CN217340193U - Rare earth ore deposit with high-speed coprecipitation device - Google Patents

Abstract

The utility model discloses a tombarthite ore deposit with high-speed coprecipitation device belongs to tombarthite ore deposit technical field. The utility model comprises a portal frame, two material storage boxes are fixedly arranged on the inner wall of the portal frame, the upper surface of the storage box is fixedly provided with a charging pipe, the lower surface of the storage box is provided with a discharging pipe, a first valve is arranged on the blanking pipe, settling barrels are fixedly arranged at the bottom ends of the two blanking pipes, a separation barrel is arranged below the settling barrels, a first four support rods are fixedly arranged between the settling barrels and the separation barrel, a second four support rods are fixedly arranged below the separation barrel, the motor is matched with the rotating shaft and the hollow rotary drum, so that the materials are fully and uniformly stirred, the materials are reacted thoroughly, the solution reaction is accelerated, the quality of material precipitation is higher, realize quick unloading when the material flows into in the separation bucket to avoid appearing the material and detaining at the sedimentation bucket inner wall, cause the waste of material under the clearance of stirring piece to sedimentation bucket inner wall.

Description

Rare earth ore deposit with high-speed coprecipitation device

Technical Field

The utility model belongs to the technical field of the tombarthite ore deposit, especially, relate to a tombarthite ore deposit with high-speed coprecipitation device.

Background

The rare earth ore contains rare earth elements, the rare earth elements are used in various fields in life, although the storage capacity of the rare earth ore is large, the difficulty of extracting the rare earth elements from the rare earth ore is large, and the coprecipitation device is often used for extracting the rare earth elements from the rare earth ore.

The conventional coprecipitation device for precipitating the rare earth ore generally adopts a traditional structure, cannot uniformly stir mixed liquid, causes incomplete mixed reaction of the mixed liquid, cannot perform solid-liquid separation on solid materials and liquid materials in the mixed liquid after precipitation and collects the solid materials and the liquid materials, so that the product is low in quality and is not beneficial to production and development.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems that the conventional coprecipitation device for rare earth ore precipitation generally adopts a traditional structure, cannot uniformly stir mixed liquid, causes incomplete mixed reaction of the mixed liquid, cannot perform solid-liquid separation on solid physics and liquid materials in the mixed liquid after precipitation and collects the solid physics and the liquid materials, has low product quality and is not beneficial to production and development, and the high-speed coprecipitation device for rare earth ore precipitation is provided.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a high-speed co-precipitation device for rare earth ore precipitation comprises a portal frame, wherein two storage tanks are fixedly mounted on the inner wall of the portal frame, charging pipes are fixedly mounted on the upper surfaces of the storage tanks, discharging pipes are arranged on the lower surfaces of the storage tanks, valves I are mounted on the discharging pipes, precipitation tanks are fixedly mounted at the bottoms of the two discharging pipes, separation tanks are mounted below the precipitation tanks, four first supporting rods are fixedly mounted between the precipitation tanks and the separation tanks, four second supporting rods are fixedly mounted below the separation tanks, rotating shafts are rotatably mounted in the precipitation tanks, the lower ends of the rotating shafts extend into the separation tanks and are provided with triangular cleaning plates, connecting rods are fixedly mounted on the rotating shafts, stirring blades are fixedly mounted at the two ends of each connecting rod and are attached to the inner wall of the precipitation tank, a plurality of first stirring rods are fixedly mounted on the opposite sides of the two stirring blades, the outer surface of the rotating shaft is provided with a hollow rotating drum, the hollow rotating drum is rotatably installed in the sedimentation barrel, the outer surface of the hollow rotating drum is fixedly provided with a plurality of stirring rods II, the outer surface of the rotating shaft and the outer surface of the bottom end of the hollow rotating drum are fixedly provided with a first conical gear, the two first conical gears are oppositely installed, the upper surface of the separation barrel is fixedly provided with a motor, an output shaft of the motor is fixedly provided with a second conical gear, and the second conical gear is meshed with the first conical gear;

the utility model discloses a filter screen, including a sediment bucket, separation bucket, triangle cleaning plate, collecting box, handle, collecting box opening part, collecting box bottom fixed mounting has filter screen two, install valve three on the discharging pipe, install filter screen one in the separation bucket, square opening has been seted up to filter screen one, triangle cleaning plate lower surface and the laminating of filter screen one upper surface mutually, be provided with square hole on the separation bucket, two surfaces all have the open-ended collecting box about sliding mounting has in the square hole, just the handle is installed in the collecting box left side, the collecting box opening part uses with the cooperation of square opening, collecting box bottom fixed mounting has filter screen two.

In the above scheme, the motor is electrically connected with the external power supply.

As a further description of the above technical solution: the two materials can be separately discharged by arranging the two material storage tanks, the stopping and starting of discharging are realized by the first valve, the support of the sedimentation tank is realized by arranging the first four support rods, the support of the integral structure is realized by the second four support rods, the integral structure is stable, the rotating shaft and the hollow rotating drum are arranged in the sedimentation tank, the motor drives the first two bevel gears to relatively rotate through the second bevel gear when rotating, so that the rotating shaft and the hollow rotating drum are relatively rotated, the rotating shaft drives the stirring pieces and the first stirring rod on two sides to rotate, the stirring pieces clean the inner wall of the sedimentation tank, the hollow rotating drum drives the second stirring rod to rotate and relatively rotate with the first stirring rod, so that the materials are uniformly and fully stirred, the solid-liquid separation of the precipitated materials is realized through the first filter screen arranged in the separation tank, the quality of the precipitated materials is higher, and the rotating shaft drives the triangular cleaning plate to rotate, the realization is carried out solid material clearance to the filter screen surface and is collected to push the object material simultaneously and to the collection incasement, prevent that solid material from blockking up filter screen one, through the filtration of setting up when the filter screen two realization liquid material of collecting box bottom gets into the collecting box, through setting up the slide bar of one in the collecting box spout, the pull rod drives the slide bar up-and-down motion, realizes the locking and the unblock to the collecting box.

The upper surface of the left side of the collecting box is provided with a first sliding groove, a sliding rod slides in the first sliding groove, a second sliding groove corresponding to the first sliding groove is formed in the inner wall of the square hole, one end of the sliding rod extends into the second sliding groove, the left side face of the collecting box is provided with a strip-shaped opening, a pull rod is fixedly mounted on the outer surface of the bottom end of the sliding rod, and the pull rod penetrates through the strip-shaped opening and extends to the outside of the collecting box.

As a further description of the above technical solution: through the slide bar that sets up in collecting box spout one, the pull rod drives the slide bar up-and-down motion, realizes locking and the unblock to the collecting box.

And a spring is installed on the inner wall of the first sliding groove, and two ends of the spring are fixedly connected with the lower end of the sliding rod and the inner wall of the first sliding groove respectively.

As a further description of the above technical solution: through setting up the spring, realize the effect of reseing and locking the collecting box after the slide bar motion, make the function more perfect.

The first stirring rod and the second stirring rod are installed in a staggered mode.

As a further description of the above technical solution: through the dislocation installation that sets up puddler one and puddler two, realize the intensive mixing to the material, reaction process accelerates, makes the quality improvement of sediment material.

The separation bucket inner wall fixed mounting has the support bar, the support bar upper surface is laminated with the collecting box lower surface mutually.

As a further description of the above technical solution: through setting up the support bar, direction and limiting displacement when realizing the collecting box motion.

The inner wall of the square hole is fixedly provided with a sealing strip, and the outer surface of the collecting box is attached to the inner wall of the sealing strip.

As a further description of the above technical solution: by arranging the sealing strip, liquid materials are prevented from overflowing out of the sedimentation barrel from the square hole in the filtering process.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, drive pivot and hollow rotary drum through setting up the motor and rotate, the pivot drives stirring piece and a stirring rod rotation, drive stirring rod two relative rotations when hollow rotary drum rotates, realize the abundant even stirring to the material, avoid the not thorough of material reaction, and accelerate the solution reaction and make the quality of material deposit higher, realize quick unloading when the material flows into the separation barrel in, and avoid appearing the material delay at the sedimentation barrel inner wall under the scraping clearance of stirring piece to the sedimentation barrel inner wall, cause the waste of material.

2. The utility model discloses in, through setting up filter screen one and collecting box cooperation, the material drives the triangle cleaning plate through the pivot for a moment of filter screen and rotates, realizes that the triangle cleaning plate carries out the solid material clearance to a filter screen surface to push solid physics to the collection incasement simultaneously, prevent that solid material from piling up and blockking up filter screen one, separate through the two pairs of liquid materials that get into to the collection case of filter screen that set up in the collecting box bottom.

Drawings

Fig. 1 is a schematic structural diagram of a high-speed coprecipitation device for precipitating rare earth ore provided by the utility model;

FIG. 2 is a schematic structural view of a section of a high-speed coprecipitation device for precipitating rare earth ore according to the present invention;

FIG. 3 is a schematic structural view of a rotating shaft and a hollow rotating drum of the high-speed co-precipitation device for precipitating rare earth ore provided by the utility model;

fig. 4 is the utility model provides a rare earth ore deposit with high-speed coprecipitation device collecting box's schematic structure diagram.

Illustration of the drawings:

1. a gantry; 2. a material storage box; 3. a charging pipe; 4. a discharging pipe; 5. a settling barrel; 6. a rotating shaft; 7. a hollow drum; 8. a connecting rod; 9. a stirring sheet; 10. a first stirring rod; 11. a motor; 12. a second bevel gear; 13. a first bevel gear; 14. a triangular cleaning plate; 15. a separation barrel; 16. a discharge pipe; 17. a connecting pipe; 18. a first supporting rod; 19. a first filter screen; 20. a collection box; 21. a supporting strip; 22. a second filter screen; 23. a slide bar; 24. a pull rod; 25. a spring; 26. a second supporting rod; 27. a stirring rod II; 28. and (4) a sealing strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a high-speed co-precipitation device for rare earth ore precipitation comprises a portal frame 1, wherein two storage tanks 2 are fixedly mounted on the inner wall of the portal frame 1, charging pipes 3 are fixedly mounted on the upper surfaces of the storage tanks 2, blanking pipes 4 are arranged on the lower surfaces of the storage tanks 2, valves I are mounted on the blanking pipes 4, precipitation tanks 5 are fixedly mounted at the bottom ends of the two blanking pipes 4, separation tanks 15 are mounted below the precipitation tanks 5, four first support rods 18 are fixedly mounted between the precipitation tanks 5 and the separation tanks 15, and four second support rods 26 are fixedly mounted below the separation tanks 15;

a rotating shaft 6 is rotatably installed in the sedimentation barrel 5, the lower end of the rotating shaft 6 extends into the separation barrel 15 and is provided with a triangular cleaning plate 14, a connecting rod 8 is fixedly installed on the rotating shaft 6, stirring blades 9 are fixedly installed at both ends of the connecting rod 8, the stirring blades 9 are attached to the inner wall of the sedimentation barrel 5, a plurality of first stirring rods 10 are fixedly installed at one opposite sides of the two stirring blades 9, a hollow rotary drum 7 is arranged on the outer surface of the rotating shaft 6, the hollow rotary drum 7 is rotatably installed in the sedimentation barrel 5, a plurality of second stirring rods 27 are fixedly installed on the outer surface of the hollow rotary drum 7, the first stirring rods 10 and the second stirring rods 27 are installed in a staggered mode, through the staggered installation of the first stirring rods 10 and the second stirring rods 27, the materials are fully stirred, the reaction process is accelerated, the quality of the precipitated materials is improved, and a first bevel gear 13 is fixedly installed on the outer surface of the rotating shaft 6 and the outer surface of the bottom end of the hollow rotary drum 7, the two first bevel gears 13 are oppositely arranged, the motor 11 is fixedly arranged on the upper surface of the separating barrel 15, the second bevel gear 12 is fixedly arranged on an output shaft of the motor 11, and the second bevel gear 12 is meshed with the first bevel gear 13;

the sedimentation barrel 5 is communicated with the separation barrel 15 through a connecting pipe 17, a discharge pipe 16 is fixedly arranged on the lower surface of the separation barrel 15, a valve II is arranged on the connecting pipe 17, a valve III is arranged on the discharge pipe 16, a filter screen I19 is arranged in the separation barrel 15, a square opening is formed in the filter screen I19, the lower surface of a triangular cleaning plate 14 is attached to the upper surface of the filter screen I19, a square hole is formed in the separation barrel 15, a collection box 20 with openings in the upper surface and the lower surface is arranged in the square hole in a sliding mode, a handle is arranged on the left side of the collection box 20, the opening of the collection box 20 is matched with the square opening for use, a filter screen II 22 is fixedly arranged at the bottom of the collection box 20, a sealing strip 28 is fixedly arranged on the inner wall of the square hole, the outer surface of the collection box 20 is attached to the inner wall of the sealing strip 28, and liquid materials are prevented from overflowing out of the sedimentation barrel from the square hole in the filtering process through the arrangement of the sealing strip 28, the inner wall of the separation barrel 15 is fixedly provided with a support bar 21, the upper surface of the support bar 21 is attached to the lower surface of the collection box 20, and the support bar 21 is arranged to realize the guiding and limiting functions when the collection box 20 moves;

the upper surface of the left side of the collecting box 20 is provided with a first sliding groove, a sliding rod 23 slides in the first sliding groove, a second sliding groove corresponding to the first sliding groove is formed in the inner wall of the square hole, one end of the sliding rod 23 extends into the second sliding groove, a strip-shaped opening is formed in the left side face of the collecting box 20, a pull rod 24 is fixedly installed on the outer surface of the bottom end of the sliding rod 23, the pull rod 24 penetrates through the strip-shaped opening and extends to the outside of the collecting box 20, the pull rod 24 drives the sliding rod 23 to move up and down through the sliding rod 23 arranged in the first sliding groove of the collecting box 20, locking and unlocking of the collecting box 20 are achieved, a spring 25 is installed on the inner wall of the first sliding groove, two ends of the spring 25 are fixedly connected with the lower end of the sliding rod 23 and the inner wall of the first sliding groove respectively, and the effects of resetting and locking of the collecting box 20 after the sliding rod 23 moves are achieved through the spring 25, and functions are more perfect.

The working principle is as follows: when the material mixing device is used, firstly, materials needing to be precipitated are put into one storage box 2 from the charging pipe 3, a dissolving solution is put into the other storage box 2, the first valves on the two blanking pipes 4 are opened simultaneously after the materials are prepared, at the moment, the materials and the dissolving solution enter the precipitation barrel 5 simultaneously, then the motor 11 is started, the motor 11 drives the second bevel gear 12 to rotate when rotating, the second bevel gear 12 drives the first bevel gear 13 to rotate so that the rotating shaft 6 and the hollow rotary drum 7 rotate relatively, the rotating shaft 6 drives the stirring sheet 9 to rotate around the inner wall of the precipitation barrel 5 through the connecting rod 8, the stirring sheet 9 drives the first stirring rods 10 to rotate, the hollow rotary drum 7 drives the second stirring rods 27 to rotate so as to realize high-speed uniform stirring of the materials, the motor 11 is closed after the stirring is finished, the precipitation of the materials is waited to be finished, the second valves are opened and the motor 11 is started simultaneously after the precipitation is finished, the materials are quickly fed under the action of the first stirring rod 10 and the second stirring rod 27, the materials are prevented from being retained in the sedimentation barrel 5 under the scraping and cleaning of the stirring sheet 9 on the inner wall, the materials flow out of the connecting pipe 17 into the separation barrel, the solid materials are retained on the upper surface of the first filtering net 19 through the filtering of the first filtering net 19, the rotating shaft 6 drives the triangular cleaning plate 14 to rotate, the solid materials on the surface of the first filtering net 19 are cleaned into the collection box 20, the first filtering net 19 is prevented from being blocked by the solid materials when the collection is completed, the liquid materials flowing into the collection box 20 flow into the bottom of the separation barrel from the second filtering net 22, the motor 11 is closed after the solid-liquid separation of the materials is completed, the liquid materials are collected by opening the third valve on the discharge pipe 16, and finally the pull rod 24 is pressed to drive the slide rod 23 to move downwards in the first sliding chute, the collection box 20 is unlocked, and the solid materials are taken out from the interior of the collection box 20, after the collection is finished, the collection box 20 is reset, and the upper end of the sliding rod 23 is reset to the inside of the second sliding groove under the elastic action of the spring 25, so that the operation is finished.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a tombarthite ore deposit with high-speed coprecipitation sediment device, includes portal frame (1), its characterized in that, portal frame (1) inner wall fixed mounting has two storage tanks (2), fixed surface installs charging tube (3) on storage tank (2), storage tank (2) lower surface is provided with unloading pipe (4), just install valve one, two on unloading pipe (4) bottom fixed mounting has precipitation bucket (5), separation bucket (15) are installed to precipitation bucket (5) below, fixed mounting has four bracing pieces one (18) between precipitation bucket (5) and separation bucket (15), separation bucket (15) below fixed mounting has four bracing pieces two (26), rotation shaft (6) are installed to precipitation bucket (5) internal rotation, just pivot (6) lower extreme extends to separation bucket (15) inside and installs triangle cleaning plate (14), the automatic stirring device is characterized in that a connecting rod (8) is fixedly mounted on the rotating shaft (6), stirring pieces (9) are fixedly mounted at two ends of the connecting rod (8), the stirring pieces (9) are attached to the inner wall of the settling barrel (5), a plurality of first stirring rods (10) are fixedly mounted on one side, opposite to the stirring pieces (9), of the rotating shaft (6), a hollow rotating barrel (7) is arranged on the outer surface of the rotating shaft (6), the hollow rotating barrel (7) is rotatably mounted in the settling barrel (5), a plurality of second stirring rods (27) are fixedly mounted on the outer surface of the hollow rotating barrel (7), a first bevel gear (13) is fixedly mounted on the outer surface of the rotating shaft (6) and on the outer surface of the bottom end of the hollow rotating barrel (7), two first bevel gears (13) are relatively mounted, a motor (11) is fixedly mounted on the upper surface of the separating barrel (15), and a second bevel gear (12) is fixedly mounted on an output shaft of the motor (11), the second conical gear (12) is meshed with the first conical gear (13);

deposit bucket (5) and separation bucket (15) and be linked together through connecting pipe (17), separation bucket (15) lower fixed surface installs discharging pipe (16), ann changes on connecting pipe (17) has valve two, install valve three on discharging pipe (16), install filter screen (19) in separation bucket (15), square opening has been seted up in filter screen (19), laminating mutually with filter screen (19) upper surface to triangle clearance board (14) lower surface, be provided with square hole on separation bucket (15), sliding installation has upper and lower two surfaces all to have open-ended collecting box (20) in the square hole, just the handle is installed in collecting box (20) left side, collecting box (20) opening part uses with the cooperation of square opening, collecting box (20) bottom fixed mounting has filter screen two (22).

2. The high-speed co-precipitation device for precipitating rare earth ore according to claim 1, wherein a first sliding groove is formed in the upper surface of the left side of the collection box (20), a sliding rod (23) is arranged in the first sliding groove, a second sliding groove corresponding to the first sliding groove is formed in the inner wall of the square hole, one end of the sliding rod (23) extends into the second sliding groove, a strip-shaped opening is formed in the left side surface of the collection box (20), a pull rod (24) is fixedly mounted on the outer surface of the bottom end of the sliding rod (23), and the pull rod (24) penetrates through the strip-shaped opening and extends to the outside of the collection box (20).

3. The high-speed coprecipitation device for precipitating the rare earth ore according to claim 2, wherein a spring (25) is installed on the inner wall of the first sliding chute, and two ends of the spring (25) are respectively and fixedly connected with the lower end of the sliding rod (23) and the inner wall of the first sliding chute.

4. The high-speed coprecipitation device for precipitating rare earth ore according to claim 1, wherein the first stirring rod (10) and the second stirring rod (27) are installed in a staggered manner.

5. The high-speed coprecipitation device for rare earth ore precipitation according to claim 1, wherein a support bar (21) is fixedly mounted on the inner wall of the separation barrel (15), and the upper surface of the support bar (21) is attached to the lower surface of the collection box (20).

6. The high-speed coprecipitation device for precipitating rare earth ore according to claim 1, wherein a sealing strip (28) is fixedly installed on the inner wall of the square hole, and the outer surface of the collection box (20) is attached to the inner wall of the sealing strip (28).

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