CN113564388A - Tombarthite processing is with automatic edulcoration device - Google Patents

Abstract

The invention relates to an impurity removal device, in particular to an automatic impurity removal device for rare earth processing. The invention provides an automatic impurity removing device for rare earth processing, which is capable of automatically discharging, stirring and pushing materials. The utility model provides a tombarthite processing is with automatic edulcoration device, including: the base is provided with a material receiving box; the stirring box body is connected between the two sides of the base; the stirring mechanism is arranged on the stirring box body; the stirring blade is arranged on the stirring mechanism; the stirring box body is provided with a feeding hopper; and the blanking mechanism is connected between the blanking funnel and the stirring box body. The stirring mechanism is matched with the blanking mechanism, so that the rare earth and the chemical reagent can be stirred, and meanwhile, the rare earth and the chemical reagent can be stirred for blanking; through the cooperation of reciprocating mechanism and discharge mechanism, can carry out the ejection of compact to the tombarthite solution.

Description

Tombarthite processing is with automatic edulcoration device

Technical Field

The invention relates to an impurity removal device, in particular to an automatic impurity removal device for rare earth processing.

Background

In the rare earth processing process, part of the aqueous phase feed liquid contains high-content non-rare earth impurities such as iron, lead and the like, and the impurities seriously affect the rare earth processing, so that rare earth and metal substances are required to be separated in the rare earth processing process, the purity of the rare earth is improved, the traditional rare earth impurity removal is generally realized by manually stirring and removing impurities by workers, time and labor are wasted, the operation of the rare earth impurity removal is complex, and the efficiency of the rare earth impurity removal can be reduced.

Patent application No.: CN212388090U discloses an edulcoration device is used in tombarthite processing, including filtering the cylinder case, the tip tank has been seted up in the outside of vertical axle, the inner wall activity interlude of tip tank has the lug to lift the pole, the top fixedly connected with cross axle of vertical axle, the telescopic top fixedly connected with driven pulley of cross, the top fixedly connected with driving pulley of stirring motor drive shaft, pass through belt transmission between driving pulley and the driven pulley and be connected, however the device does not have the better unloading work that realizes tombarthite and chemical reagent.

Therefore, an automatic impurity removing device for rare earth processing, which is capable of automatically discharging, automatically stirring and automatically pushing materials, is designed.

Disclosure of Invention

In order to overcome that traditional tombarthite edulcoration generally all is the manual stirring edulcoration of workman, wastes time and energy, and the operation of tombarthite edulcoration is complicated to can reduce the shortcoming of the efficiency of tombarthite edulcoration, the technical problem does: the automatic impurity removing device for the rare earth processing is capable of automatically discharging, automatically stirring and automatically pushing.

The technical scheme is as follows: the utility model provides a tombarthite processing is with automatic edulcoration device, including:

the base is provided with a material receiving box;

the stirring box body is connected between the two sides of the base;

the stirring mechanism is arranged on the stirring box body;

the stirring blade is arranged on the stirring mechanism;

the stirring box body is provided with a feeding hopper;

and the blanking mechanism is connected between the blanking funnel and the stirring box body.

Preferably, the stirring mechanism includes:

the top of the stirring box body is provided with a first bracket;

the servo motor is arranged on the first bracket;

the output shaft of the servo motor is provided with a first rotating shaft;

the middle of the upper part of the stirring box body is rotatably provided with a second rotating shaft;

and a bevel gear set is connected between the upper side of the second rotating shaft and the first rotating shaft, and the stirring blade is connected with the second rotating shaft.

Preferably, the blanking mechanism comprises:

the top of the stirring box body is provided with a second bracket;

the second bracket is provided with a second sliding rod in a sliding way;

the first connecting rod is arranged on the first sliding rod;

the two sides of the first connecting rod are respectively provided with a first baffle plate, and the two first baffle plates are both connected with the blanking hopper in a sliding manner;

the first spring is wound on the first sliding rod and connected between the first sliding rod and the second support.

Preferably, the reciprocating mechanism further comprises a reciprocating mechanism, and the reciprocating mechanism comprises:

the third rotating shaft is rotatably arranged on both sides of the top of the stirring box body;

the belt transmission group is connected between the two third rotating shafts and the second rotating shaft;

the number of the belt transmission sets is two, and the upper sides of the two third rotating shafts are provided with the cam blocks;

the first promotion piece is equipped with first promotion piece on the head rod, and two cam pieces all promote the piece cooperation with first promotion.

Preferably, the device also comprises a discharging mechanism, wherein the discharging mechanism comprises:

the lower side of the outer side of the stirring box body is provided with a third support;

the lower parts of two sides of the third bracket are both provided with a second sliding rod in a sliding way;

the second baffle is connected between the two second sliding rods and is connected with the stirring box body in a sliding manner;

and the second spring is wound on the second sliding rod and connected between the third support and the second baffle.

Preferably, the device further comprises a swing mechanism, wherein the swing mechanism comprises:

the end part of the first sliding rod is provided with a first pushing block;

the two sides of the end part of the second pushing block are provided with swing frames;

the fourth supports are arranged on the two sides of the stirring box body;

the third spring is wound on the fourth support and connected between the fourth support and the swing frame, and the fourth support on the same side is rotatably connected with the swing frame on the same side;

and the second connecting rods are arranged on two sides of the second baffle, and the second connecting rods on the same side are connected with the swing frames on the same side in a sliding manner.

Preferably, the device further comprises a pushing mechanism, wherein the pushing mechanism comprises:

the receiving box is rotatably provided with a second rotating shaft;

a third baffle is arranged on the fourth rotating shaft;

the fourth spring is wound on the fourth rotating shaft and connected between the fourth rotating shaft and the material receiving box;

a straight gear is arranged on the fourth rotating shaft;

the outer wall of the material receiving box is provided with a fifth support;

the material receiving box is provided with a third pushing block in a sliding manner;

the third pushing block is provided with a third pushing block;

the fifth springs are wound on the two sides of the third pushing block and connected between the third pushing block and the material receiving box, and the fourth pushing block is connected with the material receiving box in a sliding mode;

the third connecting rod is arranged on the third pushing block and is connected with the fifth support in a sliding manner;

the upper part of the third connecting rod is provided with a spur rack which is in contact fit with a spur gear.

Preferably, the spur gear is made of alloy steel.

Has the advantages that: 1. the stirring mechanism is matched with the blanking mechanism, so that the rare earth and the chemical reagent can be stirred, and meanwhile, the rare earth and the chemical reagent can be stirred for blanking;

2. the reciprocating mechanism is matched with the discharging mechanism, so that the rare earth solution can be discharged;

3. the discharge mechanism is matched with the material pushing mechanism, so that the rare earth solution can be pushed and collected.

Drawings

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

Fig. 2 is a schematic perspective view of the stirring mechanism of the present invention.

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

Fig. 4 is a schematic perspective view of the reciprocating mechanism of the present invention.

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

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

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

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

Part names and serial numbers in the figure: 1-base, 2-material receiving box, 3-stirring box body, 31-stirring blade, 4-blanking funnel, 5-stirring mechanism, 51-first support, 52-servo motor, 53-first rotating shaft, 54-bevel gear set, 55-second rotating shaft, 6-blanking mechanism, 61-second support, 62-first sliding rod, 63-first connecting rod, 64-first baffle, 65-first spring, 7-reciprocating mechanism, 71-belt transmission set, 72-third rotating shaft, 73-cam block, 74-first pushing block, 8-discharging mechanism, 81-third support, 82-second sliding rod, 83-second baffle, 84-second spring, 9-swinging mechanism, 91-second pushing block, 92-a fourth support, 93-a swing frame, 94-a third spring, 95-a second connecting rod, 10-a pushing mechanism, 101-a fourth rotating shaft, 102-a third baffle, 103-a fourth spring, 104-a straight gear, 105-a fifth support, 106-a third pushing block, 107-a fourth pushing block, 108-a fifth spring, 109-a third connecting rod and 1010-a straight gear.

Detailed Description

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Example 1

The utility model provides a tombarthite processing is with automatic edulcoration device, as shown in fig. 1-3, including base 1, material receiving box 2, agitator tank 3, stirring leaf 31, unloading funnel 4, rabbling mechanism 5 and unloading mechanism 6, be equipped with material receiving box 2 on the base 1, be connected with agitator tank 3 between the left and right sides on the base 1, agitator tank 3 front side is equipped with rabbling mechanism 5, install stirring leaf 31 on the rabbling mechanism 5, 3 rear sides of agitator tank are equipped with unloading funnel 4, be connected with unloading mechanism 6 between unloading funnel 4 and the agitator tank 3.

The workman is at first put together tombarthite and chemical reagent in unloading funnel 4, can fall tombarthite and chemical reagent together to rabbling mechanism 5 in through unloading mechanism 6, it is rotatory to start rabbling mechanism 5 after that, the rotatory stirring leaf 31 that drives of rabbling mechanism 5 is rotatory, stirring leaf 31 can carry out the mixing stirring to tombarthite and chemical reagent, make impurity filtering on agitator tank 3, and then make tombarthite solution fall to receiving collection box 2 and collect, the tombarthite edulcoration is accomplished the back, the workman closes rabbling mechanism 5, rabbling mechanism 5 stops to rotate and drives stirring leaf 31 and stop rotatoryly, stirring leaf 31 stops rotatoryly and can stop the stirring, the edulcoration work of tombarthite can be realized to the workman above step once more.

The stirring mechanism 5 comprises a first support 51, a servo motor 52, a first rotating shaft 53, a bevel gear set 54 and a second rotating shaft 55, the first support 51 is arranged on the front side of the top of the stirring box body 3, the servo motor 52 is installed on the first support 51, the first rotating shaft 53 is arranged on an output shaft of the servo motor 52, the second rotating shaft 55 is rotatably arranged in the middle of the upper portion of the stirring box body 3, the bevel gear set 54 is connected between the upper side of the second rotating shaft 55 and the rear side of the first rotating shaft 53, and the stirring blade 31 is connected with the second rotating shaft 55.

When using rabbling mechanism 5, tombarthite and chemical reagent drop to in the agitator tank 3 and contact with stirring leaf 31 this moment, the workman starts servo motor 52, servo motor 52 output shaft is rotatory to drive first pivot 53 rotatory, thereby it is rotatory to drive bevel gear 54, and then it is rotatory to drive second pivot 55 and stirring leaf 31, stirring leaf 31 can carry out the mixing stirring to tombarthite and chemical reagent, make impurity filtering on agitator tank 3, and then make tombarthite solution drop to receiving hopper 2 and collect, the tombarthite edulcoration is accomplished the back, servo motor 52 is closed to the workman, servo motor 52 output shaft stops to rotate above the action can stop rotatoryly.

Unloading mechanism 6 is including second support 61, first slide bar 62, head rod 63, first baffle 64 and first spring 65, agitator tank 3 top rear side is equipped with second support 61, the gliding style of second support 61 is equipped with first slide bar 62, head rod 62 front side is equipped with head rod 63, the rear portion left and right sides of head rod 63 all is equipped with first baffle 64, two head rod 64 all with unloading funnel 4 sliding connection, around having first spring 65 on the first slide bar 62, first spring 65 is connected between first slide bar 62 and second support 61.

When the rare earth and the chemical reagent need blanking, the worker pulls the first sliding rod 62 backwards, the first spring 65 is stretched, the first sliding rod 62 drives the first connecting rod 63 and the first baffle 64 to move backwards, the first baffle 64 moves backwards to prevent the rare earth and the chemical reagent in the blanking funnel 4 from being blocked, the rare earth and the chemical reagent can fall into the stirring box body 3, when the blanking is not needed, the worker loosens the first sliding rod 62 to reset the first spring 65, the first spring 65 drives the first sliding rod 62, the first connecting rod 63 and the first baffle 64 move forwards to reset, the first baffle 64 resets to block the blanking funnel 4 again to stop the blanking, and the blanking of the rare earth and the chemical reagent is realized.

Example 2

On the basis of embodiment 1, as shown in fig. 4-8, the stirring device further includes a reciprocating mechanism 7, the reciprocating mechanism 7 includes a belt transmission set 71, third rotating shafts 72, cam blocks 73 and first pushing blocks 74, the third rotating shafts 72 are rotatably disposed on both left and right sides of the top of the stirring box 3, the belt transmission sets 71 are connected between the two third rotating shafts 72 and the second rotating shaft 55, the number of the belt transmission sets 71 is two, the belt transmission set 71 is composed of two first belts and four first belt pulleys, the first belt pulleys are connected on both upper and lower sides of the second rotating shaft 55 and the two third rotating shafts 72, the number of the first belt pulleys is four, the first belts are connected between the third rotating shafts 72 on both left and right sides and the second rotating shaft 55, the first belts are wound between the two first belt pulleys, the cam blocks 73 are disposed on the upper sides of the two third rotating shafts 72, the first pushing blocks 74 are disposed on the front sides of the first connecting rods 63, both cam blocks 73 cooperate with the first pusher block 74.

Second pivot 55 is rotatory to drive belt drive group 71 rotatory, thereby it is rotatory to drive third pivot 72, and then it is rotatory to drive cam block 73, the more sharp part of cam block 73 is rotatory to contacting with first promotion piece 74, thereby it moves backward to drive first promotion piece 74, first promotion piece 74 drives first baffle 64 backward movement, first spring 65 is stretched, first baffle 64 backward movement will not block up tombarthite and chemical reagent in the unloading funnel 4, tombarthite and chemical reagent can fall into stirring box 3, when the more sharp part of cam block 73 is rotatory not to contacting with first promotion piece 74, first spring 65 resets and drives first promotion piece 74 and first baffle 64 forward movement and reset, first baffle 64 resets and blocks up unloading funnel 4 again and stops the unloading work, realize the interval unloading work of tombarthite and chemical reagent.

Still including discharge mechanism 8, discharge mechanism 8 is including third support 81, second slide bar 82, second baffle 83 and second spring 84, agitator tank 3 outside front portion downside is equipped with third support 81, third support 81 left and right sides lower part all is equipped with second slide bar 82 in the slidingtype, be connected with second baffle 83 between two second slide bar 82, second baffle 83 and agitator tank 3 sliding type are connected, around having second spring 84 on the second slide bar 82, second spring 84 connects between third support 81 and second baffle 83.

In-process when tombarthite and chemical reagent stirring, the workman promotes second baffle 83 forward, second spring 84 is compressed, stirring box 3 can be plugged up forward to second baffle 83, make the rare earth solution that the stirring was accomplished temporarily stopped up, after rare earth and chemical reagent stirring were accomplished, the workman loosens second baffle 83 and makes second spring 84 reset, second spring 84 drives second baffle 83 and moves backward and reset, rare earth solution will not be stopped up to second baffle 83, rare earth solution can fall to collecting box 2 and collect.

Still including swing mechanism 9, swing mechanism 9 is including the second promotes piece 91, fourth support 92, the swing span 93, third spring 94 and second connecting rod 95, first slide bar 62 rear end is equipped with the second and promotes piece 91, the second promotes the piece 91 rear end left and right sides and all is equipped with swing span 93, the agitator tank 3 rear portion left and right sides all is equipped with fourth support 92, it has third spring 94 to wind on the fourth support 92, third spring 94 is connected between fourth support 92 and swing span 93, the fourth support 92 and the swing span 93 rotary type of homonymy are connected, the second connecting rod 95 all is equipped with in the second baffle 83 rear portion left and right sides, the second connecting rod 95 of homonymy is connected with the swing span 93 slidable type of homonymy.

The first baffle plate 64 moves backwards to drive the first sliding rod 62 to move backwards, the first baffle plate 64 cannot block rare earth and chemical reagents in the blanking funnel 4, the rare earth and the chemical reagents can fall into the stirring box body 3, the first sliding rod 62 moves backwards to drive the second pushing block 91 to move backwards, so as to drive the swinging frame 93 to swing, the third spring 94 deforms, the swinging frame 93 drives the second connecting rod 95 to move forwards, the second connecting rod 95 drives the second baffle plate 83 to move forwards, the second spring 84 is compressed, the stirring box body 3 can be blocked by the forward movement of the second baffle plate 83, so that the stirred rare earth solution is temporarily blocked, when the first baffle plate 64 moves forwards to drive the first sliding rod 62 to move forwards to reset, the blanking funnel 4 can be blocked by the first baffle plate 64, so as to stop blanking of the rare earth and the chemical reagents, the second pushing block 91 is reset by the resetting of the first sliding rod 62, the second pushing block 91 drives the swinging frame 93 to swing reversely, the third spring 94 resets, and the swinging bracket 93 swings in the reverse direction to drive the second connecting rod 95 and the second baffle 83 to move backwards and reset, so that the second baffle 83 cannot block the rare earth solution, and the rare earth solution can fall into the material receiving box 2 to be collected.

The material receiving device also comprises a material pushing mechanism 10, the material pushing mechanism 10 comprises a fourth rotating shaft 101, a third baffle plate 102, a fourth spring 103, a straight gear 104, a fifth bracket 105, a third pushing block 106, a fourth pushing block 107, a fifth spring 108, a third connecting rod 109 and a straight rack 1010, the front side of the material receiving box 2 is rotatably provided with the fourth rotating shaft 101, the fourth rotating shaft 101 is provided with the third baffle plate 102, the right side of the fourth rotating shaft 101 is wound with the fourth spring 103, the fourth spring 103 is connected between the fourth rotating shaft 101 and the material receiving box 2, the left side of the fourth rotating shaft 101 is provided with the straight gear 104, the left side of the outer wall of the material receiving box 2 is provided with the fifth bracket 105, the material receiving box 2 is slidably provided with the third pushing block 106, the front side of the third pushing block 106 is provided with the fourth pushing block 107, the left and right sides of the third pushing block 106 are wound with the fifth spring 108, the fifth spring 108 is connected between the third pushing block 106 and the material receiving box 2, and the fourth pushing block 107 is slidably connected with the material receiving box 2, a third connecting rod 109 is arranged on the left side of the third pushing block 106, the third connecting rod 109 is connected with the fifth bracket 105 in a sliding mode, a straight rack 1010 is arranged on the upper portion of the front side of the third connecting rod 109, and the straight rack 1010 is in contact fit with the straight gear 104.

When a worker needs to take out the rare earth solution in the material receiving box 2, the worker pushes the third pushing block 106 forward, the third pushing block 106 drives the fourth pushing block 107 and the third connecting rod 109 to move forward, the fifth spring 108 is compressed, the fourth pushing block 107 pushes the rare earth solution to move forward, the third connecting rod 109 moves forward to drive the spur rack 1010 to move forward, the spur rack 1010 moves forward to be meshed with the spur gear 104, the fourth rotating shaft 101 is driven to rotate, the fourth spring 103 deforms, the fourth rotating shaft 101 drives the third baffle 102 to rotate, the third baffle 102 rotates to prevent the rare earth solution from being blocked, the fourth pushing block 107 continues to move forward to push the rare earth solution to move forward to the outside of the material receiving box 2, then the worker takes the collecting frame to collect the rare earth solution, when the rare earth solution in the material receiving box 2 does not need to be taken out, the worker releases the third pushing block 106 to reset the fifth spring 108, the fifth spring 108 drives the third pushing block 106, the fourth pushing block 107, the third connecting rod 109 and the spur rack 1010 to move backwards and reset, the spur rack 1010 is meshed with the spur gear 104, so that the fourth rotating shaft 101 is driven to rotate reversely, the fourth spring 103 resets, the fourth rotating shaft 101 drives the third baffle to rotate reversely, and the fourth pushing block 107 and the third baffle 102 reset to block the rare earth solution to stop discharging.

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 (8)

1. The utility model provides a tombarthite processing is with automatic edulcoration device which characterized in that, including:

the device comprises a base (1) and a material receiving box (2), wherein the material receiving box (2) is arranged on the base (1);

the stirring box body (3) is connected between the two sides of the base (1);

the stirring mechanism (5) is arranged on the stirring box body (3);

the stirring blade (31) is arranged on the stirring mechanism (5);

the stirring box body (3) is provided with a feeding funnel (4);

the blanking mechanism (6) is connected between the blanking funnel (4) and the stirring box body (3).

2. The automatic impurity removing device for rare earth processing according to claim 1, wherein the stirring mechanism (5) comprises:

the top of the stirring box body (3) is provided with a first bracket (51);

the servo motor (52), the servo motor (52) is installed on the first bracket (51);

a first rotating shaft (53), wherein the output shaft of the servo motor (52) is provided with the first rotating shaft (53);

the middle of the upper part of the stirring box body (3) is rotatably provided with a second rotating shaft (55);

a bevel gear set (54) is connected between the upper side of the second rotating shaft (55) and the first rotating shaft (53), and the stirring blade (31) is connected with the second rotating shaft (55).

3. The automatic impurity removing device for rare earth processing according to claim 2, wherein the blanking mechanism (6) comprises:

the top of the stirring box body (3) is provided with a second support (61);

the first sliding rod (62) is arranged on the second bracket (61) in a sliding manner;

the first connecting rod (63) is arranged on the first sliding rod (62);

the two sides of the first connecting rod (63) are respectively provided with a first baffle (64), and the two first baffles (64) are both connected with the blanking funnel (4) in a sliding manner;

the first spring (65) is wound on the first sliding rod (62), and the first spring (65) is connected between the first sliding rod (62) and the second bracket (61).

4. The automatic impurity removing device for rare earth processing according to claim 3, further comprising a reciprocating mechanism (7), wherein the reciprocating mechanism (7) comprises:

the third rotating shaft (72) is rotatably arranged on both sides of the top of the stirring box body (3);

the belt transmission group (71) is connected between the two third rotating shafts (72) and the second rotating shaft (55);

the number of the cam blocks (73) is two, the belt transmission groups (71) are two, and the cam blocks (73) are arranged on the upper sides of the two third rotating shafts (72);

the first pushing block (74) is arranged on the first connecting rod (63), and the two cam blocks (73) are matched with the first pushing block (74).

5. The automatic impurity removing device for rare earth processing according to claim 4, further comprising a discharging mechanism (8), wherein the discharging mechanism (8) comprises:

a third bracket (81), wherein the lower side of the outer side of the stirring box body (3) is provided with the third bracket (81);

the lower parts of two sides of the second sliding rod (82) and the third bracket (81) are both provided with the second sliding rod (82) in a sliding way;

the second baffle (83) is connected between the two second sliding rods (82), and the second baffle (83) is connected with the stirring box body (3) in a sliding manner;

and the second spring (84) is wound on the second sliding rod (82), and the second spring (84) is connected between the third bracket (81) and the second baffle plate (83).

6. The automatic impurity removing device for rare earth processing according to claim 5, further comprising a swing mechanism (9), wherein the swing mechanism (9) comprises:

the end part of the first sliding rod (62) is provided with a second pushing block (91);

the swing frame (93) is arranged on both sides of the end part of the second pushing block (91);

the fourth supports (92) are arranged on the two sides of the stirring box body (3);

the third spring (94) is wound on the fourth support (92), the third spring (94) is connected between the fourth support (92) and the swing frame (93), and the fourth support (92) on the same side is rotatably connected with the swing frame (93) on the same side;

the second connecting rods (95) are arranged on two sides of the second baffle (83), and the second connecting rods (95) on the same side are connected with the swing frame (93) on the same side in a sliding mode.

7. The automatic impurity removing device for rare earth processing according to claim 6, further comprising a material pushing mechanism (10), wherein the material pushing mechanism (10) comprises:

the fourth rotating shaft (101) is rotatably arranged on the material receiving box (2);

a third baffle (102), wherein the fourth rotating shaft (101) is provided with the third baffle (102);

the fourth spring (103) is wound on the fourth rotating shaft (101), and the fourth spring (103) is connected between the fourth rotating shaft (101) and the material receiving box (2);

a straight gear (104) is arranged on the fourth rotating shaft (101);

the fifth support (105) is arranged on the outer wall of the material receiving box (2);

the third pushing block (106) is arranged on the material receiving box (2) in a sliding mode;

a fourth pushing block (107), wherein the third pushing block (106) is provided with the fourth pushing block (107);

the fifth springs (108) are wound on the two sides of the third pushing block (106), the fifth springs (108) are connected between the third pushing block (106) and the material receiving box (2), and the fourth pushing block (107) is connected with the material receiving box (2) in a sliding mode;

a third connecting rod (109) is arranged on the third pushing block (106), and the third connecting rod (109) is connected with the fifth bracket (105) in a sliding manner;

the upper part of the third connecting rod (109) is provided with a spur rack (1010), and the spur rack (1010) is in contact fit with the spur gear (104).

8. The automatic impurity removing device for processing the rare earth as claimed in claim 7, wherein the straight gear (104) is made of alloy steel.

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