CN217550053U - Wet-type slag drum magnetic separation equipment - Google Patents

Abstract

The utility model relates to the technical field of slag magnetic separation, in particular to wet-type slag roller magnetic separation equipment, which comprises a flowing conveying groove, a first driving support, a first magnetic separation roller, a second driving support and a second magnetic separation roller, wherein the flowing conveying groove comprises a leading-in port, a flowing inclined plane communicated with the leading-in port and a leading-out port arranged at the bottom of the flowing inclined plane, the first driving support is arranged at one side of the flowing conveying groove, and a first driving component is arranged on the first driving support; the first magnetic separation roller is connected with the first driving assembly, the first magnetic separation roller comprises a first roller and a first magnetic suction element arranged in the first roller, a first material receiving groove is arranged on one side of the first roller, and a first scraper blade is arranged in the first material receiving groove; the utility model discloses a mobile mode is carried the slag, and the magnetic material in the slag passes through the magnetism in the cylinder and inhales the component absorption in transportation process, adsorbs the back through rotatory, and the magnetic material that will adsorb passes through the scraper blade among the rotation process and scrapes into the charging trough.

Description

Wet-type slag drum magnetic separation equipment

Technical Field

The utility model relates to a slag magnetic separation technical field especially relates to a wet-type slag cylinder magnetic separation equipment.

Background

The slag is also called as dissolving slag, the melt floating on the surface of liquid substances such as metals and the like generated in the pyrometallurgical process is mainly composed of oxides, often contains sulfides and carries a small amount of metals, a wet magnetic separator is a common iron ore device and a common manganese ore device, is a mainstream strong magnetic separator mineral separation device, and when the slag is treated, the wet magnetic separator is required to carry out magnetic separation on metal materials in the slag.

But still has obvious problems: if the stability is poor in conveying, only a first-stage magnetic separation structure is provided, the phenomenon of selection missing is easy to occur, and therefore the existing magnetic separation equipment can be further improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a carry the slag through the mode of flowing, the magnetic material in the slag passes through the magnetism in the cylinder and inhales the component and adsorb in transportation process, adsorbs the back through rotatory, and the rotatory in-process passes through the scraper blade with adsorbed magnetic material and scrapes into the charging chute in, and the stable wet-type slag cylinder magnetic separation equipment is received in the magnetic separation.

The utility model adopts the technical proposal that: the wet type slag roller magnetic separation equipment comprises a flow conveying groove, a first driving support, a first magnetic separation roller, a second driving support and a second magnetic separation roller, wherein the flow conveying groove comprises a leading-in port, a flow inclined plane communicated with the leading-in port and a leading-out port arranged at the bottom of the flow inclined plane; the first driving support is arranged on one side of the flowing conveying groove, and a first driving assembly is arranged on the first driving support; the first magnetic separation roller is connected with the first driving assembly, the first magnetic separation roller comprises a first roller and a first magnetic suction element arranged in the first roller, a first material receiving groove is formed in one side of the first roller, a first scraping plate is arranged in the first material receiving groove, and the first scraping plate is tangent to the outer diameter of the first roller; the second driving bracket is arranged on one side of the flowing conveying groove and is positioned on the lower side of the first driving bracket, and a second driving assembly is arranged on the second driving bracket; the second magnetic separation roller is connected with the second driving assembly, the second magnetic separation roller comprises a second roller and a second magnetic attraction element arranged in the second roller, a second material receiving groove is formed in one side of the second roller, a second scraping plate is arranged in the second material receiving groove, and the second scraping plate is tangent to the outer diameter of the second roller.

The flow conveying groove is connected with a support frame, the support frame comprises a plurality of supporting legs, and the supporting legs are connected with the support frame.

The scheme is further improved in that a partition plate is arranged above the flowing inclined plane and separates the first roller from the second roller.

The further improvement of the above scheme is that a first linkage element is mounted on the first driving support, and the first linkage element connects the first driving assembly with the first roller.

The further improvement of the above scheme is that a first fixed cross beam is arranged in the first roller, a first fixed frame is fixedly arranged on the first fixed cross beam, the first fixed frame extends towards the inner diameter position of the first roller, and the first magnetic attraction element is arranged on the first fixed frame.

The further improvement of the scheme is that the first fixing frame is in a fan-shaped arrangement, and the first magnetic attraction element is provided with a plurality of magnetic attraction elements which are fixedly arranged on the first fixing frame and attached to the inner diameter of the first roller.

A further improvement to the above solution is that a second linkage element is mounted on the second drive support, and connects the second drive assembly with the second drum.

The further improvement of the above scheme is that a second fixed cross beam is arranged in the second roller, a second fixed mount is fixedly mounted on the second fixed cross beam, the second fixed mount extends towards the inner diameter position of the second roller, and the second magnetic attraction element is mounted on the second fixed mount.

The further improvement of the scheme is that the second fixing frame is in a fan-shaped arrangement, and the second magnetic suction elements are provided with a plurality of magnetic suction elements and are fixedly arranged on the second fixing frame and attached to the inner diameter of the second roller.

The further improvement of the scheme is that the first scraper blade and the second scraper blade are both rubber scraper blades or silica gel scraper blades.

The utility model has the advantages that:

compare current magnetic separation equipment, the utility model is used for the slag magnetic separation carries the slag through the mobile mode, and the magnetic material in the slag passes through the magnetism of cylinder and inhales the component and adsorb in transportation process, through rotatory after adsorbing, and the magnetic material who will adsorb passes through the scraper blade among the rotatory process and scrapes into the charging trough, and the magnetic separation is received the material stably, and simple structure is reliable. The magnetic separation device is characterized by comprising a flowing conveying groove, a first driving support, a first magnetic separation roller, a second driving support and a second magnetic separation roller, wherein the flowing conveying groove comprises a leading-in port, a flowing inclined plane communicated with the leading-in port and a leading-out port arranged at the bottom of the flowing inclined plane; the first driving bracket is arranged on one side of the flow conveying groove, and a first driving assembly is arranged on the first driving bracket; the first magnetic separation roller is connected with the first driving assembly, the first magnetic separation roller comprises a first roller and a first magnetic suction element arranged in the first roller, a first material receiving groove is formed in one side of the first roller, a first scraping plate is arranged in the first material receiving groove, and the first scraping plate is tangent to the outer diameter of the first roller; the second driving bracket is arranged on one side of the flowing conveying groove and is positioned on the lower side of the first driving bracket, and a second driving assembly is arranged on the second driving bracket; the second magnetic separation roller is connected with the second driving assembly, the second magnetic separation roller comprises a second roller and a second magnetic attraction element arranged in the second roller, a second material receiving groove is formed in one side of the second roller, a second scraper blade is arranged in the second material receiving groove, and the second scraper blade is tangent to the outer diameter of the second roller. Adopt two sets of magnetic separation roller structures, can adsorb the magnetic material in the flow transportation, it is stable to inhale the material magnetism, simple structure is reliable, and the practicality is strong.

Drawings

FIG. 1 is a schematic perspective view of a wet type slag drum magnetic separation apparatus of the present invention;

FIG. 2 is a schematic perspective view of another perspective view of the wet slag drum magnetic separator of FIG. 1;

FIG. 3 is a schematic top view of the wet slag drum magnetic separator of FIG. 1;

fig. 4 isbase:Sub>A cross-sectional viewbase:Sub>A-base:Sub>A of fig. 3.

Description of reference numerals: the magnetic separation device comprises a flow conveying trough 1, an introduction port 11, a flow inclined plane 12, a separation plate 121, a derivation port 13, a support frame 14, a first driving support 2, a first driving assembly 21, a first linkage element 22, a first magnetic separation roller 3, a first roller 31, a first fixed cross beam 311, a first fixing frame 312, a first magnetic attraction element 32, a first material receiving trough 33, a first scraping plate 34, a second driving support 4, a second driving assembly 41, a second linkage element 42, a second magnetic separation roller 5, a second roller 51, a second fixed cross beam 511, a second fixing frame 512, a second magnetic attraction element 52, a second material receiving trough 53 and a second scraping plate 54.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

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 an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

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 shown in fig. 1 to 4, a wet slag drum magnetic separation device is provided with a flow conveying groove 1, a first driving bracket 2, a first magnetic separation roller 3, a second driving bracket 4 and a second magnetic separation roller 5, wherein the flow conveying groove 1 comprises an inlet port 11, a flow inclined plane 12 communicated with the inlet port 11 and a guide-out port 13 arranged at the bottom of the flow inclined plane 12; the first driving bracket 2 is arranged on one side of the flow conveying groove 1, and a first driving assembly 21 is arranged on the first driving bracket 2; the first magnetic separation roller 3 is connected with the first driving component 21, the first magnetic separation roller 3 comprises a first roller 31 and a first magnetic suction element 32 arranged in the first roller 31, a first material receiving groove 33 is arranged on one side of the first roller 31, a first scraping plate 34 is arranged in the first material receiving groove 33, and the first scraping plate 34 is tangent to the outer diameter of the first roller 31; the second driving bracket 4 is arranged on one side of the flow conveying groove 1 and is positioned on the lower side of the first driving bracket 2, and a second driving assembly 41 is arranged on the second driving bracket 4; second magnetic separation roller 5 is connected with second drive assembly 41, second magnetic separation roller 5 includes second cylinder 51 and locates the second magnetism of second cylinder 51 and inhale component 52, one side of second cylinder 51 is equipped with second receipts silo 53, second receipts silo 53 is equipped with second scraper blade 54, second scraper blade 54 is tangent with the external diameter of second cylinder 51.

The flow conveying trough 1 is connected with a support frame 14, the support frame 14 includes a plurality of supporting legs, and is a plurality of the supporting legs is connected with the support frame 14, the bottom of flow conveying trough 1 is equipped with the vibrator, is used for supporting flow conveying trough 1 through a plurality of supporting legs, and the structural support is reliable and stable.

A partition plate 121 is disposed above the flow slope 12, the partition plate 121 partitions the first drum 31 and the second drum 51, and the partition plate 121 partitions the first drum 31 and the second drum 51 to prevent mutual interference.

Install first linkage element 22 on first drive support 2, first linkage element 22 is connected first drive assembly and first cylinder 31, and first linkage element 22 is driving chain or hold-in range, and first drive assembly 21 is the motor, realizes synchronous transmission under the motor drive effect.

Be equipped with first fixed cross beam 311 in first cylinder 31, first fixed cross beam 311 fixed mounting has first mount 312, first mount 312 extends towards first cylinder 31's internal diameter position, first magnetism is inhaled component 32 and is installed in first mount 312, and the further improvement does, and first mount 312 is fan-shaped setting, first magnetism is inhaled component 32 and is equipped with a plurality ofly and fixed mounting in first mount 312 and with the laminating of first cylinder 31 internal diameter, adopts the first magnetism of fan-shaped structure equipartition to inhale component 32, and adsorbable area is bigger, also can set up to full roller structure, and work adsorption effect is better.

The second driving support 4 is provided with a second linkage element 42, the second linkage element 42 connects the second driving assembly 41 with the second roller 51, the second linkage element 42 is a transmission chain or a synchronous belt, the second driving assembly 41 is a motor, and synchronous transmission is realized under the driving action of the motor.

Be equipped with second fixed cross beam 511 in the second cylinder 51, second fixed cross beam 511 fixed mounting has second mount 512, second mount 512 extends towards the internal diameter position of second cylinder 51, the second magnetism is inhaled component 52 and is installed in second mount 512, and the further improvement does, and second mount 512 is fan-shaped setting, the second magnetism is inhaled component 52 and is equipped with a plurality ofly and fixed mounting in second mount 512 and with the laminating of second cylinder 51 internal diameter, adopts the second magnetism of fan-shaped structure equipartition to inhale component 52, and adsorbable area is bigger, also can set up to full roller structure, and work adsorption effect is better.

First scraper blade 34 and second scraper blade 54 are rubber scraper blade or silica gel scraper blade, adopt silica gel or rubber scraper blade, strike off the effect better to the cylinder external diameter, also can not cause the damage to the cylinder.

The utility model is used for the slag magnetic separation carries the slag through the mode of flowing, and the magnetic material in the slag passes through the magnetism of cylinder and inhales the component and adsorb in transportation process, through rotatory after adsorbing, and the magnetic material who will adsorb passes through the scraper blade among the rotation process and scrapes into the charging trough, and the magnetic separation is received the material stably, and simple structure is reliable. Specifically, a flow conveying groove 1, a first driving support 2, a first magnetic separation roller 3, a second driving support 4 and a second magnetic separation roller 5 are arranged, wherein the flow conveying groove 1 comprises an introduction port 11, a flow inclined plane 12 communicated with the introduction port 11 and a lead-out port 13 arranged at the bottom of the flow inclined plane 12; the first driving bracket 2 is arranged on one side of the flow conveying groove 1, and a first driving assembly 21 is arranged on the first driving bracket 2; the first magnetic separation roller 3 is connected with the first driving component 21, the first magnetic separation roller 3 comprises a first roller 31 and a first magnetic suction element 32 arranged in the first roller 31, a first material receiving groove 33 is arranged on one side of the first roller 31, a first scraping plate 34 is arranged in the first material receiving groove 33, and the first scraping plate 34 is tangent to the outer diameter of the first roller 31; the second driving bracket 4 is arranged on one side of the flow conveying groove 1 and is positioned on the lower side of the first driving bracket 2, and a second driving assembly 41 is arranged on the second driving bracket 4; second magnetic separation roller 5 is connected with second drive assembly 41, second magnetic separation roller 5 includes second cylinder 51 and locates the second magnetism of second cylinder 51 and inhale component 52, one side of second cylinder 51 is equipped with second receipts silo 53, second receipts silo 53 is equipped with second scraper blade 54, second scraper blade 54 is tangent with the external diameter of second cylinder 51. Adopt two sets of magnetic separation roller structures, can adsorb the magnetic material in the flow transportation, it is stable to inhale the material magnetism, simple structure is reliable, and the practicality is strong.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a wet-type slag cylinder magnetic separation equipment which characterized in that: comprises that

The flow conveying groove comprises a leading-in port, a flow inclined plane communicated with the leading-in port and a leading-out port arranged at the bottom of the flow inclined plane;

the first driving bracket is arranged on one side of the flowing conveying groove, and a first driving assembly is arranged on the first driving bracket;

the first magnetic separation roller is connected with the first driving assembly and comprises a first roller and a first magnetic suction element arranged in the first roller, a first material receiving groove is formed in one side of the first roller and provided with a first scraper blade, and the first scraper blade is tangent to the outer diameter of the first roller;

the second driving bracket is arranged on one side of the flow conveying groove and positioned on the lower side of the first driving bracket, and a second driving assembly is arranged on the second driving bracket;

the second magnetic separation roller, the second magnetic separation roller is connected with second drive assembly, the second magnetic separation roller includes the second cylinder and locates the second magnetism element of inhaling in the second cylinder, one side of second cylinder is equipped with the second and receives the silo, the second is received the silo and is equipped with the second scraper blade, the second scraper blade is tangent with the external diameter of second cylinder.

2. The wet slag drum magnetic separation apparatus of claim 1, wherein: the mobile conveying groove is connected with a supporting frame, the supporting frame comprises a plurality of supporting legs, and the supporting legs are connected with the supporting frame.

3. The wet slag drum magnetic separator of claim 1, wherein: and a partition plate is arranged above the flowing inclined plane and separates the first roller from the second roller.

4. The wet slag drum magnetic separation apparatus of claim 1, wherein: the first driving support is provided with a first linkage element, and the first linkage element connects the first driving assembly with the first roller.

5. The wet slag drum magnetic separator of claim 4, wherein: the first roller is internally provided with a first fixed cross beam, the first fixed cross beam is fixedly provided with a first fixing frame, the first fixing frame extends towards the inner diameter position of the first roller, and the first magnetic attraction element is arranged on the first fixing frame.

6. The wet slag drum magnetic separator of claim 5, wherein: the first fixing frame is arranged in a fan shape, and the first magnetic attraction element is provided with a plurality of magnetic attraction elements, is fixedly arranged on the first fixing frame and is attached to the inner diameter of the first roller.

7. The wet slag drum magnetic separation apparatus of claim 1, wherein: and a second linkage element is arranged on the second driving support and connects the second driving assembly with the second roller.

8. The wet slag drum magnetic separator of claim 7, wherein: the second roller is internally provided with a second fixed cross beam which is fixedly provided with a second fixed frame, the second fixed frame extends towards the inner diameter position of the second roller, and the second magnetic attraction element is arranged on the second fixed frame.

9. The wet slag drum magnetic separator of claim 8, wherein: the second fixing frame is arranged in a fan shape, and the second magnetic suction elements are provided with a plurality of magnetic suction elements and are fixedly arranged on the second fixing frame and attached to the inner diameter of the second roller.

10. The wet slag drum magnetic separator of claim 1, wherein: the first scraper blade and the second scraper blade are both rubber scraper blades or silica gel scraper blades.

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