CN112756106A - Two roller tiling mineral deironing sieve separators - Google Patents

Abstract

The invention belongs to the field of screening machine equipment, and particularly relates to a double-roller tiled mineral deferrization screening machine which comprises a conveyor belt; the conveying belt is arranged on the fixed frame; the double-roller tiled mineral box is characterized by also comprising a double-roller tiled mineral box, wherein a double-roller tiled iron removing frame is additionally arranged inside the double-roller tiled mineral box; the double-roller tiled iron removing frame is provided with an iron removing roller, and the iron removing roller is provided with a plurality of rows of material stirring frames; the material raking rack is provided with a plurality of magnetic columns, the iron removing roller is provided with through holes, the magnetic columns are adjusted to lift and fall by utilizing an adjusting device arranged in the iron removing roller, and the adjusting device adjusts the magnetic columns to extend out of the through holes for rotating along with the iron removing roller to rake materials for removing iron; wholly on the basis that can tiling mineral material and deironing roller fully contact, accomplish high-efficient deironing, remove the iron roll and adjust the magnetism post after rotating near scraping the work or material rest and accomodate and get into the inside in-process of perforation to utilize and scrape the work or material rest and strike off completely and remove the iron roll, realized magnetism post and deironing roller periodic maintenance clean constantly, the cleanliness is high, is favorable to carrying out high-efficient deironing.

Description

Two roller tiling mineral deironing sieve separators

Technical Field

The invention relates to the field of screening machine equipment, in particular to a double-roller tiled mineral deferrization screening machine.

Background

The magma effect occurs at higher temperatures and pressures. Mainly, olivine, pyroxene, amphibole, mica, feldspar, quartz and other main rock-making minerals are crystallized from the magma molten mass and form various magma rocks.

Minerals formed by regional metamorphism tend to be compact in structure, heavy in specific gravity and free of water. In the case of carbonate rock, the surrounding rock may form cyathula rock, which is composed of silicate minerals of calcium, magnesium and iron, such as diopside, tremolite, garnet, glauconite, wollastonite and stevensite. Later stages are often accompanied by hydrothermal mineralization to form aggregates of copper, iron, tungsten and polymetallic minerals. When the surrounding rock is argillaceous rock, andalusite, cordierite and other minerals can be formed.

In the ore dressing operation process, the bold ore of stope mining need be through thick, in mineral processing trades such as the broken of a plurality of sections, there are many production links to involve the deironing operation, current deironing device is mostly electromagnetic and permanent magnetism, when meetting to have the stickness impurity to adhere to on the iron content impurity, even the iron content impurity that also can't make after the demagnetization breaks away from the deironing device, especially current tooth harrow deironing device for even deironing, even when iron content impurity does not have the stickness impurity, also there is the iron content impurity card to establish between the tooth harrow, the problem that can't break away from.

Disclosure of Invention

The problems in the background art described above are addressed. In order to achieve the purpose, the invention provides the following technical scheme:

a double-roller tiled mineral deferrization screening machine comprises a conveyor belt for conveying mineral materials;

the conveying belt is arranged on the fixing frame, the PLC control box is arranged on the fixing frame, and the feeding speed of the conveying belt is controlled by the PLC control box;

the screening machine also comprises a double-roller tiled mineral box, wherein the double-roller tiled mineral box is arranged on a fixing frame at one end of the conveying belt, and a double-roller tiled iron removing frame for removing iron is additionally arranged in the double-roller tiled mineral box;

the double-roller tiled iron removing frame is additionally provided with a lifting device, and the height of the lifting device is adjusted to be attached to the conveying belt;

the two-roller tiled iron removing frame is provided with an iron removing roller in rotary connection, the iron removing roller is in power transmission connection with a power device, and the iron removing roller is in rotary connection with a scraping frame arranged on the two-roller tiled iron removing frame;

the iron removing roller is provided with a plurality of rows of material stirring frames which are distributed on the iron removing roller in an annular array;

the magnetic column is adjusted by the adjusting device to extend out of the through hole for raking and deironing along with the rotation of the iron removing roller, the magnetic column is adjusted and accommodated in the through hole by the adjusting device, impurities on the surface of the magnetic column are thoroughly scraped by the through hole, and the iron removing roller is in a bald shape after the magnetic column is accommodated and is scraped by the scraping frame;

and a mineral laying roller structure for laying materials is arranged on the double-roller laying iron removing frame.

In the specific process of removing iron from mineral materials, the mineral materials are conveyed by a conveyor belt, the mineral materials are flattened by a mineral spreading roller structure, a power device is started and drives an iron removing roller to rotate to rake and remove iron, an adjusting device adjusts and extends a magnetic column out of a through hole for rake and remove iron along with the rotation of the iron removing roller, the adjusting device adjusts and stores the magnetic column into the through hole, the impurities on the surface of the magnetic column are thoroughly scraped by the through hole, the iron removing roller is in a bald shape after the magnetic column is stored and is scraped by a scraper frame, so that on the basis of full contact between the spread mineral materials and the iron removing roller, high-efficiency iron removal is completed, the iron removing roller adjusts and stores the magnetic column into the through hole after rotating to be close to the scraper frame, the iron removing roller is thoroughly scraped by the scraper frame, the magnetic column and the iron removing roller are periodically kept clean and high in cleanliness, is favorable for high-efficiency iron removal.

In the double-roller tiled mineral deferrization screening machine, the scraping frame is arranged in a U shape; the material scraping frame is provided with a material storage tank which is distributed around the iron removing roller.

In the double-roller tiled mineral deferrization screening machine, the fixed frame is additionally provided with a power box at the bottom of a conveyor belt, and a motor in the power box is used for providing operation power for the conveyor belt;

the power box is arranged on the supporting seat through a plurality of supporting legs, and the supporting seat is additionally provided with a damping mechanism;

and a plurality of groups of buffer springs are additionally arranged on the damping mechanism.

In the double-roller tiled mineral deferrization screening machine, the fixing frame fixes the conveying belt by using the mounting frame;

the two mounting frames are respectively distributed on two sides of the fixed conveyor belt;

the mounting frame is provided with a baffle, and the baffle is used for separating the conveying belt so as to prevent the material from leaking and scattering.

In the double-roller tiled mineral deferrization screening machine, a storage box is arranged at the lower end of the double-roller tiled mineral box and is communicated with the double-roller tiled mineral box for storing tiled deironized mineral materials;

the material storage box is provided with a material discharging pipe, and the material is discharged by the material discharging pipe.

In the double-roller tiled mineral deferrization screening machine, a plurality of containing cavities for containing a discharging and stirring material rack are formed in the deferrization roller;

the rack is provided with a support rod, and a plurality of magnetic columns are distributed on the support rod at equal intervals and are detachably fixed;

the adjusting device is arranged on one side of the supporting rod, which is far away from the magnetic columns, and is placed in the containing cavity, and the adjusting device is started to movably penetrate through the plurality of magnetic columns in the through holes;

the adjusting device is an air cylinder telescopic rod.

In a further scheme, a plurality of scraping rings for scraping impurities on the magnetic columns are fixed inside the through holes;

the scraping ring is arranged in a circular truncated cone shape with a small upper end diameter and a large lower end diameter.

In the double-roller tiled mineral deferrization screening machine, the scraper frame fixes a mineral tiled roller structure through a connecting rod;

the mineral spreading roller structure is provided with a support plate, and a spreading roller rotating in the reverse direction of the conveyor belt is arranged on the support plate;

a flat plate is fixed on the supporting plate at the side of the flat roller, and the cross section of the flat plate is triangular and is used for flattening.

In a further scheme, the supporting plate is rotatably connected with the flat laying roller through a fixing plate and is driven by a speed reducing motor to provide rotating power for the flat laying roller;

the fixed plate is fixed on the supporting plate through the hydraulic cylinder, and the hydraulic cylinder is fixed on the supporting plate.

At the in-process of conveyer belt conveying mineral material, mineral tiling roller structure utilizes the first mineral material of flattening of flat bed board, follows the conveyer belt again and continues to remove, utilizes gear motor and conveyer belt antiport to drive the tiling roller and carries out the secondary stone, is favorable to the later stage deironing, can be in order to realize that mineral material and deironing roller evenly fully contact.

Compared with the prior art, the double-roller tiled mineral deferrization screening machine comprises a conveyor belt; the conveying belt is arranged on the fixed frame; the screening machine also comprises a double-roller tiled mineral box, wherein a double-roller tiled iron removing frame for removing iron is additionally arranged in the double-roller tiled mineral box; the double-roller tiled iron removing frame is provided with iron removing rollers which are rotatably connected, and the iron removing rollers are provided with a plurality of rows of material stirring frames; the magnetic column is adjusted by the adjusting device to extend out of the through hole for raking and deironing along with the rotation of the iron removing roller, the magnetic column is adjusted and accommodated in the through hole by the adjusting device, impurities on the surface of the magnetic column are thoroughly scraped by the through hole, and the iron removing roller is in a bald shape after the magnetic column is accommodated and is scraped by the scraping frame; realized on the basis that can tiling mineral material and deironing roller fully contact, accomplished high-efficient deironing, remove the iron roll and adjust the magnetism post after rotating to be close to scraping the work or material rest and accomodate and get into the inside in-process of perforation to utilize and scrape the work or material rest and thoroughly strike off the iron roll, realized magnetism post and deironing roller periodic maintenance constantly clean, the cleanliness is high, is favorable to carrying out high-efficient deironing.

Drawings

FIG. 1 is a schematic structural diagram of a two-roll flat-laying mineral deironing screening machine of the invention;

FIG. 2 is a schematic front view of a two-roller tiled mineral de-ironing frame of the two-roller tiled mineral de-ironing screening machine of the present invention;

FIG. 3 is a schematic top view of a two-roller flat iron-removing frame of the two-roller flat mineral iron-removing screening machine of the present invention;

FIG. 4 is a schematic structural view of the scraping frame in FIG. 2;

FIG. 5 is a schematic structural view of the mineral lay-up roll arrangement of FIG. 2;

FIG. 6 is a schematic cross-sectional view of the de-ironing roll of FIG. 2;

fig. 7 is an enlarged schematic view of a portion a in fig. 6.

In the figure:

1-a PLC control box, 2-a double-roller tiled mineral box, 3-a storage box, 4-a support seat, 5-a support leg, 6-a power box, 7-an installation frame, 8-a conveyor belt and 9-a double-roller tiled iron-removing frame;

91-scraping frame, 92-de-ironing roller, 93-connecting rod, 94-mineral spreading roller structure and 95-storage tank;

921-material pulling frame, 922-magnetic column, 923-support rod, 924-containing cavity, 925-cylinder telescopic rod, 926-material scraping ring and 927-perforation;

941 support plates, 942 lay-flat rollers, 943 fixed plates, 944 lay-flat plates, 945 hydraulic cylinders.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to specific embodiments. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the embodiment of the invention, as shown in FIGS. 1-4 and 6-7: a double-roller tiled mineral deferrization screening machine comprises a conveyor belt 8 for conveying mineral materials; the conveying belt 8 is arranged on a fixing frame, a PLC control box 1 is arranged on the fixing frame, and the feeding speed of the conveying belt 8 is controlled by the PLC control box 1;

the screening machine further comprises a double-roller tiled mineral box 2, wherein the double-roller tiled mineral box 2 is installed on a fixing frame at one end of a conveying belt 8, and a double-roller tiled iron removing frame 9 for removing iron is additionally installed inside the double-roller tiled mineral box 2;

the two-roller tiled deferrization frame 9 is additionally provided with a lifting device, and the lifting device is used for height adjustment (the lifting device is arranged inside the two-roller tiled mineral box 2 and can be a cylinder, a hydraulic cylinder and the like, the specific structure is not limited as long as the lifting device can be used for height adjustment, the cylinder and the hydraulic cylinder are both in the prior art and can be directly purchased in the market, and detailed explanation is not provided here, and the cylinder is also shown in the attached drawing) so as to be attached to the conveyor belt 8;

the two-roller tiled iron removing frame 9 is provided with an iron removing roller 92 which is rotatably connected, the iron removing roller 92 is in power transmission connection with a power device (the power device is arranged inside the two-roller tiled mineral box 2 and can be a motor, a servo motor and the like, and the specific structure is not limited as long as the power transmission connection with the iron removing roller 92 and the rotation of the iron removing roller 92 are met, the motor and the servo motor are in the prior art and can be directly purchased in the market, and are not described in detail and shown in the attached drawings, and the power transmission connection mode of the power device can be the matching transmission of a gear and a chain, and can also be the power transmission realized through the driving of a rotating shaft), and the iron removing roller 92 is rotatably connected with a material scraping frame 91 arranged on the two-roller tiled iron removing frame 9;

a plurality of rows of material poking frames 921 are arranged on the iron removing roller 92, and the plurality of rows of material poking frames 921 are distributed on the iron removing roller 92 in an annular array;

the row poking material rack 921 is provided with a plurality of magnetic columns 922, the magnetic columns 922 are movably inserted on the de-ironing roller 92, the de-ironing roller 92 is provided with through holes 927 used for insertion in a matching mode with the magnetic columns 922, the magnetic columns 922 are adjusted to lift and adjust by using an adjusting device arranged inside the de-ironing roller 92, the adjusting device adjusts the magnetic columns 922 to extend out of the through holes 927 to be used for raking and de-ironing along with the rotation of the de-ironing roller 92, the adjusting device adjusts and stores the magnetic columns 922 into the through holes 927, impurities on the surfaces of the magnetic columns 922 are thoroughly scraped by using the through holes 927, and the de-ironing roller 92 is in a bald shape after the magnetic columns 922 are stored and is scraped; the double-roller tiled iron removing frame 9 is provided with a mineral tiled roller structure 94 for paving.

In the embodiment of the invention, during the specific process of removing iron from mineral materials, a conveyor belt 8 is used for conveying the mineral materials, a mineral spreading roller structure 94 is used for spreading the mineral materials, a power device is started, an iron removing roller 92 is driven to rotate for raking the mineral materials to remove iron, an adjusting device adjusts a magnetic column 922 to extend out of a through hole 927 for raking the mineral materials to remove iron along with the rotation of the iron removing roller 92, the adjusting device adjusts and stores the magnetic column 922 into the through hole 927, the through hole 927 is used for thoroughly scraping impurities on the surface of the magnetic column 922, after the magnetic column 922 is stored, the iron removing roller 92 is in a bald shape and is scraped by a scraper frame 91, on the basis that the mineral spreading materials can be fully contacted with the iron removing roller 92, the efficient iron removal is completed, after the iron removing roller 92 rotates to be close to the scraper frame 91, the magnetic column 922 is adjusted and stored into the through hole 927, and the, realized magnetism post 922 and deironing roller 92 periodic cleaning constantly, the cleanliness is high, is favorable to carrying out high-efficient deironing.

In the embodiment of the invention, as shown in fig. 1 and 4: the scraping frame 91 is arranged in a U shape; a storage trough 95 is formed in the scraping frame 91, and the storage trough 95 is distributed around the deironing roller 92; the power box 6 is additionally arranged at the bottom of the conveyor belt 8 of the fixed frame, and a motor in the power box 6 is used for providing operation power for the conveyor belt 8; the power box 6 is arranged on the supporting seat 4 through a plurality of supporting legs 5, and the supporting seat 4 is additionally provided with a damping mechanism; and a plurality of groups of buffer springs are additionally arranged on the damping mechanism.

The fixed frame fixes the conveying belt 8 by using the mounting frame 7; the two mounting frames 7 are respectively distributed on two sides of the fixed conveyor belt 8; the mounting frame 7 is provided with a baffle, and the baffle is used for separating the conveyor belt 8 so as to prevent the materials from leaking and scattering. The lower end of the double-roller tiled mineral box 2 is provided with a storage box 3, and the storage box 3 is communicated with the double-roller tiled mineral box 2 and used for storing the tiled mineral materials without iron; the material storage box 3 is provided with a material discharging pipe, and the material is discharged by the material discharging pipe.

In the embodiment of the present invention, as shown in fig. 6 and 7: a plurality of accommodating cavities 924 for accommodating the material discharging and stirring frame 921 are formed in the de-ironing roller 92; a support rod 923 is arranged on the material discharging and poking frame 921, and a plurality of magnetic columns 922 are distributed on the support rod 923 at equal intervals and are detachably fixed; the adjusting device is installed on one side of the support rod 923, which is far away from the magnetic columns 922, and is placed inside the containing cavity 924, and the adjusting device is started to movably insert the magnetic columns 922 inside the through holes 927;

the adjusting device is an air cylinder telescopic rod 925 (the adjusting device is not limited to the air cylinder telescopic rod 925, and can also be a hydraulic cylinder telescopic rod, or a telescopic structure formed by matching a threaded rod and a nut, and the like, and the specific structure is not limited as long as the height can be adjusted, and preferably, the adjusting device is the air cylinder telescopic rod 925).

A plurality of scraping rings 926 for scraping impurities on the magnetic column 922 are fixed inside the through hole 927; the scraping ring 926 is provided in a circular truncated cone shape having a smaller upper end diameter and a larger lower end diameter.

In the embodiment of the invention, as shown in fig. 2 and 5: the scraper frame 91 fixes the mineral spreading roller structure 94 through a connecting rod 93; a support plate 941 is arranged on the mineral spreading roller structure 94, and a spreading roller 942 which rotates in the opposite direction to the conveyor belt 8 is arranged on the support plate 941; a flat plate 944 is fixed to the support plate 941 at the side of the flat roller 942, and the cross section of the flat plate 944 is triangular for flattening.

The supporting plate 941 is rotatably connected to the laying roller 942 through a fixing plate 943 and is driven by a speed reduction motor to provide rotating power for the laying roller 942; the fixing plate 943 is fixed to the support plate 941 by a hydraulic cylinder 945, and the hydraulic cylinder 945 is fixed to the support plate 941.

At the in-process of 8 conveying mineral materials of conveyer belt, mineral tiling roller structure 94 utilizes the first mineral material of flattening of flat bed plate 944, follows conveyer belt 8 again and continues to remove, utilizes gear motor and 8 antiport drive tiling roller 942 of conveyer belt to carry out the secondary stone, is favorable to the later stage deironing, can be in order to realize the even abundant contact of mineral material and deironing roller 92.

The invention relates to a double-roller tiled mineral deferrization screening machine, which comprises a conveyor belt 8; the conveyor belt 8 is arranged on the fixed frame; the screening machine also comprises a double-roller tiled mineral box 2, and a double-roller tiled iron removing frame 9 for removing iron is additionally arranged inside the double-roller tiled mineral box 2; the two-roller tiled iron removing frame 9 is provided with an iron removing roller 92 which is rotatably connected, and the iron removing roller 92 is provided with a plurality of rows of material poking frames 921; the material discharging and poking frame 921 is provided with a plurality of magnetic columns 922, the iron removing roller 92 is provided with through holes 927 used for insertion in a matching mode with the magnetic columns 922, the magnetic columns 922 are adjusted to lift by using an adjusting device arranged inside the iron removing roller 92, the adjusting device adjusts the magnetic columns 922 to extend out of the through holes 927 for raking and deironing along with the rotation of the iron removing roller 92, the adjusting device adjusts and accommodates the magnetic columns 922 into the through holes 927, impurities on the surfaces of the magnetic columns 922 are thoroughly scraped by using the through holes 927, and the iron removing roller 92 is in a bald shape after the magnetic columns 922 are accommodated and is scraped by using the material scraping frame 91; realized on the basis that can tiling mineral material and deironing roller 92 fully contact, accomplished high-efficient deironing, except that iron roller 92 adjusts to accomodate magnetism post 922 and gets into the inside in-process of perforation 927 near scraping the work or material rest 91 in rotating to utilize and scrape work or material rest 91 thoroughly to strike off except that iron roller 92, realized magnetism post 922 and deironing roller 92 periodic maintenance clean constantly, the cleanliness is high, is favorable to carrying out high-efficient deironing.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

While the preferred embodiments of the present invention have been described in detail, 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 (9)

1. A double-roller tiled mineral deferrization screening machine which is characterized in that,

comprising a conveyor belt for conveying mineral material;

the conveying belt is arranged on the fixing frame, the PLC control box is arranged on the fixing frame, and the feeding speed of the conveying belt is controlled by the PLC control box;

the screening machine also comprises a double-roller tiled mineral box, wherein the double-roller tiled mineral box is arranged on a fixing frame at one end of the conveying belt, and a double-roller tiled iron removing frame for removing iron is additionally arranged in the double-roller tiled mineral box;

the double-roller tiled iron removing frame is additionally provided with a lifting device, and the height of the lifting device is adjusted to be attached to the conveying belt;

the two-roller tiled iron removing frame is provided with an iron removing roller in rotary connection, the iron removing roller is in power transmission connection with a power device, and the iron removing roller is in rotary connection with a scraping frame arranged on the two-roller tiled iron removing frame;

the iron removing roller is provided with a plurality of rows of material stirring frames which are distributed on the iron removing roller in an annular array;

the magnetic column is adjusted by the adjusting device to extend out of the through hole for raking and deironing along with the rotation of the iron removing roller, the magnetic column is adjusted and accommodated in the through hole by the adjusting device, impurities on the surface of the magnetic column are thoroughly scraped by the through hole, and the iron removing roller is in a bald shape after the magnetic column is accommodated and is scraped by the scraping frame;

and a mineral laying roller structure for laying materials is arranged on the double-roller laying iron removing frame.

2. The double-roller flat mineral iron removal screening machine of claim 1,

the scraping frame is arranged in a U shape;

the material scraping frame is provided with a material storage tank which is distributed around the iron removing roller.

3. The double-roller flat mineral iron removal screening machine of claim 1,

the power box is additionally arranged at the bottom of the conveyor belt on the fixed frame, and the motor in the power box is used for providing operation power for the conveyor belt;

the power box is arranged on the supporting seat through a plurality of supporting legs, and the supporting seat is additionally provided with a damping mechanism;

and a plurality of groups of buffer springs are additionally arranged on the damping mechanism.

4. The double-roller flat mineral iron removal screening machine of claim 1,

the fixed frame fixes the conveying belt by using the mounting frame;

the two mounting frames are respectively distributed on two sides of the fixed conveyor belt;

the mounting frame is provided with a baffle, and the baffle is used for separating the conveying belt so as to prevent the material from leaking and scattering.

5. The double-roller flat mineral iron removal screening machine of claim 1,

the lower end of the double-roller tiled mineral box is provided with a storage box which is communicated with the double-roller tiled mineral box and used for storing the tiled mineral materials after iron removal;

the material storage box is provided with a material discharging pipe, and the material is discharged by the material discharging pipe.

6. The double-roller flat mineral iron removal screening machine of claim 1,

a plurality of accommodating cavities for accommodating the material discharging and stirring frame are formed in the de-ironing roller;

the rack is provided with a support rod, and a plurality of magnetic columns are distributed on the support rod at equal intervals and are detachably fixed;

the adjusting device is arranged on one side of the supporting rod, which is far away from the magnetic columns, and is placed in the containing cavity, and the adjusting device is started to movably penetrate through the plurality of magnetic columns in the through holes;

the adjusting device is an air cylinder telescopic rod.

7. The double-roller flat mineral iron removal screening machine of claim 1 or 6,

a plurality of scraping rings for scraping impurities on the magnetic column are fixed in the through hole;

the scraping ring is arranged in a circular truncated cone shape with a small upper end diameter and a large lower end diameter.

8. The double-roller flat mineral iron removal screening machine of claim 1,

the material scraping frame is used for fixing a mineral spreading roller structure through a connecting rod;

the mineral spreading roller structure is provided with a support plate, and a spreading roller rotating in the reverse direction of the conveyor belt is arranged on the support plate;

a flat plate is fixed on the supporting plate at the side of the flat roller, and the cross section of the flat plate is triangular and is used for flattening.

9. The double-roller flat mineral iron removal screening machine of claim 8,

the supporting plate is rotatably connected with the flat laying roller through a fixing plate and is driven by a speed reducing motor to provide rotating power for the flat laying roller;

the fixed plate is fixed on the supporting plate through the hydraulic cylinder, and the hydraulic cylinder is fixed on the supporting plate.

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