CN210675482U - Novel gold mine tailing storehouse material recleaning slurrying device - Google Patents

Abstract

The utility model relates to a novel gold mine tailing pond material recleaning and pulping device, which belongs to the technical field of precious metal mineral recleaning equipment; providing a device special for re-sorting and pulping the precious metal tailings; the technical scheme is as follows: a novel gold mine tailing storehouse material recleaning slurrying device includes: the device comprises a feed tank, a water pipe, a screen body, a cutting and stirring tank and a slurry outlet; the feeding groove is a feeding groove body with an open top, a water pipe is fixed on the wall of the feeding groove, a water outlet pipe orifice of the water pipe is aligned with the inside of the feeding groove body, a discharge port of the feeding groove is in butt joint with a feed port of a screen body, the screen body is used for screening qualified slurry mud blocks, a discharge port of the screen body is in butt joint with a feed port of a cutting and stirring groove, the cutting and stirring groove is used for crushing the mud blocks and stirring the mud, and a mud outlet is in butt joint with the cutting and stirring groove; the utility model can be widely used in the field of noble metal tailing material recleaning pulping.

Description

Novel gold mine tailing storehouse material recleaning slurrying device

Technical Field

The utility model relates to a novel gold mine tailing storehouse material reselects slurrying device belongs to precious metal mineral and selects separately equipment technical field again, concretely relates to gold mine tailing material reselection equipment.

Background

In the process of gold mine exploitation, the limitation of the original mineral separation process and technology cannot separate part of valuable elements such as gold, silver, zinc and the like which are still stored in tailings. Most tailings are piled up in the open air, so that on one hand, resource waste and gold mine exploitation benefit are reduced, and on the other hand, a large amount of heavy metal substances permeate underground along with rainwater washing, and the environment is polluted. In order to fully utilize resources and protect the environment, the ore dressing test verifies that better benefits can be obtained by comprehensive recovery, development and utilization.

Comprehensive recovery, development and utilization of stacked materials in the old tailing stock require tailings to be subjected to a beneficiation process. Before the tailings pass through the process, the materials need to be transported to a designated place and made into uniform and qualified slurry, and the slurry is conveyed to a dressing plant for grading and regrinding and then enters a dressing process flow. Through experimental demonstration and market investigation and investigation, a pulping machine which can smoothly pulp and is not influenced by slag stones and impurities to operate is not found.

In addition, most pulping machines can not separate slag and impurities in the slurry, and the pulping machines and the screening machines are often used in a matching way. However, practical application finds that the screening efficiency of the screening machine special for separating the slag stones and the impurities in the sandy soil is gradually reduced, and the reason for the gradual reduction is that the screening holes or gaps are gradually blocked due to the slag stones in the screening machine clamped on the screening structure.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a be exclusively used in noble metal tailing and select separately again and integrative equipment of slurrying.

In order to achieve the technical purpose, the utility model provides a technical scheme does:

a novel gold mine tailing storehouse material recleaning slurrying device includes: the device comprises a feed tank, a water pipe, a screen body, a cutting and stirring tank and a slurry outlet; the feed chute is the open feeding cell body in top, be fixed with the water pipe on the feed chute cell wall, in the water pipe outlet pipe mouth aimed at the feed chute cell body, the feed chute discharge gate docks with the screen frame feed inlet, the screen frame is used for screening qualified slurry mud piece, the screen frame discharge gate with surely stir groove feed inlet butt joint, surely stir the groove and be used for broken mud piece and stirring mud, the grout outlet with surely stir the groove butt joint.

And a high-pressure water gun is arranged at one end of the water pipe, and the other end of the water pipe is connected with a water pump.

The screen body comprises a material guide groove, a screening plate, a slag outlet and a slag extractor; the material guide groove comprises a bottom plate and vertical baffles fixed on two sides of the bottom plate, a screening plate is arranged between the two vertical baffles above the bottom plate, a plurality of screening through grooves are formed in the screening plate, a slag extractor is arranged on the screening plate, a slag outlet is formed in each vertical baffle, and the slag outlet is in butt joint with the lowest part of the screening plate;

the slag extractor comprises: a slag removing sheet, a slag removing motor and a slag removing opening; it is a platelike structure to move back the sediment piece, and is a plurality of move back sediment piece one-to-one and sets up in a plurality of sieves and examine logical inslot, it has the clearance to move back between the vertical wall that sediment piece side and relative sieve examined logical groove, and is a plurality of it is fixed through moving back the sediment pivot to move back the sediment piece, it is parallel with the screening board to move back the sediment pivot, and moves back the sediment pivot and the baffle box in material advancing direction perpendicular, move back the sediment pivot and move back sediment motor output shaft, it is fixed for the sieve examination board to move back the sediment motor, it can drive to move back the sediment piece and rotate for the sieve examination board, the material is examined board one end from the sieve and is got into, the sieve is examined the board other end and.

The screening board is provided with a support frame, and the support frame is located the screening and leads to the latter half of groove.

The upper portion of the slag removing sheet is provided with a convex plate matched with the support frame in a Western-style manner, the convex plate is provided with a through hole penetrating through the slag removing rotating shaft, and the convex plate is smoothly connected with the slag removing sheet.

The slag removing opening is obliquely arranged and is convenient for slag stones to automatically withdraw.

A groove is vertically formed in the position of the bottom plate discharging opening along the extending direction of the guide chute, and a cleaning opening is formed in the vertical baffle on one side of the groove.

The bottom plate slope sets up, just the lowest department of bottom plate is the discharge gate of screen frame, the board highest point is the screen frame feed inlet to the screening.

Cut and stir the groove including once cutting and stir the groove and cut the groove with the secondary, once cut and stir groove feed inlet and screen frame discharge gate intercommunication, once cut and stir groove discharge gate and secondary and cut and stir groove feed inlet intercommunication, the secondary is cut and is stirred groove discharge gate department and be provided with the grout outlet.

The primary cutting and stirring groove and the secondary cutting and stirring groove are consistent in structure;

the once cut groove of stirring includes: the cutting and stirring device comprises a material barrel, a cutting and stirring rod and a driving module, wherein the material barrel is of a barrel-mounted structure with openings at two ends, the central line of the material barrel is horizontal, the cutting and stirring rod comprises a central shaft and a stirring rod fixed on the central shaft, the central shaft is horizontally arranged in the middle of the material barrel and is vertical to the central line of the material barrel, a plurality of stirring rods are matched with the inner wall of the material barrel, the ends of the stirring rods are attached to the inner wall of the material barrel, and the ends of the stirring rods cannot be cut to rub; the driving module is fixed on the outer wall of the charging barrel, and an output shaft of the driving module is coaxially and fixedly connected with the middle shaft.

The driving module comprises a motor and a speed reducer, the motor is fixed with the speed reducer, an output shaft of the motor is connected with an input shaft of the speed reducer, and an output shaft of the speed reducer is coaxially and fixedly connected with the middle shaft.

A slurry overflow groove is arranged between the cutting and stirring groove and the slurry outlet, the slurry overflow groove is of a box body structure with an opening at the upper end, the inner cavity of the slurry overflow groove is communicated with the discharge hole of the secondary cutting and stirring groove, the upper part of the box wall at one side of the slurry overflow groove is provided with an overflow port, the material slurry flows out from the overflow port after being filled and lifted in the slurry overflow groove, and the slurry outlet is arranged below the overflow port.

Compared with the prior art, the utility model beneficial effect who has is:

the utility model discloses can realize doing benefit to later stage slurrying in-process to a large amount of slabstones quickly separating in the tailing, equipment normal operating, effective improve equipment life-span improves good start for the comprehensive recovery of tailing noble metal.

The utility model discloses a water pipe provides the water source for the slurrying on the one hand, and on the other hand softens the mud piece, and the mud piece of being convenient for passes through the screening board smoothly, improves the resource recovery rate.

The utility model discloses a surely stir the groove, be convenient for further smash the clod, when doing benefit to later stage flotation method ore dressing, improve the noble metal sorting rate and reduce the sorting time.

The utility model discloses a slag notch does benefit to and arranges to the greatest extent fast after the separation of a large amount of slags of tailing, realizes machine continuous production.

Drawings

The present invention will be further described with reference to the accompanying drawings.

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

Fig. 2 is a top view of the present invention.

Fig. 3 is the cross section schematic diagram of the primary cutting and stirring groove of the utility model.

Fig. 4 is a cross-sectional view of the sieve body of the present invention.

Fig. 5 is a cross-sectional view of the overflow trough of the present invention.

Fig. 6 is an enlarged schematic view of B in fig. 2 according to the present invention.

Figure 7 is the utility model discloses the board cross-sectional view is examined in the sieve.

Fig. 8 is a cross-sectional view of a-a of fig. 2 according to the present invention.

In the figure: 1 is the feed chute, 2 is the water pipe, 3 is the screen frame, 4 is for cutting and stirs the groove, 5 is the grout outlet, 6 is the overflow launder, 31 is the baffle box, 32 is the screening board, 33 is the slag notch, 34 is the slag extractor, 35 is the slag stripping piece, 36 is the slag stripping motor, 37 is the slag notch, 41 is once to cut and stirs the groove, 42 is the secondary and cuts and stirs the groove, 43 is the feed cylinder, 44 is for cutting and stirs the material stick, 45 is drive module.

Detailed Description

As shown in fig. 1 to 8, the utility model relates to a novel gold mine tailing storehouse material reselects slurrying device, include: the device comprises a feed tank 1, a water pipe 2, a screen body 3, a cutting and stirring tank 4 and a slurry outlet 5; the feed chute 1 is the uncovered feed chute body in top, be fixed with water pipe 2 on the 1 cell wall of feed chute, 2 water outlet pipe mouths of water pipe aim at in the 1 cell body of feed chute, 1 discharge gate of feed chute docks with 3 feed inlets of screen frame, screen frame 3 is used for the screening to examine qualified slurry clod, 3 discharge gates of screen frame with cut stir 4 feed inlets docks in groove, cut stir groove 4 and be used for broken clod and stirring mud, grout outlet 5 with cut stir 4 docks in groove.

And one end of the water pipe 2 is provided with a high-pressure water gun, and the other end of the water pipe 2 is connected with a water pump.

The screen body 3 comprises a material guide groove 31, a screening plate 32, a slag outlet 33 and a slag extractor 34; the material guide groove 31 comprises a bottom plate and vertical baffles fixed on two sides of the bottom plate, a screening plate 32 is arranged between the two vertical baffles above the bottom plate, a plurality of screening through grooves are formed in the screening plate 32, a slag extractor 34 is arranged on the screening plate 32, a slag outlet 33 is formed in each vertical baffle, and the slag outlet 33 is in butt joint with the lowest part of the screening plate 32;

the slag extractor 34 includes: a slag removing sheet 35, a slag removing motor 36 and a slag removing opening 37; it is a platelike structure to move back sediment piece 35, and is a plurality of move back sediment piece 35 one-to-one sets up in a plurality of sieves and examines logical inslot, move back sediment piece 35 side and relative sieve and examine the clearance that has between the vertical wall that leads to the groove, and is a plurality of it is fixed to move back sediment piece 35 through moving back the sediment pivot, it is parallel with sieve examination board 32 to move back the sediment pivot, and moves back the sediment pivot and the perpendicular with interior material advancing direction of baffle box 31, it is connected with 36 output shaft of sediment motor to move back the sediment pivot, it is fixed for sieve examination board 32 to move back sediment motor 36, it can drive and move back sediment piece 35 and examine board 32 rotation for the sieve to move back sediment motor 36, the material is from sieve examination board 32 one end entering, sieve examination board 32 other end is.

The bottom plate slope sets up, just the bottom plate is the discharge gate of screen frame 3 in the lower extreme, the screening board 32 highest point is the feed inlet of screen frame 3.

Cut and stir groove 4 and cut and stir groove 41 and twice and stir groove 42 including once, once cut and stir groove 41 feed inlet and screen frame 3 discharge gate intercommunication, once cut and stir groove 41 discharge gate and twice and cut and stir groove 42 feed inlet intercommunication, the twice is cut and is stirred groove 42 discharge gate department and be provided with grout outlet 5.

The primary cutting and stirring groove 41 and the secondary cutting and stirring groove 42 are consistent in structure;

the primary cutting and stirring groove 41 includes: the material cutting and stirring device comprises a material barrel 43, a material cutting and stirring rod 44 and a driving module 45, wherein the material barrel 43 is of a barrel-mounted structure with openings at two ends, the center line of the material barrel 43 is horizontal, the material cutting and stirring rod 44 comprises a center shaft and a stirring rod fixed on the center shaft, the center shaft is horizontally arranged in the middle of the material barrel 43 and is vertical to the center line of the material barrel 43, a plurality of stirring rods are matched with the inner wall of the material barrel 43, the ends of the plurality of stirring rods are attached to the inner wall of the material barrel 43, and the ends of the stirring rods cannot; the driving module 45 is fixed on the outer wall of the charging barrel 43, and an output shaft of the driving module 45 is coaxially and fixedly connected with the middle shaft.

The driving module 45 comprises a motor and a speed reducer, the motor is fixed with the speed reducer, an output shaft of the motor is connected with an input shaft of the speed reducer, and an output shaft of the speed reducer is coaxially and fixedly connected with the middle shaft.

A slurry overflow groove 6 is arranged between the cutting and stirring groove 4 and the slurry outlet 5, the slurry overflow groove 6 is of a box structure with an opening at the upper end, the inner cavity of the slurry overflow groove 6 is communicated with the discharge hole of the secondary cutting and stirring groove 42, the upper part of the box wall at one side of the slurry overflow groove 6 is provided with an overflow port, the material slurry flows out from the overflow port after being filled and lifted in the slurry overflow groove 6, and the slurry outlet 5 is arranged below the overflow port.

The utility model discloses specific using-way:

the tailing materials are fed into a feeding groove 1, flow onto a screen body 3 through a high-pressure water gun, screened qualified slurry mud blocks flow into a primary cutting and stirring groove 41, mud in the primary cutting and stirring groove 41 overflows to a secondary cutting and stirring groove 42, uniform and qualified slurry overflows to an overflow groove 6 through secondary cutting and stirring, and then is conveyed to a mineral separation process flow through a pipeline. In addition, because the tail mud can be added with a small amount of slag and impurities in the storage process of the tailing pond, the tail mud needs to be cleaned regularly in the pulping process. Large-grain slag stones and impurities can be cleaned on the screen body, small-grain slag stones and the like can be screened, and the equipment device is provided with a cleaning port for cleaning and discharging.

When the screening plate 32 is seriously blocked by the slag stones, the slag removing motor 36 is started, the slag removing motor 36 drives the slag removing sheet 35 to rotate 90 degrees, the slag stones are removed from the screening through groove and automatically removed after sliding down to the slag removing port 37 along the convex plate. In addition, part of the small-particle slag rocks slide from among the plurality of slag removing sheets 35 to the screening plate 32 and then slide from the screening through groove.

The utility model discloses also start the sediment motor 36 that moves back when the board 32 is examined to the sieve has a large amount of mud pieces, big mud piece is very easily washed away by water pipe 2 on moving back the sediment piece 35, and a small amount of mud pieces fall to moving back sediment mouth 37 and minimum to whole technology influence.

After the arrester was struck by lightning, electric current was followed along extending to ground net 11 along conductor wire 31 on, discharge rod 13 undertakes main discharge task, mainly realizes switching on with the ground through protruding granule 14 promptly, and then reduces ground resistance, lightning effectual purpose. The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (5)

1. A novel gold mine tailing storehouse material recleaning slurrying device which is characterized in that: the method comprises the following steps: a feeding groove (1), a water pipe (2), a screen body (3), a cutting and stirring groove (4) and a slurry outlet (5); the feed chute (1) is the uncovered feed chute body in top, be fixed with water pipe (2) on feed chute (1) cell wall, water pipe (2) outlet pipe mouth aims at in feed chute (1) cell wall, feed chute (1) discharge gate and screen frame (3) feed inlet butt joint, screen frame (3) are used for the sieve to examine qualified slurry clod, screen frame (3) discharge gate with cut stir groove (4) feed inlet butt joint, cut and stir groove (4) and be used for broken clod and stirring mud, go out grout outlet (5) with cut and stir groove (4) butt joint.

2. The novel gold mine tailing pond material recleaning and pulping device according to claim 1, characterized in that: the screen body (3) comprises a material guide groove (31), a screening plate (32), a slag outlet (33) and a slag extractor (34); the material guide groove (31) comprises a bottom plate and vertical baffles fixed on two sides of the bottom plate, a screening plate (32) is arranged between the two vertical baffles above the bottom plate, a plurality of screening through grooves are formed in the screening plate (32), a slag extractor (34) is arranged on the screening plate (32), a slag outlet (33) is formed in each vertical baffle, and the slag outlet (33) is in butt joint with the lowest part of the screening plate (32);

the slag extractor (34) comprises: a slag removing sheet (35), a slag removing motor (36) and a slag removing opening (37); it is platelike structure to move back sediment piece (35), and is a plurality of move back sediment piece (35) one-to-one sets up in a plurality of screening logical inslots, move back sediment piece (35) side and relative screening logical vertical wall between have the clearance, and is a plurality of it is fixed through the axle of moving back to move back sediment piece (35), it is parallel with screening board (32) to move back the sediment pivot, and moves back the sediment pivot and baffle box (31) interior material advancing direction is perpendicular, move back the sediment pivot and move back sediment motor (36) output shaft, it is fixed for screening board (32) to move back sediment motor (36), it can drive to move back sediment piece (35) and rotate for screening board (32) to move back sediment motor (36), the material gets into from screening board (32) one end, screening board (32) other end is fixed with moves back sediment mouth (37).

3. The novel gold mine tailing pond material recleaning and pulping device according to claim 1 or 2, characterized in that: cut and stir groove (4) and cut and stir groove (42) including once cutting and stir groove (41) and secondary, once cut and stir groove (41) feed inlet and screen frame (3) discharge gate intercommunication, once cut and stir groove (41) discharge gate and secondary and cut and stir groove (42) feed inlet intercommunication, the secondary is cut and is stirred groove (42) discharge gate department and is provided with grout outlet (5).

4. The novel gold mine tailing pond material recleaning and pulping device according to claim 3, characterized in that: the primary cutting and stirring groove (41) and the secondary cutting and stirring groove (42) are consistent in structure;

the primary cutting and stirring groove (41) comprises: the cutting and stirring device comprises a material barrel (43), a cutting and stirring rod (44) and a driving module (45), wherein the material barrel (43) is of a barrel-mounted structure with openings at two ends, the center line of the material barrel (43) is horizontal, the cutting and stirring rod (44) comprises a center shaft and a stirring rod fixed on the center shaft, the center shaft is horizontally arranged in the middle of the interior of the material barrel (43), the center shaft is vertical to the center line of the material barrel (43), a plurality of stirring rods are matched with the inner wall of the material barrel (43), the ends of the plurality of stirring rods are attached to the inner wall of the material barrel (43), and the ends of the stirring rods cannot scratch the inner; the driving module (45) is fixed on the outer wall of the charging barrel (43), and an output shaft of the driving module (45) is coaxially and fixedly connected with the middle shaft.

5. The novel gold mine tailing pond material recleaning and pulping device according to claim 1, characterized in that: a slurry overflow groove (6) is arranged between the cutting and stirring groove (4) and the slurry outlet (5), the slurry overflow groove (6) is of a box structure with an opening at the upper end, the inner cavity of the slurry overflow groove (6) is communicated with the discharge hole of the secondary cutting and stirring groove (42), an overflow port is arranged at the upper part of the box wall at one side of the slurry overflow groove (6), and the slurry outlet (5) is arranged below the overflow port.

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