used to be formed selectively the first magnetic separation flow path or the first cleaning flow path with the first magnetic separation chamber 61, and for described the Two magnetic separation chambers 62 are formed selectively the second magnetic separation flow path or the second cleaning flow path.

Specifically, when the first magnetic separation chamber 61 is located at its magnetic separation position, the second magnetic separation chamber 62 is located at its cleaning positions, The magnetic separation pipeline assembly and the first magnetic separation chamber 61 form the first magnetic separation flow path, to realize that the first magnetic separation chamber 61 carries out magnetic separation Journey, and the magnetic separation pipeline assembly simultaneously with the second magnetic separation chamber 62 formed second cleaning flow path, with realize the second magnetic separation chamber 62 into Row cleaning process.

When the first magnetic separation chamber 61 is located at its cleaning positions, the second magnetic separation chamber 62 is located at its magnetic separation position, institute It states magnetic separation pipeline assembly and the first magnetic separation chamber 61 forms the first cleaning flow path, to realize that the first magnetic separation chamber 61 carries out cleaning process； And the magnetic separation pipeline assembly forms the second magnetic separation flow path with the second magnetic separation chamber 62 simultaneously, to realize that the second magnetic separation chamber 62 carries out magnetic Select process.

In this way, by setting magnetic separation pipeline assembly, it can be achieved that selectively to magnetic separation chamber (the first magnetic separation chamber 61, the second magnetic Select chamber 62) conveying slurry or conveyer cleaning solution are carried out, in order to magnetic separation chamber (the first magnetic separation chamber 61, the second magnetic separation chamber 62) realization Its magnetic separation process or cleaning process.

Further, as shown in figs. 1 to 14, the magnetic separation pipeline assembly includes the first pipeline 91 and the second pipeline 92, First pipeline 91 and the second pipeline 92 are all connected to the first magnetic separation chamber 61, and first pipeline 91 is for selectively to the Conveying slurry or cleaning solution in one magnetic separation chamber 61, second pipeline 92 is for selectively exporting removing in the first magnetic separation chamber 61 Iron slurry or washing soiling solution.

Specifically, first pipeline 91 is connected to the first magnetic separation chamber 61, second pipeline 92 by the first connecting hole The first magnetic separation chamber 61 is connected to by the second connecting hole.When the first magnetic separation chamber 61 is located at its magnetic separation position, the second magnetic separation chamber 62 be located at its cleaning positions when, first pipeline 91 conveys slurry, second pipeline 92 into the first magnetic separation chamber 61 It exports in the first magnetic separation chamber 61 and removes iron slurry；When the first magnetic separation chamber 61 is located at its cleaning positions, 62, second magnetic separation chamber described When its magnetic separation position, first pipeline 91 conveys cleaning solution into the first magnetic separation chamber 61, and second pipeline 92 is defeated Washing soiling solution in first magnetic separation chamber 61 out.

Concentration equipment 100 of the present invention, by the way that same pipeline (the first pipeline 91) is arranged to realize into the first magnetic separation chamber 61 Liquid (conveying slurry or conveyer cleaning solution) is conveyed, and (defeated with output liquid by the way that same pipeline (the second pipeline 92) is arranged Out except iron slurry or washing soiling solution), so as to simplify magnetic separation pipeline assembly and 100 structure of concentration equipment.

It should be pointed out that in other embodiments of the invention, multiple pipelines can also be arranged in a one-to-one correspondence, be respectively used to The interior conveying slurry of first magnetic separation chamber 61 conveys cleaning solution into the first magnetic separation chamber 61, exports in the first magnetic separation chamber 61 and remove iron slurry Washing soiling solution in the first magnetic separation chamber 61 of material and output.

Further, as shown in figs. 1 to 14, the magnetic separation pipeline assembly further includes the 5th pipeline 95 and the 6th pipeline 96, the 5th pipeline 95 has the first control valve 917, and the 6th pipeline 96 has the second control valve 918, the 5th pipe Road 95 and the 6th pipeline 96 are all connected to the first pipeline 91, and the 5th pipeline 95 is used to pass through the first pipeline 91 to the first magnetic separation Slurry is conveyed in chamber 61, the 6th pipeline 96 is used to convey cleaning solution into the first magnetic separation chamber 61 by the first pipeline 91.Such as This, by the 5th pipeline 95 of setting and the 6th pipeline 96, it can be achieved that selectively conveying slurry or clear into the first magnetic separation chamber 61 Washing lotion.

Further, as shown in figs. 1 to 14, the magnetic separation pipeline assembly further includes the tenth pipeline 910 and the 11st pipe Road 911, the tenth pipeline 910 have the 5th control valve 921, and the 11st pipeline 911 has the 6th control valve, and described the Ten pipelines 910 and the 11st pipeline 911 are all connected to the second pipeline 92, and the tenth pipeline 910 is for exporting the first magnetic separation chamber Iron slurry is removed in 61, the 11st pipeline 911 is used to export the washing soiling solution in the first magnetic separation chamber 61.In this way, by setting It sets the tenth pipeline 910 and the 11st pipeline 911 and removes iron slurry or cleaning, it can be achieved that selectively exporting in the first magnetic separation chamber 61 Liquid washs soiling solution.

Specifically, when the first magnetic separation chamber 61 is located at its magnetic separation position, the second magnetic separation chamber 62 is located at its cleaning positions, First control valve 917 is opened, and the second control valve 918 is closed, and the 5th control valve 921 is opened, and the 6th control valve is closed, and the described 5th To the intracavitary conveying slurry of the first magnetic separation, the tenth pipeline 910 exports in the first magnetic separation chamber 61 and removes iron slurry pipeline 95；When the first magnetic Chamber 61 is selected to be located at its cleaning positions, when the second magnetic separation chamber 62 is located at its magnetic separation position, the first control valve 917 is closed, and second Control valve 918 is opened, and the 5th control valve 921 is closed, and the 6th control valve is opened, and the 5th pipeline 95 is intracavitary defeated to the first magnetic separation Cleaning solution is sent, the tenth pipeline 910 exports the washing soiling solution in the first magnetic separation chamber 61.

Based on essentially identical consideration, as shown in figs. 1 to 14, the magnetic separation pipeline assembly further includes 93 He of third pipeline 4th pipeline 94, the 7th pipeline 97, the 8th pipeline 98, the 12nd pipeline 912 and the 13rd pipeline 913, third pipeline 93 and Four pipelines 94 are all connected to the second magnetic separation chamber 62, and the third pipeline 93 into the second magnetic separation chamber 62 for selectively conveying slurry Material or cleaning solution, the 4th pipeline 94, which is used to selectively export in the second magnetic separation chamber 62, removes iron slurry or washing soiling solution.

Specifically, the 7th pipeline 97 has third control valve 919, the 8th pipeline 98 has the 4th control valve 920, the 7th pipeline 97 and the 8th pipeline 98 are all connected to the third pipeline 93, and the 7th pipeline 97 is used for by the Three pipelines 93 convey slurry into the second magnetic separation chamber 62, and the 8th pipeline 98 is used to pass through third pipeline 93 to the second magnetic separation chamber Cleaning solution is conveyed in 62.

12nd pipeline 912 has the 7th control valve 923, and the 13rd pipeline 913 has the 8th control valve, and described the 12 pipelines 912 and the 13rd pipeline 913 are all connected to the 4th pipeline 94, and the 12nd pipeline 912 is for exporting the Iron slurry is removed in two magnetic separation chambers 62, the 13rd pipeline 913 is used to export the washing soiling solution in the second magnetic separation chamber 62.

When the first magnetic separation chamber 61 is located at its magnetic separation position, the second magnetic separation chamber 62 is located at its cleaning positions, third control Valve 919 processed is opened, and the 4th control valve 920 is closed, and the 7th control valve 923 is opened, and the 8th control valve is closed, the 7th pipeline 97 Slurry is conveyed into the second magnetic separation chamber 62, the 12nd pipeline 912 exports in the second magnetic separation chamber 62 and removes iron slurry；When the first magnetic separation When chamber 61 is located at its cleaning positions, the second magnetic separation chamber 62 is located at its magnetic separation position, third control valve 919 is closed, the 4th control Valve 920 processed is opened, and the 7th control valve 923 is closed, and the 8th control valve is opened, and the 8th pipeline 98 is defeated into the second magnetic separation chamber 62 Cleaning solution is sent, the 13rd pipeline 913 exports the washing soiling solution in the second magnetic separation chamber 62.

Further, as shown in figs. 1 to 14, the magnetic separation pipeline assembly further includes the 9th pipeline 99, the 5th pipe Road 95 and the 7th pipeline 97 are all connected to the 9th pipeline 99, and the 9th pipeline 99 is used to pass through the 5th pipeline 95 and first Pipeline 91 conveys slurry into the first magnetic separation chamber 61, alternatively, for passing through the 7th pipeline 97 and third pipeline 93 to described second Slurry is conveyed in magnetic separation chamber 62.In this way, by the opening and closing of control control valve, it can be achieved that by same pulp feeding system to the first magnetic Chamber 61 and the second magnetic separation chamber 62 is selected to convey slurry, so as to simplify magnetic separation system.

Based on essentially identical consideration, as shown in figs. 1 to 14, the magnetic separation pipeline assembly further includes the 14th pipeline 914, the 15th pipeline 915 and the 16th pipeline 916, the 6th pipeline 96 and the 8th pipeline 98 are all connected to the described tenth Four pipelines 914, the tenth pipeline 910 and the 12nd pipeline 912 are all connected to the 15th pipeline 915, the 11st pipeline 911 and the 13rd pipeline 913 is all connected to the 16th pipeline 916, specific work process and effect, will not repeat them here.

Further, as shown in figure 14, admission chamber is defined between the both ends of the coil 20 and the inner wall of shell 10 21, go out sap cavity 22, the shell 10 is equipped with the inlet (not shown) being connected to admission chamber 21, and is equipped with and connects with sap cavity 22 out Logical liquid outlet (not shown)；Along being defined on the coil 20, between the outer peripheral surface of coil 20 and the inner wall of shell 10 Circle 20 axially extending several first heat exchange runners 23, the both ends of first heat exchange runner 23 respectively with admission chamber 21 and out Sap cavity 22 is connected to.

The concentration equipment 100 further includes heat-exchanging component 30, and heat-exchanging component 30 includes drawing liquid pump 31, heat exchanger 32, heat exchange Pipe-line system, the drawing liquid pump 31 and heat exchanger 32 are connected in turn between inlet and liquid outlet by heat exchange pipeline system.

Specifically, generating magnetic separation magnetic field in inner ring after the coil 20 is powered, coil 20 can generate during the work time Heat in the admission chamber 21, the first heat exchange runner 23, goes out in sap cavity 22, heat exchanger 32 and heat exchange pipeline system to fill absolutely Edge fluid, dielectric fluid in the admission chamber 21, the first heat exchange runner 23, go out sap cavity 22, heat exchange under the driving of drawing liquid pump 31 Device 32 and heat exchange pipeline system internal circulation flow, the heat absorption that coil 20 is generated and conduct in heat exchanger 32 into Row heat exchange, cools down coil 20 to realize.

The specific work process of the heat-exchanging component 30 is as follows: after coil 20 is powered, drawing liquid pump 31 is started to work, in drawing liquid Under the action of pump 31, dielectric fluid enters admission chamber 21 by the inlet of admission chamber 21 out of heat exchanging pipe system, and passes through First heat exchange runner 23 enters sap cavity 22, wherein dielectric fluid absorbs during flowing out of first heat exchange runner 23 The heat that coil 20 generates, to carry out cooling to coil 20, cool down, moreover, because also offering the first heat exchange stream on coil 20 Road 23, so that the heat generated inside coil 20 can be absorbed in dielectric fluid, so as to effectively cool down to coil 20；Insulation Circulation comes back in heat exchange pipeline system from the liquid outlet of sap cavity 22 out；Insulation is passed into heat exchanger 32 and is being exchanged heat Heat exchange is carried out in device 32, the heat that 32 absorbent insulation fluid of heat exchanger carries carries out cooling to it, cools down；It insulate after cooling Fluid enters in heat exchange pipeline system, and enters admission chamber 21 by the inlet of admission chamber 21；So circulate, with line Heat exchange is repeated in circle 20, to persistently carry out cooling treatment to coil 20.

Concentration equipment 100 of the present invention inhales dielectric fluid by opening up the first heat exchange runner 23 on coil 20 The heat generated inside take-up circle 20, to can be improved to 20 cooling effect of coil, so as to the temperature of effective control coil 20, So that the temperature of 20 each section of coil is more uniform, so that the stabilization in the magnetic separation magnetic field of the generation of coil 20 can be improved, to can be improved To the magnetic separation effect of slurry.

Further, as shown in figs. 1 to 14, the coil 20 includes that multiple intervals in the radial direction in coil 20 are set The multiple subcoils 24 set limit the first heat exchange runner 23 between two adjacent subcoils 24.In this way, may not only facilitate into The first heat exchange runner of shape 23, but also 20 structure of coil can be simplified, in order to process, produce coil 20.

Further, as shown in figs. 1 to 14, the concentration equipment 100 further includes two annular seal plates 40, two rings Shape sealing plate 40 is separately mounted to the both ends of coil 20, to limit admission chamber 21 and out sap cavity between the inner wall of shell 10 22, and the heat exchange via hole 41 being connected to the first heat exchange runner 23 is offered on the annular seal plate 40.In this way, can be convenient for formation Admission chamber 21 and out sap cavity 22.In addition, can also be easily installed coil 20.

Specifically, the heat exchange via hole 41 be positioned apart from the circumferential direction of first heat exchange runner 23 it is more It is a.

Further, as shown in figure 14, stating concentration equipment 100 further includes the temperature sensor on the coil 20 45.In this way, can be convenient for the operating temperature of monitoring coil 20, so as to provide reliable guarantee for the work of coil 20.

Further, the drawing liquid pump 31 is set as frequency conversion drawing liquid pump 31.

Specifically, using frequency control to drawing liquid pump 31, make the output frequency of drawing liquid pump 31 with the sense of temperature inductor It answers temperature change and changes, or change the output frequency of drawing liquid pump 31 with the changed power of coil 20.So as to reality The now rationalization to the temperature of coil 20, intelligentized control method, so as to effectively realize energy-saving and emission-reduction.

Further, as shown in figure 14, along being defined between the outer peripheral surface of the coil 20 and the inner wall of shell 10 The second axially extending heat exchange runner 25 of circle 20, the both ends of second heat exchange runner 25 with admission chamber 21 and out sap cavity respectively 22 connections.In this way, can further improve the cooling effect to coil 20.

Specifically, the annular seal plate 40 offers the heat exchange via hole 41 being connected to the second heat exchange runner 25.

It is appreciated that dielectric fluid either concentration equipment 100 is included, was also possible to voluntarily to be added by user. In a preferred embodiment of the invention, in order to improve the convenience of concentration equipment 100, concentration equipment 100 carries dielectric fluid, i.e., The heat-exchanging component 30 further includes being filled in admission chamber 21, the first heat exchange runner 23, the second heat exchange runner 25, out sap cavity 22, change Dielectric fluid in hot device 32 and heat exchange pipeline system, the dielectric fluid can be in admission chamber 21, the first heat exchange runner 23, Two heat exchange runners 25 go out sap cavity 22, heat exchanger 32 and heat exchange pipeline system internal circulation flow.

It is appreciated that dielectric fluid is used for heat exchange, and there are many type of dielectric fluid in the present invention, as long as having certain Specific heat capacity and insulate；It need not enumerate one by one herein.

In this embodiment, it is preferred that the dielectric fluid is set as insulating oil.

Further, as shown in figure 14, the concentration equipment 100 further includes the conservator 46 being arranged on shell 10, described Conservator 46 is connected to the second heat exchange runner 25.

It is appreciated that expanded after dielectric fluid is heated, it therefore, can be to coil 20 and concentration equipment by the way that conservator 46 is arranged 100 operation provides safeguard.

Specifically, the expansion that easily hoists after being heated due to dielectric fluid, therefore, the top of shell 10 is arranged in conservator 46.Base In identical consideration, in this embodiment, it is preferred that, the top of admission chamber 21 is arranged in the inlet of the admission chamber 21, out The top of sap cavity 22 out is arranged in the liquid outlet of sap cavity 22.

Further, as shown in figure 14, the concentration equipment 100 further includes the level sensor being arranged on shell 10 47, the level sensor 47 is inserted in the second heat exchange runner 25.In this way, hot flow path (i.e. the second heat exchange runner can be exchanged 25) height of the dielectric fluid in is measured in real time, so that the operation for coil 20 and concentration equipment 100 provides safeguard.

Further, as shown in figure 14, the concentration equipment 100 further includes being arranged on shell 10 and changing with second The exhaust valve 48 that hot flow path 25 is connected to.In this way, feed liquor can be discharged after dielectric fluid expanded by heating by setting exhaust valve 48 Chamber 21, the first heat exchange runner 23, the second heat exchange runner 25 and the gas in sap cavity 22 out.

Further, as shown in Figure 1 to Figure 3, the concentration equipment 100 further include be arranged in it is on shell 10 and with The fuel outlet valve 49 of two heat exchange runners 25 connection, in order to replace insulating oil.

Be appreciated that concentration equipment 100 of the present invention, by setting temperature sensor 45, level sensor 47, conservator 46, The devices such as exhaust valve 48, structure, Functional Design are reasonable, can provide safeguard for the operation of coil 20 and concentration equipment 100.

Further, as shown in figs. 1 to 14, the heat exchanger 32 is set as plate heat exchanger 32.Plate heat exchanger 32 Have many advantages, such as that heat exchanger effectiveness is high, heat loss is small, advantages of compact and light structure, occupied area are small, long service life.

Specifically, the heat exchanger 32 have cooling water inlet 321, hot water outlet 322, cold oil outlet 323 and hot oil into Mouth 324；The heat exchanging pipe system includes the first heat exchanging pipe 33 and the second heat exchanging pipe 34, and first heat exchanging pipe 33 connects Connect the liquid outlet of the hot oil inlet 324 of heat exchanger 32 with sap cavity 22 out, second heat exchanging pipe 34 connect cold oil outlet 323 with The inlet of admission chamber 21.

In the present embodiment, as shown in figs. 1 to 14, the drawing liquid pump 31 is arranged on the first heat exchanging pipe 33.

In the present embodiment, as shown in figs. 1 to 14, first heat exchanging pipe 33 passes through the first flexible connection structure 331 It is connect with the hot oil inlet 324 of heat exchanger 32；Second heat exchanging pipe 34 passes through the second flexible connection structure 341 and heat exchanger 32 Cold oil outlet 323 connection.

Specifically, as shown in figs. 1 to 14, the shell 10 include inner ring wall 11, collar wall 12, the first side ring wall 13 and Second side ring wall 14, the first side ring wall 13 and second side ring wall 14 are respectively arranged on the both ends of inner ring wall 11 and collar wall 12, And the inner and outer ring end of the first side ring wall 13 is separately connected the first end of inner ring wall 11 and the first end of collar wall 12, described The inner and outer ring end of two side ring walls 14 is separately connected the second end of inner ring wall 11 and the second end of collar wall 12；In the inner ring wall 11 Lateral confinement makes magnetic separation through-hole, for the installation of magnetic separation component 1.

The above description is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all at this Under the inventive concept of invention, using equivalent structure transformation made by description of the invention and accompanying drawing content, or directly/use indirectly It is included in other related technical areas in scope of patent protection of the invention.

Claims (10)

1. a magnetic separation assembly, for magnetic separation device, is characterized in that, comprises: a coil, the axial direction of the coil is set as the first direction; a magnetic separation shell, the magnetic separation shell is installed in the inner circle of the coil, and in the first direction, the coil and the magnetic separation shell are relatively movably arranged; and The first magnetic pole head, the second magnetic pole head, and the third magnetic pole head are arranged in the magnetic separation shell at intervals in the first direction, so as to define a first magnetic separation cavity and a second magnetic separation cavity in the magnetic separation shell. Two magnetic separation chambers; Both the first magnetic separation cavity and the second magnetic separation cavity have a magnetic separation position inside the inner circle of the coil and a cleaning position outside the inner circle of the coil, and when the first magnetic separation cavity When in its magnetic separation position, the second magnetic separation chamber is in its cleaning position; when the first magnetic separation chamber is in its cleaning position, the second magnetic separation chamber is in its magnetic separation position. 2 . The magnetic separation assembly according to claim 1 , wherein the magnetic separation shell is reciprocatingly arranged in the inner ring of the coil along the first direction. 3 . 3 . The magnetic separation assembly of claim 1 , wherein the coil is sleeved on the magnetic separation shell in a reciprocating manner along the first direction. 4 . 4. The magnetic separation assembly according to claim 1, wherein the magnetic separation position of the first magnetic separation cavity is set close to one end of the coil, and the magnetic separation position of the second magnetic separation cavity is set close to the magnetic separation position of the second magnetic separation cavity. The other end of the coil is provided. 5. The magnetic separation assembly of claim 1, wherein the first magnetic pole head is provided with a first connection hole and a second connection hole that communicate with the first magnetic separation cavity, and the first magnetic separation cavity is provided with a first connection hole and a second connection hole. The connection hole is used for conveying slurry or cleaning liquid into the first magnetic separation chamber, and the second connection hole is used for outputting the iron removing slurry or cleaning liquid in the first magnetic separation chamber. 6 . The magnetic separation assembly according to claim 5 , wherein one of the first connection holes is provided, two of the second connection holes are provided, and the first connection holes are located at two of the second connection holes. 7 . between the two connecting holes. 7 . The magnetic separation assembly according to claim 1 , wherein the magnetic separation assembly further comprises a first magnetic medium, and the first magnetic medium is arranged in the first magnetic separation cavity. 8 . within; and/or The magnetic separation assembly further includes a second magnetic medium, and the second magnetic medium is arranged in the second magnetic separation cavity. 8 . The magnetic separation assembly according to claim 7 , wherein the magnetic separation assembly further comprises a first magnetic isolation plate arranged in the first magnetic separation cavity, and the first magnetic isolation plate is provided with an opening. 9 . There are several first through holes; the first magnetic medium is provided with multiple layers, and a first magnetic isolation plate is arranged between any two adjacent first magnetic mediums. 9 . The magnetic separation assembly according to claim 8 , wherein the magnetic separation assembly further comprises a first medium shell, and the first magnetic medium and the first magnetic isolation plate are installed in the first medium shell. 10 . , the first dielectric shell is arranged in the first magnetic separation cavity. 10. A magnetic separation device, characterized by comprising the magnetic separation assembly according to any one of claims 1 to 9.