CN215655713U - Energy-saving permanent magnet iron remover - Google Patents

Abstract

The utility model relates to the technical field of screening equipment, in particular to an energy-saving permanent magnet iron remover which is convenient for carrying out repeated circulating screening to remove scrap iron, avoids that the scrap iron can not be completely adsorbed and screened after nonmagnetic materials are stacked together, and improves the iron removal effect of the device; the automatic iron removing device comprises a base, an iron removing main body, a feeding box, a first motor, a first rotating shaft, a first helical blade, a conveyer belt mechanism, two sets of first fixed blocks, a permanent magnet, a first baffle, a second baffle, a protective cover, a second motor, an intermittent feeding mechanism, a second rotating shaft, a second helical blade, a fixed frame and a non-magnetic scraper blade, the top at the base is fixed to the iron removing main body, the inside of the iron removing main body is provided with a cavity, the top is provided with an opening, the feeding box is fixed on the top of the base and is connected with the left end of the iron removing main body, the left end bottom of the feeding box is provided with a feeding pipe, the right end upper portion is provided with a discharging pipe, and the top at the feeding box is fixed to the first motor.

Description

Energy-saving permanent magnet iron remover

Technical Field

The utility model relates to the technical field of screening equipment, in particular to an energy-saving permanent magnet iron remover.

Background

An energy-saving permanent magnet iron remover is an auxiliary device for removing scrap iron in nonmagnetic materials, and is widely used in the field of screening equipment; the non-magnetic material of current energy-saving permanent magnet de-ironing separator piles up when thick and is difficult to with whole iron fillings absorption on the conveyer belt to be not convenient for carry out the circulation deironing many times to non-magnetic material, lead to the deironing effect of material relatively poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides the energy-saving permanent magnet iron remover which is convenient for carrying out repeated circulating screening to remove scrap iron, avoids the condition that the scrap iron cannot be completely adsorbed and screened after non-magnetic materials are stacked together, and improves the iron removal effect.

The utility model relates to an energy-saving permanent magnet iron remover, which comprises a base, an iron removing main body, a feeding box, a first motor, a first rotating shaft, a first spiral blade, a conveying belt mechanism, two groups of first fixed blocks, a permanent magnet, a first partition plate, a second partition plate, a protective cover, a second motor, an intermittent feeding mechanism, a second rotating shaft, a second spiral blade, a fixed frame and a non-magnetic scraper blade, wherein the iron removing main body is fixed at the top end of the base, a cavity is arranged inside the iron removing main body, an opening is formed in the top end of the iron removing main body, the feeding box is fixed at the top end of the base and connected with the left end of the iron removing main body, a feeding pipe is arranged at the bottom of the left end of the feeding box, a discharging pipe is arranged at the upper part of the right end of the feeding box, the first motor is fixed at the top end of the feeding box, the output end of the first motor is connected with the first rotating shaft, the first rotating shaft is rotatably connected with the feeding box, the first spiral blade is fixed on the first rotating shaft, the conveyer belt mechanism is fixed at the top ends of the iron removing main body and the second partition plate, two groups of first fixing blocks are fixed at the left side of the rear end of the iron removing main body, the permanent magnet is fixed on the first fixing blocks, the permanent magnet is inserted into the conveyer belt mechanism, the first partition plate is fixed at the top of the cavity of the iron removing main body, an opening is formed in the right side of the first partition plate, the second partition plate is fixed at the middle of the top end of the first partition plate, the protective cover is fixed at the right end of the iron removing main body, the second motor is fixed at the bottom of the inner side wall of the right end of the protective cover, the output end of the second motor is connected with the second rotating shaft, the second rotating shaft is rotatably connected with the iron removing main body and is positioned below the first partition plate, the second rotating shaft extends into the feeding box, the intermittent feeding mechanism is connected with the second rotating shaft, part of the components are positioned in the cavity of the iron removing main body and connected with the right end of the second partition plate, and the second spiral blade is fixed on the second rotating shaft, the non-magnetic scraper is fixed on the upper part of the left end of the deironing main body cavity through the fixing frame and is in contact with the bottom end of the conveying belt mechanism.

The utility model relates to an energy-saving permanent magnet iron remover, wherein an intermittent feeding mechanism comprises a first bevel gear, a second bevel gear, a third rotating shaft, a second fixed block, a cam, a connecting plate, a moving plate, a plurality of groups of contraction rods, a plurality of groups of springs and a baffle plate, the first bevel gear is fixed on the right side of the second rotating shaft and is in meshing transmission connection with the second bevel gear, the second bevel gear is fixed at the bottom end of the third rotating shaft, the third rotating shaft is in rotating connection with the second fixed block, the second fixed block is fixed at the right end of an iron removing main body, the cam is fixed at the top end of the third rotating shaft, the cam is in rolling contact with the connecting plate, the connecting plate is fixed at the right end of the moving plate, the moving plate is in sliding connection with the right end of the iron removing main body, the right side of the moving plate is provided with an opening, the plurality of groups of contraction rods are uniformly fixed at the left end of the moving plate, the springs are fixedly sleeved on the contraction rods, and the other end of the moving plate is connected with the right end of a second partition plate, both ends are connected with the right-hand member of second baffle and the right-hand member of the cavity of deironing main part respectively about the baffle, and the left side of baffle is provided with the opening to the bottom of baffle and the top in close contact with of movable plate.

The utility model relates to an energy-saving permanent magnet iron remover which further comprises two groups of slide rails, two groups of C-shaped slide blocks, a collecting box and a second fixing block, wherein the two groups of slide rails are fixed on the left side of the top end of a first partition plate, the two groups of C-shaped slide blocks are respectively clamped with the two groups of slide rails in a sliding mode, the collecting box is fixed at the top ends of the two groups of C-shaped slide blocks and is positioned below a fixing frame, and the second fixing block is fixed at the front end of the collecting box.

The energy-saving permanent magnet iron remover further comprises a sealing plate and a handle, wherein an opening is formed in the upper portion of the right end of the iron removing main body, the sealing plate covers the opening in the upper portion of the right end of the iron removing main body and is in threaded connection with the iron removing main body through a bolt, and the handle is fixed to the right end of the sealing plate.

The energy-saving permanent magnet iron remover further comprises a plurality of groups of supporting legs, a plurality of groups of cushion blocks and a plurality of groups of foundation bolts, wherein the plurality of groups of supporting legs are uniformly fixed at the bottom end of the base, the cushion blocks are fixed at the bottom ends of the supporting legs, and the cushion blocks are connected with the ground through the foundation bolts.

The energy-saving permanent magnet iron remover further comprises a dust screen, wherein a plurality of groups of heat dissipation holes are formed in the right end of the protective cover, the dust screen covers the plurality of groups of heat dissipation holes, and the dust screen is fixed on the inner side wall of the right end of each heat dissipation hole.

The utility model relates to an energy-saving permanent magnet iron remover, which further comprises a box door, two groups of hinges and an observation window, wherein the left side of the front end of an iron removing main body is provided with a taking and placing opening, the taking and placing opening is covered by the box door, the box door is hinged with the iron removing main body through the hinges, and the observation window is fixed at the front end of the hinges.

Compared with the prior art, the utility model has the beneficial effects that: the first motor drives the first rotating shaft and the first helical blade to rotate, nonmagnetic materials are conveyed to the conveyor belt mechanism, scrap iron mixed in the nonmagnetic materials is adsorbed by the permanent magnet and is adsorbed on the conveyor belt mechanism, the conveyor belt mechanism is enabled to continue conveying the materials, the nonmagnetic materials can fall into the right side of the cavity of the iron removal main body, the scrap iron is continuously adsorbed on the conveyor belt mechanism until the scrap iron is contacted with the nonmagnetic scraper blade, the scrap iron is carried and scraped to the left side of the cavity of the iron removal main body by the nonmagnetic scraper blade, the actions are repeated until all the materials are screened, at the moment, the second motor is started, the second motor drives the second rotating shaft and the second helical blade to rotate, the intermittent feeding mechanism is triggered, the materials on the right side of the cavity of the iron removal main body are intermittently conveyed into the feeding box, and the nonmagnetic materials are conveyed to the conveyor belt mechanism to be screened for the second time by the cooperation of the first motor, the first rotating shaft and the first helical blade again, the iron chips are conveniently removed by repeated circulating screening, the condition that the iron chips cannot be completely adsorbed and screened after non-magnetic materials are stacked together is avoided, and the iron removal effect of the device is improved.

Drawings

FIG. 1 is a front cross-sectional structural schematic view of the present invention;

FIG. 2 is an enlarged schematic view of the utility model at A;

FIG. 3 is an enlarged schematic view of the utility model at B;

FIG. 4 is an enlarged schematic view of the utility model at C;

in the drawings, the reference numbers: 1. a base; 2. a main body for removing iron; 3. a feeding box; 4. a first motor; 5. A first rotating shaft; 6. a first helical blade; 7. a conveyor belt mechanism; 8. a first fixed block; 9. A permanent magnet; 10. a first separator; 11. a second separator; 12. a protective cover; 13. a second motor; 14. a second rotating shaft; 15. a second helical blade; 16. a fixed mount; 17. a non-magnetic squeegee; 18. a first bevel gear; 19. a second bevel gear; 20. a third rotating shaft; 21. a second fixed block; 22. a cam; 23. a connecting plate; 24. moving the plate; 25. a retracting lever; 26. a spring; 27. a baffle plate; 28. a slide rail; 29. a C-shaped sliding block; 30. a collection box; 31. a handle; 32. Closing the plate; 33. a handle; 34. supporting legs; 35. cushion blocks; 36. anchor bolts; 37. heat dissipation holes; 38. a dust screen; 39. a box door; 40. a hinge; 41. and (4) an observation window.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 4, the energy-saving permanent magnet iron remover of the present invention comprises a base 1, an iron removing main body 2, a feeding box 3, a first motor 4, a first rotating shaft 5, a first helical blade 6, a conveyor belt mechanism 7, two sets of first fixing blocks 8, a permanent magnet 9, a first partition plate 10, a second partition plate 11, a protective cover 12, a second motor 13, an intermittent feeding mechanism, a second rotating shaft 14, a second helical blade 15, a fixing frame 16 and a non-magnetic scraper 17, wherein the iron removing main body 2 is fixed on the top end of the base 1, a cavity is arranged inside the iron removing main body 2, the top end is provided with an opening, the feeding box 3 is fixed on the top end of the iron removing main body 1 and connected with the left end of the iron removing main body 2, the left end bottom of the feeding box 3 is provided with a feeding pipe, the upper portion of the right end is provided with a discharging pipe, the first motor 4 is fixed on the top end of the feeding box 3, the output end of the first motor 4 is connected with the first rotating shaft 5, the first rotating shaft 5 is rotatably connected with the feeding box 3, the first helical blade 6 is fixed on the first rotating shaft 5, the conveyer belt mechanism 7 is fixed at the top ends of the deironing main body 2 and the second clapboard 11, two groups of first fixing blocks 8 are fixed at the left side of the rear end of the deironing main body 2, the permanent magnet 9 is fixed on the first fixing blocks 8, the permanent magnet 9 is inserted into the conveyer belt mechanism 7, the first clapboard 10 is fixed at the top of the cavity of the deironing main body 2, the right side of the first clapboard 10 is provided with an opening, the second clapboard 11 is fixed at the middle part of the top end of the first clapboard 10, the protective cover 12 is fixed at the right end of the deironing main body 2, the second motor 13 is fixed at the bottom of the inner side wall of the right end of the protective cover 12, the output end of the second motor 13 is connected with the second rotating shaft 14, the second rotating shaft 14 is rotatably connected with the deironing main body 2 and is positioned below the first clapboard 10, the second rotating shaft 14 extends into the feeding box 3, the intermittent feeding mechanism is connected with the second rotating shaft 14, part of components are positioned in the cavity of the iron removing main body 2 and connected with the right end of the second partition plate 11, the second helical blade 15 is fixed on the second rotating shaft 14, and the non-magnetic scraper 17 is fixed on the upper part of the left end of the cavity of the iron removing main body 2 through a fixing frame 16 and is in contact with the bottom end of the conveying belt mechanism 7; the first motor 4 drives the first rotating shaft 5 and the first helical blade 6 to rotate, nonmagnetic materials are conveyed to the conveying belt mechanism 7, scrap iron mixed in the nonmagnetic materials is adsorbed by the permanent magnet 9 and is adsorbed on the conveying belt mechanism 7, the conveying belt mechanism 7 continues to convey the materials, the nonmagnetic materials can fall into the right side of the cavity of the iron removal main body 2, the scrap iron is adsorbed on the conveying belt mechanism 7 until the scrap iron is contacted with the nonmagnetic scraper 17, the nonmagnetic scraper 17 scrapes the scrap iron to the left side of the cavity of the iron removal main body 2, the actions are repeated until all the materials are screened, the second motor 13 is started at the moment, the second motor 13 drives the second rotating shaft 14 and the second helical blade 15 to rotate, the intermittent feeding mechanism is triggered, the materials on the right side of the cavity of the iron removal main body 2 are conveyed into the feeding box 3 intermittently, and are conveyed into the feeding box 3 intermittently by the first motor 4, The cooperation of first axis of rotation 5 and first helical blade 6 carries the secondary screening on the conveyer belt mechanism 7 with non-magnetic material, is convenient for carry out manifold cycles screening and gets rid of iron fillings, can not carry out whole absorption screening with iron fillings after having avoided non-magnetic material pile up together, has improved the deironing effect of device.

The utility model relates to an energy-saving permanent magnet iron remover, wherein an intermittent feeding mechanism comprises a first bevel gear 18, a second bevel gear 19, a third rotating shaft 20, a second fixed block 21, a cam 22, a connecting plate 23, a moving plate 24, a plurality of groups of contraction rods 25, a plurality of groups of springs 26 and a baffle 27, the first bevel gear 18 is fixed on the right side of the second rotating shaft 14 and is in meshed transmission connection with the second bevel gear 19, the second bevel gear 19 is fixed at the bottom end of the third rotating shaft 20, the third rotating shaft 20 is in rotating connection with the second fixed block 21, the second fixed block 21 is fixed at the right end of an iron removing main body 2, the cam 22 is fixed at the top end of the third rotating shaft 20, the cam 22 is in rolling contact with the connecting plate 23, the connecting plate 23 is fixed at the right end of the connecting plate 24, the moving plate 24 is in sliding connection with the right end of the moving plate 2, an opening is arranged at the right side of the moving plate 24, the groups of contraction rods 25 are uniformly fixed at the left end of the moving plate 24, the spring 26 is fixedly sleeved on the contraction rod 25, the other end of the contraction rod 25 is connected with the right end of the second partition plate 11, the left end and the right end of the baffle plate 27 are respectively connected with the right end of the second partition plate 11 and the right end of the cavity of the iron removing main body 2, an opening is formed in the left side of the baffle plate 27, and the bottom end of the baffle plate 27 is in close contact with the top end of the movable plate 24; the first bevel gear 18 is driven to rotate through the second rotating shaft 14, the first bevel gear 18 is in meshed transmission connection with the second bevel gear 19, the third rotating shaft 20 drives the cam 22 to rotate, the connecting plate 23 is used under the cooperation of the shrinkage rod 25 and the spring 26 to drive the movable plate 24 to move left and right, the opening on the right side of the movable plate 24 and the opening on the left side of the baffle 27 are subjected to intermittent coincidence, nonmagnetic materials on the right side of the cavity of the deironing main body 2 fall into the bottom of the cavity of the deironing main body 2 intermittently and are conveyed into the feeding box 3 through the second spiral blades 15, the phenomenon that a large amount of nonmagnetic materials are accumulated in the feeding box 3 to be conveyed is avoided, the phenomenon that a large amount of materials are accumulated together to be screened is avoided, and the deironing effect of the device on the nonmagnetic materials is further improved.

The energy-saving permanent magnet iron remover further comprises two groups of slide rails 28, two groups of C-shaped slide blocks 29, a collecting box 30 and a second fixing block 21, wherein the two groups of slide rails 28 are fixed on the left side of the top end of the first partition plate 10, the two groups of C-shaped slide blocks 29 are respectively clamped with the two groups of slide rails 28 in a sliding mode, the collecting box 30 is fixed on the top ends of the two groups of C-shaped slide blocks 29 and is positioned below the fixing frame 16, and the second fixing block 21 is fixed at the front end of the collecting box 30; through setting up slide rail 28, C type slider 29, collecting box 30 and second fixed block 21, be convenient for collect the iron fillings that the screening was come out to carry out centralized processing, improve the use convenience of device.

The energy-saving permanent magnet deironing device further comprises a sealing plate 32 and a handle 33, wherein an opening is formed in the upper portion of the right end of the deironing main body 2, the sealing plate 32 covers the opening in the upper portion of the right end of the deironing main body 2 and is in threaded connection with the deironing main body 2 through a bolt, and the handle 33 is fixed to the right end of the sealing plate 32; through setting up shrouding 32 and handle 33, the operator of being convenient for in time takes out the nonmagnetic material after the screening deironing, further improves the use convenience of device.

The energy-saving permanent magnet iron remover further comprises a plurality of groups of supporting legs 34, a plurality of groups of cushion blocks 35 and a plurality of groups of foundation bolts 36, wherein the plurality of groups of supporting legs 34 are uniformly fixed at the bottom end of the base 1, the cushion blocks 35 are fixed at the bottom ends of the supporting legs 34, and the cushion blocks 35 are connected with the ground through the foundation bolts 36; by arranging the supporting legs 34, the cushion blocks 35 and the foundation bolts 36, deviation or inclination of the device during use is avoided, and the use stability of the device is improved.

The energy-saving permanent magnet iron remover further comprises a dust screen 38, wherein a plurality of groups of heat dissipation holes 37 are formed in the right end of the protective cover 12, the dust screen 38 covers the plurality of groups of heat dissipation holes 37, and the dust screen 38 is fixed on the inner side wall of the right end of each heat dissipation hole 37; through setting up louvre 37 and dust screen 38, the heat dissipation of second motor 13 of being convenient for avoids second motor 13 to be heated ageing, ensures second motor 13's life.

The energy-saving permanent magnet iron remover further comprises a box door 39, two groups of hinges 40 and an observation window 41, wherein a taking and placing opening is formed in the left side of the front end of the iron removing main body 2, the box door 39 covers the taking and placing opening, the box door 39 is hinged with the iron removing main body 2 through the hinges 40, and the observation window 41 is fixed at the front end of the hinges 40; through setting up chamber door 39 and hinge 40, be convenient for get fast and put collecting box 30, through setting up observation window 41, be convenient for observe the collection condition of iron fillings in collecting box 30, further improve the use convenience of device simultaneously.

The utility model relates to an energy-saving permanent magnet iron remover, which comprises a first motor 4 for driving a first rotating shaft 5 and a first helical blade 6 to rotate, a non-magnetic material is conveyed to a conveyor belt mechanism 7, iron filings mixed in the non-magnetic material are adsorbed by a permanent magnet 9 and are adsorbed on the conveyor belt mechanism 7, the conveyor belt mechanism 7 is enabled to continue to convey the material, the non-magnetic material falls into the right side of a cavity of an iron removing main body 2, the iron filings are continuously adsorbed on the conveyor belt mechanism 7 until the iron filings are contacted with a non-magnetic scraper 17, the iron filings are carried and scraped to the left side of the cavity of the iron removing main body 2 by the non-magnetic scraper 17, the actions are repeated until all the materials are screened, at the moment, a second motor 13 is started, the second motor 13 drives a second rotating shaft 14 and a second helical blade 15 to rotate, and drives a first bevel gear 18 to rotate by the second rotating shaft 14, the first bevel gear 18 is in meshed transmission connection with the second bevel gear 19, so that the third rotating shaft 20 drives the cam 22 to rotate, the connecting plate 23 drives the moving plate 24 to move left and right under the matching use of the shrinkage rod 25 and the spring 26, further the opening on the right side of the moving plate 24 and the opening on the left side of the baffle 27 are subjected to intermittent coincidence, nonmagnetic materials on the right side of the cavity of the deironing main body 2 fall into the bottom of the cavity of the deironing main body 2 in an intermittent mode and are conveyed into the feeding box 3 by the second spiral blade 15, the nonmagnetic materials are conveyed onto the conveying belt mechanism 7 again through the matching of the first motor 4, the first rotating shaft 5 and the first spiral blade 6 for secondary screening, the iron filings can be removed through multiple times of circulating screening, the situation that the iron filings cannot be completely adsorbed and screened after the nonmagnetic materials are stacked together is avoided, and the deironing effect of the device is improved, later through setting up slide rail 28, C type slider 29, collecting box 30 and second fixed block 21, be convenient for collect the iron fillings that the screening came out to carry out centralized processing, improve the use convenience of device, then through setting up shrouding 32 and handle 33, the operator of being convenient for in time takes out the nonmagnetic material after the screening deironing, further improves the use convenience of device.

The installation mode, the connection mode or the arrangement mode of the energy-saving permanent magnet iron remover are common mechanical modes, and the energy-saving permanent magnet iron remover can be implemented as long as the beneficial effects are achieved; the conveying belt mechanism 7 and the permanent magnet 9 of the energy-saving permanent magnet iron remover are purchased from the market, and technicians in the industry only need to install and operate the conveying belt mechanism according to the attached operating instructions.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (7)

1. An energy-saving permanent magnet iron remover is characterized by comprising a base (1), an iron removing main body (2), a feeding box (3), a first motor (4), a first rotating shaft (5), first spiral blades (6), a conveying belt mechanism (7), two groups of first fixed blocks (8), permanent magnets (9), a first partition plate (10), a second partition plate (11), a protective cover (12), a second motor (13), an intermittent feeding mechanism, a second rotating shaft (14), second spiral blades (15), a fixed frame (16) and a non-magnetic scraper (17), wherein the iron removing main body (2) is fixed at the top end of the base (1), a cavity is arranged inside the iron removing main body (2), the top end of the iron removing main body is provided with an opening, the feeding box (3) is fixed at the top end of the base (1) and is connected with the left end of the iron removing main body (2), a feeding pipe is arranged at the bottom of the left end of the feeding box (3), the upper part of the right end is provided with a discharge pipe, a first motor (4) is fixed at the top end of a feeding box (3), the output end of the first motor (4) is connected with a first rotating shaft (5), the first rotating shaft (5) is rotationally connected with the feeding box (3), a first helical blade (6) is fixed on the first rotating shaft (5), a conveying belt mechanism (7) is fixed at the top ends of an iron removing main body (2) and a second partition plate (11), two groups of first fixing blocks (8) are fixed on the left side of the rear end of the iron removing main body (2), a permanent magnet (9) is fixed on the first fixing block (8), the permanent magnet (9) is inserted into the conveying belt mechanism (7), a first partition plate (10) is fixed at the top of a cavity of the iron removing main body (2), an opening is arranged on the right side of the first partition plate (10), the second partition plate (11) is fixed in the middle part of the top end of the first partition plate (10), the right-hand member in deironing main part (2) is fixed in protection casing (12), and second motor (13) are fixed in the right-hand member inside wall bottom of protection casing (12), the output and second axis of rotation (14) of second motor (13) are connected, second axis of rotation (14) rotate with deironing main part (2) and be located the below of first baffle (10), second axis of rotation (14) are deepened and are sent workbin (3) deeply, and intermittent type throws the material mechanism and be connected with second axis of rotation (14), some subassemblies are located the cavity of deironing main part (2), and be connected with the right-hand member of second baffle (11), and second helical blade (15) are fixed on second axis of rotation (14), non-magnetic scraper blade (17) are fixed on the left end upper portion of deironing main part (2) cavity through mount (16), and with the bottom contact of conveyer belt mechanism (7).

2. The energy-saving permanent magnet iron remover as claimed in claim 1, wherein the intermittent feeding mechanism comprises a first bevel gear (18), a second bevel gear (19), a third rotating shaft (20), a second fixed block (21), a cam (22), a connecting plate (23), a moving plate (24), a plurality of groups of contraction rods (25), a plurality of groups of springs (26) and a baffle (27), the first bevel gear (18) is fixed on the right side of the second rotating shaft (14) and is in meshing transmission connection with the second bevel gear (19), the second bevel gear (19) is fixed on the bottom end of the third rotating shaft (20), the third rotating shaft (20) is in rotating connection with the second fixed block (21), the second fixed block (21) is fixed on the right end of the iron removing body (2), the cam (22) is fixed on the top end of the third rotating shaft (20), and the cam (22) is in rolling contact with the connecting plate (23), the right-hand member at moving plate (24) is fixed in connecting plate (23), the right-hand member sliding connection of moving plate (24) and deironing main part (2), and the right side of moving plate (24) is provided with the opening, multiunit shrink pole (25) are evenly fixed at the left end of moving plate (24), spring (26) are fixed the suit on shrink pole (25), and the other end and the right-hand member of second baffle (11) of shrink pole (25) are connected, both ends are connected with the right-hand member of second baffle (11) and the right-hand member of the cavity of deironing main part (2) respectively about baffle (27), the left side of baffle (27) is provided with the opening, and the bottom of baffle (27) and the top in close contact with of moving plate (24).

3. The energy-saving permanent magnet iron remover as claimed in claim 2, further comprising two sets of slide rails (28), two sets of C-shaped slide blocks (29), a collection box (30) and a second fixed block (21), wherein the two sets of slide rails (28) are fixed on the left side of the top end of the first partition plate (10), the two sets of C-shaped slide blocks (29) are respectively slidably clamped with the two sets of slide rails (28), the collection box (30) is fixed on the top ends of the two sets of C-shaped slide blocks (29) and is positioned below the fixed frame (16), and the second fixed block (21) is fixed on the front end of the collection box (30).

4. The energy-saving permanent magnet deironing device as claimed in claim 3, further comprising a sealing plate (32) and a handle (33), wherein an opening is provided at the upper portion of the right end of the deironing body (2), the sealing plate (32) covers the opening at the upper portion of the right end of the deironing body (2) and is screwed with the deironing body (2) by a bolt, and the handle (33) is fixed at the right end of the sealing plate (32).

5. The energy-saving permanent magnet iron remover as claimed in claim 4, further comprising a plurality of sets of supporting legs (34), a plurality of sets of spacers (35) and a plurality of sets of anchor bolts (36), wherein the plurality of sets of supporting legs (34) are uniformly fixed at the bottom end of the base (1), the spacers (35) are fixed at the bottom end of the supporting legs (34), and the spacers (35) are connected with the ground through the anchor bolts (36).

6. The energy-saving permanent magnet iron remover as claimed in claim 5, further comprising a dust screen (38), wherein the right end of the shield (12) is provided with a plurality of sets of heat dissipation holes (37), the dust screen (38) covers the plurality of sets of heat dissipation holes (37), and the dust screen (38) is fixed on the inner side wall of the right end of the heat dissipation holes (37).

7. The energy-saving permanent magnet iron remover as claimed in claim 6, further comprising a box door (39), two sets of hinges (40) and an observation window (41), wherein the left side of the front end of the iron removing main body (2) is provided with a pick-and-place opening, the box door (39) covers the pick-and-place opening, the box door (39) is hinged with the iron removing main body (2) through the hinges (40), and the observation window (41) is fixed at the front end of the hinges (40).

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