CN214599727U - Novel magnetic separation system of dry separator - Google Patents

Abstract

The utility model discloses a novel dry separation machine magnetic separation system, including the rack, the feed inlet has been seted up to the upper portion one end of rack, and the lower part of feed inlet is provided with first transmission roller to the other end of rack is provided with the first electromagnetism roller that flushes with first transmission roller level, first transmission roller with be provided with first conveyer belt between the first electromagnetism roller jointly, the even spaced below of the last side of first conveyer belt is provided with a plurality of rotatable first magnetism and rolls, and the downside top of first conveyer belt is provided with first magnetism bed, the rack is in the below of first transmission roller is provided with concentrate discharging channel. The utility model separates the ore into concentrate, mesopore and tailing, and discharges, thus improving the separation efficiency; and in the magnetic separation process, an adsorption mode of the upper-layer magnetic roller and the lower-layer magnetic bed is adopted, the upper-layer magnetic roller can improve the rolling and enrichment of magnetic materials on the conveying belt in the rotating process, and the lower-layer magnetic bed can effectively improve the recovery rate and ensure the magnetic separation effect.

Description

Novel magnetic separation system of dry separator

Technical Field

The utility model relates to an ore dry separation technical field especially relates to a novel dry separator magnetic separation system.

Background

The dry separator can only carry out preliminary separation in the present stage, and the tailing of discharging still contains a large amount of magnetic mineral aggregates after the separation is accomplished, needs to select separately the tailing once more, very influences work efficiency, and it is big, the power consumption is extravagant to select separately manpower and materials input many times moreover, increases the cost of enterprises, consequently develops a novel dry separator magnetic separation system.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel dry separator magnetic separation system solves the technical problem who mentions in the above-mentioned background art.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model relates to a novel dry separator magnetic separation system, which comprises a cabinet, a feed inlet is arranged at one end of the upper part of the cabinet, a first transmission roller is arranged at the lower part of the feed inlet, a first electromagnetic roller which is horizontally level with the first transmission roller is arranged at the other end of the cabinet, a first conveying belt is jointly arranged between the first transmission roller and the first electromagnetic roller, a plurality of rotatable first magnetic rollers are uniformly arranged below the upper side surface of the first conveying belt at intervals, a first magnetic bed is arranged above the lower side surface of the first conveying belt, and a concentrate discharge channel is arranged below the first transmission roller by the cabinet; a second transmission roller is arranged below the first conveyor belt and between the first electromagnetic roller and the first magnetic bed, a third transmission roller which is horizontally flush with the second transmission roller is arranged below the middle part of the first magnetic bed, and a second conveyor belt is arranged between the second transmission roller and the third transmission roller; a second electromagnetic roller is arranged below the second conveying belt at a position vertically flush with the first electromagnetic roller, a fourth transmission roller horizontally flush with the second electromagnetic roller is arranged between the first transmission roller and the second transmission roller, a third conveying belt is arranged between the second electromagnetic roller and the fourth transmission roller, a plurality of rotatable second magnetic rollers are uniformly arranged below the upper side surface of the third conveying belt at intervals, a second magnetic bed is arranged above the lower side surface of the third conveying belt, and middlings discharging channels are arranged on two sides of the fourth transmission roller of the cabinet; the position between the second electromagnetic roller and the second magnetic bed below the third conveyer belt is provided with a fifth transmission roller, the position between the second magnetic bed and the middle of the second magnetic bed is provided with a sixth transmission roller which is horizontally aligned with the fifth transmission roller, a fourth conveyer belt is arranged between the fifth transmission roller and the sixth transmission roller, and two sides of the fourth conveyer belt are provided with a tailing discharging channel of the cabinet.

Furthermore, a striker plate which is downwards inclined towards the fourth transmission roller is arranged at the position of the machine cabinet between the first transmission roller and the fourth transmission roller.

Further, a material guide plate which inclines downwards towards the second electromagnetic roller is arranged between the first electromagnetic roller and the second electromagnetic roller on the machine cabinet.

Compared with the prior art, the utility model discloses a beneficial technological effect:

the utility model discloses a mode that level four turnover, magnetic separation and recovery combined together selects separately the operation to the ore, selects separately the ore for concentrate, mesopore, tailing triplex discharge, has improved separation efficiency. And in the magnetic separation process, an adsorption mode of the upper-layer magnetic roller and the lower-layer magnetic bed is adopted, the upper-layer magnetic roller can improve the rolling and enrichment of magnetic materials on the conveying belt in the rotating process, and the lower-layer magnetic bed can effectively improve the recovery rate and ensure the magnetic separation effect.

Drawings

The present invention will be further explained with reference to the following description of the drawings.

FIG. 1 is a schematic structural view of the present invention;

description of reference numerals: 1. a cabinet; 2. a feed inlet; 3. a first drive roller; 4. a first electromagnetic roller; 5. a first conveyor belt: 6. a first magnetic roll; 7. a first magnetic bed; 8. a concentrate discharge channel; 9. a second drive roller; 10. a third drive roller; 11. a second conveyor belt; 12. a second electromagnetic roller; 13. a fourth drive roller; 14. a third conveyor belt; 15. a second magnetic roll; 16. a second magnetic bed; 17. a middling discharge channel; 18. a fifth drive roller; 19. a sixth drive roller; 20. a fourth conveyor belt; 21. a tailing discharge channel; 22. a striker plate; 23. a material guide plate.

Detailed Description

As shown in figure 1, the novel magnetic separation system of the dry separator comprises a cabinet 1, wherein one end of the upper part of the cabinet is provided with a feeding hole 2.

The rotatable first transmission roller 3 of installing in the lower part of feed inlet 2, and the rotatable installation of the other end of rack 1 with first electromagnetism roller 4 that first transmission roller 3 level flushed, first transmission roller 3 with install first conveyer belt 5 around establishing jointly between the first electromagnetism roller 4. Inside the rack be in the below of the last side of first conveyer belt 5 is evenly spaced and is installed a plurality of rotatable first magnetism and roll 6 to install first magnetic bed 7 above the downside of first conveyer belt 5. And a concentrate discharge channel 8 communicated with the bottom of the cabinet 1 is arranged below the first transmission roller 3.

The cabinet 1 is located below the first conveyer belt 5 and is located second transmission roller 9 is installed at the position between first electromagnetic roller 4 and first magnetic bed 7, and is located below the middle position of first magnetic bed 7 install with the third transmission roller 10 that second transmission roller 9 level was leveled, second transmission roller 9 with install second conveyer belt 11 around establishing between the third transmission roller 10.

The cabinet 1 is located below the second conveyer belt 11 and is installed second electromagnetic roller 12 with the position department that first electromagnetic roller 4 is vertical to flush, and is being located position department installs between first transmission roller 3 and the second transmission roller 9 with the fourth transmission roller 13 that second electromagnetic roller 12 level flushed, second electromagnetic roller 12 with around establishing between the fourth transmission roller 13 and install third conveyer belt 14. A plurality of rotatable second magnetic rollers 15 are installed below the upper side surface of the third conveying belt 14 at even intervals, and a second magnetic bed 16 is installed above the lower side surface of the third conveying belt 14 inside the cabinet. And the cabinet 1 is provided with middling discharging channels 17 communicated with the bottom of the fourth transmission roller 13 at two sides of the fourth transmission roller.

A fifth transmission roller 18 is installed at a position, below the third conveyor belt 14, of the cabinet 1 between the second electromagnetic roller 12 and the second magnetic bed 16, a sixth transmission roller 19 which is horizontally flush with the fifth transmission roller 18 is installed below the middle position of the second magnetic bed 16, and a fourth conveyor belt 20 is wound between the fifth transmission roller 18 and the sixth transmission roller 19. And the left side and the right side of the fourth conveying belt 20 of the cabinet 1 are provided with tailing discharging channels 21 communicated with the bottoms of the fourth conveying belt 20.

A striker plate 22 which inclines downwards towards the fourth transmission roller 13 is fixedly arranged at the position of the cabinet 1 between the first transmission roller 3 and the fourth transmission roller 13, and a material guide plate 23 which inclines downwards towards the second electromagnetic roller 12 is fixedly arranged at the position between the first electromagnetic roller 4 and the second electromagnetic roller 12.

The utility model discloses at the during operation, by the driving motor drive that sets up on the rack first transmission roller, second transmission roller, fourth transmission roller, fifth transmission roller are rotatory, make first conveyer belt, second conveyer belt, third conveyer belt, fourth conveyer belt according to the direction operation shown in figure 1. The ore enters the first conveying belt from the feeding hole, and in the conveying process of the first conveying belt, the ore is subjected to magnetic separation adsorption action of the first magnetic rollers, the first electromagnetic rollers and the first magnetic bed, so that main magnetic materials in the ore are discharged from the ore concentrate discharging channel as magnetic attraction disappears when the ore concentrate advances to the lower end of the first transmission roller along with the first conveying belt. Nonmagnetic materials in the ores and magnetic materials which are not adsorbed on the upper surface of the first conveying belt are transferred to the second conveying belt through the end part of the first electromagnetic roller, in the running process of the second conveying belt, the first magnetic bed can adsorb and recover the magnetic materials above the second conveying belt, the rest materials are transferred to the third conveying belt through the second conveying belt, the third conveying belt conducts secondary magnetic separation on the ores in the conveying process of the materials through the magnetic separation adsorption operation of the second magnetic rollers, the second electromagnetic roller and the second magnetic bed, and the rest magnetic materials in the ores are discharged from a middling discharge channel after being magnetically adsorbed when moving to the lower end of the fourth transmission roller along with the third conveying belt. And the rest unadsorbed materials are transferred onto a fourth conveying belt from the end part of the second electromagnetic roller in a circulating manner, in the running process of the fourth conveying belt, the second magnetic bed can adsorb and recover the magnetic materials above the fourth conveying belt, and finally the rest materials are discharged into a tailing discharge channel through the fourth conveying belt.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (3)

1. The utility model provides a novel dry separator magnetic separation system which characterized in that: the device comprises a cabinet, wherein a feed inlet is formed in one end of the upper part of the cabinet, a first transmission roller is arranged on the lower part of the feed inlet, a first electromagnetic roller which is horizontally flush with the first transmission roller is arranged on the other end of the cabinet, a first conveying belt is jointly arranged between the first transmission roller and the first electromagnetic roller, a plurality of rotatable first magnetic rollers are uniformly arranged below the upper side surface of the first conveying belt at intervals, a first magnetic bed is arranged above the lower side surface of the first conveying belt, and a concentrate discharge channel is formed below the first transmission roller by the cabinet; a second transmission roller is arranged below the first conveyor belt and between the first electromagnetic roller and the first magnetic bed, a third transmission roller which is horizontally flush with the second transmission roller is arranged below the middle part of the first magnetic bed, and a second conveyor belt is arranged between the second transmission roller and the third transmission roller; a second electromagnetic roller is arranged below the second conveying belt at a position vertically flush with the first electromagnetic roller, a fourth transmission roller horizontally flush with the second electromagnetic roller is arranged between the first transmission roller and the second transmission roller, a third conveying belt is arranged between the second electromagnetic roller and the fourth transmission roller, a plurality of rotatable second magnetic rollers are uniformly arranged below the upper side surface of the third conveying belt at intervals, a second magnetic bed is arranged above the lower side surface of the third conveying belt, and middlings discharging channels are arranged on two sides of the fourth transmission roller of the cabinet; the position between the second electromagnetic roller and the second magnetic bed below the third conveyer belt is provided with a fifth transmission roller, the position between the second magnetic bed and the middle of the second magnetic bed is provided with a sixth transmission roller which is horizontally aligned with the fifth transmission roller, a fourth conveyer belt is arranged between the fifth transmission roller and the sixth transmission roller, and two sides of the fourth conveyer belt are provided with a tailing discharging channel of the cabinet.

2. The novel dry separator magnetic separation system of claim 1, characterized in that: and a striker plate which is downwards inclined towards the fourth transmission roller is arranged at the position of the machine cabinet between the first transmission roller and the fourth transmission roller.

3. The novel dry separator magnetic separation system of claim 1, characterized in that: and a material guide plate which is downwards inclined towards the second electromagnetic roller is arranged between the first electromagnetic roller and the second electromagnetic roller on the machine cabinet.

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