CN117983358A

CN117983358A - Rare earth purification device for rare earth collection

Info

Publication number: CN117983358A
Application number: CN202410405182.4A
Authority: CN
Inventors: 陈睿文; 罗林生; 钟海辉; 陈功武; 陶潜; 赖年丰; 唐瑜; 黎宁
Original assignee: Shangyu Dongjin Rare Metal Smelting Industry And Trade Co ltd
Current assignee: Shangyu Dongjin Rare Metal Smelting Industry And Trade Co ltd
Priority date: 2024-04-07
Filing date: 2024-04-07
Publication date: 2024-05-07

Abstract

The invention discloses a rare earth purification device for rare earth collection, which relates to the technical field of rare earth collection and comprises a fixed feeding end and a crushing assembly, wherein the crushing assembly is rotationally connected to the side surface of the fixed feeding end, a bevel gear shaft is arranged in one side of a transmission case in a penetrating manner, side panels are distributed at two ends of the inner wall of a screen barrel, and a material carrying plate is connected to the surface of the torsion spring shaft. This rare earth purification device for rare earth collection, broken arbor is through driving gear, drive gear, ring gear still can drive the rotation of screen cloth bucket in the same time of rotating in opposite directions, the rotation of screen cloth bucket utilizes the ore crushed aggregates of carrying the flitch loading bottom to make the ore crushed aggregates drop in order to accept repetition crushing operation when carrying the flitch rotatory to the highest department, from this is favorable to reducing the device volume and realizing multiple crushing operation, and can accept the circulation crushing through the rotation of screen cloth bucket repeatedly feeding, from this can prevent that there is the clout to remain inside the screen cloth bucket, thereby realize the abundant crushing to the ore.

Description

Rare earth purification device for rare earth collection

Technical Field

The invention relates to the technical field of rare earth acquisition, in particular to a rare earth purification device for rare earth acquisition.

Background

Rare earth collection is a complex process requiring the processes of ore mining, crushing, flotation or reselection, acid leaching, extraction separation, precipitation and calcination, and metallization, wherein rare earth elements are typically present in the ore, and therefore, a crushing and purifying machine is required to crush the ore into smaller particle sizes for subsequent processing.

When the existing rare earth element-containing ore is crushed, the ore is often crushed into the required granularity through a multiple crushing structure, so that the crushing and purifying device is overlarge in size and complex in structure.

Accordingly, in view of the above, research and improvement have been made on the conventional structure and defects, and a rare earth purification apparatus for rare earth collection has been proposed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a rare earth purification device for rare earth acquisition, which solves the problems in the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a rare earth purification device for rare earth collection, includes fixed feed end and broken subassembly, the side rotation of fixed feed end is connected with broken subassembly, broken subassembly includes screen cloth bucket, rotation end, crushing motor, bevel gear axle, transmission case, movable carrier plate, broken arbor, side board, torsional spring axle and year flitch, the end fixing of screen cloth bucket has the rotation end, and one side of rotation end is provided with broken motor, broken motor's end connection has bevel gear axle, the inside rotation of rotation end is connected with movable carrier plate, and the side of movable carrier plate is fixed with the transmission case, the inside bevel gear axle that wears to be equipped with in one side of transmission case, and the opposite side of transmission case wears to have broken arbor, the inner wall both ends of screen cloth bucket all distribute the side board, and the side of side board is provided with torsional spring axle, torsional spring axle's surface connection has year flitch.

Further, two crushing cutter shafts are arranged in total, and the two crushing cutter shafts rotate oppositely.

Further, the inside of the transmission case is connected with a double-head conical gear shaft in a meshed manner at two sides of the end part of the conical gear shaft, the end part of the double-head conical gear shaft is meshed with a conical gear transmission shaft, and the conical gear transmission shaft is connected with the crushing cutter shaft.

Further, the material carrying plate is elastically connected with the screen barrel through the torsion spring shaft and the side panel, and the surface of the screen barrel is in a mesh-shaped structure.

Further, an inner gear ring is fixed on the side face of the outer wall of the rotating end, and a transmission gear is connected with the inner portion of the inner gear ring in a meshed mode.

Further, one side of the transmission gear far away from the inner gear ring is connected with a driving gear in a meshed mode, and the driving gear is fixed on the outer wall of the bevel gear shaft.

Further, the screen barrel is in transmission connection with the crushing motor through a rotating end, an inner gear ring, a transmission gear, a driving gear and a bevel gear shaft, and the outer wall of the bevel gear shaft, one side of the transmission gear and one side of a fixed feeding end are all connected with a bracket.

Further, the outer wall of one end of the screen barrel is fixed with a ripple ring, and the side face of the ripple ring is provided with a transmission vibration material component.

Further, the transmission shake material subassembly includes dwang, shake material pole and elastic expansion pole, one side rotation of dwang is connected with shakes the material pole, and the opposite side rotation of dwang is connected with elastic expansion pole.

Further, the elastic telescopic rod is fixedly connected with the side face of the fixed feeding end, the vibration rod is elastically connected with the fixed feeding end through the elastic telescopic rod, and one side of the vibration rod is attached to the surface of the screen barrel.

The invention provides a rare earth purification device for rare earth acquisition, which has the following beneficial effects:

1. this rare earth purification device for rare earth collection, broken arbor is through driving gear, drive gear, ring gear still can drive the rotation of screen cloth bucket in the same time of rotating in opposite directions, the rotation of screen cloth bucket utilizes the ore crushed aggregates of carrying the flitch loading bottom to make the ore crushed aggregates drop in order to accept repetition crushing operation when carrying the flitch rotatory to the highest department, from this is favorable to reducing the device volume and realizing multiple crushing operation, and can accept the circulation crushing through the rotation of screen cloth bucket repeatedly feeding, from this can prevent that there is the clout to remain inside the screen cloth bucket, thereby realize the abundant crushing to the ore.

2. The rare earth purification device for rare earth collection is characterized in that the material carrying plate is attached to the surface of the side panel under the elastic action of the torsion spring shaft due to insufficient gravitational potential energy before rotating to a high position, and when the material carrying plate is charged and rotates to the high position, the material carrying plate is enabled to rotate downwards by the ore crushed aggregates and the gravitational potential energy of the ore crushed aggregates, so that the ore crushed aggregates can be automatically and accurately thrown into the space between the crushing cutter shafts to be repeatedly crushed.

3. This rare earth purification device for rare earth collection can drive the ripple ring and rotate in step when the screen cloth bucket rotates, can cooperate the elasticity flexible effect of elasticity telescopic link to make the dwang be reciprocal concertina movement when the ripple ring rotates, from this makes shake the material pole and dashes its surface in the screen cloth bucket outside for screen cloth bucket surface takes place vibrations, strengthens the screening efficiency of ore grain from this, shakes down the ore grain that is attached to screen cloth bucket surface simultaneously, in order to prevent mesh jam influence screening operation.

4. The rare earth purification device for rare earth collection has the advantages that the corrugated rings are contacted with the rotating rods to apply force to the rotating rods so that the vibrating rods can reciprocate and stretch, and the two ends of the rotating rods are rotationally connected with the vibrating rods and the elastic telescopic rods, so that the rotating rods can rotate when in frictional contact with the corrugated rings, sliding friction can be converted into rolling friction through the rotating rods, and friction force is reduced to avoid abrasion during long-term operation.

Drawings

FIG. 1 is a schematic view showing a solid structure of a rare earth purification device for rare earth collection in a fixed feed end direction;

FIG. 2 is a schematic view showing a perspective structure of a crushing motor of a rare earth purification device for rare earth collection according to the present invention;

FIG. 3 is a schematic view showing the internal perspective structure of the rotating end of a rare earth purification device for rare earth collection according to the present invention;

FIG. 4 is a schematic perspective view of a double-ended bevel gear shaft of a rare earth purification device for rare earth collection according to the present invention;

FIG. 5 is a schematic diagram showing the internal perspective structure of a screen drum of a rare earth purification device for rare earth collection according to the present invention;

Fig. 6 is a schematic perspective view of a loading plate of a rare earth purification device for rare earth collection according to the present invention.

In the figure: 1. fixing a feeding end; 2. a crushing assembly; 201. a screen barrel; 202. a rotating end; 203. a crushing motor; 204. a bevel gear shaft; 205. a transmission case; 206. a movable bearing plate; 207. crushing a cutter shaft; 208. a side panel; 209. a torsion spring shaft; 210. a material carrying plate; 3. double-ended bevel gear shaft; 4. a bevel gear drive shaft; 5. an inner gear ring; 6. a transmission gear; 7. driving a gear; 8. a corrugated ring; 9. a transmission vibration component; 901. a rotating lever; 902. a vibrating rod; 903. an elastic telescopic rod.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

As shown in fig. 1 to 6, the present invention provides the following technical solutions: the utility model provides a rare earth purification device for rare earth collection, including fixed feed end 1 and crushing subassembly 2, the side rotation of fixed feed end 1 is connected with crushing subassembly 2, crushing subassembly 2 includes screen drum 201, rotating end 202, crushing motor 203, bevel gear axle 204, transmission case 205, movable carrier plate 206, broken arbor 207, side board 208, torsion spring axle 209 and loading board 210, the tip of screen drum 201 is fixed with rotating end 202, and one side of rotating end 202 is provided with crushing motor 203, the end connection of crushing motor 203 has bevel gear axle 204, the inside rotation of rotating end 202 is connected with movable carrier plate 206, and the side of movable carrier plate 206 is fixed with transmission case 205, bevel gear axle 204 is worn to be equipped with in the inside one side of transmission case 205, and broken arbor 207 is worn to be equipped with to the opposite side of transmission case 205, the inner wall both ends of screen drum 201 all distribute side board 208, the side of the side plate 208 is provided with a torsion spring shaft 209, the surface of the torsion spring shaft 209 is connected with a material carrying plate 210, the crushing cutter shafts 207 are provided with two in total, the two crushing cutter shafts 207 rotate in opposite directions, the inside of the transmission case 205 is connected with a double-head conical gear shaft 3 in a meshed manner at two sides of the end part of the conical gear shaft 204, the end part of the double-head conical gear shaft 3 is meshed with a conical gear shaft 4, the conical gear shaft 4 is connected with the crushing cutter shafts 207, the material carrying plate 210 is elastically connected with a screen barrel 201 through the torsion spring shaft 209 and the side plate 208, the surface of the screen barrel 201 is in a meshed structure, the side surface of the outer wall of the rotating end 202 is fixedly provided with an annular gear 5, the inside of the annular gear 5 is meshed with a transmission gear 6, one side, away from the annular gear 5, of the transmission gear 6 is meshed with a driving gear 7, the driving gear 7 is fixedly arranged on the outer wall of the conical gear shaft 204, the screen barrel 201 is connected with a rotating end 202 through a rotating end 202, the inner gear ring 5, the transmission gear 6, the driving gear 7 and the conical gear shaft 204 are in transmission connection with the crushing motor 203, and the outer wall of the conical gear shaft 204, one side of the transmission gear 6 and one side of the fixed feeding end 1 are all connected with a bracket;

The method comprises the following specific operations that ore containing rare earth elements enters the inside of a screen barrel 201 through a feeding channel on the surface of a fixed feeding end 1, the ore falls between crushing cutter shafts 207, meanwhile, a conical gear shaft 204 is driven to rotate through a crushing motor 203, the conical gear shaft 204 drives a double-head conical gear shaft 3 to rotate in a transmission box 205, and therefore a conical gear transmission shaft 4 carries two crushing cutter shafts 207 to rotate oppositely so as to crush the ore, and the crushed ore falls to the bottom of the screen barrel 201 to be screened;

When the screen is screened, part of the screen barrel 201 remains in the screen barrel due to overlarge granularity, the bevel gear shaft 204 drives the driving gear 7 to rotate when rotating, so that the driving gear 6 drives the inner gear ring 5 to rotate, thereby enabling the rotating end 202 to carry the screen barrel 201 to rotate, wherein the driving box 205 is fixed on the side surface of the movable bearing plate 206, the movable bearing plate 206 is rotationally connected with the rotating end 202, namely, the rotating end 202 rotates and the movable bearing plate 206 is positioned in the screen barrel and does not rotate;

The material carrying plate 210 of the inner wall of the screen barrel 201 is attached to the surface of the side plate 208 through the elastic action of the torsion spring shaft 209 when the screen barrel 201 rotates, and as ore particles remain at the bottom of the screen barrel 201, the material carrying plate 210 is matched with the side plate 208 to carry ore particles at the bottom when the screen barrel 201 rotates, and the loaded ore particles fall between the crushing cutter shafts 207 due to the downward rotation of the material carrying plate 210 under the influence of gravity when the material carrying plate 210 and the side plate 208 rotate to the top, so that the ore particles with oversized granularity can be repeatedly crushed, a plurality of crushing mechanisms are not required to crush the ore, the device volume is reduced, and the ore particles at the bottom of the screen barrel 201 can be repeatedly loaded to realize cyclic crushing through the rotation of the material carrying plate 210 and the side plate 208, so that the residual materials and the residual materials can be avoided, and the full crushing of the ore can be realized.

As shown in fig. 1-6, a corrugated ring 8 is fixed on the outer wall of one end of a screen barrel 201, a transmission vibration material component 9 is arranged on the side surface of the corrugated ring 8, the transmission vibration material component 9 comprises a rotating rod 901, a vibration material rod 902 and an elastic telescopic rod 903, one side of the rotating rod 901 is rotationally connected with the vibration material rod 902, the other side of the rotating rod 901 is rotationally connected with the elastic telescopic rod 903, the elastic telescopic rod 903 is fixedly connected with the side surface of the fixed feeding end 1, the vibration material rod 902 is elastically connected with the fixed feeding end 1 through the elastic telescopic rod 903, and one side of the vibration material rod 902 is attached to the surface of the screen barrel 201;

The method specifically comprises the following steps that the surface of a screen barrel 201 is of a mesh-shaped structure to screen ore particles conforming to the particle size, when the screen barrel 201 rotates, a corrugated ring 8 is driven to synchronously rotate, the surface of the corrugated ring 8 is of a wave-shaped circulation undulating structure, the corrugated ring 8 rotates and simultaneously cooperates with the elastic telescoping action of an elastic telescoping rod 903 to enable the rotating rod 901 to reciprocate and telescoping, a vibrating rod 902 impacts the surface of the rotating rod 901 on the outer side of the screen barrel 201 in the reciprocating and telescoping process, so that the surface of the screen barrel 201 vibrates due to impact force, the screening efficiency of the ore particles is enhanced, and meanwhile ore particles attached to the surface of the screen barrel 201 are vibrated to prevent mesh blockage from affecting screening operation;

The corrugated ring 8 is contacted with the rotating rod 901 to apply force to the rotating rod, so that the vibrating rod 902 can reciprocate and stretch, and the two ends of the rotating rod 901 are rotationally connected with the vibrating rod 902 and the elastic stretching rod 903, so that the rotating rod 901 rotates when in frictional contact with the corrugated ring 8, and sliding friction can be converted into rolling friction through the rotating rod 901, thereby reducing friction force and avoiding abrasion during long-term operation.

To sum up, as shown in fig. 1 to 6, when the rare earth purification device for rare earth collection is used, firstly, ore containing rare earth elements enters the inside of a screen barrel 201 through a feeding channel on the surface of a fixed feeding end 1, the ore falls between crushing cutter shafts 207, meanwhile, a conical gear shaft 204 is driven to rotate by a crushing motor 203, the conical gear shaft 204 drives a double-head conical gear shaft 3 to rotate in a transmission case 205, so that a conical gear transmission shaft 4 carries two crushing cutter shafts 207 to rotate in opposite directions to crush the ore, and the crushed ore falls to the bottom of the screen barrel 201 to be screened;

The material carrying plate 210 on the inner wall of the screen barrel 201 is attached to the surface of the side plate 208 through the elastic action of the torsion spring shaft 209 when the screen barrel 201 rotates, and as the ore particles remain at the bottom of the screen barrel 201, the material carrying plate 210 cooperates with the side plate 208 to load the ore particles at the bottom when the screen barrel 201 rotates, and when the material carrying plate 210 and the side plate 208 rotate to the top, the material carrying plate 210 rotates downwards due to the influence of gravity so that the loaded ore particles fall between the crushing cutter shafts 207, thereby repeatedly crushing the ore particles with oversized granularity;

The screen cloth bucket 201 surface is mesh form structure in order to sieve the ore grain that accords with the particle diameter, can drive ripple ring 8 synchronous rotation when screen cloth bucket 201 rotates, ripple ring 8 surface is wave form circulation relief structure, can cooperate the elasticity flexible action of elastic telescopic link 903 to make dwang 901 reciprocating telescopic motion when ripple ring 8 rotates, the in-process vibration material pole 902 of dwang 901 reciprocating telescopic motion is strikeed its surface in screen cloth bucket 201 outside for screen cloth bucket 201 surface shakes because of the impact force takes place, strengthen the screening efficiency of ore grain from this, shake the ore grain that is attached to screen cloth bucket 201 surface simultaneously.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. Rare earth purification device for rare earth collection, including fixed feed end (1) and broken subassembly (2), its characterized in that: the side rotation of fixed feed end (1) is connected with crushing subassembly (2), crushing subassembly (2) are including screen cloth bucket (201), rotation end (202), crushing motor (203), conical gear axle (204), transmission case (205), movable carrier plate (206), crushing arbor (207), side board (208), torsional spring axle (209) and year flitch (210), the tip of screen cloth bucket (201) is fixed with rotation end (202), and one side of rotation end (202) is provided with crushing motor (203), the end connection of crushing motor (203) has conical gear axle (204), the inside rotation of rotation end (202) is connected with movable carrier plate (206), and the side of movable carrier plate (206) is fixed with transmission case (205), conical gear axle (204) are worn to be equipped with in one side inside of transmission case (205), and the opposite side of transmission case (205) wears to be equipped with crushing arbor (207), the inner wall both ends of screen cloth bucket (201) all distribute side board (208), and the side of side board (208) is provided with torsional spring axle (209), the inside rotation of rotation end (202) is connected with movable carrier plate (206).

2. The rare earth purification device for rare earth collection according to claim 1, wherein: two crushing cutter shafts (207) are arranged in total, and the two crushing cutter shafts (207) rotate in opposite directions.

3. The rare earth purification device for rare earth collection according to claim 1, wherein: the double-end conical gear shaft (3) is connected to the two sides of the end portion of the conical gear shaft (204) in a meshed mode, the conical gear transmission shaft (4) is connected to the end portion of the double-end conical gear shaft (3) in a meshed mode, and the conical gear transmission shaft (4) is connected with the crushing cutter shaft (207).

4. The rare earth purification device for rare earth collection according to claim 1, wherein: the material carrying plate (210) is elastically connected with the screen barrel (201) through the torsion spring shaft (209) and the side panel (208), and the surface of the screen barrel (201) is of a mesh-shaped structure.

5. The rare earth purification device for rare earth collection according to claim 1, wherein: an inner gear ring (5) is fixed on the side face of the outer wall of the rotating end (202), and a transmission gear (6) is connected inside the inner gear ring (5) in a meshed mode.

6. The rare earth purification device for rare earth collection according to claim 5, wherein: one side of the transmission gear (6) far away from the inner gear ring (5) is connected with a driving gear (7) in a meshed manner, and the driving gear (7) is fixed on the outer wall of the bevel gear shaft (204).

7. The rare earth purification device for rare earth collection according to claim 6, wherein: the screen barrel (201) is in transmission connection with the crushing motor (203) through the rotating end (202), the inner gear ring (5), the transmission gear (6), the driving gear (7) and the bevel gear shaft (204), and the outer wall of the bevel gear shaft (204), one side of the transmission gear (6) and one side of the fixed feeding end (1) are all connected with the bracket.

8. The rare earth purification device for rare earth collection according to claim 1, wherein: the outer wall of one end of the screen barrel (201) is fixed with a corrugated ring (8), and the side surface of the corrugated ring (8) is provided with a transmission vibration material component (9).

9. The rare earth purification device for rare earth collection according to claim 8, wherein: the transmission shake material subassembly (9) is including dwang (901), shake material pole (902) and elastic expansion pole (903), one side rotation of dwang (901) is connected with shake material pole (902), and the opposite side rotation of dwang (901) is connected with elastic expansion pole (903).

10. The rare earth purification device for rare earth collection according to claim 9, wherein: the elastic telescopic rod (903) is fixedly connected with the side face of the fixed feeding end (1), the vibrating rod (902) is elastically connected with the fixed feeding end (1) through the elastic telescopic rod (903), and one side of the vibrating rod (902) is attached to the surface of the screen barrel (201).