CN116624874A - Waste material treatment device for battery manufacturing - Google Patents

Abstract

The invention discloses a waste treatment device for battery manufacturing, which relates to the technical field of waste treatment devices for battery manufacturing, and aims to solve the technical problems that an organic binder cannot be removed, a tail gas purifying function cannot be achieved, and crushed waste cannot be screened in the prior art; wherein, the first supporting component of symmetric distribution around chassis upper end left side fixedly connected with, the second supporting component of symmetric distribution around chassis upper end right side fixedly connected with, fixedly connected with screening case between first supporting component and the second supporting component, this waste material processing apparatus utilizes the design of pyrolysis oven, carry out pyrolysis operation to the waste material to get rid of the organic binder in the waste material, then purify tail gas through the tail gas purifying box, and can sieve the waste material after smashing through the screening case.

Description

Waste material treatment device for battery manufacturing

Technical Field

The invention belongs to the technical field of waste treatment devices for battery manufacturing, and particularly relates to a waste treatment device for battery manufacturing.

Background

The battery can produce waste materials such as aluminum foil, copper foil, diaphragm, electrode and the like during manufacturing, and the waste materials have great recycling value.

At present, the invention patent with the patent number of CN202110612945.9 discloses a waste treatment device for producing a new energy automobile battery, which comprises a shell, an elastic piece and a driving device, wherein the shell is vertically arranged and is vertically communicated, and a plurality of vertically extending crushing grooves are formed in the inner wall of the shell; the elastic piece comprises an upper screen, an elastic strip and a base, the base is rotatably arranged in the shell, the upper screen is positioned above the base, a gap is reserved between the upper screen and the inner wall of the shell, the upper screen is driven by the driving device to rotate, and a plurality of first screen holes are formed in the upper screen; the plurality of elastic strips are uniformly distributed at intervals along the circumferential direction of the upper screen, the upper end of each elastic strip is connected with the upper screen, the lower end of each elastic strip is connected with the base, and the upper end of each elastic strip is positioned at the front side of the lower end along the rotation direction of the upper screen; the cylindrical structure that middle part diameter is less than upper end and lower tip diameter is enclosed to a plurality of bullet strips, and leave the clearance between the inner wall of cylindrical structure and shell, and the clearance reduces from last down gradually, it causes bullet strip rotation when being hindered at the waste material stack, make superimposed waste material drop, remove the rotation of bullet strip and hindered, but this waste material processing apparatus's function singleness only can smash the waste material, can't pyrolyze the waste material, can not get rid of organic binder, and does not possess tail gas clean-up function, the feature of environmental protection is poor, and can not sieve the waste material after smashing.

Therefore, in order to solve the above problem of single function, a solution is needed to improve the usage scenario of the waste treatment device.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the invention aims to provide a waste treatment device for battery manufacturing, which aims to solve the technical problems that the organic binder cannot be removed, the tail gas purification function is not provided, and crushed waste cannot be screened in the prior art.

(2) Technical proposal

In order to solve the technical problems described above, the present invention provides a waste treatment apparatus for battery manufacturing, comprising a tail gas purifying tank, a pyrolysis furnace, a feed frame, a pulverizing tank, a feed pump and a bottom frame, which are sequentially disposed on the right side of the tail gas purifying tank; the utility model provides a filter screen, pyrolysis furnace left end is installed to pyrolysis furnace left end, pyrolysis furnace and tail gas purifying box are installed the trachea, feed cylinder and stiffening rod are installed to pyrolysis furnace upper end right side fixedly connected with, feed cylinder internal rotation is connected with the (mixing) shaft, helical blade is installed in the (mixing) shaft outside, feed cylinder leans on one side upper end to be provided with the charging inlet, the equal fixedly connected with movable pulley in feed cylinder lower extreme four corners department, install in the (mixing) shaft with the axis of rotation that the cam links to each other, screening box upper end fixedly connected with feed bin, the filter screen of screening incasement fixedly connected with equidistance distribution, pyrolysis furnace left end is installed the combustor, install the trachea between pyrolysis furnace and the tail gas purifying box, feed cylinder fixedly connected with feed cylinder and stiffening rod, feed cylinder internal rotation is connected with the (mixing) shaft, helical blade is installed in the (mixing) shaft outside, the feed cylinder leans on one side upper end to be provided with the charging inlet, feed cylinder lower extreme four corners department is fixedly connected with movable pulley, install in the (mixing) tank cover upper end with the filter screen, install the filter screen of the pyrolysis furnace, install in proper order, install in the (mixing) shaft cover is installed to the second side, install the grid is installed from the grid below the second side, install the filter screen, install the grid is installed to the filter screen between the end down the exhaust pump, install the filter screen in proper order, the filter screen.

When the waste material treatment device of the technical scheme is used, waste materials produced by the battery are fed into the pyrolysis furnace, the waste materials fall on the upper end of the partition plate, the burner sprays fuel and air for mixed combustion, the waste materials are heated to a certain extent for decomposition reaction, waste gas enters the tail gas purifying box through the air pipe, the spraying pipe at the lower end of the sealing cover sprays water downwards, the waste gas is filtered by the filler arranged between the first grid and the second grid from bottom to top, finally purified tail gas is taken out, products after pyrolysis in the pyrolysis furnace are fed into the feeding barrel through the feeding port, the stirring shaft drives the helical blades to rotate, finally, the crushed feed port at the upper end of the box cover is fed into the crushing box, the crushing roller rotates inwards to crush the waste materials, crushed powder is fed into the feed bin through the feeding pump and the second feed pipe by the first feed pipe, the powder in the feed bin uniformly falls into the screening box, the first motor driving the upper end of the supporting frame is started to rotate, the cam and the rotating shaft are driven to vibrate under the action of the first supporting component and the second supporting component, and the screening box is screened through the filter screen.

Further, first supporting component and second supporting component all include the support column, fixedly connected in proper order spring and the connecting seat of support column upper end, first supporting component's height is greater than second supporting component's height, through the design of spring, makes screening case vibration to with the waste material screening.

Further, the discharge gate has been seted up to pyrolysis oven front end downside, install the discharge cap in the discharge gate, pyrolysis oven upper end is provided with the pyrolysis feed inlet, install the valve in the pyrolysis feed inlet, ensure the leakproofness of pyrolysis feed inlet department.

Further, gas outlet and water inlet have been set gradually from a left side to the right side to tail gas purification case upper end, tail gas purification case front end seted up with the second grid upper end flushes the feed inlet, install the lid of reloading in the feed inlet, the drain is installed to the feed inlet lower extreme, is convenient for the change of second grid upper end filler through the feed inlet.

Further, the second motor is installed to the feed barrel upper end, install the driving medium between second motor and the (mixing) shaft, the feed opening is installed to feed barrel right side lower extreme, gives the (mixing) shaft with the power transmission of second motor through the driving medium.

Further, smashing case rear end fixedly connected with third motor, the driving gear is installed in the output shaft outside of third motor, the driven gear of intermeshing is installed in smashing roller rear end outside, driving gear and driven gear are the meshing and connect, use through driving gear and driven gear's cooperation, make smashing roller synchronous inwards rotate, smash the waste material.

Further, the feed bin aligns from top to bottom with screening case, install star discharge valve in the feed bin, make the even unloading of waste material, avoid the waste material to pile up, guarantee screening effect.

Further, the quantity of filter screen is not less than 3, and the mesh diameter of filter screen reduces in proper order, the filter screen adopts the design of controlling low slope, and the precision of screening is higher, and the ejection of compact of being convenient for the material.

Further, the reinforcing rod is provided with 2, and reinforcing rod upper end links to each other with the feed barrel, ensures the stability of feed barrel.

Further, the first grille and the second grille are of the same specification, the mesh diameter of the first grille and the second grille is larger than that of the filler, the filler is any one of quartz sand, activated carbon, anthracite and manganese sand, and tail gas is purified through the filler, so that air cannot be polluted.

(3) Advantageous effects

Compared with the prior art, the invention has the beneficial effects that: according to the waste treatment device disclosed by the invention, the pyrolysis operation is performed on the waste by utilizing the design of the pyrolysis furnace, so that the organic binder in the waste is removed, then the tail gas is purified by the tail gas purifying box, the environment pollution of the exhaust gas is avoided, the environmental friendliness is better, the crushed waste can be screened by the screening box, the subsequent processing is facilitated, the automatic feeding of the waste after pyrolysis is realized by the feeding barrel, the labor capacity of workers is reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of a waste treatment device according to an embodiment of the present invention;

FIG. 2 is a schematic view showing an internal structure of a pyrolysis furnace in one embodiment of the waste treatment apparatus according to the present invention;

FIG. 3 is a schematic view showing an internal structure of a tail gas purifying tank in one embodiment of the waste treatment apparatus of the present invention;

FIG. 4 is a schematic view showing the internal structure of a feed cylinder in one embodiment of the waste treatment device of the present invention;

FIG. 5 is a schematic view showing an internal structure of a pulverizing box in one embodiment of the waste treatment apparatus of the present invention;

FIG. 6 is a schematic view showing the internal structure of a screening box in one embodiment of the waste treatment apparatus of the present invention.

The marks in the drawings are: 1. a tail gas purifying box; 2. a pyrolysis furnace; 3. a feeding frame; 4. a crushing box; 5. a feed pump; 6. a chassis; 7. a first support assembly; 8. a second support assembly; 81. a support column; 82. a spring; 83. a connecting seat; 9. a screening box; 10. driving the supporting frame; 11. a first motor; 12. a cam; 13. a rotating shaft; 14. a storage bin; 15. a filter screen; 16. a burner; 17. an air pipe; 18. a feed cylinder; 19. a reinforcing rod; 20. a stirring shaft; 21. a helical blade; 22. a feed inlet; 23. a sliding wheel; 24. a case cover; 25. crushing a feed inlet; 26. a pulverizing roller; 27. sealing cover; 28. a shower pipe; 29. a first grid; 30. a second grid; 31. a filler; 32. a partition plate; 33. a first material pipe; 34. a second material pipe; 35. a discharge port; 36. a discharge cover; 37. a pyrolysis feed inlet; 38. a gas outlet; 39. a water inlet; 40. a material changing port; 41. a material changing cover; 42. a sewage outlet; 43. a second motor; 44. a transmission member; 45. a feed opening; 46. a third motor; 47. a drive gear; 48. a driven gear.

Detailed Description

The specific embodiment is a waste treatment device for battery manufacturing, the schematic perspective structure of which is shown in fig. 1, and the schematic internal structure of a pyrolysis furnace 2 is shown in fig. 2, and the waste treatment device comprises a tail gas purifying box 1, the pyrolysis furnace 2, a feeding frame 3, a crushing box 4, a feeding pump 5 and a bottom frame 6 which are sequentially arranged on the right side of the tail gas purifying box 1; the left side of the upper end of the underframe 6 is fixedly connected with a first supporting component 7 which is longitudinally and symmetrically distributed, the right side of the upper end of the underframe 6 is fixedly connected with a second supporting component 8 which is longitudinally and symmetrically distributed, a screening box 9 is fixedly connected between the first supporting component 7 and the second supporting component 8, the front end of the underframe 6 is fixedly connected with a driving supporting frame 10, the upper end of the driving supporting frame 10 is fixedly connected with a first motor 11, the rear end of the first motor 11 is provided with a cam 12, a rotating shaft 13 connected with the cam 12 is arranged in the screening box 9, the upper end of the screening box 9 is fixedly connected with a feed bin 14, a filter screen 15 which is equidistantly distributed is fixedly connected in the screening box 9, the left end of the pyrolysis furnace 2 is provided with a combustor 16, an air pipe 17 is arranged between the pyrolysis furnace 2 and the tail gas purifying box 1, the upper end of the feeding frame 3 is fixedly connected with a feeding barrel 18 and a reinforcing rod 19, the feeding barrel 18 is rotationally connected with a stirring shaft 20, a helical blade 21 is arranged on the outer side of the stirring shaft 20, a feeding port 22 is arranged on the upper end of one side of the feeding barrel 18, sliding wheels 23 are fixedly connected to four corners of the lower end of the feeding frame 3, a detachable box cover 24 is arranged on the upper end of the crushing box 4, a crushing feeding port 25 is arranged on the upper end of the box cover 24, crushing rollers 26 which are symmetrically distributed left and right are rotationally connected in the crushing box 4, a sealing cover 27 is arranged on the upper end of the tail gas purifying box 1, a spray pipe 28 is arranged on the lower end of the sealing cover 27, a first grille 29 and a second grille 30 are sequentially arranged in the tail gas purifying box 1 from top to bottom, a filler 31 is arranged between the first grille 29 and the second grille 30, a partition plate 32 is arranged on the lower side in the pyrolysis furnace 2, a first material pipe 33 is arranged between the outlet of the crushing box 4 and the inlet of the feed pump 5, and a second material pipe 34 is arranged between the outlet of the feed pump 5 and the stock bin 14.

The first support component 7 and the second support component 8 comprise a support column 81, a spring 82 and a connecting seat 83 which are sequentially and fixedly connected to the upper end of the support column 81, the height of the first support component 7 is larger than that of the second support component 8, a discharge hole 35 is formed in the lower side of the front end of the pyrolysis furnace 2, a discharge cover 36 is arranged in the discharge hole 35, a pyrolysis feed inlet 37 is formed in the upper end of the pyrolysis furnace 2, and a valve is arranged in the pyrolysis feed inlet 37.

Meanwhile, a gas outlet 38 and a water inlet 39 are sequentially formed in the upper end of the tail gas purifying box 1 from left to right, a feed opening 40 which is flush with the upper end of the second grille 30 is formed in the front end of the tail gas purifying box 1, a feed cap 41 is installed in the feed opening 40, a drain outlet 42 is installed in the lower end of the feed opening 40, a second motor 43 is installed in the upper end of the feeding barrel 18, a transmission piece 44 is installed between the second motor 43 and the stirring shaft 20, and a feed opening 45 is installed in the lower end of the right side of the feeding barrel 18.

In addition, the rear end fixedly connected with third motor 46 of crushing case 4, the driving gear 47 is installed in the output shaft outside of third motor 46, the driven gear 48 of intermeshing is installed in the rear end outside of crushing roller 26, driving gear 47 and driven gear 48 are the meshing connection, feed bin 14 and screening case 9 are aligned from top to bottom, install star discharge valve in the feed bin 14.

In addition, the quantity of filter screen 15 is not less than 3, and the mesh diameter of filter screen 15 reduces in proper order, filter screen 15 adopts the design of controlling high low slope, reinforcing rod 19 is provided with 2, and reinforcing rod 19 upper end links to each other with feed barrel 18, first grid 29 and second grid 30 are the same specification, and the mesh diameter of first grid 29 and second grid 30 is greater than the diameter of packing 31, and packing 31 is any one of quartz sand, active carbon, anthracite and manganese sand.

The internal structure of the tail gas purifying box 1 in the waste treatment device is shown in fig. 3, the internal structure of the feeding cylinder 18 is shown in fig. 4, the internal structure of the crushing box 4 is shown in fig. 5, and the internal structure of the screening box 9 is shown in fig. 6.

When the waste treatment device of the technical scheme is used, waste materials manufactured by batteries are fed into the pyrolysis furnace 2, the waste materials fall on the upper end of the partition plate 32, the combustor 16 sprays fuel and air for mixed combustion, the waste materials are heated to a certain degree for decomposition reaction, waste gas enters the tail gas purifying box 1 through the air pipe 17, the spraying pipe 28 at the lower end of the sealing cover 27 sprays water downwards, the waste gas is filtered from bottom to top through the packing 31 arranged between the first grid 29 and the second grid 30, finally purified tail gas is taken out, pyrolyzed products in the pyrolysis furnace 2 are fed into the feeding barrel 18 through the feeding port 22, the stirring shaft 20 drives the spiral blades 21 to rotate, finally, the crushed powder is fed into the crushing box 4 through the crushing feed port 25 at the upper end of the box cover 24, the crushing roller 26 rotates inwards to crush the waste materials, the crushed powder is fed into the material pipe 14 through the feeding pump 5 and the second feed pipe 34 by the first feed pipe 33, the powder in the material hopper 14 uniformly falls into the screening box 9, the first motor 11 driving the upper end of the supporting frame 10 is started to drive the cam 12 and the rotating shaft 13 to rotate under the action of the first supporting component 7 and the second supporting component 8, and the screening box 9 is vibrated by the filter screen 15.

Claims (10)

1. The waste treatment device for battery manufacturing comprises a tail gas purifying box (1), a pyrolysis furnace (2), a feeding frame (3), a crushing box (4), a feeding pump (5) and a bottom frame (6), wherein the pyrolysis furnace (2), the feeding frame (3), the crushing box (4), the feeding pump (5) and the bottom frame (6) are sequentially arranged on the right side of the tail gas purifying box (1); the novel rotary kiln is characterized in that a first supporting component (7) which is distributed in a front-back symmetrical mode is fixedly connected to the left side of the upper end of the underframe (6), a second supporting component (8) which is distributed in a front-back symmetrical mode is fixedly connected to the right side of the upper end of the underframe (6), a screening box (9) is fixedly connected between the first supporting component (7) and the second supporting component (8), a driving supporting frame (10) is fixedly connected to the front end of the underframe (6), a first motor (11) is fixedly connected to the upper end of the driving supporting frame (10), a cam (12) is mounted at the rear end of the first motor (11), a rotating shaft (13) which is connected with the cam (12) is mounted in the screening box (9), a feed bin (14) is fixedly connected to the upper end of the screening box (9), a filter screen (15) which is distributed in an equidistant mode is mounted at the inner end of the screening box (9), a combustor (16) is mounted at the left end of the pyrolysis furnace (2), a gas pipe (17) is mounted between the pyrolysis furnace (2) and the tail gas box (1), a feeding frame (3) is fixedly connected with a reinforcing blade (18), a stirring shaft (20) is mounted at the outer side of the stirring shaft (20), the utility model provides a feeding barrel (18) is provided with charge door (22) by one side upper end down, equal fixedly connected with movable pulley (23) in feed frame (3) lower extreme four corners department, smash case (4) upper end and install detachable case lid (24), case lid (24) upper end is provided with smashes feed inlet (25), smash case (4) internal rotation is connected with left and right symmetry distribution's crushing roller (26), sealed lid (27) are installed to tail gas clean-up case (1) upper end, shower (28) are installed to sealed lid (27) lower extreme, install first grid (29) and second grid (30) from last down in tail gas clean-up case (1), be provided with packing (31) between first grid (29) and second grid (30), baffle (32) are installed to the downside in pyrolysis oven (2), install first material pipe (33) between the export of smash case (4) and the import of feed pump (5), install between export and second feed bin (34) of feed pump (5).

2. Waste disposal device for battery manufacturing according to claim 1, characterized in that the first support assembly (7) and the second support assembly (8) each comprise a support column (81), a spring (82) and a connection seat (83) fixedly connected in sequence to the upper end of the support column (81), the height of the first support assembly (7) being greater than the height of the second support assembly (8).

3. The waste treatment device for battery manufacturing according to claim 1, wherein a discharge hole (35) is formed in the lower side of the front end of the pyrolysis furnace (2), a discharge cover (36) is arranged in the discharge hole (35), a pyrolysis feed inlet (37) is formed in the upper end of the pyrolysis furnace (2), and a valve is arranged in the pyrolysis feed inlet (37).

4. Waste treatment device for battery manufacturing according to claim 1, characterized in that the upper end of the tail gas purifying box (1) is provided with a gas outlet (38) and a water inlet (39) in sequence from left to right, the front end of the tail gas purifying box (1) is provided with a material changing opening (40) flush with the upper end of the second grid (30), a material changing cover (41) is arranged in the material changing opening (40), and the lower end of the material changing opening (40) is provided with a drain outlet (42).

5. Waste treatment device for battery manufacturing according to claim 1, characterized in that the upper end of the feeding cylinder (18) is provided with a second motor (43), a transmission part (44) is arranged between the second motor (43) and the stirring shaft (20), and the lower end of the right side of the feeding cylinder (18) is provided with a feed opening (45).

6. The waste treatment device for battery manufacturing according to claim 1, wherein the rear end of the crushing box (4) is fixedly connected with a third motor (46), a driving gear (47) is arranged outside an output shaft of the third motor (46), a driven gear (48) which is meshed with each other is arranged outside the rear end of the crushing roller (26), and the driving gear (47) and the driven gear (48) are connected in a meshed manner.

7. Waste disposal device for battery manufacturing according to claim 1, characterized in that the silo (14) and the screening box (9) are aligned up and down, and that a star-shaped discharge valve is mounted in the silo (14).

8. The waste treatment device for battery manufacturing according to claim 1, wherein the number of the filter screens (15) is not less than 3, and the mesh diameters of the filter screens (15) are sequentially decreased, and the filter screens (15) are designed to be inclined to the left and right.

9. Waste disposal device for battery manufacturing according to claim 1, characterized in that the reinforcement bars (19) are provided in 2 pieces and that the upper ends of the reinforcement bars (19) are connected to the feed cylinder (18).

10. The waste treatment device for battery manufacturing according to claim 1, wherein the first grid (29) and the second grid (30) are of the same specification, and the mesh diameter of the first grid (29) and the second grid (30) is larger than the diameter of the filler (31), and the filler (31) is any one of quartz sand, activated carbon, anthracite and manganese sand.