CN210496807U - A magnet separator for producing refining furnace water cooling cover antisticking agent - Google Patents

Abstract

The utility model relates to a metal screening installation specifically is a magnet separator for producing refining furnace water cooling lid anti-sticking agent, including pan feeding mouth, magnet and conveyer belt, cross workbin, magnetic separation case and slag iron hopper, the fixed rotatory discharge valve, the bottom of connecting the pan feeding mouth that are provided with in top of crossing the workbin are provided with the discharge gate, and the discharge gate below is provided with the conveyer belt, and the left and right sides of crossing the workbin all is provided with the opening to the fixed magnetic separation case that is provided with of symmetry, the magnetic separation incasement portion is provided with the magnet of fixing on the inner wall around, and the magnet periphery is encircleed the belt, and the belt rotates along with the bearing roller, and the discharge gate has been seted up to magnetic separation bottom of the case portion, is provided with the slag iron hopper below the discharge gate, and the material is by crossing the iron fillings in the free whereabouts in-.

Description

A magnet separator for producing refining furnace water cooling cover antisticking agent

Technical Field

The utility model relates to a metal screening installation specifically is a magnet separator for producing refining furnace water cooling lid antisticking agent.

Background

The anti-sticking agent is a coating which has stronger inoxidizability, slag erosion resistance and molten iron amount erosion resistance and has good thermal shock resistance and is coated on the mouth and the inner wall of the molten iron tank in the molten iron operation process, and a protective film is formed on the inner wall and the mouth of the molten iron tank, so that the maintenance frequency and the consumption of consumables of the molten iron tank are reduced, the maintenance cost is reduced, and the economic benefit is improved; however, the anti-blocking agent must not contain ferrous materials, which would require the removal of metals from the raw materials prior to the synthesis of the anti-blocking agent.

Although the existing metal screening equipment is convenient, due to the fact that materials are mutually rubbed and pushed when moving on the surface of the roller, the phenomenon that miscellaneous iron impurities are still clamped from raw materials to a discharge port can not be removed at one time, so that a plurality of manufacturers select a series connection mode of a plurality of magnetic separation equipment, metal in the raw materials can be removed to the maximum extent, occupied area is too large, influence on workshop layout is large, and therefore the magnetic separation equipment which is small in occupied area and high in metal removal efficiency is needed.

Disclosure of Invention

The utility model discloses a solve current magnet separator area big, the incomplete problem of deironing provides a magnet separator for producing the antiseized agent of refining furnace water cooling cover, and its purpose reduces area, improves the efficiency of getting rid of iron impurity in the raw and other materials.

In order to realize the purpose, the technical scheme of the utility model is that:

a magnetic separator for producing an anti-sticking agent for a water cooling cover of a refining furnace comprises a feeding port, a magnet, a conveyor belt, a material passing box, a magnetic separation box and a slag iron hopper, wherein the top end of the material passing box is fixedly provided with a rotary discharge valve connected with the feeding port, the bottom of the material passing box is provided with a discharge port, the discharge port is a cylindrical quadrangular frustum with two open ends and a large upper part and a small lower part, the conveyor belt is arranged below the discharge port, and the conveyor belt is fixed on the ground through a support; the left side and the right side of the material passing box are both provided with openings, the magnetic separation boxes are symmetrically and fixedly arranged, each magnetic separation box is a box body with one side open, the openings of the two magnetic separation boxes are arranged oppositely, magnets are vertically arranged in the magnetic separation boxes and are cuboids, the magnets are fixed on the front side wall and the rear side wall of each magnetic separation box, carrier rollers are arranged above and below the magnets, the carrier rollers are rotatably connected with the front side wall and the rear side wall of each magnetic separation box, belts are tensioned on the carrier rollers, the outer surfaces of the belts are opposite to the C-shaped openings of the magnetic separation boxes, and the belts surround the; the discharge opening has been seted up to magnetic separation case below, the discharge opening is the tube-shape frustum of handstand, and the discharge opening below is provided with the sediment iron hopper.

Further, the length of the magnet is half of the distance between the two carrier rollers, and the magnet is close to the carrier roller above.

Further, the belt width is greater than the width of magnet, and two sides of belt are provided with the baffle, the baffle is the annular plate body that the elastic rubber board cut and form, and the surface of baffle perpendicular to belt, the transversal [ "shape of personally submitting of baffle and belt combination, the belt surface is provided with the protruding stupefied that the cross-section is triangle-shaped.

Further, the carrier roller is connected to a speed reduction motor outside the magnetic separation box.

Through the technical scheme, the beneficial effects of the utility model are that:

the utility model discloses a vertical magnet that is provided with in the magnetic separation case, magnet be the cuboid, the top and the below of magnet are provided with the bearing roller, the tensioning has the belt on the bearing roller, and the left and right sides of crossing the workbin all is provided with the opening to the fixed magnetic separation case that is provided with of symmetry, raw and other materials are evenly let out through rotatory discharge valve at the pan feeding mouth, and at the dispersion of crossing the workbin and whereabouts, iron impurity is because the appeal of both sides magnet at the in-process that falls down, draws close to both sides, with other material separation in the raw and other materials, iron impurity can be attracted by magnet to with raw and other materials separation, improve iron impurity's the proportion of.

The utility model discloses a cross the left and right sides of workbin and all be provided with the opening to the fixed magnetic separation case that is provided with of symmetry, the magnetic separation case is one side open-ended box, and the opening of two magnetic separation cases sets up relatively, and iron impurity gets into the inside of magnetic separation case along the opening of magnetic separation case one side from the both sides of workbin, is carried the transfer by the belt again, and the area of whole equipment is only the area of both sides magnetic separation case and a material case of crossing, far is less than the area of current magnet separator.

The utility model discloses an opening to magnetic separation case one side is just being made perfect of the surface of belt, the belt width is greater than the width of magnet, and two sides of belt are provided with the baffle, and the belt surface is provided with that the cross-section is triangle-shaped protruding stupefied, and iron impurity draws close to magnet when being attracted by magnet to being stopped by the belt, the baffle of belt can prevent iron impurity and carrying the transfer process by the belt and adsorb with magnet together, ensures that magnet uses for a long time, reduces the maintenance number of times.

Drawings

FIG. 1 is a main view of a magnetic separator for producing an anti-sticking agent for a water cooling cover of a refining furnace;

FIG. 2 is a schematic structural view of a magnetic separator for producing an anti-sticking agent for a water cooling cover of a refining furnace;

FIG. 3 is a sectional view taken along line A-A of FIG. 2;

FIG. 4 is an enlarged view of portion B of FIG. 2;

fig. 5 is a schematic view of the mechanism of the belt of the present invention.

The reference numbers in the drawings are as follows: 1 is the pan feeding mouth, 2 is rotatory discharge valve, 3 is the discharge gate, 4 is the discharge opening, 5 is the conveyer belt, 6 is the sediment iron hopper, 7 is the workbin of crossing, 8 is the magnetic separation case, 9 is the bearing roller, 10 is the belt, 11 is magnet, 12 is the baffle, and 13 is protruding stupefied.

Detailed Description

The invention will be further explained with reference to the drawings and the detailed description below:

as shown in fig. 1 to 5, a magnetic separator for producing an anti-sticking agent for a water cooling cover of a refining furnace comprises a feeding port 1, a magnet 11, a conveyor belt 5, a material passing box 7, a magnetic separation box 8 and a slag iron hopper 6, wherein a rotary discharge valve 2 connected with the feeding port 1 is fixedly arranged at the top end of the material passing box 7, a discharge port 3 is arranged at the bottom, the discharge port 3 is a cylindrical quadrangular frustum with two open ends and a large upper part and a small lower part, the conveyor belt 5 is arranged below the discharge port 3, and the conveyor belt 5 is fixed on the ground through a support; the left side and the right side of the material passing box 7 are both provided with openings, the magnetic separation boxes 8 are symmetrically and fixedly arranged, the magnetic separation boxes 8 are box bodies with one side open, the openings of the two magnetic separation boxes 8 are arranged oppositely, magnets 11 are vertically arranged in the magnetic separation boxes 8, the magnets 11 are cuboid, the magnets 11 are fixed on the front side wall and the rear side wall of the magnetic separation boxes 8, carrier rollers 9 are arranged above and below the magnets 11, the carrier rollers 9 are rotatably connected with the front side wall and the rear side wall of the magnetic separation boxes (8), belts 10 are tensioned on the carrier rollers 9, the outer surfaces of the belts 10 are just opposite to the openings on one side of the magnetic separation boxes 8, the belts 10 surround the magnets 11, a discharge opening 4 is formed below the magnetic separation boxes 8, the discharge opening 4 is in an inverted cylindrical frustum shape, a slag hopper 6 is arranged below the discharge opening 4, the floor area of the whole equipment is only the floor area of the magnetic separation boxes 8 on, raw and other materials evenly let off through rotatory discharge valve 2 at the pan feeding mouth, disperse and to the whereabouts in passing hopper 7, iron impurity is because the appeal of both sides magnet 11 in the in-process that falls, draws close to both sides, and with raw and other materials separation, iron impurity can be attracted by magnet 11 to with raw and other materials separation, adsorbed on the belt, improve iron impurity's the efficiency of getting rid of.

The length of the magnet 11 is half of the distance between the two carrier rollers 9, the magnet 11 is close to the upper carrier roller 9, and iron impurities pressed on the belt 10 by the attraction force of the magnet 11 can be carried by the belt 10 to rotate, so that the iron impurities fall into the iron slag hopper 6 close to the lower carrier roller 9 because of no magnetic attraction.

The belt 10 width is greater than the width of magnet 11, and two sides of belt 10 are provided with baffle 12, baffle 12 cuts the annular plate body that forms for the elastic rubber board, baffle 12 perpendicular to belt 10's surface, the transversal [ "shape of personally submitting of baffle 12 and belt 10 combination, because baffle 12 excircle diameter length that the elastic rubber board cut out is greater than interior circle length, therefore belt 10 is baffle 12 still can be perpendicular to belt 10 surface when bearing roller 9 department turns, but the outer fringe of baffle 12 forms the pincher trees promptly when having arrived straight section, still can guarantee baffle 12 perpendicular to belt 10 surface. The outer surface of the belt 10 is provided with the convex arris 13 with the triangular section, iron impurities are attracted by the magnet 11 to be close to the magnet 11 and are blocked by the belt 10, the baffle plate 12 of the belt 10 can prevent the iron impurities from being adsorbed with the magnet 11 in the carrying and transferring process of the belt 10, the magnet 11 is ensured to be used for a long time, the maintenance frequency is reduced, the outer surface of the belt 10 is provided with the convex arris 13, the iron impurities can be ensured to rotate along with the belt 10, and the iron impurities cannot stay at a fixed position on the belt 10 due to the attraction of the magnet 11.

The carrier roller 9 is connected to a speed reduction motor outside the magnetic separation box 8.

The speed reduction motor in the embodiment adopts an RV110 worm gear speed reducer motor produced by Zhengzhou Mitsui mechanical equipment limited, and the rotary discharge valve 2 adopts a ZR star-shaped rotary discharge valve produced by Changzhou Yuanhua mechanical equipment limited.

During the use, add raw and other materials at pan feeding mouth 1, start the gear motor of rotatory discharge valve 2 and bearing roller 9, rotatory discharge valve slowly rotates, make even the scattering in the workbin 7 of raw and other materials, wherein iron impurity is attracted by magnet in the whereabouts in-process, draw close to the magnetic separation case 8 of both sides, and pressed on belt 10 by magnetic attraction, because gear motor drives bearing roller 9 and rotates, belt 10 is rotatory around bearing roller 9, bring the iron impurity attracted to the dorsal part, and down transport, because be far away from magnet 11 near bearing roller 9 of below, magnetic attraction weakens, iron impurity falls to discharge opening 4 from the top to the bottom by belt 10, and go into sediment iron hopper 6, and the raw and other materials vertical whereabouts of iron impurity has been detached, fall on conveyer belt 5 through discharge gate 3, are taken away by conveyer belt 5, get into next process.

The preferred 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 modifications can be made to the technical solution of the present invention within the scope of the present invention as disclosed without departing from the spirit of the present invention.

Claims (4)

1. The magnetic separator for producing the refining furnace water cooling cover anti-sticking agent comprises a feeding port (1), a magnet (11) and a conveyor belt (5), and is characterized by further comprising a material passing box (7), a magnetic separation box (8) and a slag iron hopper (6), wherein a rotary discharge valve (2) connected with the feeding port (1) is fixedly arranged at the top end of the material passing box (7), a discharge port (3) is arranged at the bottom of the material passing box, the discharge port (3) is a cylindrical quadrangular frustum with two open ends and a large upper part and a small lower part, the conveyor belt (5) is arranged below the discharge port (3), and the conveyor belt (5) is fixed on the ground through a support; the left side and the right side of the material passing box (7) are provided with openings, the magnetic separation boxes (8) are symmetrically and fixedly arranged, each magnetic separation box (8) is a box body with one side open, the openings of the two magnetic separation boxes (8) are oppositely arranged, magnets (11) are vertically arranged in the magnetic separation boxes (8), the magnets (11) are cuboids, the magnets (11) are fixed on the front side wall and the rear side wall of each magnetic separation box (8), carrier rollers (9) are arranged above and below the magnets (11), the carrier rollers (9) are rotationally connected with the front side wall and the rear side wall of each magnetic separation box (8), a belt (10) is tensioned on the carrier rollers (9), the outer surface of the belt (10) is just opposite to the opening on one side of each magnetic separation box (8), and the belt (10) surrounds; discharge opening (4) have been seted up to magnetic separation case (8) below, discharge opening (4) are the tube-shape frustum of handstand, and discharge opening (4) below is provided with sediment iron hopper (6).

2. The magnetic separator for producing the refining furnace water cooling cover anti-sticking agent according to claim 1, characterized in that the length of the magnet (11) is half of the distance between two supporting rollers (9), and the magnet (11) is close to the upper supporting roller (9).

3. The magnetic separator for producing the anti-sticking agent for the water cooling cover of the refining furnace as claimed in claim 1, wherein the width of the belt (10) is greater than that of the magnet (11), the two side edges of the belt (10) are provided with the baffle plates (12), the baffle plates (12) are annular plate bodies formed by cutting elastic rubber plates, the baffle plates (12) are perpendicular to the surface of the belt (10), the cross section of the combination of the baffle plates (12) and the belt (10) is in a [ "shape, and the outer surface of the belt (10) is provided with the convex ridges (13) with triangular cross sections.

4. The magnetic separator for producing the refining furnace water cooling cover anti-sticking agent as claimed in claim 1, characterized in that the carrier roller (9) is connected to a speed reduction motor outside the magnetic separation box (8).

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