CN220879217U - Device for recycling lepidolite concentrate from lepidolite beneficiation tail mud - Google Patents

Abstract

The utility model relates to the technical field of separation and mineral separation, in particular to a device for recovering lepidolite concentrate from lepidolite mineral separation tail mud, which comprises a mixing box, wherein the top end of the mixing box is provided with a mounting frame, a driving mechanism is arranged on the mounting frame, the middle part of the mounting frame is rotationally connected with a rotating rod, the rotating rod is driven by the driving mechanism, and the bottom end of the rotating rod extends to the inside of the mixing box and is provided with a rotating blade; the inner wall of the mixing box is provided with a supporting frame, a stirring mechanism is arranged on the supporting frame and driven to rotate by a driving mechanism, a foam pushing plate is arranged on the stirring mechanism, a foam discharging port matched with the foam pushing plate is formed in the side wall of the mixing box, and a collecting box is connected to the foam discharging port. The utility model can effectively improve the stirring efficiency, ensure that ore pulp, medicament and air are fully fused to quickly generate froth, and improve the recovery efficiency of lepidolite concentrate.

Description

Device for recycling lepidolite concentrate from lepidolite beneficiation tail mud

Technical Field

The utility model relates to the technical field of separation and mineral separation, in particular to a device for recovering lepidolite concentrate from lepidolite mineral separation tail mud.

Background

The lithium battery is widely applied to the electric automobile industry with the characteristic performance advantage, and becomes one of main power supplies of the electric automobile, wherein lithium is mainly extracted from lepidolite ore, ore pulp is generated due to the fact that ore is excessively crushed in the ore crushing and grinding processes of ore dressing plants inevitably, and primary ore pulp in the ore is added, so that waste of lithium resources is avoided, a flotation machine is used for recycling lepidolite ore in the ore pulp at present.

However, the existing flotation machine is insufficient in stirring, so that the combination effect of the agents is poor, and the agents cannot be well combined with ore pulp to generate froth, so that the recovery efficiency of lepidolite concentrate is affected.

Disclosure of utility model

The utility model aims at solving the problems in the background technology and provides a device for recovering lepidolite concentrate from lepidolite beneficiation tail mud.

The technical scheme of the utility model is as follows: the device for recycling lepidolite concentrate from lepidolite beneficiation tail mud comprises a mixing box, wherein a mounting frame is mounted at the top end of the mixing box, a driving mechanism is arranged on the mounting frame, a rotating rod is rotationally connected with the middle part of the mounting frame, the rotating rod is driven by the driving mechanism, and the bottom end of the rotating rod extends to the inside of the mixing box and is provided with a rotating blade;

The inner wall of the mixing box is provided with a supporting frame, a stirring mechanism is arranged on the supporting frame and driven to rotate by a driving mechanism, a foam pushing plate is arranged on the stirring mechanism, a foam discharging port matched with the foam pushing plate is formed in the side wall of the mixing box, and a collecting box is connected to the foam discharging port.

Preferably, the driving mechanism comprises a first transmission structure and a transmission shaft, the transmission shaft is rotationally connected with the mounting frame, the first transmission structure is connected with the rotating rod and the transmission shaft, the first transmission structure is driven by a motor, the bottom end of the transmission shaft is provided with a second transmission structure, and the second transmission structure is connected with the transmission shaft and the stirring mechanism.

Preferably, the first transmission structure is a belt transmission mechanism and the second transmission structure is a tooth transmission mechanism.

Preferably, the stirring mechanism comprises a rotary pipe which is rotationally connected with the supporting frame, the bottom end of the rotary pipe is connected with the protecting cover, the rotary rod and the rotary blade are arranged inside the rotary pipe and the protecting cover, and the side walls of the rotary pipe and the protecting cover are respectively provided with a second stirring blade and a first stirring blade.

Preferably, the first stirring blade and the second stirring blade are provided with a plurality of groups of flow disturbing holes with different diameters, and the side walls of the first stirring blade and the second stirring blade are provided with stirring rods.

Preferably, the top end of the mixing box is detachably provided with two groups of cover plates, and the cover plates are provided with mounting ports matched with the rotating pipes.

Preferably, two groups of feeding pipes are arranged on the mounting frame, the other ends of the feeding pipes extend to the inside of the rotating pipe, and the feeding pipes are not in contact with the rotating pipe.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial technical effects: according to the utility model, two groups of cover plates are arranged at the top end of the mixing box and are positioned outside the rotary pipe, so that leakage of ore pulp or froth in the process of fine selection is avoided; the rotary rod and the stirring mechanism are driven to rotate simultaneously through the driving mechanism, negative pressure is formed in the protective cover when the rotary rod and the rotary blades rotate, outside air is introduced into the rotary pipe and the protective cover, ore pulp and medicament are added into the rotary pipe through the feeding pipe, ore pulp, medicament and air are fully contacted and fused into the mixing box through the rotary blades, the stirring mechanism can fully stir the ore pulp, the medicament and the air, stirring efficiency is improved, floating foam can be rapidly generated on the upper layer of the ore pulp, the floating foam with concentrate is discharged into the collecting box through the foam pushing plate, and recovery efficiency of lepidolite concentrate is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a connection mode of a feeding pipe and a rotary pipe according to the present utility model;

FIG. 3 is a schematic view of the stirring mechanism of the present utility model;

fig. 4 is a schematic diagram of a connection mode of the driving mechanism and the rotary blade according to the present utility model.

Reference numerals: 1. a mixing box; 101. a cover plate; 102. a mounting frame; 103. a feeding pipe; 104. a support frame; 2. a first transmission structure; 201. a transmission shaft; 202. a second transmission structure; 3. a rotating rod; 301. rotating the leaves; 302. a rotating tube; 303. a protective cover; 4. a first stirring blade; 401. a stirring rod; 402. a disturbance orifice; 5. a second stirring blade; 6. a foam pushing plate; 7. and (5) collecting a box.

Detailed Description

Example 1

As shown in fig. 1 to 3, the device for recovering lepidolite concentrate from lepidolite beneficiation tail mud provided by the utility model comprises a mixing box 1, wherein the top end of the mixing box 1 is provided with a mounting frame 102, a driving mechanism is arranged on the mounting frame 102, the middle part of the mounting frame 102 is rotationally connected with a rotating rod 3 through a bearing, the rotating rod 3 is driven by the driving mechanism, and the bottom end of the rotating rod 3 extends to the inside of the mixing box 1 and is provided with a rotating blade 301;

further, the driving mechanism comprises a first transmission structure 2 and a transmission shaft 201, the transmission shaft 201 is rotationally connected with the mounting frame 102 through a bearing, the first transmission structure 2 is connected with the rotating rod 3 and the transmission shaft 201, the first transmission structure 2 is driven by a motor, a second transmission structure 202 is arranged at the bottom end of the transmission shaft 201, and the second transmission structure 202 is connected with the transmission shaft 201 and the stirring mechanism; the first transmission structure 2 is driven by controlling the starting motor, so that the rotating rod 3 and the transmission shaft 201 rotate simultaneously, and the rotation of the transmission shaft 201 drives the stirring mechanism to rotate through the second transmission structure 202.

Further, the first transmission structure 2 is a belt transmission mechanism, and the second transmission structure 202 is a tooth transmission mechanism.

As shown in fig. 1, 3 and 4, the inner wall of the mixing box 1 is provided with a supporting frame 104, a stirring mechanism is mounted on the supporting frame 104 and driven to rotate by a driving mechanism, a foam pushing plate 6 is mounted on the stirring mechanism, a foam discharging port matched with the foam pushing plate 6 is formed in the side wall of the mixing box 1, a collecting box 7 is connected to the foam discharging port, an inclined tube is arranged between the foam discharging port and the collecting box 7, and the floating foam discharging with concentrate is facilitated.

Further, the stirring mechanism comprises a rotating pipe 302 which is rotationally connected with the supporting frame 104 through a bearing, the second transmission structure 202 is connected with the transmission shaft 201 and the rotating pipe 302, the bottom end of the rotating pipe 302 is connected with a protective cover 303, the rotating rod 3 and the rotating blades 301 are arranged in the rotating pipe 302 and the protective cover 303, and the side walls of the rotating pipe 302 and the protective cover 303 are respectively provided with a second stirring blade 5 and a first stirring blade 4; the frothing plate 6 is mounted on the side wall of the rotating tube 302.

Further, two groups of feeding pipes 103 are installed on the installation frame 102, the other ends of the feeding pipes 103 extend to the inside of the rotating pipe 302, and the feeding pipes 103 are not in contact with the rotating pipe 302.

In this embodiment, two sets of cover plates 101 are cooperatively installed at the top end of the mixing box 1 and sleeved outside the rotating pipe 302, the controller starts the driving mechanism to drive the rotating rod 3 to rotate, meanwhile, the rotating pipe 302 is driven to rotate along the supporting frame 104, ore pulp or medicament is added into the rotating pipe 302 through the feeding pipe 103, the rotating rod 3 rotates to drive the rotating blades 301 to rotate, negative pressure is formed when the rotating blades 301 rotate inside the protective cover 303, and then external air is introduced into the rotating pipe 302 to be fully mixed with the added ore pulp or medicament and then enters the mixing box 1 until the ore pulp reaches a set amount, meanwhile, the rotating pipe 302 rotates to drive the first stirring blade 4 and the second stirring blade 5 to stir the ore pulp further, so that floating foam is generated rapidly, when floating foam is accumulated to a certain extent, the rotating pipe 302 rotates to drive the foam pushing plate 6, and floating foam on the top layer is pushed into the collecting box 7 along the foam discharging port to be collected when the foam pushing plate 6 rotates.

Example two

As shown in fig. 1 and fig. 3, in the device for recovering lepidolite concentrate from lepidolite beneficiation tail mud provided by the utility model, compared with the first embodiment, a plurality of groups of turbulence holes 402 with different diameters are formed in the first stirring blade 4 and the second stirring blade 5, and stirring rods 401 are arranged on the side walls of the first stirring blade 4 and the second stirring blade 5.

In this embodiment, the flow of the ore pulp can be accelerated through the arrangement of the disturbing holes 402, and the stirring effect is further improved through the arrangement of the stirring rods 401, so that the ore pulp can be fully mixed with the medicament and the air, and the quality of flotation is improved.

Example III

As shown in fig. 1 and fig. 2, compared with the first embodiment, the device for recovering lepidolite concentrate from lepidolite beneficiation tail mud provided by the utility model has the advantages that two groups of cover plates 101 are detachably arranged at the top end of the mixing box 1, and mounting ports matched with the rotating pipes 302 are formed in the cover plates 101.

In this embodiment, the two sets of cover plates 101 are convenient and fast to assemble and disassemble, and do not interfere with the rotation of the rotating tube 302, and leakage of froth generated by fully mixing the ore pulp and air can be avoided.

Working principle: two sets of cover plates 101 are arranged at the top end of the mixing box 1 and are positioned outside the rotary pipe 302, so that leakage of ore pulp or froth in the concentration process is avoided; the rotating rod 3 and the rotating pipe 302 are driven to rotate simultaneously through the driving mechanism, negative pressure is formed in the protective cover 303 when the rotating rod 3 and the rotating blade 301 rotate, external air is introduced into the rotating pipe 302 and the protective cover 303, ore pulp and medicament are added into the rotating pipe 302 through the feeding pipe 103, ore pulp, medicament and air are fully contacted and fused into the mixing box 1 through the rotating blade 301, the rotating pipe 302 rotates to drive the first stirring blade 4 and the second stirring blade 5 to further stir the ore pulp, the ore pulp flows through the disturbance flow hole 402, the ore pulp is stirred again through the stirring rod 401, stirring efficiency is improved, the upper layer of the ore pulp can quickly generate froth, and the froth with concentrate is discharged into the collecting box 7 through the froth pushing plate 6 to be collected.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. The device for recycling lepidolite concentrate from lepidolite beneficiation tail mud is characterized by comprising a mixing box (1), wherein a mounting frame (102) is mounted at the top end of the mixing box (1), a driving mechanism is arranged on the mounting frame (102), a rotating rod (3) is rotationally connected to the middle part of the mounting frame (102), the rotating rod (3) is driven by the driving mechanism, and a rotating blade (301) is mounted in the mixing box (1) in an extending manner from the bottom end of the rotating rod (3);

The inner wall of the mixing box (1) is provided with a supporting frame (104), a stirring mechanism is arranged on the supporting frame (104), the stirring mechanism is driven to rotate by a driving mechanism, a foam pushing plate (6) is arranged on the stirring mechanism, a foam discharging port matched with the foam pushing plate (6) is formed in the side wall of the mixing box (1), and a collecting box (7) is connected to the foam discharging port.

2. The device for recycling lepidolite concentrate from lepidolite beneficiation tail mud according to claim 1, wherein the driving mechanism comprises a first transmission structure (2) and a transmission shaft (201), the transmission shaft (201) is rotationally connected with the mounting frame (102), the first transmission structure (2) is connected with the rotating rod (3) and the transmission shaft (201), the first transmission structure (2) is driven by a motor, a second transmission structure (202) is arranged at the bottom end of the transmission shaft (201), and the second transmission structure (202) is connected with the transmission shaft (201) and the stirring mechanism.

3. A device for recovering lepidolite concentrate from lepidolite beneficiation tailings according to claim 2, characterized in that the first transmission structure (2) is provided as a belt transmission and the second transmission structure (202) is provided as a tooth transmission.

4. The device for recycling lepidolite concentrate from lepidolite beneficiation tail mud according to claim 1, wherein the stirring mechanism comprises a rotating pipe (302) connected with a supporting frame (104) in a rotating mode, a protective cover (303) is connected to the bottom end of the rotating pipe (302), a rotating rod (3) and a rotating blade (301) are arranged inside the rotating pipe (302) and the protective cover (303), and a second stirring blade (5) and a first stirring blade (4) are respectively arranged on the side walls of the rotating pipe (302) and the protective cover (303).

5. The device for recovering lepidolite concentrate from lepidolite beneficiation tail mud according to claim 4, wherein a plurality of groups of turbulence holes (402) with different diameters are formed in the first stirring blade (4) and the second stirring blade (5), and stirring rods (401) are arranged on the side walls of the first stirring blade (4) and the second stirring blade (5).

6. The device for recovering lepidolite concentrate from lepidolite beneficiation tail mud according to claim 4, wherein two groups of cover plates (101) are detachably arranged at the top end of the mixing box (1), and mounting ports matched with the rotary pipes (302) are formed in the cover plates (101).

7. The device for recovering lepidolite concentrate from lepidolite beneficiation tail mud according to claim 4, wherein two groups of feeding pipes (103) are arranged on the mounting frame (102), the other ends of the feeding pipes (103) extend to the inside of the rotating pipe (302), and the feeding pipes (103) are not contacted with the rotating pipe (302).