CN112058376A - Broken recovery plant of lithium cell - Google Patents

Abstract

The invention discloses a lithium battery crushing and recycling device, which relates to the technical field of lithium battery recycling and comprises a crushing barrel, wherein a feeding barrel is arranged at the upper end of the crushing barrel, a crushing structure is arranged in the feeding barrel, a screening structure is arranged in the crushing barrel, and a partition plate is further arranged at the center of the bottom of the crushing barrel; a liquid receiving pool and a conveyor belt are further arranged in the crushing barrel, the conveyor belt is arranged right below the filter screen, the liquid receiving pool is arranged right below the rotating screen, and a second discharge port is further formed in the position, opposite to the conveyor belt, of the side wall of the crushing barrel; the invention has the advantages of convenient use, high crushing and screening efficiency and good effect.

Description

Broken recovery plant of lithium cell

Technical Field

The invention relates to the technical field of lithium battery recovery, in particular to a lithium battery crushing and recovering device.

Background

The lithium cell is after using longer time, can the performance ageing appear, the condition that electrolyte reduces, and the cathode material of lithium cell has higher value, consequently, can retrieve after the lithium cell uses, the lithium cell is when retrieving, driven recovery mode is mainly unpack the lithium cell apart, this kind of recovery mode efficiency is low excessively, be eliminated gradually, and current recovery mode is mainly that a lithium cell carries out the breakage earlier, then retrieve the positive pole of lithium cell, this kind of recovery mode can go on in batches, high efficiency, but the breakage and the screening of current lithium cell divide into two steps and go on, lead to the lithium cell breakage, the reduction of screening whole process efficiency, consequently, this application has set up the broken recovery plant of a lithium cell.

Disclosure of Invention

The invention aims to provide a lithium battery crushing and recycling device, which is used for solving the problem that in the prior art described in the background art, the recycling efficiency is reduced because crushing and screening are separately performed in the lithium battery recycling process.

In order to achieve the above purpose, the present invention provides the following technical solutions: the crushing and recycling equipment for the lithium battery comprises a crushing barrel, wherein a feeding barrel is arranged at the upper end of the crushing barrel, a crushing structure is arranged in the feeding barrel, a screening structure is arranged inside the crushing barrel, and a partition plate is further arranged at the center of the bottom of the crushing barrel; the screening structure comprises a rotating column, a filter screen, an air cylinder and a first discharge port, wherein the rotating column is rotatably arranged on the inner wall of the crushing barrel, the filter screen and the air cylinder are rotatably arranged on the inner wall of the crushing barrel, the first discharge port is arranged on the side wall of the crushing barrel, the rotating column is in sliding contact with the upper surface of the partition plate, a horizontal rotating screen is arranged on the circumferential wall of the rotating column, the feeding barrel is right opposite to the rotating screen, a rotating shaft of the filter screen is in sliding contact with the rotating column, a piston rod of the air cylinder is rotatably connected with the filter screen, an inclined first material guide plate is arranged on the first discharge port, a first vibrator and a second vibrator are respectively arranged on the rotating screen and the filter screen, a second speed reducer is further arranged on the outer wall of the crushing barrel, a second servo motor is arranged on the second speed reducer, the second; still be provided with in the broken bucket and connect liquid pond and conveyer belt, the conveyer belt is under the filter screen, connect the liquid pond under the rotation net, the lateral wall of broken bucket still is provided with the second bin outlet to the position of using the conveyer belt.

Preferably: screening structure is including setting up locating plate on broken bucket inside wall and running through the through-hole that rotates the net, be provided with spring and guide post on the locating plate, the guide post slides and runs through the spring, the guide post stretches into in the through-hole.

Preferably: the fan is arranged on the partition board and is right opposite to the first discharging port, an inclined second material guide plate is further arranged in the first discharging port, the second material guide plate is arranged below the first material guide plate, and the fan is arranged between the first material guide plate and the second material guide plate.

Preferably: a plurality of interval between the first crushing roller is greater than a plurality of interval between the second crushing roller, first crushing roller includes and is connected the first roller that acquires power with first speed reducer, installs the first roll body on first roller, and the roll surface of first roll body is provided with a plurality of broken district and a plurality of quartering hammer, and a plurality of broken district and a plurality of quartering hammer alternate setting, and the quartering hammer between two adjacent first crushing rollers realizes the breakage to the lithium cell with the cooperation of broken district, the roll surface of broken district is to the convex of indent.

Compare traditional cylindrical crushing roller, material (lithium cell) can be accomodate in the broken district of this crushing roller to carry on spacingly to the material in broken, prevent material atress slippage, also can solve, the material of great volume is difficult to get into the difficult problem between two crushing rollers, the breaking hammer is realized the breakage to the lithium cell with the cooperation of broken district, broken dynamics can concentrate with the breaking hammer on, the material is concentrating the atress in the restriction of convex broken district, crushing effect is better.

Preferably: the front end of the breaking hammer is an arc-shaped hammer face protruding outwards, the breaking hammer is assembled on a bearing shaft through a bearing, and the bearing shaft is part of the first roller body; the arc-shaped hammer face is provided with a strip-shaped bulge, and the top surface of the bulge is provided with a blade. The quartering hammer passes through the bearing to be installed on first roll body, and the quartering hammer can be at the epaxial free rotation of bearing, avoids first roll body to be appeared by the dead condition of material card.

Preferably: the front end of quartering hammer is outside convex hammer face, and the quartering hammer assembly is on the driving shaft, and the driving shaft passes first roll body and first roller cooperation transmission, the driving shaft sets up with first roller is perpendicular, and realizes the transmission through bevel gear group between driving shaft and the first roller, and when first roller of first roller drive rotated, the driving shaft rotation was also driven simultaneously, and driving shaft drive quartering hammer rotates, and when the quartering hammer extrudeed the breakage to the lithium cell with the cooperation of broken district, self also rotated at high speed, can further improve crushing effect, also can avoid first roll body to appear by the dead condition of material card. The arc-shaped hammer face is provided with strip-shaped bulges, the top surfaces of the bulges are provided with blades, and the bulges arranged on the arc-shaped hammer face tear materials when the hammer rotates at a high speed.

Preferably: the inner side walls of the partition plate and the crushing barrel are respectively provided with an inclined liquid guide plate.

Preferably: the crushing structure comprises a plurality of transversely-arranged first crushing rollers and a plurality of transversely-arranged second crushing rollers, wherein the first crushing rollers are rotatably arranged on the inner wall of the feeding barrel, the second crushing rollers are arranged below the first crushing rollers, the positions, corresponding to the first crushing rollers and the second crushing rollers, of the outer wall of the feeding barrel are respectively provided with a first speed reducer, a first servo motor connected with the first speed reducer is arranged on the first speed reducer, and the first speed reducer is connected with the first crushing rollers and the second crushing rollers corresponding to the first speed reducer.

Preferably: the inner wall of the feed barrel is also provided with a circular arc baffle.

Preferably: the outer wall of broken bucket still is provided with the electric cabinet, be provided with industrial computer and control panel in the electric cabinet, the industrial computer respectively with control panel, first servo motor, second servo motor, first electromagnetic shaker, second electromagnetic shaker, cylinder, fan, conveyer belt electric connection.

The beneficial effect of adopting above technical scheme is:

this application carries out two breakings through the first crushing roller and the second crushing roller that set up to the lithium cell, improve broken effect, rotation net on the rotation post through the screening structure can separate electrolyte and solid, then the rotation post can drive and rotate the net and rotate, can pass on solid material to the filter screen, separate large granule and tiny particle through the filter screen, can drive the filter screen through the cylinder and rotate, make large granule material discharge from first stock guide, the tiny particle can be carried out the selection by the fan at the in-process of whereabouts, partly is discharged from the second stock guide, partly falls on the conveyer belt and discharges from the second bin outlet, and electrolyte can fall in connecing the liquid bath.

Drawings

Fig. 1 is a front view of a lithium battery crushing and recovering apparatus according to the present invention.

Fig. 2 is a schematic structural diagram of a lithium battery crushing and recycling device of the invention.

Fig. 3 is a schematic structural view of the first crushing roller.

Wherein: the crushing device comprises a crushing barrel 10, a feeding barrel 11, a partition plate 12, a crushing structure 20, a first crushing roller 21, a first roller body 211, a first roller shaft 212, an arc-shaped hammer surface 213, a protrusion 214, a crushing hammer 215, a crushing area 216, a driving shaft 217, a second crushing roller 22, a first speed reducer 23, a first servo motor 24, a baffle 25, a screening structure 30, a rotating column 31, a second speed reducer 32, a second servo motor 33, a rotating net 34, a first vibrator 35, a through hole 36, a positioning plate 37, a guide column 38, a spring 39, an air cylinder 310, a filter screen 311, a second vibrator 312, a first discharge port 313, a first guide plate 314, a liquid receiving pool 40, a liquid discharge pipe 41, a liquid guide plate 42, a conveyor belt 50, a second discharge port 51, a fan 60, a second guide plate 61 and an electric cabinet 70.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

In the embodiment, as shown in fig. 1-2, in the embodiment, a lithium battery crushing and recycling device includes a crushing barrel 10, a feeding barrel 11 is disposed at an upper end of the crushing barrel 10, a crushing structure 20 is disposed in the feeding barrel 11, a screening structure 30 is disposed inside the crushing barrel 10, and a partition plate 12 is further disposed at a central position of a bottom of the crushing barrel 10; the screening structure 30 comprises a rotary column 31 rotatably arranged on the inner wall of the crushing barrel 10, a filter screen 311 and a cylinder 310 rotatably arranged on the inner wall of the crushing barrel 10, and a first discharge port 313 arranged on the side wall of the crushing barrel 10, wherein the rotary column 31 is in sliding contact with the upper surface of the partition plate 12, a horizontal rotary net 34 is arranged on the circumferential wall of the rotary column 31, the feed barrel 11 is just opposite to the rotary net 34, the rotary shaft of the filter screen 311 is in sliding contact with the rotary column 31, a piston rod of the cylinder 310 is rotatably connected with the filter screen 311, a first guide plate 314 inclined is arranged on the first discharge port 313, a first vibrator 35 and a second vibrator 312 are respectively arranged on the rotary net 34 and the filter screen 311, the outer wall of the crushing barrel 10 is also provided with a second speed reducer 32, a second servo motor 33 is arranged on the second speed reducer 32, and the second servo motor 33 is connected with the second speed reducer 32, the second speed reducer 32 is connected with the rotating column 31; the crushing barrel 10 is further internally provided with a liquid receiving pool 40 and a conveyor belt 50, the conveyor belt 50 is arranged under the filter screen 311, the liquid receiving pool 40 is arranged under the rotating screen 34, and a second discharge port 51 is further arranged at the position of the conveyor belt 50 for the side wall of the crushing barrel 10.

Preferably: the screening structure 30 comprises a positioning plate 37 arranged on the inner side wall of the crushing barrel 10 and a through hole 36 penetrating through the rotating net 34, a spring 39 and a guide post 38 are arranged on the positioning plate 37, the guide post 38 penetrates through the spring 39 in a sliding mode, and the guide post 38 extends into the through hole 36.

Preferably: the partition plate 12 is provided with a fan 60, the fan 60 is over against the first discharge port 313, an inclined second material guide plate 61 is further arranged in the first discharge port 313, the second material guide plate 61 is arranged below the first material guide plate 314, and the fan 60 is arranged between the first material guide plate 314 and the second material guide plate 61.

Preferably: the inner side walls of the partition plate 12 and the crushing barrel 10 are respectively provided with an inclined liquid guide plate 42.

Preferably: the crushing structure 20 comprises a plurality of transversely-arranged first crushing rollers 21 rotatably arranged on the inner wall of the feed barrel 11 and a plurality of transversely-arranged second crushing rollers 22 rotatably arranged on the inner wall of the feed barrel 11, the second crushing rollers 22 are arranged below the first crushing rollers 21, first speed reducers 23 are respectively arranged at positions, corresponding to the first crushing rollers 21 and the second crushing rollers 22, of the outer wall of the feed barrel 11, first servo motors 24 connected with the first speed reducers 23 are arranged on the first speed reducers 23, and the first speed reducers 23 are connected with the first crushing rollers 21 and the second crushing rollers 22 corresponding to the positions.

Preferably: the inner wall of the feed barrel 11 is also provided with a circular arc baffle 25.

Preferably: the outer wall of the crushing barrel 10 is further provided with an electric cabinet 70, an industrial personal computer and a control panel are arranged in the electric cabinet 70, and the industrial personal computer is electrically connected with the control panel, the first servo motor 24, the second servo motor 33, the first vibrator 35, the second vibrator 312, the air cylinder 310, the fan 60 and the conveyor belt 50 respectively.

The specific implementation manner of this embodiment:

when the lithium battery crusher is used, firstly, lithium batteries are led in from a feeding barrel 11, a first servo motor 24 drives a first crushing roller 21 and a second crushing roller 22 to rotate through a first speed reducer 23, the lithium batteries are crushed, the crushed materials directly fall on a rotating net 34 or slide along a baffle 25 onto the rotating net 34, at the moment, a first vibrator 35 drives the rotating net 34 to vibrate, so that electrolyte is separated from solids, the electrolyte can fall into a liquid receiving pool 40 or flow into the liquid receiving pool 40 along a liquid guide plate 42 and is discharged from a liquid storage pipe 41, then a second servo motor 33 drives the rotating net 34 on a rotating column 31 to rotate 90 degrees through a second speed reducer 32, the vertical state is kept, so that the materials on the rotating net 34 fall on a filter screen 311, the second vibrator 312 drives the filter screen 311 to vibrate, so that small-particle materials on the filter screen 311 fall through the filter screen 311, and a fan 60 can blow on the small-particle materials, winnowing the small particle materials, discharging one part of the small particle materials from the second material guide plate 61, and discharging the other part of the small particle materials on the conveyor belt 50 through a second discharge hole 51; the rotating cylinder 310 can drive the filter screen 311 to rotate, so that the filter screen 311 inclines, and large-particle materials of the filter screen 311 are discharged through the first material guide plate 314.

Wherein the spring 39 can play a certain supporting and damping role for the rotating net 34.

As shown in fig. 3, the distance between the first crushing rollers is greater than the distance between the second crushing rollers, the first crushing rollers include a first roller shaft 212 connected with a first speed reducer to obtain power, and a first roller body 211 installed on the first roller shaft 212, the roller surface of the first roller body 211 is provided with a plurality of crushing zones 216 and a plurality of crushing hammers 215, the plurality of crushing zones 216 and the plurality of crushing hammers 215 are arranged alternately, the crushing hammers 215 between two adjacent first crushing rollers cooperate with the crushing zones 216 to realize the crushing of the lithium battery, and the roller surface of the crushing zones 216 is in an arc shape inward concave.

Compare traditional cylindrical crushing roller, material (lithium cell) can be accomodate in the broken district of this crushing roller to carry on spacingly to the material in broken, prevent material atress slippage, also can solve, the material of great volume is difficult to get into the difficult problem between two crushing rollers, the breaking hammer is realized the breakage to the lithium cell with the cooperation of broken district, broken dynamics can concentrate with the breaking hammer on, the material is concentrating the atress in the restriction of convex broken district, crushing effect is better.

The front end of the breaking hammer 215 is an outward convex arc-shaped hammer face 213, the breaking hammer is assembled on a driving shaft 217, the driving shaft 217 penetrates through a first roller body 211 to be in matched transmission with a first roller shaft 212, the driving shaft 217 is perpendicular to the first roller shaft 212, transmission between the driving shaft 217 and the first roller shaft 212 is achieved through a bevel gear set (in the prior art and not shown in the figure), when the first roller shaft 212 drives the first roller body 211 to rotate, the driving shaft 217 is driven to rotate, the driving shaft 217 drives the breaking hammer 215 to rotate, when the breaking hammer 215 is matched with a breaking area 216 to extrude and break lithium batteries, the breaking hammer rotates at a high speed, the breaking effect can be further improved, and the situation that the first roller body is blocked by materials can be avoided. The arc-shaped hammer surface 213 is provided with a strip-shaped bulge 214, the top surface of the bulge 214 is provided with a blade, and the bulge arranged on the arc-shaped hammer surface plays a tearing role on the material when the material rotates at high speed.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the inventive concept of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (9)

1. The utility model provides a broken recovery plant of lithium cell, includes broken bucket, its characterized in that: a feeding barrel is arranged at the upper end of the crushing barrel, a crushing structure is arranged in the feeding barrel, a screening structure is arranged in the crushing barrel, and a partition plate is further arranged at the center of the bottom of the crushing barrel; the screening structure comprises a rotating column, a filter screen, an air cylinder and a first discharge port, wherein the rotating column is rotatably arranged on the inner wall of the crushing barrel, the filter screen and the air cylinder are rotatably arranged on the inner wall of the crushing barrel, the first discharge port is arranged on the side wall of the crushing barrel, the rotating column is in sliding contact with the upper surface of the partition plate, a horizontal rotating screen is arranged on the circumferential wall of the rotating column, the feeding barrel is right opposite to the rotating screen, a rotating shaft of the filter screen is in sliding contact with the rotating column, a piston rod of the air cylinder is rotatably connected with the filter screen, an inclined first material guide plate is arranged on the first discharge port, a first vibrator and a second vibrator are respectively arranged on the rotating screen and the filter screen, a second speed reducer is further arranged on the outer wall of the crushing barrel, a second servo motor is arranged on the second speed reducer, the second; still be provided with in the broken bucket and connect liquid pond and conveyer belt, the conveyer belt is under the filter screen, connect the liquid pond under the rotation net, the lateral wall of broken bucket still is provided with the second bin outlet to the position of using the conveyer belt.

2. The crushing and recycling device of lithium batteries according to claim 1, wherein the screening structure comprises a positioning plate disposed on the inner side wall of the crushing barrel and a through hole penetrating through the rotating net, the positioning plate is provided with a spring and a guide post, the guide post slidably penetrates through the spring, and the guide post extends into the through hole.

3. The lithium battery crushing and recycling device according to claim 2, wherein a fan is disposed on the partition plate, the fan faces the first discharge opening, a second inclined material guide plate is further disposed in the first discharge opening, the second material guide plate is disposed below the first material guide plate, and the fan is disposed between the first material guide plate and the second material guide plate.

4. The crushing recovery device of the lithium battery as claimed in claim 3, wherein the partition plate and the inner side wall of the crushing barrel are respectively provided with an inclined liquid guide plate.

5. The lithium battery crushing and recycling device according to claim 4, wherein the crushing structure comprises a plurality of transversely arranged first crushing rollers rotatably disposed on the inner wall of the feeding barrel, and a plurality of transversely arranged second crushing rollers rotatably disposed on the inner wall of the feeding barrel, the second crushing rollers are disposed below the first crushing rollers, first speed reducers are respectively disposed on the outer wall of the feeding barrel at positions corresponding to the first crushing rollers and the second crushing rollers, the first speed reducers are provided with first servo motors connected with the first speed reducers, and the first speed reducers are connected with the first crushing rollers and the second crushing rollers at corresponding positions.

6. The lithium battery crushing and recycling device according to claim 5, wherein the distance between the first crushing rollers is larger than the distance between the second crushing rollers, the first crushing rollers comprise a first roller shaft connected with a first speed reducer for obtaining power, and a first roller body mounted on the first roller shaft, the roller surface of the first roller body is provided with a plurality of crushing areas and a plurality of crushing hammers, the plurality of crushing areas and the plurality of crushing hammers are arranged alternately, the crushing hammers between two adjacent first crushing rollers are matched with the crushing areas to crush the lithium battery, and the roller surface of each crushing area is in an inward concave arc shape.

7. The lithium battery crushing and recycling device as claimed in claim 6, wherein the front end of the crushing hammer is an outwardly convex circular-arc-shaped hammer surface, the crushing hammer is assembled on a bearing shaft through a bearing, and the bearing shaft is a part of the first roller body; the arc-shaped hammer face is provided with a strip-shaped bulge, and the top surface of the bulge is provided with a blade.

8. The crushing and recycling device for lithium batteries according to claim 5, wherein the inner wall of the feeding barrel is further provided with a baffle plate in the shape of a circular arc.

9. The broken recovery plant of lithium cell of claim 8, characterized in that, the outer wall of broken bucket still is provided with the electric cabinet, be provided with industrial computer and control panel in the electric cabinet, the industrial computer respectively with control panel, first servo motor, second servo motor, first electromagnetic shaker, second electromagnetic shaker, cylinder, fan, conveyer belt electric connection.

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