CN117181045A - Liquid phase cladding device for graphite cathode material processing - Google Patents

Abstract

The invention relates to the technical field of chemical processes and discloses a liquid phase cladding device for processing graphite cathode materials, which comprises a screening box, wherein a screening mechanism is arranged on the left side of the outer wall of the screening box and is used for screening graphite particles, a scraping mechanism is arranged at the bottom of the outer wall of the screening box and is used for scraping residual graphite cathode materials in the device; the screening mechanism comprises a supporting plate, the supporting plate is fixedly connected to the middle part of the left side of the outer wall of the screening box, the left end of the top wall of the supporting plate is fixedly connected with a double-headed motor, and the first output end of the double-headed motor is fixedly connected with a rotating plate. The screening mechanism can be used for screening graphite during graphite feeding, so that the difference of chemical properties of formed negative electrode materials caused by different graphite particle sizes is avoided, the inner wall of the stirring tank can be continuously scraped, and the reduction of the yield of the negative electrode materials caused by the sticky adhesion of the liquid phase coating agent on the inner wall of the stirring tank is avoided.

Description

Liquid phase cladding device for graphite cathode material processing

Technical Field

The invention relates to the technical field of chemical processes, in particular to a liquid phase cladding device for processing a graphite anode material.

Background

Graphite is an allotrope of carbon, is gray black and opaque drum, has stable chemical properties, corrosion resistance, acid and alkali introduction and other medicaments, is not easy to react, has the advantages of high specific capacity, lower platform voltage and the like, but simultaneously has poor compatibility to electrolyte, and a large volume of solvent molecules and lithium ions are often generated in the charging and discharging process to be co-intercalated into a graphite layer, so that the graphite layer expands and peels off, the capacity and service life of a battery are reduced, the non-uniformity of the surface of the graphite is reduced, a uniform and compact SE I film is difficult to form in the first charging and discharging process of the battery, the first charging and discharging efficiency is low, the circulation performance is poor, the problem is usually solved by surface coating, the main effect of the surface coating is to cover active sites on the surface of natural graphite, reduce the occurrence of irreversible side reaction, reduce the specific surface area of the natural graphite, inhibit the generation of the SE I film, isolate graphite particles from the electrolyte, prevent the co-intercalation of the solvent from causing capacity reduction, play a limiting role on the volume expansion of the graphite, and increase the circulation stability.

The existing graphite negative electrode material is coated by a liquid phase material, so that the chemical property of the graphite negative electrode material is more stable, graphite particles are often screened before coating, and graphite is mixed with a coating agent after being screened independently, so that the required processing time in the process is longer, the processing efficiency is reduced, the texture of the coating agent is sticky, the coating agent is adhered to the inner wall of a stirring box body more easily after the graphite is mixed, and the yield of the coated graphite negative electrode material is greatly reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a liquid phase cladding device for processing graphite anode materials, which solves the problems that the processing time required by the process is long and the cladding agent is easier to adhere to the inner wall of a stirring box body after the graphite is singly screened and then mixed with the cladding agent.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the liquid phase cladding device for processing the graphite negative electrode material comprises a screening box, wherein a screening mechanism is arranged on the left side of the outer wall of the screening box and used for screening graphite particles, a scraping mechanism is arranged at the bottom of the outer wall of the screening box and used for scraping residual graphite negative electrode material in the device;

screening mechanism includes the backup pad, backup pad fixed connection is in the outer wall left side middle part of screening case, the roof left end fixedly connected with double-end motor of backup pad, the first output fixedly connected with revolving plate of double-end motor, the roof front side fixedly connected with first fixed column of revolving plate, the outer wall middle part of first fixed column rotates the first rocker of being connected with, the spout has all been seted up to the upper portion front and back side in the inner wall of screening case, two the equal sliding connection of inside of spout has first slider, two the adjacent one side fixedly connected with filter plate of outer wall of first slider, the outer wall left side fixedly connected with first pivot of filter plate, the right-hand member of first rocker rotates the middle part of connecting at first pivot.

Preferably, the scraping mechanism comprises a drive bevel gear, the second output end of drive bevel gear fixed connection at double-end motor, the lower part rotates in the inner wall right side of screening case and is connected with the bull stick, the equal fixedly connected with driving gear of outer wall left and right sides of bull stick, the outer wall middle part fixedly connected with pinion, the left end of bull stick runs through screening case and fixedly connected with driven bevel gear, the outer wall bottom intercommunication of screening case has the agitator tank, the equal fixedly connected with first dead lever in upper portion in the inner wall left and right sides of agitator tank, two the adjacent one end of outer wall of first dead lever all rotates and is connected with driven gear, driven gear's outer wall right side upper end fixedly connected with second fixed column, the right-hand member fixedly connected with second pivot of second fixed column, the middle part of second pivot rotates and is connected with the second rocker, the end fixedly connected with fourth pivot of second rocker, the middle part of fourth pivot rotates and is connected with the connecting rod, the inner wall left side fixedly connected with agitator tank, the bottom of scraper blade is connected with the third pivot of scraper blade, the end fixedly connected with top wall of third pivot.

Preferably, the equal fixedly connected with bracing piece of end about the outer wall of agitator tank, a plurality of the equal fixedly connected with connecting plate in adjacent one side of outer wall of bracing piece, left side the outer wall left side fixedly connected with motor of connecting plate, the output of motor runs through connecting plate and fixedly connected with two-way threaded rod, two threaded rod's outer wall middle part threaded connection has two screw thread pieces in proper order, two upper portion fixedly connected with gag lever post in the adjacent one side of outer wall of connecting plate, two the right-hand member of gag lever post runs through two screw thread pieces in proper order, two the equal fixedly connected with cardboard of roof of screw thread piece, two the recess has all been seted up around the roof of cardboard.

Preferably, the bottom of a plurality of the bracing piece is equal fixed connection at the outer wall top of supporting seat, the inside of supporting seat is provided with holds the box, hold the equal fixedly connected with second slider of outer wall front and back side of box, the draw-in groove has all been seted up to the inner wall front and back side of supporting seat, second slider and draw-in groove sliding connection.

Preferably, a switch is fixedly connected to the front side of the outer wall of the screening box, and the switch is respectively and electrically connected with the double-headed motor and the motor.

Preferably, the inner left and right ends of the scraping plate are respectively provided with a cavity, the upper and lower ends of the inner wall of each cavity are respectively fixedly connected with a second spring, and the outer walls of the second springs are respectively fixedly connected with an extension plate at the end far away from each other.

Preferably, the inside fixedly connected with second dead lever of spout, the left end of second dead lever runs through first slider, the outer wall right-hand member of second dead lever is provided with first spring, the left end fixed connection of first spring is on the outer wall right side of first slider, the right-hand member fixed connection of first spring is on the inner wall right side of spout.

Preferably, the driving bevel gear is in meshed connection with the driven bevel gear, and the driving gear is in meshed connection with the driven gear.

Preferably, the top wall fixedly connected with baffle of screening case, the feed inlet has been seted up at the roof middle part of baffle, the equal fixedly connected with set square of end about the roof of feed inlet.

Preferably, the fence is fixedly connected with the periphery of the top wall of the filter plate, the left end and the right end of the bottom of the outer wall of the filter plate are fixedly connected with sloping plates, and the left end and the right end of the top wall of the baffle are provided with exhaust ports.

The invention provides a liquid phase cladding device for processing a graphite anode material. The beneficial effects are as follows:

1. according to the invention, the graphite material can be screened while being fed through the screening mechanism, so that the processing steps of the graphite cathode material are reduced, the time required by graphite coating is reduced, and the graphite material can be concentrated to fall on the surface of the coating agent in the screening process, so that the graphite coating efficiency is higher, and in addition, the flow direction of water vapor in the graphite coating can be changed, and the phenomenon that the graphite in screening is in contact with the water vapor to cause agglomeration and cannot be screened is avoided.

2. According to the invention, the graphite negative electrode material and the coating agent can be fully mixed by the arrangement of the scraping mechanism, the situation that the graphite negative electrode material is adhered to the inner wall of the stirring device due to the sticky texture of the coating agent can be avoided, the utilization rate of the graphite negative electrode material is prevented from being too low, and the yield of the graphite negative electrode coating process is increased.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a side view of the present invention;

FIG. 5 is a perspective cross-sectional view of the screening mechanism of the present invention;

FIG. 6 is a front cross-sectional view of the screening mechanism of the present invention;

FIG. 7 is a perspective cross-sectional view of the scraping mechanism of the present invention;

FIG. 8 is a perspective partial structural exploded view of the present invention;

fig. 9 is a view showing the scraper structure of the present invention in a disassembled state.

Wherein, 1, screening the case; 2. a screening mechanism; 201. a double-ended motor; 202. a rotating plate; 203. a first fixing column; 204. a first rocker; 205. a first rotating shaft; 206. a filter plate; 207. a support plate; 208. a chute; 209. a first slider; 3. a scraping mechanism; 301. a drive bevel gear; 302. a driven bevel gear; 303. a drive gear; 304. a stirring plate; 305. a rotating rod; 306. a first fixing rod; 307. a driven gear; 308. a second fixing column; 309. a second rotating shaft; 310. a baffle frame; 311. a third rotating shaft; 312. a second rocker; 313. a fourth rotating shaft; 314. a scraper; 315. a stirring tank; 316. a connecting rod; 4. a switch; 5. a support base; 6. a support rod; 7. a clamping groove; 8. a storage case; 9. an exhaust port; 10. a feed inlet; 11. a fence; 12. a sloping plate; 13. a second fixing rod; 14. a first spring; 15. a clamping plate; 16. a motor; 17. a connecting plate; 18. a groove; 19. a limit rod; 20. a two-way threaded rod; 21. an extension plate; 22. a cavity; 23. a second spring; 24. a second slider; 25. a screw block; 26. a baffle; 27. triangle.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples:

referring to fig. 1-9, an embodiment of the invention provides a liquid phase cladding device for processing graphite cathode materials, which comprises a screening box 1, wherein a screening mechanism 2 is arranged on the left side of the outer wall of the screening box 1, the screening mechanism 2 is used for screening graphite particles, a scraping mechanism 3 is arranged at the bottom of the outer wall of the screening box 1, and the scraping mechanism 3 is used for scraping residual graphite cathode materials in the device;

screening mechanism 2 includes backup pad 207, backup pad 207 fixed connection is in the outer wall left side middle part of screening case 1, the roof left end fixedly connected with double-end motor 201 of backup pad 207, the first output fixedly connected with revolving plate 202 of double-end motor 201, the roof front side fixedly connected with first fixed column 203 of revolving plate 202, the outer wall middle part of first fixed column 203 rotates and is connected with first rocker 204, spout 208 has all been seted up to the upper portion front and back side in the inner wall of screening case 1, the equal sliding connection of inside of two spouts 208 has first slider 209, the adjacent one side fixedly connected with filter plate 206 of outer wall of two first sliders 209, the outer wall left side fixedly connected with first pivot 205 of filter plate 206, the right-hand member rotation of first rocker 204 is connected at the middle part of first pivot 205.

The first output end of the double-headed motor 201 rotates to drive the rotating plate 202 to rotate, the first fixed column 203 moves circularly along with the rotating plate, the left-right direction movement of the first fixed column 203 is converted into the left-right movement of the first rocker 204 to pull the filter plate 206 repeatedly under the limit action of the chute 208 to the first sliding block 209, the graphite negative electrode material is screened after being input into the feeding port 10, the graphite negative electrode material falls into the coating agent after being screened, the mixing process is started, the processing time is shortened, and the processing efficiency is improved.

The scraping mechanism 3 comprises a driving bevel gear 301, the driving bevel gear 301 is fixedly connected to the second output end of the double-headed motor 201, a rotating rod 305 is rotatably connected to the middle lower portion of the right side of the inner wall of the screening box 1, the driving gear 303 is fixedly connected to the left end and the right end of the outer wall of the rotating rod 305, a stirring plate 304 is fixedly connected to the middle portion of the outer wall of the rotating rod 305, the left end of the rotating rod 305 penetrates through the screening box 1 and is fixedly connected with a driven bevel gear 302, the bottom of the outer wall of the screening box 1 is communicated with a stirring box 315, the middle upper portion of the left side and the right side of the inner wall of the stirring box 315 is fixedly connected with a first fixed rod 306, adjacent ends of the outer walls of the two first fixed rods 306 are all rotatably connected with a driven gear 307, the upper end of the right side of the outer wall of the driven gear 307 is fixedly connected with a second fixed column 308, the right end of the second fixed column 308 is fixedly connected with a second rotating shaft 309, the middle of the second rotating shaft 309 is rotatably connected with a second rocking rod 312, the tail end of the second rocking rod 312 is fixedly connected with a fourth rotating shaft 313, the middle of the fourth rotating shaft 313 is rotatably connected with a connecting rod 316, the left side of the inner wall of the screening box 1 is fixedly connected with a baffle frame 310, the tail end of the bottom of the outer wall 310 is fixedly connected with a scraper blade 314, the tail end of the scraper blade 314 is slidably connected with the third rotating shaft 311, and the tail end of the third rotating shaft 311 is fixedly connected with the top shaft 311.

When the double-headed motor 201 rotates, the second output end drives the driving bevel gear 301 to rotate, the driving bevel gear 301 is meshed with the driven bevel gear 302 to rotate, so that the rotating rod 305 is driven to drive the stirring plate 304 to rotate to finish mixing of graphite cathode materials and coating agents, meanwhile, the rotating rod 305 is driven to drive the driving gear 303 to rotate, the driving gear 303 is meshed to drive the driven gear 307 to rotate, the second fixing column 308 on the outer wall of the driven gear 307 is driven to do circular motion, the second rocking rod 312 is driven to move up and down, the fourth rotating shaft 313 and the third rotating shaft 311 give the rotating direction of the connecting rod 316, and when the second rocking rod 312 moves up and down, the third rotating shaft 311 drives the scraping plate 314 to move up and down in the baffle frame 310, so that scraping of the inner wall of the stirring box 315 is finished, and the adhesion quantity of the graphite cathode materials on the inner wall of the stirring box 315 is reduced.

The equal fixedly connected with bracing piece 6 of end about the outer wall of agitator tank 315, the adjacent one side of outer wall of a plurality of bracing pieces 6 is all fixedly connected with connecting plate 17, the outer wall left side fixedly connected with motor 16 of left side connecting plate 17, motor 16's output runs through connecting plate 17 and fixedly connected with two-way threaded rod 20, two screw thread pieces 25 are screwed in proper order in the middle part of the outer wall of two-way threaded rod 20, upper portion fixedly connected with gag lever post 19 in the adjacent one side of outer wall of two connecting plates 17, two screw thread pieces 25 are run through in proper order in the right-hand member of gag lever post 19, the equal fixedly connected with cardboard 15 of roof of two screw thread pieces 25, recess 18 has all been seted up around the roof of two cardboard 15.

Through starting motor 16, motor 16 drives bi-directional threaded rod 20 and rotates, and under the spacing effect of gag lever post 19 to the direction of rotation of two screw thread pieces 25, two screw thread pieces 25 respectively relative movement drives cardboard 15 and keeps away from relatively to this is accomplished the opening of agitator tank 315 export, realizes graphite negative pole material exhaust effect, recess 18 and agitator tank 315 bottom block, avoids graphite negative pole material to spill from agitator tank 315 bottom.

The bottom of a plurality of bracing pieces 6 all fixed connection is at the outer wall top of supporting seat 5, and the inside of supporting seat 5 is provided with holds box 8, holds the equal fixedly connected with second slider 24 of the outer wall front and back side of box 8, and draw-in groove 7 has all been seted up to the inner wall front and back side of supporting seat 5, second slider 24 and draw-in groove 7 sliding connection.

The holding box 8 is used for holding graphite cathode materials discharged by the stirring box 315, and the holding box 8 can be conveniently disassembled and placed through sliding connection between the second sliding block 24 and the clamping groove 7, so that the transfer of the graphite cathode materials is completed.

The outer wall front side fixedly connected with switch 4 of screening case 1, switch 4 respectively with double-end motor 201 and motor 16 electric connection, the inside of scraper blade 314 is controlled the end and is all provided with cavity 22, the equal fixedly connected with second spring 23 of lower extreme about the inner wall of two cavities 22, the outer wall of a plurality of second springs 23 keeps away from the equal fixedly connected with extension board 21 of one end mutually.

The double-headed motor 201 and the motor 16 can be turned on by turning on the switch 4, the inner wall of the stirring tank 315 is trapezoidal, and the second spring 23 gives a space for the extension plate 21 to move when the scraping plate 314 moves up and down, so that the scraping plate 314 scrapes the inner walls of the stirring tanks 315 with different widths.

The inside fixedly connected with second dead lever 13 of spout 208, the left end of second dead lever 13 runs through first slider 209, and the outer wall right-hand member of second dead lever 13 is provided with first spring 14, and the left end fixed connection of first spring 14 is on the outer wall right side of first slider 209, and the right-hand member fixed connection of first spring 14 is on the inner wall right side of spout 208.

The first sliding block 209 drives to pull or compress the first spring 14 when moving left and right, and the elastic force generated by the first spring 14 enables the first sliding block 209 to move left and right to achieve better effect, so that the screening of the filter plate 206 is quickened, and the screening efficiency of graphite cathode materials is improved.

The drive bevel gear 301 is in meshed connection with the driven bevel gear 302, and the drive gear 303 is in meshed connection with the driven gear 307.

The driving bevel gear 301 is meshed with the driven bevel gear 302 to rotate under the rotation of the double-headed motor 201, the driven bevel gear 302 drives the rotating rod 305 to rotate, so that the stirring plate 304 is driven to rotate to uniformly mix the graphite cathode material and the coating agent, and the driven gear 307 drives the second fixed column 308 to rotate under the rotation of the driving gear 303, so that the scraping plate 314 is driven to scrape the inner wall of the stirring tank 315.

The roof fixedly connected with baffle 26 of screening case 1, feed inlet 10 has been seted up at the roof middle part of baffle 26, and the equal fixedly connected with set square 27 of end about the roof of feed inlet 10, the roof fixedly connected with rail 11 all around of filter plate 206, the equal fixedly connected with swash plate 12 of end about the outer wall bottom of filter plate 206, gas vent 9 has all been seted up to the end about the roof of baffle 26.

Baffle 26 avoids agitator tank 315 heat dissipation too fast when heating stirring, feed inlet 10 is used for the input of graphite negative pole material, set square 27 makes the scope increase of feed inlet 10 feeding, rail 11 avoids filter plate 206 to spill the condition that the graphite negative pole material was followed filter plate 206 side when sieving appears, two swash plates 12 have concentrated the position that is fallen to the cladding agent surface by screening graphite, make graphite negative pole material cladding more even, the vapor that agitator tank 315 produced when heating stirring can flow to both sides top along with swash plate 12 slope orbit simultaneously, graphite negative pole material contact vapor in the screening has been avoided appearing the phenomenon of agglomerating and has been caused unable sieving.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a graphite negative pole material processing is with liquid phase cladding device, includes screening case (1), its characterized in that: the left side of the outer wall of the screening box (1) is provided with a screening mechanism (2), the screening mechanism (2) is used for screening graphite particles, the bottom of the outer wall of the screening box (1) is provided with a scraping mechanism (3), and the scraping mechanism (3) is used for scraping residual graphite cathode materials in the device;

screening mechanism (2) are including backup pad (207), backup pad (207) fixed connection is in the outer wall left side middle part of screening case (1), the roof left end fixedly connected with double-end motor (201) of backup pad (207), the first output fixedly connected with of double-end motor (201) changes board (202), the roof front side fixedly connected with first fixed column (203) of changing board (202), the outer wall middle part rotation of first fixed column (203) is connected with first rocker (204), spout (208) have all been seted up to the upper portion front and back side in the inner wall of screening case (1), two equal sliding connection in inside of spout (208) has first slider (209), two the outer wall adjacent one side fixedly connected with filter plate (206) of first slider (209), the outer wall left side fixedly connected with first pivot (205), the right-hand member of first rocker (204) rotates the middle part of connecting at first pivot (205).

2. The liquid-phase cladding device for processing a graphite anode material according to claim 1, wherein: the scraping mechanism (3) comprises a drive bevel gear (301), the drive bevel gear (301) is fixedly connected with a second output end of a double-headed motor (201), a rotating rod (305) is rotationally connected to the middle lower part of the right side of the inner wall of the screening box (1), a driving gear (303) is fixedly connected to the left and right ends of the outer wall of the rotating rod (305), a stirring plate (304) is fixedly connected to the middle part of the outer wall of the rotating rod (305), the left end of the rotating rod (305) penetrates through the screening box (1) and is fixedly connected with a driven bevel gear (302), a stirring box (315) is communicated with the bottom of the outer wall of the screening box (1), a first fixed rod (306) is fixedly connected to the middle upper part of the left and right sides of the inner wall of the stirring box (315), a driven gear (307) is rotationally connected to the adjacent end of the outer wall of the first fixed rod (306), a second fixed column (308) is fixedly connected to the right end of the driven gear (309), a second rotating shaft (309) is fixedly connected to the middle part of the second rotating shaft (312), a fourth rotating shaft (313) is fixedly connected to the middle part of the second rotating shaft (312), the outer wall bottom sliding connection who keeps off frame (310) has scraper blade (314), the roof fixedly connected with third pivot (311) of scraper blade (314), the end rotation of connecting rod (316) is connected at the middle part of third pivot (311).

3. The liquid-phase cladding device for processing a graphite anode material according to claim 2, wherein: the stirring box is characterized in that the front and rear sides of the outer wall of the stirring box (315) are fixedly connected with supporting rods (6), a plurality of the supporting rods (6) are fixedly connected with connecting plates (17) on the adjacent sides of the outer wall, the left sides of the outer walls of the connecting plates (17) are fixedly connected with motors (16), the output ends of the motors (16) penetrate through the connecting plates (17) and are fixedly connected with bidirectional threaded rods (20), two threaded blocks (25) are sequentially connected with the middle parts of the outer walls of the bidirectional threaded rods (20) in a threaded mode, limiting rods (19) are fixedly connected with the middle upper parts of the adjacent sides of the outer walls of the connecting plates (17), the right ends of the limiting rods (19) sequentially penetrate through the two threaded blocks (25), clamping plates (15) are fixedly connected to the top walls of the threaded blocks (25), and grooves (18) are formed in the periphery of the top walls of the clamping plates (15).

4. A liquid phase cladding apparatus for processing a graphite anode material according to claim 3, wherein: the bottom of a plurality of bracing piece (6) is equal fixed connection at the outer wall top of supporting seat (5), the inside of supporting seat (5) is provided with holds box (8), hold box (8) the outer wall around all fixedly connected with second slider (24), draw-in groove (7) have all been seted up to the inner wall front and back side of supporting seat (5), second slider (24) and draw-in groove (7) sliding connection.

5. The liquid-phase cladding device for processing a graphite anode material according to claim 1, wherein: the front side of the outer wall of the screening box (1) is fixedly connected with a switch (4), and the switch (4) is electrically connected with the double-headed motor (201) and the motor (16) respectively.

6. The liquid-phase cladding device for processing a graphite anode material according to claim 2, wherein: the inner left end and the outer end of each scraper blade (314) are respectively provided with a cavity (22), the upper end and the lower end of the inner wall of each cavity (22) are respectively fixedly connected with a second spring (23), and the outer walls of the second springs (23) are respectively fixedly connected with an extension plate (21) at the positions away from one another.

7. The liquid-phase cladding device for processing a graphite anode material according to claim 1, wherein: the inside fixedly connected with second dead lever (13) of spout (208), first slider (209) are run through to the left end of second dead lever (13), the outer wall right-hand member of second dead lever (13) is provided with first spring (14), the left end fixed connection of first spring (14) is on the outer wall right side of first slider (209), the right-hand member fixed connection of first spring (14) is on the inner wall right side of spout (208).

8. The liquid-phase cladding device for processing a graphite anode material according to claim 2, wherein: the driving bevel gear (301) is in meshed connection with the driven bevel gear (302), and the driving gear (303) is in meshed connection with the driven gear (307).

9. The liquid-phase cladding device for processing a graphite anode material according to claim 1, wherein: the top wall of screening case (1) fixedly connected with baffle (26), feed inlet (10) have been seted up at the roof middle part of baffle (26), the end is all fixedly connected with set square (27) about the roof of feed inlet (10).

10. The liquid-phase cladding device for processing a graphite anode material according to claim 9, wherein: the top wall of filter plate (206) is fixedly connected with rail (11) all around, the outer wall bottom of filter plate (206) is all fixedly connected with swash plate (12) about, gas vent (9) have all been seted up to the top wall about end of baffle (26).