CN223324720U - Magnetic separation deironing device is used in white corundum production - Google Patents

Abstract

The utility model relates to the technical field of white corundum production, and discloses a magnetic separation and iron removal device for white corundum production, comprising a base and a screen drum, wherein the screen drum is cylindrical, and an angle adjustment component is provided between the screen drum and the base, and the angle adjustment component is used to adjust the angle between the axis of the screen drum and the horizontal plane. A magnetic drum is provided coaxially in the screen drum, and the magnetic drum can rotate around its axis. The utility model discloses a magnetic separation and iron removal device for white corundum production, which does not require a filter to isolate the white corundum and the magnet. Instead, the magnet is provided as a magnetic drum, and the iron filings in the white corundum are gradually attached to the inner circumferential wall of the magnetic drum through the rotation of the magnetic drum and the stirring of the stirring component, and then the iron filings on the inner circumferential wall of the magnetic drum are scraped off by a scraper. In this way, the iron filings on the surface of the white corundum can be removed efficiently, and the iron removal effect of the device will not be greatly reduced due to the clogging of the filter mesh holes, which is conducive to improving the iron removal efficiency of the iron removal device.

Description

Magnetic separation deironing device is used in white corundum production

Technical Field

The utility model belongs to the technical field of white corundum production, and particularly relates to a magnetic separation iron removal device for white corundum production.

Background

In the production process of white corundum, a certain amount of iron element is usually contained in raw material bauxite, and iron removal is needed for the white corundum in order to improve the purity and performance of the white corundum.

However, in the prior art, the Chinese patent with the authorized bulletin number of CN219985015U discloses a magnetic separation iron removing device for producing white corundum, the device starts a motor through an external power supply, the motor is started to drive a first rotating shaft to rotate, the rotation of the first rotating shaft drives a stirring fan blade to rotate, and the rotation of the stirring fan blade stirs white corundum in a filter screen to enable scrap iron on the white corundum surface in the filter screen to be fully attracted by a magnet, so that the scrap iron on the white corundum surface can be cleaned. However, the scheme has the following defects that in the iron removal process, scrap iron on the surface of the white corundum passes through the filter screen under the attraction of the magnet and then is attached to the surface of the magnet, and once the mesh of the filter screen is blocked by small white corundum blocks or large scrap iron, the iron removal effect is greatly reduced, and the iron removal efficiency is obviously reduced.

Disclosure of utility model

The utility model aims to provide a magnetic separation iron removal device for white corundum production, which aims to solve the problems in the background technology.

The magnetic separation iron removing device for white corundum production comprises a base, a screen drum, an angle adjusting component and a magnetic separation iron removing device, wherein the screen drum is cylindrical, and the angle adjusting component is arranged between the screen drum and the base and is used for adjusting an included angle value between the axis of the screen drum and a horizontal plane;

a magnetic cylinder is coaxially arranged in the screen cylinder in a rotating way, and the magnetic cylinder can rotate around the axis of the magnetic cylinder;

The stirring component is coaxially arranged in the screen cylinder in a rotating way, the stirring component comprises a stirring shaft, a stirring sleeve, a fixing cylinder, a sliding rod and a stirring plate, the stirring shaft can rotate around the axis of the stirring shaft relative to the magnetic cylinder, the stirring sleeve is coaxially and fixedly arranged outside the stirring shaft, a plurality of fixing cylinders are arranged, the plurality of fixing cylinders are divided into a plurality of groups, each group is provided with at least three fixed barrels, the at least three fixed barrels of each group are uniformly arranged around the axial line of the stirring sleeve in the circumferential direction, T-shaped grooves are formed in the fixed barrels along the axial line direction of the fixed barrels, one end of a sliding rod is slidably connected in the T-shaped grooves, and the other end of the sliding rod is fixedly connected with a stirring plate;

The fixed cover that is provided with on the screen drum, and fixed cover is located the (mixing) shaft periphery, and the outside of fixed cover is provided with the link, and the one end fixedly connected with arc-shaped collection section of thick bamboo of fixed cover is kept away from to the link, and arc-shaped collection section of thick bamboo upper portion opening is provided with the scraper blade in the arc-shaped collection section of thick bamboo, and the scraper blade outwards wears out in order to make the scraper blade and the inner peripheral wall of magnetic cylinder contact each other from the opening part.

Further, a feed hopper is arranged on the left side of the top of the screen cylinder, and the upper part of the feed hopper is connected with a first sealing plug in a threaded manner.

Further, feeding gaps are formed in the circumferential direction of the magnetic ring and below the feeding hopper at equal intervals.

Further, a discharge hole is formed in the left and right of the bottom of the screen cylinder, and a second sealing plug is connected to the lower portion of the discharge hole in a threaded mode.

The magnetic cylinder is connected with a third sealing plug in a threaded manner on one side, close to the arc-shaped collecting cylinder, of the magnetic cylinder, and a fourth sealing plug in a threaded manner on one side, close to the arc-shaped collecting cylinder, of the sieve cylinder.

The novel sieve tube comprises a sieve tube, and is characterized in that a driving assembly is arranged outside the sieve tube and comprises a motor, a first belt pulley, a second belt pulley, a first gear and a second gear, wherein the motor is arranged outside the sieve tube, an output shaft of the motor is fixedly connected with the first belt pulley, the outside of a stirring shaft is fixedly connected with the second belt pulley, the first belt pulley is connected with a second belt pulley belt, the outside of the stirring shaft is fixedly connected with the first gear, the second gear is fixedly connected with a magnetic tube coaxially, a third gear and a fourth gear are coaxially and sequentially arranged outside the sieve tube in a rotating mode from outside to inside, the third gear is meshed with the first gear, and the fourth gear is meshed with the second gear.

The angle adjusting assembly comprises a fixed supporting frame, a limiting plate, a guide roller, a wheel frame and a jack, wherein the fixed supporting frame is arranged on a base, the left part of a screen drum is hinged with the fixed supporting frame, the jack is arranged at the top of the right side of the base, the telescopic end of the jack is fixedly connected with the wheel frame, the guide roller is rotatably arranged on the wheel frame, the limiting plate is arranged at the lower end of the right part of the screen drum, a limiting groove is formed in the lower surface of the limiting plate, and the guide roller is in rolling connection with the limiting groove.

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

According to the utility model, a filter screen is not required to be arranged to isolate the white corundum from the magnet, the magnet is arranged to be a magnetic cylinder, the scrap iron in the white corundum is gradually attached to the inner peripheral wall of the magnetic cylinder through the rotation of the magnetic cylinder and the stirring of the stirring assembly, and then the scrap iron on the inner peripheral wall of the magnetic cylinder is scraped by the scraping plate, so that the scrap iron on the surface of the white corundum can be efficiently removed, the iron removing effect of the device is not greatly reduced because the filter screen holes are blocked, and the iron removing efficiency of the iron removing device is improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic structural diagram of a magnetic separation iron removal device for white corundum production;

FIG. 2 is a top view of a magnetic separation iron removal device for producing white corundum;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is a cross-sectional view B-B of FIG. 3;

FIG. 5 is an enlarged schematic view of the structure at C in FIG. 4;

FIG. 6 is a schematic view of a first view angle of an arc-shaped collecting cylinder in a magnetic separation iron removing device for white corundum production;

FIG. 7 is a schematic diagram of a second view angle of an arc-shaped collecting cylinder in the magnetic separation iron removing device for producing white corundum;

FIG. 8 is a schematic diagram showing the cooperation of a first gear and a second gear in a magnetic separation iron removing device for producing white corundum;

Fig. 9 is an enlarged schematic view of the structure at D in fig. 1.

The device comprises 100 parts of a base, 200 parts of a screening cylinder, 210 parts of a feeding hopper, 220 parts of a first sealing plug, 230 parts of a discharging hole, 240 parts of a second sealing plug, 250 parts of a fourth sealing plug, 300 parts of an angle adjusting assembly, 310 parts of a fixed supporting frame, 320 parts of a limiting plate, 321 parts of a limiting groove, 330 parts of a guide roller, 340 parts of a wheel frame, 350 parts of a jack, 400 parts of a magnetic cylinder, 410 parts of a feeding gap, 420 parts of a third sealing plug, 500 parts of a stirring assembly, 510 parts of a stirring shaft, 520 parts of a stirring sleeve, 530 parts of a fixed cylinder, 531 parts of a T-shaped groove, 540 parts of a sliding rod, 550 parts of a stirring plate, 560 parts of a fixed sleeve, 570 parts of a connecting frame, 580 parts of an arc-shaped collecting cylinder, 590 parts of a scraping plate, 600 parts of a driving assembly, 610 parts of a motor, 620 parts of a first belt pulley, 630 parts of a second belt pulley, 640 parts of a first gear, 650 parts of a second gear, 660 parts of a third gear, 670 parts of a third gear, and a fourth gear.

Detailed Description

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

The utility model is further described below with reference to the accompanying drawings:

As shown in fig. 1 to 9, a magnetic separation iron removing device for white corundum production comprises a base 100, and further comprises a screen drum 200, wherein the screen drum 200 is cylindrical, an angle adjusting assembly 300 is arranged between the screen drum 200 and the base 100, the angle adjusting assembly 300 is used for adjusting an included angle value between an axis of the screen drum 200 and a horizontal plane, a magnetic drum 400 is coaxially rotatably arranged in the screen drum 200, the magnetic drum 400 can rotate around the axis of the magnetic drum 400, a stirring assembly 500 is coaxially rotatably arranged in the screen drum 200, the stirring assembly 500 comprises a stirring shaft 510, a stirring sleeve 520, a fixing drum 530, a sliding rod 540 and a stirring plate 550, the stirring shaft 510 can rotate around the axis of the stirring shaft relative to the magnetic drum 400, the stirring sleeve 520 is coaxially and fixedly arranged outside the stirring shaft 510, the fixing drums 530 are divided into a plurality of groups, each group is provided with at least three fixed barrels 530, at least three fixed barrels 530 of each group are evenly arranged around the axial circumference of the stirring sleeve 520, T-shaped grooves 531 are formed in the fixed barrels 530 along the axial direction of the fixed barrels, one ends of sliding rods 540 are slidably connected in the T-shaped grooves 531, the other ends of the sliding rods 540 are fixedly connected with stirring plates 550, fixed sleeves 560 are fixedly arranged on the screen barrels 200, the fixed sleeves 560 are positioned on the periphery of the stirring shaft 510, connecting frames 570 are arranged outside the fixed sleeves 560, one ends of the connecting frames 570, far away from the fixed sleeves 560, are fixedly connected with arc-shaped collecting barrels 580, openings are formed in the upper parts of the arc-shaped collecting barrels 580, scraping plates 590 are arranged in the arc-shaped collecting barrels 580, and the scraping plates 590 outwards penetrate out of the openings to enable the scraping plates 590 to be in contact with the inner peripheral walls of the magnetic barrels 400.

It should be noted that, an end portion of the sliding rod 540 located in the T-shaped groove 531 is shaped as a T that is adapted to the T-shaped groove 531.

As an embodiment of the present utility model, as shown in fig. 1, a feed hopper 210 is provided at the left side of the top of the screen cylinder 200, and a first sealing plug 220 is screwed to the upper portion of the feed hopper 210.

The feeding hopper 210 is provided for pouring white corundum material to be deironing into the feeding hopper, and the feeding hopper 210 is blocked after the first sealing plug 220 is poured into the magnetic cylinder 400, so that dust in the white corundum is prevented from overflowing.

As an embodiment of the present utility model, as shown in FIG. 4, the feeding gaps 410 are formed at equal intervals in the circumferential direction of the magnetic ring and below the feeding hopper 210.

The feed gap 410 is provided to allow white corundum to enter the interior of the rotating magnet drum 400.

As an embodiment of the present utility model, as shown in fig. 3, a discharge port 230 is formed at the left and right sides of the bottom of the screen cylinder 200, and a second sealing plug 240 is screwed to the lower portion of the discharge port 230.

The discharge hole 230 is arranged to open the discharge hole 230 after the iron removal process of the white corundum is finished, the white corundum material in the magnetic cylinder 400 is discharged, and the second sealing plug 240 is arranged to seal the discharge hole 230 in the iron removal process, so that the white corundum is prevented from flowing out of the discharge hole 230 in the iron removal process.

As an embodiment of the present utility model, as shown in fig. 3, a third sealing plug 420 is screwed to a side of the magnetic cylinder 400 near the arc-shaped collection cylinder 580, and a fourth sealing plug 250 is screwed to a side of the screen cylinder 200 near the arc-shaped collection cylinder 580.

The third sealing plug 420 is provided to prevent the white corundum from flowing out from the position of the third sealing plug 420 during the rotation of the magnetic cylinder 400.

When the iron filings in the arc-shaped collecting cylinder 580 need to be discharged, a worker firstly opens the fourth sealing plug 250, then makes the magnetic cylinder 400 rotate at a low speed until the third sealing plug 420 rotates to be close to the fourth sealing plug 250, at the moment, the worker opens the third sealing plug 420 again, at the moment, the worker can insert a dust collection pipe of the dust collector into the arc-shaped collecting cylinder 580, and sucks the iron filings in the arc-shaped collecting cylinder 580 into the dust collector.

As an embodiment of the present utility model, as shown in fig. 8, the driving assembly 600 is disposed at the outside of the screen drum 200, the driving assembly 600 includes a motor 610, a first pulley 620, a second pulley 630, a first gear 640 and a second gear 650, the motor 610 is disposed at the outside of the screen drum 200, an output shaft of the motor 610 is fixedly connected with the first pulley 620, the outside of the stirring shaft 510 is fixedly connected with the second pulley 630, the first pulley 620 is connected with the second pulley 630 in a belt manner, the outside of the stirring shaft 510 is fixedly connected with the first gear 640, the second gear 650 is fixedly connected with the magnetic drum 400 in a coaxial manner, the outside of the screen drum 200 is coaxially and sequentially rotated with a third gear 660 and a fourth gear 670 from outside to inside, specifically, the third gear 660 and the fourth gear 670 are connected together through a connecting shaft, the third gear 660 and the fourth gear 670 are synchronously rotated, the connecting shaft is rotatably connected at the outside of the screen drum 200, the third gear 660 is meshed with the first gear 640, and the fourth gear 670 is meshed with the second gear 650.

The driving assembly 600 is provided to drive the assembly 600 and the magnetic cylinder 400 so that the scraping plate 590 can remove the iron pieces attached to the inner circumferential surface of the rotating magnetic cylinder 400.

As an embodiment of the utility model, as shown in FIG. 9, the angle adjusting assembly 300 comprises a fixed supporting frame 310, a limiting plate 320, a guide roller 330, a wheel frame 340 and a jack 350, wherein the fixed supporting frame 310 is arranged on the base 100, the left part of the screen drum 200 is hinged with the fixed supporting frame 310, the jack 350 is arranged on the top of the right side of the base 100, the telescopic end of the jack 350 is fixedly connected with the wheel frame 340, the guide roller 330 is rotatably arranged on the wheel frame 340, the limiting plate 320 is arranged on the lower right end of the screen drum 200, the lower surface of the limiting plate 320 is provided with a limiting groove 321, and the guide roller 330 is in rolling connection with the limiting groove 321.

The angle adjusting assembly 300 is used for adjusting the inclination of the screen drum 200 and the magnetic drum 400 so that white corundum entering the magnetic drum 400 from the feed hopper 210 can be uniformly distributed inside the magnetic drum 400 by enabling the right end of the screen drum 200 to incline downwards during feeding, and in addition, white corundum can be conveniently concentrated at the position of the discharge hole 230 by enabling the left end of the screen drum 200 to incline downwards during discharging so that the white corundum is conveniently and completely discharged out of the magnetic drum 400.

The working principle and the using flow of the utility model are as follows: the worker opens the feed hopper 210 to pour white corundum to be deironing into the screen drum 200, the white corundum enters the inside of the magnetic drum 400 through the feed gap 410, at the same time, the worker contracts the jack 350 so as to enable the right end of the screen drum 200 to incline downwards, so that the white corundum rolls downwards under the action of gravity and uniformly distributed on the lower part of the magnetic drum 400 along the axis of the magnetic drum 400, then the motor 610 rotates, at the moment, the motor 610 drives the first belt pulley 620 to rotate, the first belt pulley 620 drives the second belt pulley 630 to rotate, the second belt pulley 630 drives the stirring shaft 510 to rotate, the stirring shaft 510 drives the stirring sleeve 520 to rotate, the stirring sleeve 520 drives the fixed drum 530 to rotate, the fixed drum 530 drives the sliding rod 540 to rotate, the sliding rod 540 drives the stirring plate 550 to rotate, under the action of gravity, when the sliding rod 540 rotates to the upper part of the magnetic drum 400, under the action of gravity of the sliding rod 540 and the stirring plate 550, the sliding rod 540 moves along the T-shaped groove 531 towards the direction close to the axis of the stirring sleeve 520, at this time, the stirring plate 550 cannot contact the arc-shaped collecting cylinder 580, when the sliding rod 540 rotates to the lower part of the magnetic cylinder 400, under the action of gravity of the sliding rod 540 and the stirring plate 550, the sliding rod 540 moves along the T-shaped groove 531 towards the direction far away from the axis of the stirring sleeve 520, at this time, the stirring plate 550 can stir white corundum at the bottom of the magnetic cylinder 400, so that scrap iron on the surface of the white corundum can be adsorbed on the inner peripheral surface of the magnetic cylinder 400, meanwhile, the stirring shaft 510 drives the first gear 640 to rotate, the first gear 640 drives the third gear 660 to rotate, the third gear 660 drives the fourth gear 670 to synchronously rotate through the connecting shaft, the fourth gear 670 drives the second gear 650 to rotate, and the second gear 650 drives the magnetic cylinder 400 to rotate, at this time, the scrap iron adsorbed on the inner peripheral wall of the magnetic cylinder 400 can gradually rotate to the position of the scraper 590, and the scrap iron falls down from the inner peripheral wall of the magnetic cylinder 400 under the blocking action of the scraper 590, and falls into the arc-shaped collecting cylinder 580 through the opening at the upper part of the arc-shaped collecting cylinder 580.

After the device is continuously operated for a certain period of time, a worker can take down the second sealing plug 240 from the discharge hole 230, at this time, a part of white corundum falls down from the discharge hole 230, after a certain amount of white corundum is collected, the scrap iron content on the surface of the white corundum is measured, if the scrap iron content on the surface of the white corundum is lower than a preset value, the jack 350 can be lifted up, the left end of the screen drum 200 is inclined downwards so as to conveniently discharge all the white corundum from the discharge hole 230, if the measured scrap iron content on the surface of the white corundum is higher than the preset value, the second sealing plug 240 is in threaded connection with the discharge hole 230, and iron can be removed from the white corundum until the scrap iron content on the surface of the white corundum is lower than the preset value, and then all the white corundum is discharged.

When the iron filings in the arc-shaped collecting cylinder 580 need to be discharged, a worker firstly opens the fourth sealing plug 250, then makes the magnetic cylinder 400 rotate at a low speed until the third sealing plug 420 rotates to be close to the fourth sealing plug 250, at the moment, the worker opens the third sealing plug 420 again, at the moment, the worker can insert a dust collection pipe of the dust collector into the arc-shaped collecting cylinder 580, and sucks the iron filings in the arc-shaped collecting cylinder 580 into the dust collector.

In summary, compared with the prior art, this device need not to set up the filter screen and keeps apart white alundum and magnet, but sets up the magnet into magnetic cylinder 400, makes the iron fillings in the white alundum adhere to gradually on the inner peripheral wall of magnetic cylinder 400 through the rotation of magnetic cylinder 400 and the stirring of stirring subassembly 500, then scrapes the iron fillings on the inner peripheral wall of magnetic cylinder 400 through scraper 590, so can the iron fillings on the surface of white alundum of efficient removal, and can not be because the filter mesh is stopped up, cause the deironing effect of device to discounts greatly, be favorable to improving deironing efficiency of deironing device.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (7)

1. The magnetic separation iron removing device for the white corundum production comprises a base (100) and is characterized by further comprising a screen drum (200), wherein the screen drum (200) is cylindrical, an angle adjusting component (300) is arranged between the screen drum (200) and the base (100), and the angle adjusting component (300) is used for adjusting the included angle value between the axis of the screen drum (200) and the horizontal plane;

A magnetic cylinder (400) is coaxially arranged in the screen cylinder (200) in a rotating way, and the magnetic cylinder (400) can rotate around the axis of the magnetic cylinder;

The stirring assembly (500) is coaxially arranged in the screen cylinder (200) in a rotating way, the stirring assembly (500) comprises a stirring shaft (510), stirring sleeves (520), fixing cylinders (530), sliding rods (540) and stirring plates (550), the stirring shaft (510) can rotate around the axis of the stirring shaft relative to the magnetic cylinders (400), the stirring sleeves (520) are coaxially and fixedly arranged outside the stirring shaft (510), the fixing cylinders (530) are divided into a plurality of groups, each group is provided with at least three fixing cylinders (530), at least three fixing cylinders (530) of each group are uniformly arranged around the axis circumference of the stirring sleeve (520), T-shaped grooves (531) are formed in the fixing cylinders (530) along the axis direction of the stirring shafts, one ends of the sliding rods (540) are connected in the T-shaped grooves (531) in a sliding way, and the other ends of the sliding rods (540) are fixedly connected with the stirring plates (550);

Fixed cover (560) that is provided with on screen (200), and fixed cover (560) are located (510) periphery, and the outside of fixed cover (560) is provided with link (570), and one end fixedly connected with arc-shaped collection tube (580) of fixed cover (560) is kept away from to link (570), arc-shaped collection tube (580) upper portion opening is provided with scraper blade (590) in the arc-shaped collection tube (580), and scraper blade (590) outwards wears out in order to make scraper blade (590) and the inner peripheral wall of magnetic cylinder (400) contact each other from the opening part.

2. The magnetic separation iron removing device for producing white corundum according to claim 1, characterized in that a feed hopper (210) is arranged on the left side of the top of the screen cylinder (200), and a first sealing plug (220) is connected to the upper portion of the feed hopper (210) in a threaded manner.

3. The magnetic separation iron removing device for producing white corundum according to claim 1 is characterized in that feeding gaps (410) are formed in the circumference of the magnetic cylinder (400) and are arranged below the feeding hopper (210) at equal intervals.

4. The magnetic separation iron removing device for producing white corundum as claimed in claim 1, wherein the bottom of the screen cylinder (200) is provided with a discharge hole (230) at left and right sides, and the lower part of the discharge hole (230) is connected with a second sealing plug (240) through threads.

5. The magnetic separation deironing device for white corundum production according to claim 1, wherein one side of the magnetic cylinder (400) close to the arc-shaped collecting cylinder (580) is in threaded connection with a third sealing plug (420), and one side of the screen cylinder (200) close to the arc-shaped collecting cylinder (580) is in threaded connection with a fourth sealing plug (250).

6. The magnetic separation deironing device for white corundum production according to claim 1, wherein a driving assembly (600) is arranged outside the screen drum (200), the driving assembly (600) comprises a motor (610), a first belt wheel (620), a second belt wheel (630), a first gear (640) and a second gear (650), the motor (610) is arranged outside the screen drum (200), an output shaft of the motor (610) is fixedly connected with the first belt wheel (620), the outer part of the stirring shaft (510) is fixedly connected with the second belt wheel (630), the first belt wheel (620) is connected with the second belt wheel (630) in a belt way, a first gear (640) is fixedly connected with the outer part of the stirring shaft (510), the second gear (650) is coaxially and fixedly connected with the magnetic drum (400), a third gear (660) and a fourth gear (670) are sequentially arranged in a rotating way from outside to inside, the third gear (660) is meshed with the first gear (640), and the fourth gear (670) is meshed with the second gear (650).

7. The magnetic separation deironing device for white corundum production according to claim 1, wherein the angle adjusting assembly (300) comprises a fixed supporting frame (310), a limiting plate (320), a guide roller (330), a wheel frame (340) and a jack (350), wherein the fixed supporting frame (310) is arranged on the base (100), the left part of the screen cylinder (200) is hinged with the fixed supporting frame (310), the jack (350) is arranged at the top of the right side of the base (100), the telescopic end of the jack (350) is fixedly connected with the wheel frame (340), the guide roller (330) is rotatably arranged on the wheel frame (340), the limiting plate (320) is arranged at the lower end of the right part of the screen cylinder (200), a limiting groove (321) is formed in the lower surface of the limiting plate (320), and the guide roller (330) is in rolling connection with the limiting groove (321).