CN212596095U - Serialization ore screening crushing magnetic separation device - Google Patents

Abstract

The utility model discloses a serialization ore screening crushing magnetic separation device, including high frequency classifying screen, ball-milling rubbing crusher, magnet separator and auger conveyor, high frequency classifying screen side-mounting has pipeline, and the passage is connected to the ball-milling rubbing crusher discharge gate that ball-milling rubbing crusher side set up, and auger conveyor internally mounted has transport screw structure, is connected with the feed end of magnet separator between the output shaft of auger conveyor lower extreme, the transport screw structure of auger conveyor inside setting includes propeller blade and axostylus axostyle. This serialization ore screening crushing magnetic separation device adopts high frequency classifying screen cooperation auger conveyer, carries the magnet separator with the ore, later carries the ball-milling rubbing crusher through the auger conveyer through the ore of big granule, and ball-milling rubbing crusher is inside to set up the steel ball, smashes through the roll collision, later carries the auger conveyer through the dead weight in, later carries inside the magnet separator, and cyclic processing makes the benefit maximize.

Description

Serialization ore screening crushing magnetic separation device

Technical Field

The utility model relates to a silt separation field specifically is a serialization ore screening crushing magnetic separation device.

Background

The requirement of the country for environmental protection is higher and higher at present, and each enterprise also actively seeks a more environmental-friendly production mode to reduce environmental pollution, and the beneficiation process of mixed ore containing a large amount of magnetite in the Anshan type hematite beneficiation adopts stage ore grinding, coarse and fine classification, gravity separation, strong magnetism and anion reverse flotation flow for beneficiation at present, so that the pertinence in the beneficiation process is improved, higher beneficiation indexes can be obtained, each process is separated, the operation cost is higher, and adverse effects are caused on the maximization of the enterprise realization benefit.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a remedy the problem that the background art provided, provide a serialization ore screening crushing magnetic separation device.

In order to achieve the above object, the utility model provides a following technical scheme: a continuous ore screening, crushing and magnetic separation device comprises a high-frequency grading sieve, a ball-milling crusher, a magnetic separator and an auger conveyor, wherein a conveying pipeline is installed on the side surface of the high-frequency grading sieve, a grading sieve discharge port arranged on the side surface of the high-frequency grading sieve is connected with a feed port of the ball-milling crusher, a ball-milling crusher discharge port arranged on the side surface of the ball-milling crusher is connected with a material guide pipe, the material guide pipe is communicated with the auger conveyor, a conveying propeller structure is installed inside the auger conveyor, the front end of the conveying propeller structure is connected with a driving motor installed on the auger conveyor, and the lower end output shaft of the auger conveyor is connected with the feed end of the magnetic separator;

the inside transport propeller structure that sets up of auger conveyor includes propeller blade and axostylus axostyle, and the axostylus axostyle passes through the fixed propeller blade of dead lever, and propeller blade encircles and sets up in the axostylus axostyle outside, and axostylus axostyle lateral surface and silo bottom cooperation, and the silo upper end is provided with auger conveyor coarse fodder export, and auger conveyor coarse fodder exit linkage has the circulation flitch.

Preferably, the position of high frequency classifying screen is higher than the height of ball-milling grinder, and high frequency classifying screen and ball-milling grinder junction form the slope structure to classifying screen discharge gate lower extreme is fixed with the backup pad, and classifying screen discharge gate side is connected with the circulation flitch simultaneously, and circulates the flitch and be the slope structure, and the height that the department of connecting of circulation flitch and auger conveyor highly is greater than the classifying screen discharge gate.

Preferably, the classifying screen discharging port, the circulating material plate and the material guide pipe are all of a hollow pipeline structure, the lower ends of the classifying screen discharging port, the circulating material plate and the material guide pipe are all of an arc structure, and the upper part of the position of a material groove connected with the lower end of the material guide pipe is arranged.

Preferably, the auger conveyor inclines to set up, and auger conveyor lower extreme connects the magnet separator, and ball-milling grinder's ball-milling grinder discharge gate and passage connection simultaneously, and the highly height that is greater than the auger conveyor junction on passage right side of passage and ball-milling grinder discharge gate junction to the passage is the slope structure.

Preferably, a water spraying pipeline is installed at the upper end of the auger conveyor, a water body of a conveying pipeline arranged on the side face of the high-frequency classifying screen is directly conveyed into a rotary screen of the high-frequency classifying screen, and fine sand sieved by the high-frequency classifying screen is conveyed into the auger conveyor through a conveying pump pipeline.

Preferably, the driving motor arranged on the auger conveyor, the driving motor arranged on the high-frequency grading sieve, the driving motor arranged on the side surface of the ball mill crusher and the driving motor arranged on the magnetic separator are stepping motors.

Compared with the prior art, the beneficial effects of the utility model are that:

this serialization ore screening crushing magnetic separation device adopts high frequency classifying screen cooperation auger conveyer, carries the magnet separator with the ore, later carries the ball-milling rubbing crusher through the auger conveyer through the ore of big granule, and ball-milling rubbing crusher is inside to set up the steel ball, smashes through the roll collision, later carries the auger conveyer through the dead weight in, later carries inside the magnet separator, and cyclic processing makes the benefit maximize.

Drawings

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

FIG. 2 is a schematic view of the auger conveyor of the structure of the present invention;

FIG. 3 is a schematic view of the classifying screen discharging port and the circulating material plate of the structure of the present invention;

FIG. 4 is a schematic structural view of a conveying propeller of the present invention;

fig. 5 is a schematic sectional view taken along the line a-a of the structure of the present invention.

In the figure: 1. high-frequency grading sieve; 2. a discharge port of a classifying screen; 3. a circulating material plate; 4. a ball mill pulverizer; 5. a material guide pipe; 6. a magnetic separator; 7. a conveying propeller structure; 8. a screw conveyor; 9. a drive motor; 10. a delivery conduit; 11. a coarse material outlet of the auger conveyor; 12. a propeller blade; 13. a shaft lever; 14. a support plate; 15. fixing the rod; 16. a discharge port of the ball mill crusher; 17. a trough.

Detailed Description

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

Referring to fig. 1-5, the present invention provides a technical solution: a continuous ore screening, crushing and magnetic separation device comprises a high-frequency grading sieve 1, a ball-milling crusher 4, a magnetic separator 6 and an auger conveyor 8, wherein a conveying pipeline 10 is installed on the side surface of the high-frequency grading sieve 1, a grading sieve discharge port 2 formed in the side surface of the high-frequency grading sieve 1 is connected with a feed port of the ball-milling crusher 4, a ball-milling crusher discharge port 16 formed in the side surface of the ball-milling crusher 4 is connected with a material guide pipe 5, the material guide pipe 5 is communicated with the auger conveyor 8, a conveying propeller structure 7 is installed inside the auger conveyor 8, the front end of the conveying propeller structure 7 is connected with a driving motor 9 installed on the auger conveyor 8, and an output shaft at the lower end of the auger conveyor 8 is connected with the feed end of the; the conveying propeller structure 7 arranged in the auger conveyor 8 comprises a propeller blade 12 and a shaft rod 13, the shaft rod 13 fixes the propeller blade 12 through a fixing rod 15, the propeller blade 12 is arranged outside the shaft rod 13 in a surrounding manner, the outer side surface of the shaft rod 13 is matched with the bottom of a trough 17, the upper end of the trough 17 is provided with a coarse material outlet 11 of the auger conveyor, the coarse material outlet 11 of the auger conveyor is connected with a circulating material plate 3, coarse ores are conveyed into a high-frequency grading sieve 1, then the high-frequency grading sieve 1 operates to sieve the coarse ore conveying belt into a grading sieve discharge port 2, the upper end of the auger conveyor 8 is provided with a water spraying pipeline, a water body of a conveying pipeline 10 arranged on the side surface of the high-frequency grading sieve 1 is directly conveyed into a rotary screen of the high-frequency grading sieve 1, fine sands sieved by the high-frequency grading sieve 1 are conveyed into the auger conveyor 8 through a conveying pipeline, the ball milling pulverizer 4 operates to perform pulverizing work, pulverized materials are conveyed into the material guide pipe 5 and then conveyed into the auger conveyor 8 through the inclined material guide pipe 5, a water pipe arranged above the auger conveyor 8 sprays water downwards, and the driving motor 9 drives the conveying propeller structure 7 to rotate so as to convey the pulverized materials into the magnetic separator 6 for ore dressing;

the high-frequency classifying screen 1 is higher than the ball-milling grinder 4, the joint of the high-frequency classifying screen 1 and the ball-milling grinder 4 forms an inclined structure, a supporting plate 14 is fixed at the lower end of a classifying screen discharge port 2, a circulating material plate 3 is connected to the side surface of the classifying screen discharge port 2, the circulating material plate 3 is of an inclined structure, the height of the joint of the circulating material plate 3 and an auger conveyor 8 is larger than the height of the classifying screen discharge port 2, large granular materials separated in the auger conveyor 8 can be conveyed upwards along with the rotation of a conveying propeller structure 7, a water body flows downwards, fine ores are washed down by the water body and enter a magnetic separator 6, the large granular ores reach a coarse material outlet 11 of the auger conveyor, then flow into the classifying screen discharge port 2 through the circulating material plate 3 and are conveyed into the ball-milling grinder 4, the rotation direction of the conveying propeller structure 7 is opposite to the spiral direction of a spiral blade 12, the discharge port 2 of the classifying screen, the circulating material plate 3 and the material guide pipe 5 are all of hollow pipeline structures, the lower ends of the discharge port 2 of the classifying screen, the circulating material plate 3 and the material guide pipe 5 are all of arc structures, and the material groove 17 connected with the lower end of the material guide pipe 5 is arranged at the upper part, so that materials can flow downwards through self weight;

auger conveyor 8 slopes to set up, and auger conveyor 8 lower extreme connects magnet separator 6, ball-milling grinder 4's ball-milling grinder discharge gate 16 is connected with passage 5 simultaneously, and the height that highly is greater than 5 right side auger conveyor 8 junctions of passage 5 and ball-milling grinder discharge gate 16 junctions, and passage 5 is the slope structure, can make the material after ball-milling grinder 4 smashes flow into auger conveyor 8 inside through the passage 5 of slope, later flow into auger conveyor 8 inside through the dead weight, driving motor 9 that sets up on auger conveyor 8, the driving motor that sets up on the high frequency classifying screen 1, the driving motor of ball-milling grinder 4 side-mounting and the driving motor of installation on the magnet separator 6 are step motor, the setting can be the independent control, and the step motor that sets up is the apolegamy device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a serialization ore screening crushing magnetic separation device, includes high frequency classifying screen (1), ball-milling rubbing crusher (4), magnet separator (6) and auger conveyor (8), its characterized in that: the high-frequency grading sieve is characterized in that a conveying pipeline (10) is installed on the side face of the high-frequency grading sieve (1), a grading sieve discharge port (2) formed in the side face of the high-frequency grading sieve (1) is connected with a feed port of a ball-milling crusher (4), a ball-milling crusher discharge port (16) formed in the side face of the ball-milling crusher (4) is connected with a material guide pipe (5), the material guide pipe (5) is communicated with an auger conveyor (8), a conveying propeller structure (7) is installed inside the auger conveyor (8), the front end of the conveying propeller structure (7) is connected with a driving motor (9) installed on the auger conveyor (8), and a lower end output shaft of the auger conveyor (8) is connected with a feed end of a magnetic separator (6);

the inside transport propeller structure (7) that sets up of auger conveyor (8) include propeller blade (12) and axostylus axostyle (13), and axostylus axostyle (13) are through fixed propeller blade (12) of dead lever (15), and propeller blade (12) encircle and set up in axostylus axostyle (13) outside, and axostylus axostyle (13) lateral surface and silo (17) bottom cooperation, silo (17) upper end is provided with auger conveyor coarse fodder export (11), and auger conveyor coarse fodder export (11) are connected with circulation flitch (3).

2. The continuous ore screening, crushing and magnetic separating device as claimed in claim 1, wherein: the position of high frequency classifying screen (1) is higher than the height of ball-milling grinder (4), and high frequency classifying screen (1) and ball-milling grinder (4) junction form the slope structure, and classifying screen discharge gate (2) lower extreme is fixed with backup pad (14), and classifying screen discharge gate (2) side is connected with circulation flitch (3) simultaneously, and circulates flitch (3) and be the slope structure, and circulation flitch (3) highly are greater than the height of classifying screen discharge gate (2) with auger conveyor (8) junction.

3. The continuous ore screening, crushing and magnetic separating device as claimed in claim 1, wherein: the classifying screen discharging port (2), the circulating material plate (3) and the material guide pipe (5) are all hollow pipeline structures, the lower ends of the classifying screen discharging port (2), the circulating material plate (3) and the material guide pipe (5) are all arc-shaped structures, and the upper part of the position of a material groove (17) connected with the lower end of the material guide pipe (5) is arranged.

4. The continuous ore screening, crushing and magnetic separating device as claimed in claim 1, wherein: auger conveyor (8) slope sets up, and auger conveyor (8) lower extreme connects magnet separator (6), and ball-milling grinder discharge gate (16) of ball-milling grinder (4) are connected with passage (5) simultaneously, and highly being greater than the height of passage (5) right side auger conveyor (8) junction of passage (5) and ball-milling grinder discharge gate (16) junction to passage (5) are the slope structure.

5. The continuous ore screening, crushing and magnetic separating device as claimed in claim 1, wherein: a water spraying pipeline is installed at the upper end of the auger conveyor (8), a water body of a conveying pipeline (10) arranged on the side face of the high-frequency classifying screen (1) is directly conveyed into a rotary screen of the high-frequency classifying screen (1), and fine sand sieved by the high-frequency classifying screen (1) is conveyed into the auger conveyor (8) through a conveying pump pipeline.

6. The continuous ore screening, crushing and magnetic separating device as claimed in claim 1, wherein: and the driving motor (9) arranged on the auger conveyor (8), the driving motor arranged on the high-frequency classifying screen (1), the driving motor arranged on the side surface of the ball-milling crusher (4) and the driving motor arranged on the magnetic separator (6) are stepping motors.

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