CN211937385U - Magnet separator for iron ore - Google Patents

Abstract

The utility model relates to a magnet separator for iron ore, which comprises an iron ore separating wheel, a feeding conveyer belt device and a magnetic iron conveyer belt device, wherein the iron ore separating wheel is positioned above the feeding conveyer belt device and the magnetic iron conveyer belt device; the iron ore separating wheel comprises a magnetic penetrable rotating cylinder and an inner shaft body of the separating wheel, the magnetic penetrable rotating cylinder is sleeved on the inner shaft body of the separating wheel, and the inner shaft body of the separating wheel is always in a fixed state. The utility model has simple structure, single process, high automation degree, small volume and compact structure; when the magnetic penetrable rotating drum rotates anticlockwise, an updraft type installation mode is adopted, gravity and downforce can be utilized, the magnetic part on the left side strongly adsorbs magnetic iron, and large iron blocks and weak magnetic iron can be effectively adsorbed; the nonmagnetic part on the right side does not attract the magnetic iron, so that all the magnetic iron is thrown out onto the magnetic iron conveying belt device by utilizing centrifugal force, the operation is thorough, the separation effect is good, and the grade of the selected ore can be improved efficiently.

Description

Magnet separator for iron ore

Technical Field

The utility model relates to an ore sorting field, concretely relates to magnet separator for iron ore.

Background

The iron ore magnetic separator is also called a dry magnetic separator and is mainly used for primary magnetic separation equipment after crushing of mines, iron ores and magnetic ores, the iron ores generally contain magnetic iron, and the ore separation can be carried out from 1000 gauss to 6000 gauss in magnetism. The iron ore magnetic separator can roughen iron powder, realize iron-stone separation to improve the grade, also can retrieve the tailing, the sulfate slag purification etc..

The sorting machine is used for sorting iron ores with low grade into iron ores with high grade through the sorting machine in the current market, and the used sorting machine mainly comprises a cylindrical dry sorting machine and a wet overflow sorting machine and can basically meet the requirements. However, the existing cylinder dry separator still has the following problems:

1. the structure is complex, the working procedures are multiple, and the manufactured magnet sorting machine is large in size and not compact enough in structure;

2. because still have certain viscidity between magnetic iron and the ore, the sorting effect of current cylinder dry separator is relatively poor, contains more ore impurity in the magnetic iron promptly, contains more magnetic iron impurity in the ore.

SUMMERY OF THE UTILITY MODEL

The utility model provides a magnet separator for iron ore has solved above technical problem.

The utility model provides a scheme as follows of above-mentioned technical problem: a magnet separator for iron ore is used for separating magnetic iron and ore in the iron ore, and comprises a driving device, an iron ore separating wheel, a feeding conveyor belt device and a magnetic iron conveyor belt device, wherein the driving device is used for driving the iron ore separating wheel, the feeding conveyor belt device and the magnetic iron conveyor belt device; the iron ore separating wheel comprises a magnetic penetrable rotating drum and a separating wheel inner shaft body, the magnetic penetrable rotating drum is sleeved on the separating wheel inner shaft body, the separating wheel inner shaft body is always in a fixed state, the driving device drives the magnetic penetrable rotating drum to rotate, and a magnetic part and a non-magnetic part are arranged on the separating wheel inner shaft body; the magnetic part is arranged close to and opposite to the feeding conveyor belt device, and the nonmagnetic part is arranged close to and opposite to the magnetic iron conveyor belt device.

Furthermore, the magnetic part is an electromagnet, and the non-magnetic part is made of an insulating material.

Further, the magnetically permeable drum includes an inner layer of soft iron and an outer layer of hard plastic with a plurality of holes.

Furthermore, a plurality of first partition baffle plates are uniformly arranged on the surface of the magnetic penetrable rotating cylinder along the circumferential direction of the magnetic penetrable rotating cylinder.

Furthermore, the wrap angle of the magnetic part on the inner shaft body of the separating wheel is larger than that of the nonmagnetic part.

Further, the wrap angle of the magnetic part on the separating wheel inner shaft body is 240 degrees, the wrap angle of the nonmagnetic part on the separating wheel inner shaft body is 120 degrees, and the wrap angles are symmetrical about a horizontal plane.

Furthermore, the driving device comprises a driving motor, a driving gear, a first driven gear and a second driven gear; the output end of the driving motor is fixedly connected with the input shaft of the driving gear, the driving gear is respectively meshed with the first driven gear and the second driven gear, the output shaft of the driving gear is fixedly connected with the magnetic penetrable rotary drum, the feeding conveyer belt device comprises a first driving wheel, the magnetic iron conveyer belt device comprises a second driving wheel, the first driving wheel and the second driving wheel are arranged close to each other, the output shaft of the first driven gear is fixedly connected with the input shaft of the first driving wheel, and the output shaft of the second driven gear is fixedly connected with the input shaft of the second driving wheel.

Further, the feeding conveyor belt device comprises a feeding conveyor belt, and a plurality of second partition baffle sheets are uniformly arranged on the feeding conveyor belt; the magnetic iron conveyor belt device comprises a magnetic iron conveyor belt, a plurality of third partition separation blades are uniformly arranged on the magnetic iron conveyor belt, and the heights of the second partition separation blades and the third partition separation blades are the same.

Further, the height of each second partition baffle is smaller than that of each first partition baffle.

Furthermore, a first collecting device is arranged below the discharge end of the feeding conveyor belt device, a second collecting device is arranged below the discharge end of the magnetic iron conveyor belt device, the side wall of each collecting device is a conical bell mouth, the bottom surface of each collecting device is a conical surface with a certain downward inclination, a discharge hole is formed in the center of the bottom surface, and a switch valve is arranged at the discharge hole.

The utility model has the advantages that:

1. the magnet separator is designed to comprise a driving device, an iron ore separating wheel, a feeding conveyor belt device and a magnetic iron conveyor belt device, so that the magnet separator is simple in structure, single in process and high in automation degree, and the manufactured magnet separator is small in size and compact in structure;

2. the iron ore separating wheel is arranged above the feeding conveyor belt device and the magnetic iron conveyor belt device and comprises a magnetic penetrable rotary drum and an inner shaft body of the separating wheel, the magnetic penetrable rotary drum is sleeved on the inner shaft body of the separating wheel, when the magnetic penetrable rotary drum rotates anticlockwise, an updraft type installation mode is adopted to utilize gravity and downforce, and a magnetic part on the left side strongly adsorbs magnetic iron, so that large iron and weak magnetic iron can be effectively adsorbed; when the magnetism penetrable rotary drum continues anticlockwise rotation, the adsorbed magnetic iron on the left side rotates to the right side, and because the nonmagnetic part on the right side does not have attraction to the magnetic iron, utilize centrifugal force to be convenient for throw away whole magnetic iron to the magnetic iron conveyer belt device, this operation is comparatively thorough and sorting effect is good, can improve the grade of choice ore by high efficiency.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings. The detailed description of the present invention is given by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic structural view of a magnet separator for iron ore according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a driving apparatus in the magnetic separator for iron ores of fig. 1.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a magnet separator; 10. an iron ore separating wheel; 11. a magnetically permeable drum; 111. a first partition plate; 12. separating the inner shaft body of the wheel; 121. a magnetic part; 122. a non-magnetic portion; 20. A feed conveyor means; 21. a feed conveyor; 211. a second partition baffle plate; 22. a first drive wheel; 30. a magnetic iron conveyor belt device; 31. a magnetic iron conveyor belt; 311. a third partition baffle plate; 32. a second drive wheel; 40. a first collection device; 41. a side wall; 42. a bottom surface; 421. a discharge port; 43. an on-off valve; 50. a second collection device; 60. a drive device; 61. a driving gear; 62. a first driven gear; 63. a second driven gear; 200. magnetic iron; 300. and (4) ore.

Detailed Description

The principles and features of the present invention are described below in conjunction with the accompanying fig. 1-2, the examples given are intended to illustrate the present invention and are not intended to limit the scope of the invention. The invention is described in more detail in the following paragraphs by way of example with reference to the accompanying drawings. The advantages and features of the present invention will become more fully apparent from the following description and appended claims. It should be noted that the drawings are in simplified form and are not to precise scale, and are provided for convenience and clarity in order to facilitate the description of the embodiments of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1-2, the present invention provides a magnet separator for iron ore, for separating magnetic iron from ore in iron ore, the magnet separator 100 includes a driving device, an iron ore separating wheel 10, a feeding conveyor belt device 20 and a magnetic iron conveyor belt device 30, the driving device is used for driving the iron ore separating wheel 10, the feeding conveyor belt device 20 and the magnetic iron conveyor belt device 30, the iron ore separating wheel 10 is located above the feeding conveyor belt device 20 and the magnetic iron conveyor belt device 30; the iron ore separating wheel 10 comprises a magnetic penetrable rotary drum 11 and a separating wheel inner shaft body 12, the magnetic penetrable rotary drum 11 is sleeved on the separating wheel inner shaft body 12, the separating wheel inner shaft body 12 is always in a fixed state, the driving device drives the magnetic penetrable rotary drum 11 to rotate, and a magnetic part 121 and a non-magnetic part 122 are arranged on the separating wheel inner shaft body 12; the magnetic portion 121 is disposed close to and opposite to the feeding conveyor belt device 20, and the non-magnetic portion 122 is disposed close to and opposite to the magnetic iron conveyor belt device 30.

Firstly, the driving device drives the magnetic penetrable rotating cylinder 11 to rotate anticlockwise, the feeding conveyor belt device 20 and the magnetic iron conveyor belt device 30 also flow clockwise, the raw material iron ore enters from the left side and flows to the right side on the feeding conveyor belt device 20, wherein the magnetic iron 200 meets the magnetic part 121 on the left side of the shaft body 12 in the separating wheel and is sucked away, and the rest ore 300 flows to the discharging end along with the feeding conveyor belt device 20; the magnetic iron which is just sucked flows out to the discharging end along with the magnetic iron conveyor belt device.

In the above embodiment, the magnet separator 100 is designed to include the driving device, the iron ore separating wheel 10, the feeding conveyor 20 and the magnetic iron conveyor 30, so that the structure is simple and single, the automation degree is high, and the manufactured magnet separator has a small volume and a compact structure.

The iron ore separating wheel 10 is arranged above the feeding conveyor belt device 20 and the magnetic iron conveyor belt device 30, the iron ore separating wheel 10 comprises a magnetic penetrable rotary drum 11 and a separating in-wheel shaft body 12, the magnetic penetrable rotary drum 11 is sleeved on the separating in-wheel shaft body 12, when the magnetic penetrable rotary drum 11 rotates anticlockwise, gravity and downward pressure can be utilized by adopting an up-draft installation mode, the magnetic part 121 on the left side strongly adsorbs the magnetic iron 200, and large iron blocks and weak magnetic iron can be effectively adsorbed; when the magnetic penetrable rotating drum 11 continues to rotate anticlockwise, the magnetic iron adsorbed on the left side rotates to the right side, and the nonmagnetic part on the right side does not attract the magnetic iron, so that all the magnetic iron is thrown out onto the magnetic iron conveying belt device 30 by utilizing centrifugal force.

Preferably, the magnetic part 121 is an electromagnet, and the non-magnetic part 122 is made of a safe and reliable insulating material. Through being the electro-magnet with magnetism portion 121 for magnetism portion 121 has magnetic force and be convenient for adjust after the circular telegram, thereby loses magnetism portion 121 and loses the magnetic force and be convenient for clear away the last magnetic iron that adsorbs in magnetism portion 121 after losing the electricity.

It is understood that the magnetic part 121 may be a permanent magnet or other magnetic material. Other non-magnetic materials may be used for the non-magnetic portion 122.

Preferably, the magnetically permeable drum 11 includes an inner layer of soft iron and an outer layer of a hard plastic with a plurality of holes. The soft iron is an iron which is easily magnetized when being put into a magnetic field and is demagnetized immediately after being taken out of the magnetic field, so that the magnetic part 121 and the nonmagnetic part can be conveniently distinguished from each other, and interference is avoided. The surface of the magnetic penetrable rotating drum 11 adopts a double-layer design, the inner layer can prevent collision, and the outer layer can prevent abrasion. By providing a plurality of holes on the outer layer, the magnetic part 121 is easily brought into contact with and attracted by the magnetic iron in the iron ore.

Of course, the magnetically permeable drum 11 can be any other material having magnetic field permeability and non-conductive magnetic properties known in the art, such as a 2mm-3mm paper fabric layer or iron with painted surfaces, etc.

Preferably, the magnetically permeable drum 11 is provided with a plurality of first dividing baffles 111 uniformly arranged on its surface along its circumference. Through design separation blades on the surface of the rotary drum, each attracted magnetic iron is convenient to manage in a partition mode, and the magnetic iron is more orderly and uniform and cannot be scattered.

Preferably, the wrap angle of the magnetic portion 121 on the inner shaft 12 of the separating wheel is larger than the wrap angle of the nonmagnetic portion 122. This ensures that the magnetic iron located in the lower part of the iron ore separating wheel 10 can be attracted, improves the separation accuracy, and improves the grade of the selected ore with a thorough and effective separation.

Preferably, the wrap angle of the magnetic portion 121 on the separating wheel inner shaft body 12 is 240 degrees, the wrap angle of the nonmagnetic portion 122 on the separating wheel inner shaft body 12 is 120 degrees, and both the wrap angles are symmetrical with respect to a horizontal plane.

By designing the wrap angle of the magnetic portion 121 on the separation wheel inner shaft 12 to 240 degrees, the magnetic iron located at the lower portion of the iron ore separation wheel 10 can be substantially completely attracted, further improving the sorting accuracy. The nonmagnetic portion 122 on the right has a wrap angle of 120 degrees, and the magnetic iron can be thrown out by centrifugal force and gravity.

Preferably, the driving device 60 includes a driving motor, a driving gear 61, a first driven gear 62 and a second driven gear 63; the output end of the driving motor is fixedly connected with the input shaft of the driving gear 61, the driving gear 61 is respectively meshed with the first driven gear 62 and the second driven gear 63, the output shaft of the driving gear 61 is fixedly connected with the magnetic penetrable drum 11, the feeding and conveying device 20 comprises a first driving wheel 22, the magnetic iron conveying device 30 comprises a second driving wheel 32, the first driving wheel 22 and the second driving wheel 32 are arranged close to each other, the output shaft of the first driven gear 62 is fixedly connected with the input shaft of the first driving wheel 22, and the output shaft of the second driven gear 63 is fixedly connected with the input shaft of the second driving wheel.

By designing the driving device to include the driving motor, the driving gear 61, the first driven gear 62 and the second driven gear 63, the synchronous operation among them is ensured, the structure of the driving device is more centralized and compact, and the maintenance and the replacement are also convenient.

Preferably, the feeding conveyor belt device 20 comprises a feeding conveyor belt 21, and a plurality of second partition baffles 211 are uniformly arranged on the feeding conveyor belt 21; the magnetic iron conveyor belt device 30 includes a magnetic iron conveyor belt 31, a plurality of third partition blocking pieces 311 are uniformly arranged on the magnetic iron conveyor belt 31, and the heights of the second partition blocking pieces 211 and the third partition blocking pieces 311 are the same.

Preferably, the height of each second partition plate 211 is smaller than the height of each first partition plate 111. Thus, interference between the blocking pieces is avoided during rotation, and the magnetic field part is convenient to contact and attract the magnetic iron.

Preferably, a first collecting device 40 is arranged below the discharging end of the feeding conveyor belt device, a second collecting device 50 is arranged below the discharging end of the magnetic iron conveyor belt device 30, a side wall 41 of each collecting device is a conical bell mouth convenient for feeding, a bottom surface 42 of each collecting device is a conical surface with a certain downward inclination, so that the magnetic iron 200 and the ore 300 can flow downwards conveniently, a discharging port 421 is arranged at the center of the bottom surface 42, and a switch valve 43 is arranged at the discharging port 421, so that discharging circulation is more convenient.

The utility model discloses a concrete theory of operation and application method do: firstly, a driving motor drives a driving gear 61 to rotate anticlockwise, the driving gear 61 drives a first driven gear 62 and a second driven gear 63 to rotate clockwise, a shaft body 12 in a separating wheel is always in a fixed state, the driving gear 61 drives the magnetic penetrable rotary drum 11 to rotate anticlockwise, a feeding conveyor belt device 20 and a magnetic iron conveyor belt device 30 also flow clockwise, raw iron ore enters from the left side and flows to the right side on the feeding conveyor belt device 20, wherein the magnetic iron 200 is sucked away when meeting a magnetic part 121 on the left side of the shaft body 12 in the separating wheel, and the rest of the ore 300 flows to a discharging end along with the feeding conveyor belt device 20 and flows to a first collecting device 40; the magnetic iron which is just sucked up flows out to the discharge end along with the magnetic iron conveyor belt device to the second collecting device 50.

The utility model provides a magnet separator for iron ore, through inciting somebody to action magnet separator 100 designs to include drive arrangement, iron ore separating wheel 10, feeding conveyor belt device 20 and magnetic iron conveyor belt device 30, its simple structure and single process, and degree of automation is high, and the magnet separator volume of making out is less and compact structure. The iron ore separating wheel 10 is arranged above the feeding conveyor belt device 20 and the magnetic iron conveyor belt device 30, the iron ore separating wheel 10 comprises a magnetic penetrable rotary drum 11 and a separating wheel inner shaft body 12, the magnetic penetrable rotary drum 11 is sleeved on the separating wheel inner shaft body 12, when the magnetic penetrable rotary drum 11 rotates anticlockwise, gravity and downward pressure can be utilized by adopting an up-draft installation mode, the magnetic part 121 on the left side strongly adsorbs the magnetic iron 200, and large iron blocks and weak magnetic iron can be effectively adsorbed; when the magnetic penetrable rotating drum 11 continues to rotate anticlockwise, the magnetic iron adsorbed on the left side rotates to the right side, and the nonmagnetic part on the right side does not attract the magnetic iron, so that all the magnetic iron is thrown out onto the magnetic iron conveying belt device 30 by utilizing centrifugal force.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way; the present invention can be smoothly implemented by those skilled in the art according to the drawings and the above description; however, those skilled in the art should understand that changes, modifications and variations made by the above-described technology can be made without departing from the scope of the present invention, and all such changes, modifications and variations are equivalent embodiments of the present invention; meanwhile, any changes, modifications, evolutions, etc. of the above embodiments, which are equivalent to the actual techniques of the present invention, still belong to the protection scope of the technical solution of the present invention.

Claims (10)

1. A magnet separator for iron ore is used for separating magnetic iron and ore in the iron ore, and is characterized in that the magnet separator (100) comprises a driving device, an iron ore separating wheel (10), a feeding conveyor belt device (20) and a magnetic iron conveyor belt device (30), the driving device is used for driving the iron ore separating wheel (10), the feeding conveyor belt device (20) and the magnetic iron conveyor belt device (30), and the iron ore separating wheel (10) is positioned above the feeding conveyor belt device (20) and the magnetic iron conveyor belt device (30);

the iron ore separating wheel (10) comprises a magnetic penetrable rotating cylinder (11) and a separating wheel inner shaft body (12), the magnetic penetrable rotating cylinder (11) is sleeved on the separating wheel inner shaft body (12), the separating wheel inner shaft body (12) is always in a fixed state, the driving device drives the magnetic penetrable rotating cylinder (11) to rotate, and a magnetic part (121) and a non-magnetic part (122) are arranged on the separating wheel inner shaft body (12); the magnetic part (121) is arranged close to and opposite to the feeding conveyor belt device (20), and the nonmagnetic part (122) is arranged close to and opposite to the magnetic iron conveyor belt device (30).

2. A magnetic separator for iron ores as claimed in claim 1, wherein the magnetic portion (121) is an electromagnet, and the non-magnetic portion (122) is made of an insulating material.

3. A magnetic separator for iron ores as claimed in claim 1 or 2, characterized in that the magnetically permeable drum (11) comprises an inner layer of soft iron and an outer layer of hard plastic with a plurality of holes.

4. A magnetic separator for iron ores as claimed in claim 1, wherein the magnetically permeable drum (11) has a plurality of first partitioning baffles (111) uniformly provided on its surface along its circumference.

5. A magnetic separator for iron ores as claimed in claim 1, wherein the magnetic portion (121) has a larger wrap angle on the inner shaft (12) than the nonmagnetic portion (122).

6. A magnetic separator for iron ores according to claim 1, wherein the magnetic portion (121) has a wrap angle of 240 degrees on the inner shaft (12) of the separating wheel, the nonmagnetic portion (122) has a wrap angle of 120 degrees on the inner shaft (12) of the separating wheel, and both wrap angles are symmetrical about a horizontal plane.

7. A magnetic separator for iron ores according to claim 4, wherein the driving means (60) includes a driving motor, a driving gear (61), a first driven gear (62) and a second driven gear (63); the output end of the driving motor is fixedly connected with the input shaft of the driving gear (61), the driving gear (61) is respectively meshed with the first driven gear (62) and the second driven gear (63), the output shaft of the driving gear (61) is fixedly connected with the magnetic penetrable drum (11), the feeding conveyer belt device (20) comprises a first driving wheel (22), the magnetic iron conveyer belt device (30) comprises a second driving wheel (32), the first driving wheel (22) and the second driving wheel (32) are arranged close to each other, the output shaft of the first driven gear (62) is fixedly connected with the input shaft of the first driving wheel (22), and the output shaft of the second driven gear (63) is fixedly connected with the input shaft of the second driving wheel.

8. A magnetic separator for iron ores as claimed in claim 7, wherein the feeding conveyor belt means (20) comprises a feeding conveyor belt (21), the feeding conveyor belt (21) being provided with a plurality of second partitioning fences (211) uniformly; the magnetic iron conveyor belt device (30) comprises a magnetic iron conveyor belt (31), a plurality of third partition separation blades (311) are uniformly arranged on the magnetic iron conveyor belt (31), and the heights of the second partition separation blades (211) and the third partition separation blades (311) are the same.

9. A magnetic separator for iron ores as claimed in claim 8, wherein the height of each of the second sectional stoppers (211) is smaller than the height of each of the first sectional stoppers (111).

10. A magnetic separator for iron ore according to claim 1, wherein a first collecting device (40) is arranged below the discharging end of the feeding conveyor belt device, a second collecting device (50) is arranged below the discharging end of the magnetic iron conveyor belt device (30), the side wall (41) of each collecting device is a conical bell mouth, the bottom surface (42) of each collecting device is a conical surface with a certain downward slope, a discharging hole (421) is arranged at the center of the bottom surface (42), and an on-off valve (43) is arranged at the discharging hole (421).

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