CN210815694U - Magnetic separator - Google Patents

Abstract

The utility model discloses a magnetic separator, include: a barrel provided with a cover plate; the magnetic medium frame can be adaptively arranged in the charging barrel; the magnetic medium is mounted on the magnetic medium frame in series; the upper magnetic pole is arranged above the magnetic medium and is connected with the cover plate; the driving system is connected with the cover plate and drives the cover plate to do linear reciprocating motion, so that the upper magnetic pole is driven to do linear reciprocating motion; a first air inlet duct that delivers compressed air to the bottom of the barrel; a second air intake duct that delivers compressed air downward from the upper portion of the barrel; the utility model discloses utilize magnetic substance receive under compressed air and actuating system's the common effort with magnetic medium separates, and magnetic substance is along with sewage discharges fast to realize high quality and efficient cleaning performance.

Description

Magnetic separator

Technical Field

The utility model relates to a magnet separator technical field, in particular to magnet separator.

Background

In the raw material processing process in the fields of ceramics, glass, chemical industry, medicine, food and the like, an iron removal device is generally required to remove ferromagnetic substances in the raw materials so as to improve the purity of the raw materials. The magnetic medium is magnetized by the magnetic field generated by the electromagnetic coil, so that the magnetic medium has a strong magnetic field, and magnetic substances in the slurry can be adsorbed on the magnetic medium when the slurry passes through the magnetic medium, so that the aim of removing ferromagnetic substances in the raw materials is fulfilled. However, since the magnetic medium is likely to be clogged when the amount of the magnetic substance adsorbed to the magnetic medium is too large, the magnetic medium needs to be cleaned and cleaned at regular intervals before being used. The magnetic medium is washed for direct high-pressure clear water with the tradition mode of wasing, and in the cleaning process, magnetic medium upper portion is effectively washd, and the bottom and the inside of magnetic medium are not convenient for wash, long-pending a large amount of magnetic substance that leaves produces very big influence to the deironing in later stage, and the effect that the purity of material was improved is unsatisfactory, and in the urgent need of a magnetic medium on the market now, the outside can obtain better cleaning method and satisfy now not enoughly.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a magnetic separator, aims at providing a magnetic separator of high quality and efficient cleaning performance.

In order to achieve the above object, the utility model provides a magnetic separator, include:

a barrel provided with a cover plate;

the magnetic medium frame can be adaptively arranged in the charging barrel;

the magnetic medium is mounted on the magnetic medium frame in series;

the upper magnetic pole is arranged above the magnetic medium and is connected with the cover plate;

the driving system is connected with the cover plate and drives the cover plate to do linear reciprocating motion, so that the upper magnetic pole is driven to do linear reciprocating motion;

a first air inlet duct that delivers compressed air to the bottom of the barrel;

a second air intake duct that delivers compressed air downward from the upper portion of the barrel.

Specifically, the driving system comprises a driving end and a telescopic end, the telescopic end is connected with the cover plate, and the driving end drives the telescopic end to do linear reciprocating motion so as to drive the upper magnetic pole to do linear reciprocating motion.

Specifically, the first air inlet pipeline comprises an air inlet main pipe and an air inlet branch pipe, the air inlet main pipe is communicated with the top end of the serial connection pipe of the magnetic medium frame through a steam nozzle, and the air inlet branch pipe is communicated with the bottom of the serial connection pipe through the steam nozzle.

Specifically, the air inlet branch pipe is provided with an air seam, the air inlet branch pipe is in an inflated state when compressed air is input, and the air seam is in a stretched state when the compressed air is input; the air inlet branch pipe is in a contracted state when the input of compressed air is stopped, and the air gap is in a closed state when the input of compressed air is stopped.

Specifically, the charging barrel is provided with a main pipe, the main pipe is communicated with the serial connection pipe, and the second air inlet pipeline is communicated with the charging barrel through the main pipe.

Specifically, the upper end of house steward is connected with water inlet, gas vent and discharge gate, the bottom of house steward is connected with feed inlet and drain.

Specifically, the main pipe comprises a first main pipe and a second main pipe, the bottom of the first main pipe is communicated with the top of the serial pipe, the top of the second main pipe is connected to the center of the bottom of the magnetic medium frame, the bottom of the first main pipe is narrowed, and the first main pipe is connected with a plurality of first branch pipes.

Specifically, the magnetic separator further comprises:

a lower magnetic pole disposed below the magnetic media shelf;

an electromagnetic coil disposed around the cartridge;

the electromagnetic coil is arranged in the shielding box, the charging barrel penetrates through the shielding box, an oil cavity is formed in the shielding box, and insulating oil is filled in the oil cavity;

the shielding box is arranged on the rack;

the shielding box is mounted on the frame;

the oil well pump is arranged on the frame and is positioned on one side of the heat exchanger;

wherein, the oil well pump, the shielding box and the heat exchanger are connected with oil pipes between two.

Specifically, the shielding box is further provided with an oil conservator, and a liquid level sensor is arranged in the oil conservator.

Specifically, a temperature sensor is arranged in the electromagnetic coil.

The utility model discloses a magnetic separator, include: a barrel provided with a cover plate; the magnetic medium frame can be adaptively arranged in the charging barrel; the magnetic medium is mounted on the magnetic medium frame in series; the upper magnetic pole is arranged above the magnetic medium and is connected with the cover plate; the driving system is connected with the charging barrel and drives the cover plate to do linear reciprocating motion so as to drive the upper magnetic pole to do linear reciprocating motion; a first air inlet duct that delivers compressed air to the bottom of the barrel; a second air intake duct that delivers compressed air downward from the upper portion of the barrel; the utility model discloses utilize magnetic substance receive under compressed air and actuating system's the common effort with magnetic medium separates, and magnetic substance is along with sewage discharges fast to realize high quality and efficient cleaning performance.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of a cartridge part according to an embodiment of the present invention;

fig. 3 is a partially enlarged view of a magnetic medium and a magnetic medium holder according to an embodiment of the present invention.

The reference numbers illustrate:

the device comprises a charging barrel 1, a magnetic medium frame 2, a serial connection pipe 21, a magnetic medium 3, a driving system 4, a driving end 41, a telescopic end 42, a first air inlet pipeline 5, an air inlet main pipe 51, an air inlet branch pipe 52, an air gap 521, a second air inlet pipeline 6, a steam nozzle 7, a main pipe 8, a first main pipe 81, a first branch pipe 811, a water inlet 812, an air outlet 813, a discharge port 814, a second main pipe 82, a feed port 821, a sewage outlet 822, an upper magnetic pole 9, a lower magnetic pole 10, an electromagnetic coil 11, a shielding box 12, an oil cavity 121, a frame 13, a heat exchanger 14, an oil well pump 15, an oil pipe 16, an oil conservator 17 and a.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B" including either scheme A, or scheme B, or a scheme in which both A and B are satisfied. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a magnetic separator, a serial communication port, include:

a cartridge 1 provided with a cover plate 18;

the magnetic medium frame 2 can be adaptively arranged in the charging barrel 1;

the magnetic medium 3 is arranged on the magnetic medium frame 2 in series;

the upper magnetic pole 9 is arranged above the magnetic medium 3, and the upper magnetic pole 9 is connected with the cover plate 18;

the driving system 4 is connected with the cover plate 18, and the driving system 4 drives the cover plate 18 to do linear reciprocating motion so as to drive the upper magnetic pole 9 to do linear reciprocating motion;

a first air inlet pipe 5, wherein the first air inlet pipe 5 conveys compressed air to the bottom of the barrel 1;

a second air intake duct 6, said second air intake duct 6 delivering compressed air from the upper part of said barrel 1 downwards.

In the utility model, during the cleaning operation, the driving system 4 drives the cover plate 18 to make a linear reciprocating motion, so as to drive the upper magnetic pole 9 to make a linear reciprocating motion, after the magnetic medium 3 is subjected to the pressure of the upper magnetic pole 9 and disappears, because the magnetic medium 3 has elasticity, the magnetic medium 3 is naturally fluffy, and simultaneously, power is provided for the separation of the magnetic substance and the magnetic medium 3, so that the magnetic substance is separated from the magnetic medium 3, and space and power are provided for the clean water to enter the charging barrel 1, thereby facilitating the clean water to clean the magnetic medium 3; meanwhile, the first air inlet pipeline 5 conveys compressed air to the bottom of the material cylinder 1, clean water is filled in the material cylinder 1 at the moment, the compressed air is discharged from the bottom of the material cylinder 1 to the top through the first air inlet pipeline 5 and passes through the magnetic medium 3 to be separated into a large number of small bubbles, magnetic substances adsorbed on the surface of the magnetic medium 3 are separated from the magnetic medium 3 under the joint action of the small bubbles and the driving system 4, and the compressed air is finally discharged from the top of the material cylinder 1; then the first air inlet pipeline 5 stops conveying the compressed air, the second air inlet pipeline 6 is opened and conveys the compressed air into the charging barrel 1, and the magnetic substances are quickly discharged along with sewage, so that high-quality and high-efficiency cleaning effect is realized.

It should be noted that, the technical solution provided by the present invention is applicable to both horizontal magnetic separator and vertical magnetic separator, and is not limited to the embodiment provided by the present invention.

Specifically, the driving system 4 includes a driving end 41 and a telescopic end 42, the telescopic end 42 is connected to the cover plate 18, and the driving end 41 drives the telescopic end 42 to perform a linear reciprocating motion, so as to drive the upper magnetic pole 9 to perform a linear reciprocating motion.

When the driving system 4 is not in operation, the upper magnetic pole 9 is stationary and defines the position as an original position, when the telescopic end 42 is extended, the upper magnetic pole 9 is far away from the original position, and when the telescopic end 42 is contracted, the upper magnetic pole 9 is close to the original position, so as to realize the linear reciprocating motion of the upper magnetic pole 9; when the upper magnetic pole 9 is located at the original position, the magnetic medium 3 is in a compressed state, and when the upper magnetic pole 9 is far away from the original position, the magnetic medium 3 is stretched and restored to the original shape, so that the magnetic medium is naturally fluffy, and the magnetic substance adsorbed on the magnetic medium falls off. Therefore, when in cleaning operation, the material cylinder 1 is filled with clear water, the upper magnetic pole 9 continuously reciprocates up and down, so that the magnetic medium 3 is continuously extended and compressed, and the magnetic substance is separated from the magnetic medium 3 under the action of the continuous collision of the elastic restoring force of the magnetic medium 3 and the clear water, so that the purpose of separating the magnetic substance from the magnetic medium 3 is achieved, and the cleaning quality is improved.

It should be noted that the driving system 4 may be a motor, an air cylinder, or a hydraulic cylinder, and is not limited herein, and preferably, a hydraulic cylinder is used in this embodiment.

Specifically, the first air inlet pipe 5 comprises an air inlet main pipe 51 and an air inlet branch pipe 52, the air inlet main pipe 51 is communicated with the top end of the serial connection pipe 21 of the magnetic medium frame 2 through an air nozzle 7, and the air inlet branch pipe 52 is communicated with the bottom of the serial connection pipe 21 through the air nozzle 7.

The top of the serial connection pipe 21 of the magnetic medium frame 2 is provided with a circular through hole, the circular through hole is inserted with the steam nozzle 7, the air inlet main pipe 51 is sleeved outside the steam nozzle 7, a plurality of circular through holes are distributed at intervals in a ring shape at the bottom of the serial connection pipe 21, the steam nozzles 7 are inserted in the circular through holes, the air inlet branch pipes 52 are sleeved on the steam nozzle 7, and compressed air enters the serial connection pipe 21 from the air inlet main pipe 51 and then is output from the air inlet branch pipes 52 connected at the bottom of the serial connection pipe 21; the air inlet branch pipes 52 distributed at the annular interval at the bottom of the serial connection pipe 21 ensure that the magnetic medium 3 can be radiated by compressed air in all directions, so that the magnetic medium 3 is thoroughly cleaned, the iron removal effect cannot be influenced by residual magnetic substances on the magnetic medium 3 during iron removal at each time, and the excellent iron removal effect is ensured.

During cleaning operation, clean water is filled into the material cylinder 1, meanwhile, compressed air is input into the material cylinder 1 through the first air inlet pipeline 5, the compressed air enters from the air inlet main pipe 51, passes through the serial connection pipe 21 and is output from the air inlet branch pipe 52, the compressed air flows upwards from the bottom of the material cylinder 1, when the compressed air passes through the magnetic medium 3, the compressed air is split into a large number of small bubbles, the large number of small bubbles flow upwards in the magnetic medium 3 irregularly, and at the moment, magnetic substances adsorbed on the magnetic medium 3 or wrapped or collided magnetic medium 3 is separated from the magnetic medium 3, so that the compressed air is dispersed into the flowing clean water.

Path of compressed air entering the first intake passage: compressed air enters from the air inlet manifold 51, then enters the air inlet branch pipe 52 through the series connection pipe 21, and finally is output from the air gap 521 of the air inlet branch pipe 52.

Further, the air inlet branch pipe 52 is provided with an air gap 521, the air inlet branch pipe 52 is in an inflated state when compressed air is input, and the air gap 521 is in a stretched state when the compressed air is input; the intake branch pipe 52 is in a contracted state when the input of compressed air is stopped, and the air gap 521 is in a closed state when the input of compressed air is stopped.

Furthermore, the air inlet branch pipe 52 is an elastic hose, when the compressed air is stopped being delivered to the air inlet branch pipe 52, the air inlet branch pipe 52 is in an elastic contraction state, the air slit 521 is in a closed state, at this time, the second air inlet pipeline 6 delivers the compressed air to the charging barrel 1, the clear water is wrapped by the magnetic substance and is discharged, and as the air slit 521 of the air inlet branch pipe 52 is in the closed state, the dirty water and the magnetic substance cannot enter the air inlet branch pipe 52, so that the air inlet branch pipe 52 is well protected, and the air inlet branch pipe 52 is prevented from being frequently replaced. In addition, when replacing the inlet manifold 52, the production process is affected by the need to stop the machine and replace it.

Specifically, the cartridge 1 is provided with a manifold 8, the manifold 8 is communicated with the serial pipe 21, and the second air inlet pipe 6 is communicated with the cartridge 1 through the manifold 8.

Further, the header pipe 8 penetrates through the top of the charging barrel 1, so that the cover plate 18 fixes the header, the header pipe 8 is sleeved at the upper part of the serial connection pipe 21, a cavity is arranged between the inner wall of the header pipe 8 and the serial connection pipe 21, when in iron removal operation, nonmagnetic substances enter the header pipe 8 from the cavity and are output, and the cavity is arranged to ensure the output of the nonmagnetic substances; because the second air inlet pipe 6 is communicated with the manifold 8, compressed air is conveyed into the charging barrel 1 through the manifold 8 after passing through the second air inlet pipe 6 and is discharged from the top to the bottom of the charging barrel 1.

During cleaning operation, when the first air inlet pipeline 5 is closed, then the second air inlet pipeline 6 is opened, compressed air is conveyed into the charging barrel 1, and a large amount of compressed air enters the charging barrel 1, so that sewage in the charging barrel 1 can be rapidly discharged, the cleaning effect of the magnetic medium 3 is further improved, and the iron removal effect is not influenced.

Specifically, the upper end of the main pipe 8 is connected with a water inlet 812, an exhaust vent 813 and a discharge outlet 814, and the bottom end of the main pipe 8 is connected with a feed inlet 821 and a sewage outlet 822.

In this embodiment, a slurry feeding mode of feeding slurry from bottom to top is adopted, the slurry enters from a feed port 821 at the bottom end of the main pipe 8, and the slurry after iron removal is output from a discharge port 814 at the upper end of the main pipe 8; the exhaust port 813 is used for discharging compressed air of the first air inlet pipeline 5, the water inlet 812 is used for conveying clean water during cleaning operation, and the drain outlet 822 is used for discharging sewage and magnetic substances after cleaning operation.

Further, the manifold 8 includes a first manifold 81 and a second manifold 82, a bottom of the first manifold 81 is communicated with a top of the serial pipe 21, a top of the second manifold 82 is connected to a center of a bottom of the magnetic medium holder 2, a bottom of the first manifold 81 is narrowed, and the first manifold 81 is connected with a plurality of first branch pipes 811.

The headquarters is that the annular is provided with a plurality of first branch pipe 811, just first total pipe 81 adopts the narrow structure in the wide lower part in upper portion, and when high-pressure clear water came in, the clear water rationally dispersed, and magnetic medium 3 obtains evenly washing for magnetic medium 3 is by thorough sanitization, consequently can not influence the deironing effect because of the residual magnetic substance on the magnetic medium 3 during deironing at every turn, has ensured good deironing effect.

During the deironing operation, thick liquids are followed respectively first total pipe 81's cavity with first minute pipe 811 goes out the entering, then assembles in house steward 8 department, exports from discharge gate 814 finally, sets up a plurality of first minute pipe 811 is favorable to accelerating the output of thick liquids, reaches the purpose that improves work efficiency.

Specifically, the magnetic separator further comprises:

a lower magnetic pole 10, wherein the lower magnetic pole 10 is arranged below the magnetic medium frame 2;

a solenoid 11, said solenoid 11 being disposed around said cartridge 1;

the electromagnetic coil 11 is arranged in the shielding box 12, the charging barrel 1 penetrates through the shielding box 12, an oil cavity 121 is formed in the shielding box 12, and insulating oil is filled in the oil cavity 121;

the frame 13, the shielding box 12 is arranged on the frame 13;

a heat exchanger 14, the heat exchanger 14 being mounted on the frame 13;

the oil well pump 15 is installed on the frame 13 and is positioned on one side of the heat exchanger 14;

wherein, oil pipes 16 are connected between the oil pump 15, the shielding box 12 and the heat exchanger 14.

Specifically, heat generated by the electromagnetic coil 11 is conducted to the insulating oil in the shielding box 12, the oil pump 15 pumps the high-temperature insulating oil out of the shielding box 12 and conveys the high-temperature insulating oil into the heat exchanger 14 for heat exchange, so that the temperature of the insulating oil is reduced, and then the cooled insulating oil is conveyed to the top of the coil through the oil pipe 16, so that continuous circulation is realized, effective cooling is realized, and continuous work of the magnetic separator is guaranteed; preferably, the heat exchanger 14 used in this embodiment is a plate heat exchanger, and has the characteristics of high heat exchange efficiency, small heat loss, compact and light structure, small occupied area, wide application, long service life, and the like, and under the condition of the same pressure loss, the heat transfer coefficient of the heat exchanger is 3-5 times higher than that of the tubular heat exchanger 14, the occupied area of the heat exchanger is one third of that of the tubular heat exchanger 14, and the heat recovery rate can be as high as more than 90%.

The working principle of iron removal operation is as follows: the electromagnetic coil 11 is electrified, the upper magnetic pole 9 and the lower magnetic pole 10 are magnetized, the magnetic medium 3 generates a high magnetic field gradient, slurry enters the charging barrel 1 from the feeding hole 821 at the lower end of the main pipe 8, the slurry passes through the magnetic medium 3, magnetic substances in the slurry are adsorbed on the magnetic medium 3, the slurry after the magnetic substances are removed is output from the discharging hole 814 at the top end of the main pipe 8, and magnetic separation work is completed.

The working principle of the cleaning operation is as follows: the electromagnetic coil 11 is electrified, the magnetic medium 3 does not generate high magnetic field gradient, the magnetic substance is not restricted by magnetic force, clear water enters the charging barrel 1 from a water inlet 812 at the upper end of the main pipe 8, the driving system 4 drives the upper magnetic pole 9 to do linear reciprocating motion, so that the mesh structure of the magnetic medium 3 becomes fluffy, meanwhile, power is provided for separating the magnetic medium 3 from the magnetic substance, the air inlet main pipe 51 conveys compressed air to the bottom of the magnetic medium frame 2 and conveys the compressed air to the bottoms of the charging barrel 1 and the magnetic medium 3 through a plurality of air inlet branch pipes 52, as the air inlet branch pipes 52 are provided with a plurality of air slits 521, the compressed air is uniformly distributed at the bottoms of the charging barrel 1 and the magnetic medium 3, the compressed air is contacted with the magnetic medium 3 and is split into a large number of small bubbles which move irregularly when moving upwards, the magnetic substance adsorbed on the magnetic medium 3 is subjected to the elastic restoring force of, the compressed air is separated from the magnetic medium 3, and is discharged from an exhaust port 813 at the top of the header pipe 8 after being converged by the first branch pipe 811 and the first header pipe 81; then, the air inlet main pipe 51 is closed to stop conveying the compressed air, the second air inlet pipeline 6 is opened and the compressed air is conveyed into the charging barrel 1, the air inlet branch pipes 52 are elastically contracted due to the closing of the air inlet main pipe 51, the air gaps 521 are closed, impurities do not enter the air inlet branch pipes 52, the compressed air is conveyed from top to bottom and pushes the sewage to the sewage outlet 822 at the lower end of the main pipe 8 to be discharged, and the cleaning work is completed.

Specifically, the shielding box 12 is further provided with an oil conservator 17, and a liquid level sensor is arranged in the oil conservator 17.

Because insulating oil in the shielded cell 12 is heated the back, insulating oil expands to the eminence, consequently is equipped with conservator 17 in the eminence of magnet separator, is equipped with the liquid level inductor in the conservator 17, and the liquid level inductor carries out real-time detection to the insulating oil height in the shielded cell 12, provides reliable guarantee for the magnet operation.

Preferably, a temperature sensor is arranged in the electromagnetic coil 11.

The temperature sensor is arranged in the electromagnetic coil 11, so that the overhigh temperature is effectively avoided, and the reliable guarantee is provided for the work of the whole machine.

To sum up, the utility model discloses a magnetic separator, include: a barrel provided with a cover plate; the magnetic medium frame can be adaptively arranged in the charging barrel; the magnetic medium is mounted on the magnetic medium frame in series; the upper magnetic pole is arranged above the magnetic medium and is connected with the cover plate; the driving system is connected with the charging barrel and drives the cover plate to do linear reciprocating motion so as to drive the upper magnetic pole to do linear reciprocating motion; a first air inlet duct that delivers compressed air to the bottom of the barrel; a second air intake duct that delivers compressed air downward from the upper portion of the barrel; the utility model discloses utilize magnetic substance receive under compressed air and actuating system's the common effort with magnetic medium separates, and magnetic substance is along with sewage discharges fast to realize high quality and efficient cleaning performance.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. A magnetic separator, comprising:

a barrel provided with a cover plate;

the magnetic medium frame can be adaptively arranged in the charging barrel;

the magnetic medium is mounted on the magnetic medium frame in series;

the upper magnetic pole is arranged above the magnetic medium and is connected with the cover plate;

the driving system is connected with the cover plate and drives the cover plate to do linear reciprocating motion, so that the upper magnetic pole is driven to do linear reciprocating motion;

a first air inlet duct that delivers compressed air to the bottom of the barrel;

a second air intake duct that delivers compressed air downward from the upper portion of the barrel.

2. The magnetic separator recited in claim 1 wherein said drive system includes a drive end and a telescoping end, said telescoping end being connected to said cover plate, said drive end driving said telescoping end in linear reciprocation thereby driving said upper pole in linear reciprocation.

3. The magnetic separator as claimed in claim 1, wherein said first air inlet duct comprises an air inlet main and an air inlet branch, said air inlet main is communicated with the top end of the series connection pipe of said magnetic medium frame through a steam nozzle, and said air inlet branch is communicated with the bottom of said series connection pipe through a steam nozzle.

4. The magnetic separator recited in claim 3 wherein said inlet manifold defines an air slit, said inlet manifold being inflated when compressed air is supplied thereto, said air slit being expanded when compressed air is supplied thereto; the air inlet branch pipe is in a contracted state when the input of compressed air is stopped, and the air gap is in a closed state when the input of compressed air is stopped.

5. The magnetic separator recited in claim 3 wherein said barrel is provided with a manifold, said manifold being in communication with said series connection, said second inlet conduit being in communication with said barrel through said manifold.

6. The magnetic separator recited in claim 5 wherein said header pipe has an upper end connected to a water inlet, an air outlet and a discharge outlet, and a lower end connected to a feed inlet and a drain outlet.

7. The magnetic separator recited in claim 5 wherein said header comprises a first header and a second header, the bottom of said first header communicating with the top of said series pipe, the top of said second header connecting to the center of the bottom of said magnetic media frame, the bottom of said first header narrowing, said first header connecting to a plurality of first manifolds.

8. The magnetic separator recited in any one of claims 1 to 7 further comprising:

a lower magnetic pole disposed below the magnetic media shelf;

an electromagnetic coil disposed around the cartridge;

the electromagnetic coil is arranged in the shielding box, the charging barrel penetrates through the shielding box, an oil cavity is formed in the shielding box, and insulating oil is filled in the oil cavity;

the shielding box is arranged on the rack;

the shielding box is mounted on the frame;

the oil well pump is arranged on the frame and is positioned on one side of the heat exchanger;

wherein, the oil well pump, the shielding box and the heat exchanger are connected with oil pipes between two.

9. The magnetic separator recited in claim 8 wherein said shield box is further fitted with a conservator, said conservator having a level sensor disposed therein.

10. The magnetic separator recited in claim 8 wherein a temperature sensor is disposed within said electromagnetic coil.

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