CN115283090A

CN115283090A - Device for enriching metal ore in rare earth

Info

Publication number: CN115283090A
Application number: CN202210827277.6A
Authority: CN
Inventors: 孙辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-07-14
Filing date: 2022-07-14
Publication date: 2022-11-04
Anticipated expiration: 2042-07-14
Also published as: CN115283090B

Abstract

The invention relates to an enrichment device, in particular to a rare earth internal metal ore enrichment device. The invention provides a rare earth internal metal ore enrichment device capable of shaking and screening rare earth and metal ore. The invention provides a rare earth internal metal ore enrichment device which comprises a placing frame, a first fixing foot rest, first fixing frames, a first guide rod, a second fixing foot rest and a second guide rod, wherein the first fixing foot rest is arranged at the left lower part of the placing frame, the first fixing frames are symmetrically arranged at the front and back of the left part of the placing frame, the first guide rod is rotatably arranged between the two first fixing frames, and the second guide rod is rotatably arranged on the second fixing foot rest. Make the electromagnetism piece circular telegram under the effect of circular telegram board, the electromagnetism piece is lived metal ore adsorbs, and unnecessary tombarthite drops downwards thereupon.

Description

Device for enriching metal ores in rare earth

Technical Field

The invention relates to an enrichment device, in particular to a rare earth internal metal ore enrichment device.

Background

Rare earth minerals exist in the earth crust mainly in mineral form, and there are three main types: as the basic constituent elements of the mineral, the rare earth exists in the form of ionic compounds in the mineral lattice, which constitute the essential components of the mineral, and after the rare earth ore is mined, the metal ore inside the rare earth ore generally needs to be screened and collected.

Patent grant publication number is CN 208627479U's patent has announces a tombarthite metal ore is with smashing and sorting device, this sorting device, including rubbing crusher body, first discharge gate and second discharge gate, the top of rubbing crusher body is provided with the feed inlet, the inboard of rubbing crusher body is provided with first fixed block, the baffle is installed in the outside of dead lever, the baffle is located the top of first rotation axis and second rotation axis, the outer wall of first rotation axis and second rotation axis all is provided with the second fixed block, first discharge gate is fixed in the bottom of rubbing crusher body, and installs the manual valve of second on the first discharge gate, the second discharge gate sets up in the avris of first discharge gate, and installs the manual valve of third on the second discharge gate, the inner wall of second discharge gate is fixed with first mount, and the internally mounted of first mount has the electro-magnet. After this sorting device inside rare earth metal ore is thoroughly smashed, the staff opens the manual valve of second, the powder will flow out downwards through first discharge gate, open the switch of the inside electro-magnet of first mount this moment, the electro-magnet produces magnetic field force, consequently, the inside rare earth metal of first discharge gate receives the effect of power and absorbs the inside of second discharge gate, the mountain flour in the powder continues to flow to the bottom of first discharge gate simultaneously, can isolate mountain flour and rare earth metal, after second discharge gate is inside to be filled with, the manual valve of second is closed manually, break off the switch of electro-magnet after that, open the manual valve of third, rare earth metal can flow out, repeat above-mentioned operation after that, all flow out until the inside powder of rubbing crusher body, but this sorting device is after smashing to metal ore letter sorting collection, because metal ore is powdered and rare earth is mixed together after smashing, can lead to the letter sorting thoroughly, cause the waste.

Aiming at the problems, the invention provides a rare earth internal metal ore enrichment device capable of shaking and screening rare earth and metal ore.

Disclosure of Invention

In order to overcome the defects that the conventional sorting device is used for sorting and collecting metal ores after crushing rare earth and the metal ores, so that incomplete sorting is easily caused and waste is caused, the invention has the technical problems that: the utility model provides an inside metal ore enrichment facility of tombarthite that can carry out the shake screening to tombarthite and metal ore.

A rare earth internal metal ore enrichment device comprises a placement frame, a first fixed foot rest, a first fixed frame, a first guide rod, a second fixed foot rest, a second guide rod, a belt, an electromagnetic block, a power-on plate, a first motor, a first fixed rod, a material shaking mechanism and a mashing mechanism, wherein the first fixed foot rest is arranged at the left lower part of the placement frame, the first fixed frame is symmetrically arranged at the front and back of the left part of the placement frame, the first guide rod is rotatably arranged between the two first fixed frames, the second guide rod is rotatably arranged on the second fixed foot rest, the belt is sleeved between the first guide rod and the second guide rod, even interval is provided with twenty electromagnetic blocks on the belt, it is provided with the circular telegram board to place frame left side front and back symmetry, the circular telegram board passes through electric connection with the electromagnetic block, it is provided with first motor to place frame left side front side, the output shaft and the first guide arm front end of first motor pass through the coupling joint, it is provided with first dead lever to place frame right side front and back symmetry, the circular telegram board tail end is connected with close first dead lever, it can shake the material mechanism that trembles to the tombarthite to place to be provided with on the frame, it can carry out kibbling pounding mechanism to bold earth to shake to be provided with in the material mechanism.

In one embodiment, the material shaking mechanism comprises fixing blocks, a material loading frame, a second fixing frame, a feeding barrel, limiting rods, a screen and a first elastic piece, wherein the fixing blocks are symmetrically arranged on the front side and the rear side of the material placing frame in a bilateral mode, the material loading frame capable of loading and taking rare earth is arranged on the tops of the four fixing blocks, the second fixing frame is arranged on the upper left side of the material loading frame, the feeding barrel convenient for the rare earth to enter the material loading frame is arranged on the second fixing frame, the limiting rods are arranged between the bottom of the material loading frame and the front, rear, left and right sides of the top of the material placing frame, the screen capable of screening the rare earth is arranged between the four limiting rods in a sliding mode, and the first elastic piece is connected between the bottom of the screen and the front, rear, left, right, and right sides of the top of the material placing frame.

In one embodiment, the mashing mechanism comprises a base, a fourth support, a second motor, a third guide rod, a mashing rod and a scraping plate, the base is arranged on the upper right side of the loading frame, the fourth support is arranged on the top of the base, the second motor is arranged on the left portion of the fourth support, the third guide rod is arranged on an output shaft of the second motor through a coupling, the mashing rod capable of mashing large soil is arranged in the middle of the third guide rod, the scraping plate is arranged on the lower portion of the third guide rod, and the scraping plate is in contact with the screen.

In one embodiment, the screen cloth lifting device further comprises a lifting mechanism capable of pushing the screen cloth to continuously slide up and down, the lifting mechanism comprises a conical plate, a conical rod and a connecting rod, the conical plate is arranged on the upper portion of the third guide rod, the connecting rod is arranged on the top of the screen cloth, the conical rods are arranged on the front side, the rear side, the left side and the right side of the top of the connecting rod, and the conical rods are in contact with the conical plate.

In one embodiment, the belt shaking device further comprises a shaking mechanism capable of shaking the belt, the shaking mechanism comprises an annular plate, a fixing plate, a second fixing rod, a fourth guide rod and a second elastic element, the annular plate is arranged at the bottom end of the third guide rod, the fixing plates are arranged on the front side and the rear side of the placing frame, the second fixing rod is arranged on the two fixing plates in a sliding mode, the fourth guide rod is arranged between the lower portions of the two second fixing rods in a sliding mode, and the second elastic element is wound between the top of the fourth guide rod and the lower portion of the adjacent second fixing rod.

In one embodiment, the dustfall mechanism capable of preventing dust from floating comprises a third fixing frame, a water receiving pipe, an atomizer and a sprayer, the third fixing frame is arranged on the left side of the placement frame, the water receiving pipe is arranged on the third fixing frame, the atomizer is arranged on the water receiving pipe, and the sprayer capable of spraying water for dustfall is arranged on the right side of the atomizer.

In one embodiment, the rare earth and metal ore collecting device further comprises a collecting mechanism capable of collecting rare earth and metal ore, the collecting mechanism comprises a first collecting box, a first handle, a first pulling plate, a second collecting box, a second handle and a second pulling plate, the first collecting box capable of collecting rare earth is slidably arranged between the front and the rear first fixed foot frames, the first handle is arranged on the left side of the first collecting box, the first pulling plate is slidably arranged on the first collecting box, the second collecting box is slidably arranged on the second fixed foot frame, the second handle is arranged on the right side of the second collecting box, and the second pulling plate is slidably arranged on the second collecting box.

In one embodiment, the first handle is provided with a rubber block.

1. Make the electromagnetism piece circular telegram under the effect of circular telegram board, the electromagnetism piece adsorbs metal ore, and unnecessary tombarthite drops downwards along with it.

2. Under the effect of the tapered plate rotating and continuously extruding the tapered rod, the screen mesh is continuously moved up and down to screen out partial rare earth and metal ore.

3. The annular plate rotates and constantly extrudees the second dead lever, and then makes the fourth guide arm constantly reciprocate the shake belt, and then can make the metal ore drop fast when the outage of electromagnetism piece, makes things convenient for the staff to collect.

4. The water is atomized under the action of the atomizer, and the water mist is sprayed out through the spray head, so that the dust falling effect is achieved.

5. The first collecting box and the second collecting box can collect rare earth and metal ore in a centralized manner.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a schematic perspective view of the material shaking mechanism of the present invention.

Fig. 4 is an enlarged schematic view of part a of the present invention.

Fig. 5 is a schematic perspective view of the mashing mechanism of the present invention.

Fig. 6 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 7 is a schematic perspective view of the shaking mechanism of the present invention.

Fig. 8 is a schematic perspective view of the dust settling mechanism of the present invention.

Fig. 9 is a schematic perspective view of the collecting mechanism of the present invention.

Fig. 10 is a schematic perspective view of a portion of the collection mechanism of the present invention.

Reference numerals: 1: placing frame, 2: first fixed foot rest, 3: first mount, 4: first guide bar, 5: second fixed foot rest, 6: second guide bar, 7: a belt, 8: electromagnetic block, 9: energizing plate, 901: first motor, 10: first fixing lever, 11: shake material mechanism, 1101: fixed block, 1102: charging frame, 1103: second fixing frame, 1104: feed barrel, 1105: gag lever post, 1106: first elastic member, 1107: screen, 12: mashing mechanism, 1201: base, 1202: fourth support, 1203: second motor, 1204: third guide bar, 1205: smash the pole, 1206: scraper, 13: elevating system, 1301: tapered plate, 1302: tapered rod, 1303: connecting rod, 14: shaking mechanism, 1401: annular plate, 1402: a fixing plate, 1403: second fixing bar, 1404: fourth guide bar, 1405: second elastic member, 15: dust fall mechanism, 1501: third mount, 1502: water receiving pipe, 1503: atomizer, 1504: spray head, 16: collection mechanism, 1601: first collection tank, 1602: first handle, 1603: first pulling plate, 1604: second collection tank, 1605: second handle, 1606: and a second pulling plate.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

Referring to fig. 1-5, a rare earth internal metal ore enrichment device, including a placement frame 1, a first fixed foot stool 2, a first fixing frame 3, a first guide rod 4, a second fixed foot stool 5, a second guide rod 6, a belt 7, electromagnetic blocks 8, a powered plate 9, a first motor 901, a first fixing rod 10, a material shaking mechanism 11 and a mashing mechanism 12, the first fixed foot stool 2 is welded on the left lower portion of the placement frame 1, the first fixing frame 3 is symmetrically welded on the front and back of the left portion of the placement frame 1, the first guide rod 4 is rotatably arranged between the two first fixing frames 3, the second guide rod 6 is rotatably arranged on the second fixed foot stool 5, the belt 7 is sleeved between the first guide rod 4 and the second guide rod 6, twenty electromagnetic blocks 8 are uniformly arranged on the belt 7 at intervals, the powered plate 9 is symmetrically arranged on the front and back of the left side of the placement frame 1, the powered plate 9 is electrically connected with the electromagnetic blocks 8, the first motor 901 is arranged on the left front side of the placement frame 1, an output shaft of the first motor 901 is connected with the front end of the first guide rod 4 through a coupler, the left front and back of the first frame 10, the mechanism is symmetrically welded with the powered plate 9, the first fixing rod 11, the ground mechanism 11, the mechanism is capable of shaking mechanism for mashing and mashing a large soil shaking mechanism 12.

Referring to fig. 3-4, the material shaking mechanism 11 includes a fixing block 1101, a material loading frame 1102, a second fixing frame 1103, a material feeding barrel 1104, limiting rods 1105, a screen cloth 1107 and first elastic pieces 1106, the fixing blocks 1101 are symmetrically arranged on the front side and the rear side of the placement frame 1, the material loading frame 1102 is arranged on the tops of the four fixing blocks 1101, rare earth can be loaded and unloaded from the material loading frame 1102, the second fixing frame 1103 is arranged on the upper left side of the material loading frame 1102, the material feeding barrel 1104 is arranged on the second fixing frame 1103, the material feeding barrel 1104 facilitates the rare earth to enter the material loading frame 1102, the limiting rods 1105 are welded between the bottom of the material loading frame 1102 and the front, rear, left and right sides of the top of the placement frame 1, the screen cloth 1107 is slidably arranged between the four limiting rods 1105, the screen cloth 1107 can screen the rare earth, and the first elastic pieces 1106 are connected between the bottom of the screen cloth 1107 and the front, rear, left and right sides of the top of the placement frame 1.

Referring to fig. 5, the mashing mechanism 12 includes a base 1201, a fourth support 1202, a second motor 1203, a third guide rod 1204, a mashing rod 1205 and a scraping plate 1206, the base 1201 is disposed on the upper right side of the loading frame 1102, the fourth support 1202 is disposed on the top of the base 1201, the second motor 1203 is disposed on the left portion of the fourth support 1202, the third guide rod 1204 is disposed on an output shaft of the second motor 1203 through a coupler, the mashing rod 1205 is disposed in the middle of the third guide rod 1204, the mashing rod 1205 can pulverize large soil, the scraping plate 1206 is disposed on the lower portion of the third guide rod 1204, and the scraping plate 1206 is in contact with the screen 1107.

When the metal ore in the rare earth needs to be screened and collected, a worker pours the rare earth into the loading frame 1102 through the feeding barrel 1104, after the rare earth is screened and collected, the worker starts the second motor 1203, the output shaft of the motor rotates to drive the third guide rod 1204 to rotate, the third guide rod 1204 rotates to drive the smashing rod 1205 to rotate to smash a large rare earth machine, the third guide rod 1204 rotates to drive the scraping plate 1206 to rotate, the rare earth is prevented from blocking the screen 1107, the worker pulls the screen 1107 to slide downwards, the first elastic member 1106 is compressed therewith, the worker loosens the screen 1107, the first elastic member 1106 resets accordingly to drive the screen 1107 to slide upwards and reset, the operation is repeated, and further, the screen 1107 can continuously move upwards and downwards to screen out part of the rare earth and the metal ore, make electromagnetism piece 8 circular telegram under the effect of circular telegram board 9, electromagnetism piece 8 adsorbs metal ore and lives, unnecessary tombarthite drops downwards thereupon, then the staff starts first motor 901, the output shaft of first motor 901 rotates and drives first guide arm 4 and rotate, first guide arm 4 rotates and drives belt 7 and rotate, belt 7 rotates and drives second guide arm 6 and rotate, second guide arm 6 rotates and drives electromagnetism piece 8 and remove rightly and break away from with circular telegram board 9, electromagnetism piece 8 after breaking away from cuts off the power supply thereupon and does not adsorb metal ore again, metal ore drops downwards thereupon under the effect of gravity, the staff collects, after the use is accomplished, the staff closes first motor 901 and second motor 1203 stop work.

Example 2

Referring to fig. 1 and 6, based on embodiment 1, the screen mesh 1107 further includes a lifting mechanism 13, the lifting mechanism 13 can push the screen mesh 1107 to continuously slide up and down, the lifting mechanism 13 includes a tapered plate 1301, a tapered rod 1302 and a connecting rod 1303, the tapered plate 1301 is disposed on the upper portion of the third guide rod 1204, the connecting rod 1303 is welded to the top of the screen mesh 1107, the tapered rods 1302 are welded to the front, back, left and right sides of the top of the connecting rod 1303, and the tapered rods 1302 are in contact with the tapered plate 1301.

Third guide arm 1204 rotates and drives tapered plate 1301 to rotate, tapered plate 1301 rotates and extrudes tapered rod 1302 and drives connecting rod 1303 and move down, connecting rod 1303 moves down and drives screen cloth 1107 and move down, first elastic component 1106 is compressed thereupon, when tapered plate 1301 rotates and no longer extrudes tapered rod 1302, first elastic component 1106 resets thereupon and drives screen cloth 1107 and slide upwards and reset, screen cloth 1107 slides upwards and drives connecting rod 1303 and move up and reset, connecting rod 1303 and move up and drive tapered rod 1302 and move up and reset, under the effect that tapered plate 1301 rotates and constantly extrudes tapered rod 1302, and then realized that screen cloth 1107 constantly reciprocates and sieve out partial tombarthite and metal ore.

Please refer to fig. 7, further comprising a shaking mechanism 14, wherein the shaking mechanism 14 can shake the belt 7, the shaking mechanism 14 comprises an annular plate 1401, fixing plates 1402, a second fixing rod 1403, a fourth guide rod 1404 and a second elastic member 1405, the annular plate 1401 is welded at the bottom end of the third guide rod 1204, the fixing plates 1402 are respectively arranged at the front side and the rear side of the placing frame 1, the second fixing rod 1403 is arranged on the two fixing plates 1402 in a sliding manner, the fourth guide rod 1404 is arranged between the lower parts of the two second fixing rods 1403 in a sliding manner, and the second elastic member 1405 is wound between the top of the fourth guide rod 1404 and the lower part of the adjacent second fixing rod 1403.

Third guide arm 1204 rotates and drives annular plate 1401 and rotate, annular plate 1401 rotates and extrudes second dead lever 1403 and slides down, second elastic component 1405 is compressed thereupon, second dead lever 1403 slides down and drives fourth guide arm 1404 and move down and contact with belt 7, when annular plate 1401 rotates and no longer extrudes second dead lever 1403, second elastic component 1405 resets thereupon and drives second dead lever 1403 and slide up and reset, second dead lever 1403 slides up and drives fourth guide arm 1404 and move up, under the effect that annular plate 1401 rotated and constantly extrudes second dead lever 1403, and then make fourth guide arm 1404 constantly reciprocate and shake belt 7, and then can be when the outage of electromagnetic block 8, make the metal ore drop fast, make things convenient for the staff to collect.

Referring to fig. 1 and 8, the dust-settling mechanism 15 is further included, the dust-settling mechanism 15 can prevent dust from floating, the dust-settling mechanism 15 includes a third fixing frame 1501, a water receiving pipe 1502, an atomizer 1503 and a spray nozzle 1504, the third fixing frame 1501 is disposed on the left side of the placement frame 1, the water receiving pipe 1502 is disposed on the third fixing frame 1501, the atomizer 1503 is disposed on the water receiving pipe 1502, the spray nozzle 1504 is disposed on the right side of the atomizer 1503, and the spray nozzle 1504 can spray water for dust settling.

Before using this device, the staff inserts external water pipe on water receiving pipe 1502, atomizes water under atomizer 1503's effect, and water smoke passes through shower nozzle 1504 thereupon and then has played the effect of dust fall, uses the completion after, the staff take off external water pipe from water receiving pipe 1502 can.

Please refer to fig. 1, 9 and 10, further comprising a collecting mechanism 16, wherein the collecting mechanism 16 is capable of collecting rare earth and metal ore, the collecting mechanism 16 comprises a first collecting box 1601, a first handle 1602, a first pulling plate 1603, a second collecting box 1604, a second handle 1605 and a second pulling plate 1606, the first collecting box 1601 is slidably arranged between the front and the rear first fixed foot stands 2, the first collecting box 1601 is capable of collecting rare earth, the first handle 1602 is welded on the left side of the first collecting box 1601, a rubber block is arranged on the first handle 1602, the first pulling plate 1603 is slidably arranged on the first collecting box 1601, the second collecting box 1604 is slidably arranged on the second fixed foot stand 5, the second handle 1605 is welded on the right side of the second collecting box 1604, and the second pulling plate 1606 is slidably arranged on the second collecting box 1604.

Before the device is used, an operator pulls the first pulling plate 1603 and the second pulling plate 1606 to slide outwards to open the first collecting box 1601 and the second collecting box 1604, rare earth falls into the first collecting box 1601 to be collected in a centralized mode, the belt 7 rotates to enable the electromagnetic block 8 and the electrifying plate 9 to be separated from power failure, metal ore falls into the second collecting box 1604 to be collected in a centralized mode, after the first collecting box 1601 and the second collecting box 1604 are collected fully, the operator pushes the first pulling plate 1603 and the second pulling plate 1606 to slide inwards to close the first collecting box 1601 and the second collecting box 1604, then the operator pulls the first handle 1602 and the second handle 1605 to pull out the first collecting box 1601 and the second collecting box 1604, then the operator processes the collected rare earth and the metal ore, after the operation is completed, the operator pushes the first handle 1602 and the second handle 1605 to drive the first collecting box 1601 and the second collecting box 1604 to slide inwards to reset, and the rubber block is arranged on the first handle 1601, so that the anti-slip effect can be achieved, and the operator can conveniently pull out the first collecting box 1602 to process the rare earth collecting box 1604.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. A rare earth internal metal ore enrichment device comprises a placement frame (1), a first fixing foot rest (2), first fixing frames (3), a first guide rod (4), a second fixing foot rest (5), a second guide rod (6), a belt (7), electromagnetic blocks (8), a power-on plate (9), a first motor (901) and a first fixing rod (10), wherein the first fixing foot rest (2) is arranged on the lower left portion of the placement frame (1), the first fixing frames (3) are symmetrically arranged on the front and back of the left portion of the placement frame (1), the first guide rod (4) is rotatably arranged between the two first fixing frames (3), the second guide rod (6) is rotatably arranged on the second fixing foot rest (5), the belt (7) is sleeved between the first guide rod (4) and the second guide rod (6), twenty electromagnetic blocks (8) are uniformly arranged on the belt (7) at intervals, the power-on the left side and the front and back of the placement frame (1), the power-on plate (9) is symmetrically arranged on the front and back of the left side of the placement frame (1), the power-on plate (9) is electrically connected with the first fixing rod (10) through a power-on the front end of the first motor (901), the first fixing rod (10), the rare earth vibrating and smashing device is characterized by further comprising a vibrating mechanism (11) and a smashing mechanism (12), wherein the vibrating mechanism (11) capable of vibrating rare earth is arranged on the placing frame (1), and the smashing mechanism (12) capable of smashing large-sized earth is arranged on the vibrating mechanism (11).

2. The rare earth internal metal ore enrichment device is characterized in that the material shaking mechanism (11) comprises fixing blocks (1101), a loading frame (1102), a second fixing frame (1103), a feeding barrel (1104), limiting rods (1105), a screen (1107) and first elastic pieces (1106), the fixing blocks (1101) are symmetrically arranged on the front side and the rear side of the placement frame (1) in the left-right direction, the loading frame (1102) capable of loading and taking rare earth is arranged at the tops of the four fixing blocks (1101), the second fixing frame (1103) is arranged on the upper left side of the loading frame (1102), the feeding barrel (1104) convenient for the rare earth to enter the loading frame (1102) is arranged on the second fixing frame (1103), the limiting rods (1105) are arranged between the bottom of the loading frame (1102) and the front, rear, left and right sides of the top of the placement frame (1), the screen (1107) capable of screening the rare earth is slidably arranged between the four limiting rods (1105), and the first elastic pieces (1106) are connected between the bottom of the screen (1107) and the front, rear, left and right sides of the top of the placement frame (1).

3. The rare earth internal metal ore enrichment device according to claim 2, characterized in that the mashing mechanism (12) comprises a base (1201), a fourth support (1202), a second motor (1203), a third guide rod (1204), a mashing rod (1205) and a scraper (1206), the base (1201) is arranged on the upper right side of the loading frame (1102), the fourth support (1202) is arranged on the top of the base (1201), the second motor (1203) is arranged on the left of the fourth support (1202), the third guide rod (1204) is arranged on an output shaft of the second motor (1203) through a coupler, the mashing rod (1205) capable of mashing large-sized soil is arranged in the middle of the third guide rod (1204), the scraper (1206) is arranged on the lower portion of the third guide rod (1204), and the scraper (1206) is in contact with the screen mesh (1107).

4. The rare earth internal metal ore enrichment device according to claim 3, characterized by further comprising a lifting mechanism (13) capable of pushing the screen mesh (1107) to continuously slide up and down, wherein the lifting mechanism (13) comprises a tapered plate (1301), a tapered rod (1302) and a connecting rod (1303), the tapered plate (1301) is arranged on the upper portion of the third guide rod (1204), the connecting rod (1303) is arranged on the top of the screen mesh (1107), the tapered rods (1302) are arranged on the front side, the rear side, the left side and the right side of the top of the connecting rod (1303), and the tapered rod (1302) is in contact with the tapered plate (1301).

5. The rare earth internal metal ore enrichment device according to claim 4, characterized by further comprising a shaking mechanism (14) capable of shaking a belt (7), wherein the shaking mechanism (14) comprises an annular plate (1401), a fixed plate (1402), a second fixed rod (1403), a fourth guide rod (1404) and a second elastic piece (1405), the annular plate (1401) is arranged at the bottom end of the third guide rod (1204), the fixed plates (1402) are arranged on the front side and the rear side of the placement frame (1), the second fixed rods (1403) are arranged on the two fixed plates (1402) in a sliding mode, the fourth guide rod (1404) is arranged between the lower portions of the two second fixed rods (1403) in a sliding mode, and the second elastic piece (1405) is wound between the top of the fourth guide rod (1404) and the lower portion of the adjacent second fixed rod (1403).

6. A rare earth internal metal ore enrichment device according to claim 5, characterized by further comprising a dust falling mechanism (15) capable of preventing dust from floating, wherein the dust falling mechanism (15) comprises a third fixing frame (1501), a water receiving pipe (1502), an atomizer (1503) and a nozzle (1504), the third fixing frame (1501) is arranged on the left side of the placement frame (1), the water receiving pipe (1502) is arranged on the third fixing frame (1501), the atomizer (1503) is arranged on the water receiving pipe (1502), and the nozzle (1504) capable of spraying water for dust falling is arranged on the right side of the atomizer (1503).

7. The rare earth internal metal ore enrichment device according to claim 6, characterized by further comprising a collection mechanism (16) capable of collecting rare earth and metal ore, wherein the collection mechanism (16) comprises a first collection box (1601), a first handle (1602), a first pulling plate (1603), a second collection box (1604), a second handle (1605) and a second pulling plate (1606), the first collection box (1601) capable of collecting rare earth is slidably arranged between the front and rear first fixed foot stands (2), the first handle (1602) is arranged on the left side of the first collection box (1601), the first pulling plate (1603) is slidably arranged on the first collection box (1601), the second collection box (1604) is slidably arranged on the second fixed foot stand (5), the second handle (1605) is arranged on the right side of the second collection box (1604), and the second pulling plate (1606) is slidably arranged on the second collection box (1604).

8. A rare earth inner metal ore enrichment device according to claim 7, characterized in that the first handle (1602) is provided with a rubber block.