CN113499854A

CN113499854A - Self-discharging formula permanent magnetism de-ironing separator

Info

Publication number: CN113499854A
Application number: CN202110929112.5A
Authority: CN
Inventors: 张永梁; 周伟; 王嘉晖; 王军卫; 徐连军; 缪文兵
Original assignee: Zhejiang Yubo New Material Co Ltd
Current assignee: Zhejiang Yubo New Material Co Ltd
Priority date: 2021-08-13
Filing date: 2021-08-13
Publication date: 2021-10-15

Abstract

The invention provides a self-discharging permanent magnet iron remover which comprises a supporting frame, wherein a conveying belt is arranged in the supporting frame, the conveying belt comprises a driving roller rotatably connected to the supporting frame, a driven roller rotatably connected to the supporting frame, an iron unloading belt tensioned on the driving roller and the driven roller, and a driving motor used for driving the driving roller, the iron unloading belt is wrapped with an electromagnet, a plurality of stop blocks are arranged on the side wall of the iron unloading belt far away from the electromagnet, each stop block comprises a supporting plate vertically arranged on the iron unloading belt and two wear-resisting plates symmetrically arranged on the side wall of the supporting plate, the wear-resisting plates are provided with first inserting strips close to the side wall of the iron unloading belt, the iron unloading belt is provided with first inserting grooves for the first inserting strips to be connected in a sliding mode, the first inserting grooves are provided with first positioning grooves, and the first inserting strips are provided with first positioning strips connected in a sliding mode. The invention has the advantages that the iron-removing belt is not required to be detached when the stop block is replaced, time and labor are saved, and the replacement cost is reduced to a certain extent.

Description

Self-discharging formula permanent magnetism de-ironing separator

Technical Field

The invention relates to an iron remover, in particular to a self-unloading permanent magnet iron remover.

Background

At present, chinese patent with publication number CN109174447B discloses a de-ironing separator for a belt conveyor, which comprises a supporting frame, an iron-writing belt mechanism arranged in the supporting frame, a material removing wheel arranged at the end of the supporting frame in a rotating manner, and a discharge chute arranged below the material removing wheel, wherein the iron-removing belt mechanism comprises an iron-removing belt, a driven roller wheel used for fixing the iron-removing belt structure, and an adsorption part arranged in the iron-removing belt, the material removing wheel and the reversing position of the iron-removing belt are arranged oppositely, and the material removing wheel is attached to the iron-removing belt for removing the adsorbed iron material on the iron-removing belt. When the magnetic attraction between the adsorption part and the iron material is too large, the iron material is adsorbed on the iron unloading belt all the time by the electromagnet, so that a plurality of stop blocks can be arranged on the iron unloading belt to assist the iron unloading belt to push the adsorbed iron material to one side of the discharge chute, and the iron material on the iron unloading belt is prevented from being thrown away. However, when the iron remover is used, the stop block is in frequent contact friction with iron materials, so that the surface of the stop block is easy to wear, a worker needs to replace the iron-removing belt together when replacing the stop block, time and labor are wasted, and the replacement cost is improved to a certain extent.

Disclosure of Invention

In view of this, the present invention provides a self-discharging permanent magnet iron remover, which has the advantages of time and labor saving and reducing replacement cost to a certain extent without removing an iron-removing belt when replacing a stopper.

In order to solve the technical problems, the technical scheme of the invention is as follows: a self-unloading permanent magnet iron remover comprises a supporting frame, wherein a conveying belt is arranged in the supporting frame, the conveyer belt comprises a driving roller rotationally connected with the supporting frame, a driven roller rotationally connected with the supporting frame, an iron unloading belt tensioned on the driving roller and the driven roller, and a driving motor used for driving the driving roller, the iron unloading belt is wrapped with an electromagnet, the side wall of the iron unloading belt far away from the electromagnet is provided with a plurality of stop blocks, the stop block comprises a support plate vertically arranged on the iron-unloading belt and two wear-resisting plates symmetrically arranged on the side wall of the support plate, the side wall of the wear-resistant plate close to the iron-unloading belt is provided with a first inserting strip, the iron-unloading belt is provided with a first inserting groove for the sliding connection of the first inserting strip, the first slot is provided with a first positioning groove, and the first inserting strip is provided with a first positioning strip which is connected with the first positioning groove in a sliding mode.

Through the technical scheme, when this de-ironing separator is used for detaching the iron material on the material, place braced frame in the material that thoughtlessly has the iron material, make the transportation area be close to on the material, drive the initiative cylinder through driving motor and rotate, under the assistance of driven cylinder, unload indisputable belt and rotate, and simultaneously, through starting the electro-magnet, make the magnetic attraction between electro-magnet and the iron material be greater than the gravity of iron material, the iron material is adsorbed on the surface of unloading the iron belt, it drives iron material and removes to keeping away from electro-magnet one side to unload the iron belt, until the magnetic attraction between iron material electro-magnet and the iron material is less than the gravity of iron material, under the dead weight effect of iron material, the iron material breaks away from and unloads the iron belt, thereby accomplish the deironing operation to the material. In this in-process, if the electro-magnet is too big to the magnetic attraction of iron material, then easily lead to iron material to keep being adsorbed at the belt of unloading iron relatively for this de-ironing separator's deironing efficiency is relatively poor. The stop block moves along with the iron unloading belt and is used for pushing the adsorbed iron materials away from the electromagnet, so that the iron materials on the iron unloading belt are prevented from being thrown out. The first insert strip and the first slot are used for guiding the installation and the disassembly of the wear-resistant plate, and the first positioning groove and the first positioning strip are used for preventing the first insert strip from separating from the first slot and enhancing the connection of the wear-resistant plate and the iron unloading belt. When the dog takes place wearing and tearing and need change, the staff only need change the antifriction plate, need not to demolish and unload the iron belt, and comparatively labour saving and time saving has reduced the replacement cost to a certain extent.

Preferably, a plurality of positioning holes are uniformly formed in the inner groove wall of the first positioning groove along the length direction of the first positioning groove, a sliding groove is formed in the positioning strip corresponding to the positioning hole, the sliding groove is connected with a sliding strip in a sliding mode, and a first spring is arranged between the sliding strip and the sliding groove.

Through the technical scheme, under the elastic action of the first spring, the first spring drives the sliding strip to slide to one side of the positioning hole in the sliding groove, so that the sliding strip is abutted to the inner hole wall of the positioning hole, the first positioning strip and the first positioning groove are locked, and the position of the wear-resisting plate on the iron unloading belt is prevented from deviating due to the action of external force.

Preferably, a telescopic rod for sleeving the spring is arranged between the sliding strip and the sliding groove.

Through above-mentioned technical scheme, the telescopic link is used for the flexible direction of guide spring, and the telescopic link plays limiting displacement to the distance of sliding of draw runner, avoids the draw runner to break away from the spout at the in-process that slides.

Preferably, the end part of the slide bar inserted into the positioning hole is provided with a first curved surface facing the opening of the slot.

Through the technical scheme, when an operator inserts the first inserting strip into the first inserting slot, the first positioning strip slides in the first positioning groove, the first curved surface is abutted to the inner hole wall of the first positioning hole, under the guidance of the first curved surface, the thrust applied by the operator orders the sliding strip to be close to one side of the inner groove wall of the sliding groove, the first spring contracts to enable the sliding strip to be abutted to the inner groove wall of the first positioning groove, the sliding strip can move towards a next positioning hole conveniently until the first positioning strip is attached to the inner groove wall of the first positioning groove, the sliding strip is abutted to the inner hole wall of the corresponding positioning hole, and the position locking of the wear-resisting plate is completed.

Preferably, the slide bar is made of a magnetic material, and a current diverter for changing the direction of the electromagnetic current is arranged on the support frame.

Through the technical scheme, when this de-ironing separator is used for detaching the iron material in the material, magnetic force between electro-magnet and the draw runner is suction, a plurality of draw runners offset tightly with the interior pore wall of the locating hole that corresponds, thereby strengthen the position locking of draw runner to the antifriction plate, when work people's style changes the antifriction plate, the current direction of accessible current diverter change electro-magnet, make magnetic force between electro-magnet and the draw runner be the repulsion force, the drive draw runner slides to keeping away from locating hole one side, be used for removing the position locking of draw runner to the antifriction plate, make the staff more laborsavingly take out the antifriction plate from unloading the iron belt, also be convenient for simultaneously with the installation of new antifriction plate.

Preferably, the side wall of the support plate close to the wear-resisting plate is provided with a second slot, and the wear-resisting plate is provided with a second inserting strip which is connected with the second slot in a sliding manner.

Through above-mentioned technical scheme, the cutting is two to be used for guiding the antifriction plate with correct position installation in the backup pad with slot two. When the staff changes the antifriction plate, if the repulsion between electro-magnet and the draw runner is too strong then easily lead to the interior cell wall of location strip one and constant head tank one too tightly for the staff is comparatively hard when taking out from the antifriction plate. The second inserting strip abuts against the inner groove wall of the second inserting groove and is used for positioning the position of the wear-resisting plate on the supporting plate, so that repulsion between the electromagnet and the sliding strip is buffered, and the situation that the first positioning strip and the inner groove wall of the first positioning groove abut against each other too tightly is avoided.

Preferably, a second positioning groove is formed in the inner groove wall of the second slot, and the second inserting strip is provided with a second positioning strip which is connected with the second positioning groove in a sliding mode.

Through the technical scheme, the second positioning strip and the second positioning groove are used for preventing the second inserting strip from separating from the second inserting groove.

Preferably, the side wall, far away from the second insert strip, of the wear-resistant plate is provided with a second curved surface facing the iron unloading belt.

Through above-mentioned technical scheme, when the antifriction plate pushes adsorbed iron material to the one side of keeping away from the electro-magnet, the iron material falls along two curved surfaces under the dead weight effect for guide iron material breaks away from unloads the iron belt, prevents that the iron material of whereabouts from falling back in the material.

Preferably, a mounting plate is arranged at a position, close to the electromagnet, of the supporting frame, and an electric fan electrically connected to the electromagnet is arranged on the side wall, far away from the electromagnet, of the mounting plate.

Through above-mentioned technical scheme, the mounting panel is made for the better non-magnetic metal material of heat conductivity such as copper, aluminium for the heat that produces when the absorption electro-magnet operation, when the electro-magnet operation, pivoted electric fan and mounting panel cooperation for carry out the heat dissipation treatment to the electro-magnet, avoid the electro-magnet to lead to the song overheated damage because of long-time work, influence this de-ironing separator's normal use.

Preferably, the electric fan cover is provided with a protective cover, and a plurality of ventilation openings are arranged through the side wall of the protective cover, which is far away from the mounting plate.

Through above-mentioned technical scheme, the safety cover is used for protecting the electric fan, when preventing that the electro-magnet from adsorbing the iron material, the iron material bumps with the pivoted electric fan, leads to the electric fan to damage.

Drawings

FIG. 1 is a first schematic structural diagram of an embodiment;

FIG. 2 is a second schematic structural diagram of the embodiment;

FIG. 3 is a first cross-sectional view of the iron-removing belt;

FIG. 4 is a second cross-sectional view of the iron-removing belt;

fig. 5 is a cross-sectional view of the hanger.

Reference numerals: 1. a support frame; 2. a conveyor belt; 21. a driving roller; 22. a driven drum; 23. unloading the iron belt; 24. a drive motor; 3. an electromagnet; 4. a hanger; 41. a hook; 42. an outer sleeve; 43. mounting a bar; 5. a protective cover; 6. a vent; 7. a stopper; 71. a support plate; 72. a wear plate; 8. cutting I; 9. a second cutting; 10. a first slot; 11. a second slot; 12. a first positioning strip; 13. a second positioning strip; 14. positioning a first groove; 15. positioning a second groove; 16. positioning holes; 17. a chute; 18. a slide bar; 19. a first spring; 20. a first curved surface; 21. a curved surface II; 22. a telescopic rod; 23. mounting a plate; 24. an electric fan; 25. a limiting groove; 26. a limiting block; 27. a second spring; 28. a current diverter; 29. and a collection box.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

Referring to fig. 1 and 2, the self-unloading permanent magnet iron remover comprises a supporting frame 1, wherein a conveyer belt 2 is arranged in the supporting frame 1, the conveyer belt 2 comprises a driving roller 21 rotatably connected to the supporting frame 1, a driven roller 22 rotatably connected to the supporting frame 1, an iron unloading belt 23 tensioned on the driving roller 21 and the driven roller 22, and a driving motor 24 for driving the driving roller 21, the iron unloading belt 23 is wrapped with an electromagnet 3, and a plurality of stoppers 7 are arranged on the side wall of the iron unloading belt 23 away from the electromagnet 3. When this de-ironing separator is used for detaching the iron material on the material, place braced frame 1 on the material of thoughtlessly having the iron material, make conveyer belt 2 be close to the material, drive driving roller 21 through driving motor 24 and rotate, it rotates to drive the tensioning in the iron belt 23 that unloads between driving roller 21 and driven roller 22, and simultaneously, start electromagnet 3, make the magnetic attraction between electromagnet 3 and the iron material be greater than the gravity of iron material, the iron material is adsorbed on the surface of unloading iron belt 23, it drives iron material and removes to keeping away from 3 one side of electromagnet to unload iron belt 23, when magnetic attraction between iron material electromagnet 3 and the iron material is less than the gravity of iron material, under the dead weight effect of iron material, the iron material breaks away from and unloads iron belt 23, thereby accomplish the deironing operation to the material. In this process, when avoiding unloading indisputable belt 23 to lead to because of the too big iron belt 23 rotation of unloading of the magnetic attraction of electro-magnet 3 to the iron material, the iron material remains throughout to be adsorbed on unloading indisputable belt 23, through setting up a plurality of dogs 7 on unloading indisputable belt 23 for supplementary unloading indisputable belt 23 will be pushed away from electro-magnet 3 one side by adsorbed iron material, avoids unloading the iron material on indisputable belt 23 and is thrown away. A collecting box 29 for collecting iron materials is arranged below one side of the iron discharging belt 23.

The support frame 1 is provided with a mounting plate 23 near the electromagnet 3, and the side wall of the mounting plate 23 far away from the electromagnet 3 is provided with an electric fan 24 electrically connected with the electromagnet 3. The mounting plate 23 is made of non-magnetic metal materials with good heat conductivity such as copper and aluminum and is used for absorbing heat generated during the operation of the electromagnet 3, when the electromagnet 3 operates, the rotating electric fan 24 is matched with the mounting plate 23 and used for carrying out heat dissipation treatment on the electromagnet 3, and the phenomenon that the electromagnet 3 is damaged due to bending and overheating caused by long-time work and the normal use of the iron remover is influenced is avoided. The electric fan 24 is covered with a protective cover 5 for protecting the electric fan 24, so that when the electromagnet 3 adsorbs iron materials, the iron materials collide with the rotating electric fan 24, and the electric fan 24 is prevented from being damaged. The side wall of the protective cover 5 away from the mounting plate 23 is penetrated with a plurality of ventilation openings 6 for facilitating the heat radiation operation of the electric fan 24.

Referring to fig. 1, 2, 3, and 4, the stopper 7 includes a supporting plate 71 vertically disposed on the iron unloading belt 23, and two wear plates 72 symmetrically disposed on a side wall of the supporting plate 71, where the wear plate 72 is disposed near a side wall of the iron unloading belt 23 and provided with a first insert 8, the iron unloading belt 23 is provided with a first insert 10 for slidably connecting the first insert 8, and an operator slidably connects the first insert 8 with the first insert 10 to install the two wear plates 72 on two sides of the supporting plate 71, respectively, and when the first insert 8 abuts against an inner groove wall of the first insert 10, the wear plates 72 abut against the supporting plate 71 to guide the installation and the disassembly of the wear plates 72. The first slot 10 is provided with a first positioning groove 14, and the first insert strip 8 is provided with a first positioning strip 12 which is connected with the first positioning groove 14 in a sliding manner, so that the first insert strip 8 is prevented from being separated from the first slot 10, and the connection between the wear-resisting plate 72 and the iron-removing belt 23 is enhanced. In the process of using this de-ironing separator, if dog 7 takes place wearing and tearing and need change, the staff only need change antifriction plate 72, need not to demolish and unload indisputable belt 23, labour saving and time saving has reduced the replacement cost to a certain extent.

The side wall of the wear plate 72, which is far away from the second insert strip 9, is provided with a second curved surface 21, and the second curved surface 21 faces the iron discharging belt 23. When the wear-resisting plate 72 pushes the adsorbed iron material to the side far away from the electromagnet 3, the iron material falls down along the second curved surface 21 under the action of the self-weight so as to guide the iron material to separate from the iron discharging belt 23 and fall into the collecting box 29, and the falling iron material is prevented from falling back into the material.

A plurality of positioning holes 16 are uniformly formed in the inner groove wall of the first positioning groove 14 along the length direction of the first positioning groove 14, a sliding groove 17 is formed in the position, corresponding to the positioning holes 16, of the first positioning strip 12, the sliding groove 17 is connected with a sliding strip 18 in a sliding mode, and a first spring 19 is arranged between the sliding strip 18 and the sliding groove 17. Under the action of the elastic force of the first spring 19, the first spring 19 drives the sliding strip 18 to slide towards the side of the positioning hole 16 in the sliding groove 17, so that the sliding strip 18 is abutted against the inner hole wall of the positioning hole 16 to lock the positions of the first positioning strip 12 and the first positioning slot 14, and the position of the wear-resisting plate 72 on the iron-removing belt 23 is prevented from being deviated due to the action of external force. An expansion rod 22 for sleeving the first spring 19 is arranged between the sliding strip 18 and the sliding groove 17 and used for guiding the expansion direction of the spring, and the expansion rod 22 plays a role in limiting the sliding distance of the sliding strip 18 and prevents the sliding strip 18 from being separated from the sliding groove 17 in the sliding process. The end of the slide bar 18 inserted into the positioning hole 16 is provided with a first curved surface 20, and the first curved surface 20 faces the opening of the slot. When an operator inserts the first insert 8 into the first slot 10, the first positioning strip 12 slides in the first positioning groove 14, the first curved surface 20 abuts against the inner hole wall of the first positioning hole 16, under the guidance of the first curved surface 20, the pushing force applied by the operator drives the sliding strip 18 to approach to one side of the inner groove wall of the sliding groove 17, the first spring 19 contracts, so that the sliding strip 18 abuts against the inner groove wall of the first positioning groove 14, the sliding strip 18 conveniently moves towards the next positioning hole 16 until the first positioning strip 12 is attached to the inner groove wall of the first positioning groove 14, and the sliding strip 18 abuts against the inner hole wall of the corresponding first positioning hole 16, so that the position locking of the wear-resisting plate 72 is completed. The slide bar 18 is made of magnetic material and the support frame 1 is provided with a current diverter 28 for changing the direction of the electromagnetic current. When the iron remover is used for removing iron materials in materials, the magnetic force between the electromagnet 3 and the slide bars 18 is suction force, the slide bars 18 are abutted against the inner hole walls of the corresponding positioning holes 16, so that the position locking of the slide bars 18 to the wear-resisting plate 72 is enhanced, when the wear-resisting plate 72 is replaced by a worker, the current direction of the electromagnet 3 can be changed through the current diverter 28, the magnetic force between the electromagnet 3 and the slide bars 18 is repulsive force, the slide bars 18 are driven to slide towards one side far away from the positioning holes 16, the position locking of the slide bars 18 to the wear-resisting plate 72 is released, the worker can pull the wear-resisting plate 72 away from the iron-removing belt 23 in a labor-saving manner, and meanwhile, the installation of a new wear-resisting plate 72 is facilitated.

The side wall of the support plate 71 close to the wear plate 72 is provided with a second slot 11, and the wear plate 72 is provided with a second insert bar 9 slidably connected to the second slot 11 for guiding the wear plate 72 to be installed on the support plate 71 in a correct position. When the wear-resisting plate 72 is replaced by an operator, if the repulsive force between the electromagnet 3 and the slide bar 18 is too strong, the positioning bar one 12 is likely to be too tightly abutted against the inner groove wall of the positioning groove one 14, so that the operator needs to take out the wear-resisting plate 72 with great effort. The second inserting strip 9 abuts against the inner groove wall of the second inserting groove 11 to position the wear-resisting plate 72 on the supporting plate 71, so that the repulsive force between the electromagnet 3 and the sliding strip 18 is buffered, and the first positioning strip 12 is prevented from abutting against the inner groove wall of the first positioning groove 14 too tightly.

The inner groove wall of the second slot 11 is provided with a second positioning groove 15, and the second inserting strip 9 is provided with a second positioning strip 13 connected with the second positioning groove 15 in a sliding manner so as to prevent the second inserting strip 9 from separating from the second slot 11.

Referring to fig. 1, 2 and 5, a hanging part 4 for hanging the supporting frame 1 is arranged around the top surface of the supporting frame 1, the hanging part 4 comprises a mounting bar 43 hinged to the supporting frame 1, an outer sleeve 42 sleeved on the mounting bar 43, and a hook 41 arranged at the top end of the outer sleeve 42, and the supporting frame 1 is hung above the material to be deironized by rotatably connecting the hook 41 to an external building. The hinge joint of the mounting bar 43 and the support frame 1 enables the support frame 1 to keep the gravity direction vertical under the action of the self-weight. The inner pipe wall of outer tube 42 has seted up spacing groove 25, and the tip that mounting bar 43 inserted spacing groove 25 is provided with stopper 26 for the extension of spacing mounting bar 43 prevents that mounting bar 43 from breaking away from outer tube 42. A second spring 27 is arranged between the limiting groove 25 and the limiting block 26. When dog 7 will adsorb and push to the braced frame 1 and keep away from the one side of electro-magnet 3 to the iron material that unloads on the iron belt 23 surface, the gravity of the iron material that piles up on dog 7 orders about braced frame 1 slope, the gravity change when spring two 27 is used for cushioning braced frame 1 slope, braced frame 1 slopes to the iron material one side that breaks away from unloading iron belt 23 for the whereabouts distance of iron material reduces, thereby weaken the gravitational potential energy when iron material falls, the collision injury of iron material to collecting box 29 has been reduced to a certain extent, improve the life of collecting box 29.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims

1. The utility model provides a self-discharging formula permanent magnetism de-ironing separator, includes braced frame (1), be provided with conveyer belt (2) in braced frame (1), conveyer belt (2) including rotate connect in driving roll (21), the rotation of braced frame (1) connect in driven cylinder (22), the tensioning of braced frame (1) in unload indisputable belt (23) on driving roll (21) and driven cylinder (22), be used for the drive driving motor (24) of driving roll (21), it has electro-magnet (3) to unload indisputable belt (23) parcel, it keeps away from to unload indisputable belt (23) the lateral wall of electro-magnet (3) is provided with a plurality of dogs (7), characterized by: dog (7) including set up perpendicularly in backup pad (71), the symmetry of unloading indisputable belt (23) set up in two antifriction plate (72) of backup pad (71) lateral wall, antifriction plate (72) are close to the lateral wall of unloading indisputable belt (23) is provided with cutting one (8), unload indisputable belt (23) and seted up the confession cutting one (8) slot one (10) of connection that slides, constant head tank one (14) have been seted up in slot one (10), cutting one (8) be provided with slide connect in the location strip one (12) of constant head tank one (14).

2. The self-unloading permanent magnet iron remover according to claim 1, wherein: a plurality of positioning holes (16) are uniformly formed in the inner groove wall of the first positioning groove (14) along the length direction of the first positioning groove (14), sliding grooves (17) are formed in positions, corresponding to the positioning holes (16), of the first positioning strips (12), sliding strips (18) are connected to the sliding grooves (17) in a sliding mode, and springs (19) are arranged between the sliding strips (18) and the sliding grooves (17).

3. The self-unloading permanent magnet iron remover according to claim 2, wherein: an expansion rod (22) for sleeving the first spring (19) is arranged between the sliding strip (18) and the sliding groove (17).

4. The self-unloading permanent magnet iron remover according to claim 2, wherein: the end part of the sliding strip (18) inserted into the positioning hole (16) is provided with a first curved surface (20), and the first curved surface (20) faces to the opening of the slot.

5. The self-unloading permanent magnet iron remover according to claim 4, wherein: the slide bar (18) is made of magnetic materials, and a current diverter (28) used for changing the direction of the electromagnetic current is arranged on the supporting frame (1).

6. The self-unloading permanent magnet iron remover according to claim 5, wherein: the side wall, close to the wear-resisting plate (72), of the supporting plate (71) is provided with a second slot (11), and the wear-resisting plate (72) is provided with a second inserting strip (9) connected with the second slot (11) in a sliding mode.

7. The self-unloading permanent magnet iron remover according to claim 6, wherein: and a second positioning groove (15) is formed in the inner groove wall of the second slot (11), and a second positioning strip (13) connected with the second positioning groove (15) in a sliding manner is arranged on the second inserting strip (9).

8. The self-unloading permanent magnet iron remover according to claim 1, wherein: the wear-resisting plate (72) is far away from the side wall of the second insert strip (9) and is provided with a curved surface II (21), and the curved surface II (21) faces the iron unloading belt (23).

9. The self-unloading permanent magnet iron remover according to claim 1, wherein: the supporting frame (1) is provided with a mounting plate (23) close to the electromagnet (3), and the side wall of the mounting plate (23) far away from the electromagnet (3) is provided with an electric fan (24) electrically connected with the electromagnet (3).

10. The self-unloading permanent magnet iron remover according to claim 9, wherein: the electric fan (24) is covered with a protective cover (5), and a plurality of ventilation openings (6) are communicated on the side wall of the protective cover (5) far away from the mounting plate (23).