CN115178004A

CN115178004A - Lithium battery electrolyte fast drying black powder separation equipment

Info

Publication number: CN115178004A
Application number: CN202210657601.4A
Authority: CN
Inventors: 李立锋; 李根铭
Original assignee: Jiangxi Mingxin Environmental Protection Equipment Co ltd
Current assignee: Jiangxi Mingxin Environmental Protection Equipment Co ltd
Priority date: 2022-06-10
Filing date: 2022-06-10
Publication date: 2022-10-14
Anticipated expiration: 2042-06-10
Also published as: CN115178004B

Abstract

The invention provides a lithium battery electrolyte quick drying black powder separation device, and relates to the field of lithium battery electrolyte separation and recovery. This lithium battery electrolyte fast drying black powder splitter, including equipment shell and prescreening cylinder, the prescreening cylinder rotates to be connected inside the equipment shell, the prescreening cylinder left part outside is provided with four connection cylinders of evenly distributed, connect the equal fixedly connected with heat conduction pivot in cylinder right side middle part, the heat conduction pivot right-hand member outside all rotates and connects inside heat-conducting plate left side middle part, the heat-conducting plate outside all connects in heating pipe one end, the equal fixed connection of the heating pipe other end is at the battery drive end. The rotation that controls the primary screen cylinder through setting up the connection cylinder divides the sieve to handle, because the battery heats heat-conducting plate, heat conduction pivot and connection cylinder in proper order through the heating pipe, can carry out the inside stoving thermal treatment of primary screen cylinder, avoids black powder to carry partial electrolyte and leads to the overall quality to reduce.

Description

Lithium battery electrolyte fast drying black powder separation equipment

Technical Field

The invention relates to the technical field of lithium battery electrolyte separation and recovery, in particular to a lithium battery electrolyte quick drying and black powder separation device.

Background

With the continuous development of energy recovery technology, lithium ion batteries are widely applied to the electronic fields of electronic products such as power grid energy storage, electric automobiles, computers, communication and the like due to the characteristic that the lithium ion batteries can be recycled internally, and the lithium ion batteries are generally separated into electrolyte, a shell, metal dust and other structures for recycling when the lithium ion batteries are used for recycling battery energy.

Current lithium battery electrolyte is seeing the recovery in-process because electrolyte inside contains a large amount of black powder that can used repeatedly when carrying out the repeated preparation of battery, but current lithium battery electrolyte black powder recovery unit is because the inside a small amount of electrolyte that carries of black powder after drawing when acquireing black powder through the electrolyte separation often can lead to whole recovery quality to reduce, and the reuse rate of black powder reduces.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a lithium battery electrolyte quick drying black powder separation device, which solves the problem that the overall recovery quality is reduced because a small amount of electrolyte is carried in extracted black powder when the black powder is obtained through electrolyte separation in the existing lithium battery recovery process.

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a lithium cell electrolyte fast drying black powder splitter, includes equipment shell and prescreening cylinder, the prescreening cylinder rotates to be connected inside the equipment shell, the prescreening cylinder left part outside is provided with four of evenly distributed and connects the cylinder, connect the equal fixedly connected with heat conduction pivot in cylinder right side middle part, the heat conduction pivot right-hand member outside is all rotated and is connected inside heat-conducting plate left side middle part, the heat-conducting plate outside is all connected in heating pipe one end, the equal fixed connection of the heating pipe other end is at the battery drive end, connect the cylinder and the heat conduction pivot outside all rotates and connect inside the equipment shell left part, heat-conducting plate, heating pipe and battery drive end all set up inside the equipment shell.

Preferably, connect the equal fixedly connected with transmission pivot in cylinder left side middle part, the equal fixed connection of transmission pivot other end is at the servo motor drive end, it all sets up to heat conduction steel class material with the primary screen cylinder to connect the cylinder, servo motor uses the primary screen cylinder to be inside the equipment casing left end as the setting of the even annular distribution of axle respectively.

Preferably, the prescreening roller outside is provided with the prescreening sieve mesh that runs through the inside and outside both sides of prescreening roller, prescreening roller right side fixed connection is inner in go-between left side, go-between left side outer end fixed connection is on stainless steel screen cloth cover right side, the stainless steel screen cloth cover outside is provided with evenly distributed's sieve mesh, the stainless steel screen cloth cover outside is rotated and is connected inside the equipment casing right part.

Preferably, the primary screening roller left end fixedly connected with threaded connection section of thick bamboo, go up ring right side fixedly connected with feeding connecting cylinder, just threaded connection section of thick bamboo and feeding connecting cylinder outside rotate respectively and connect inside equipment casing left side and right side middle part, threaded connection section of thick bamboo, feeding connecting cylinder and primary screening roller form and sieve from the mechanism.

Preferably, threaded connection section of thick bamboo left end outside threaded connection is inside screw thread ejection of compact lid right side middle part, the equal fixedly connected with ejection of compact lid installation piece in both ends about the screw thread ejection of compact lid, feeding connection section of thick bamboo right side end outside sliding connection is inside sealed feeding lid left side middle part, the equal fixedly connected with in both sides connects the handle around screw thread ejection of compact lid and the sealed feeding lid.

Preferably, a sliding empty groove is formed in the middle of the upper side of the sealed feeding cover, a transmission sliding groove is formed in the upper portion of the sealed feeding cover, the upper end of the transmission sliding groove is communicated with the lower side of the middle of the sliding empty groove, the transmission sliding groove is wider than the sliding empty groove, a feeding port installation block is slidably connected to the inner portion of the sliding empty groove, a transmission sliding block is fixedly connected to the middle of the lower side of the feeding port installation block, the outer side of the transmission sliding block is slidably connected to the inner side of the transmission sliding groove, a plurality of connecting springs are evenly distributed and fixedly connected to the left and right of the lower side of the feeding port installation block, the other ends of the connecting springs are fixedly connected to the front and the rear of the left side of the left end of the sliding empty groove respectively, sliding shaft grooves are formed in the front and rear of the left side of the left end of the transmission sliding empty groove respectively, a limiting block is slidably connected to the outer side of the limiting block groove, and the clamping groove is respectively formed in the front of the top side and the rear portion of the top side of the feeding connection cylinder.

Preferably, the inside lower part of equipment shell is provided with the screening cavity, just the cylinder lower extreme outside of prescreening sets up at the screening cavity, stainless steel screen cloth cover sets up to the little loudspeaker form of the big right diameter of left diameter, the inside slope screening cavity that sets up the height from left to right of prescreening cylinder middle part, the inside louvre that runs through the evenly distributed of the inside and outside both sides of equipment shell that is provided with in equipment shell upper portion.

Preferably, equipment shell downside outer end fixed connection is at the fixed plate, two all are provided with ejection of compact funnel about the equipment shell downside, ejection of compact funnel is inside all to be provided with the screening cavity, the ejection of compact funnel downside is provided with the discharge gate, the fixed plate downside is provided with the support frame, just the support frame rear side is provided with the opening, support frame rear side opening and discharge gate position correspond each other, support frame fixed connection is in connecting plate upside rear end, connecting plate upside left side front end is provided with automatically controlled cabinet, automatically controlled cabinet electric connection has servo motor, heating pipe and battery.

The working principle is as follows: when the separation equipment is used, the electrolyte mixed liquid to be separated is fed into the primary screening roller through the feeding end in the feeding connecting cylinder, the feeding port mounting block is pressed at the moment to perform vertical synchronous movement processing of the limiting clamping block through the transmission slide block, the sealing feeding cover is aligned with the feeding connecting cylinder to be in sliding clamping connection and then is released, the feeding port mounting block is forced to drive the limiting clamping block to move upwards synchronously due to the elastic force of the connecting spring, the limiting clamping block moves upwards to be clamped into the inner side of the clamping groove in a sliding manner, the sealing feeding cover is fixed in a sealing and limiting manner at the outer side of the right end of the feeding connecting cylinder at the moment, the heating pipe and the storage battery can be controlled to run by the electric control cabinet, the connecting roller is connected with the heat conducting plate through the heat conducting rotating shaft, and the storage battery controls the heat conducting plate to heat through the heating pipe, so that the integral heating processing of the primary screening roller can be performed, further, the drying treatment of the interior of the drum can be carried out when the primary screening drum carries out primary screening, a small amount of electrolyte carried in the separated black powder is separated out to be solid particles, the solid particles are taken out and screened through primary screening screen holes, the servo motor can be controlled by utilizing the electric control cabinet, the rotation treatment of the connecting drum is carried out, the connecting drum is distributed on the outer side of the primary screening drum, and the servo motor drives the connecting drum to rotate in the same direction, so that the primary screening drum can be driven to rotate to carry out the screening treatment of the internal electrolyte mixed liquid, the stainless steel screen sleeve is arranged to be in a horn shape with a large left diameter and a small right diameter, the cavity in the primary screening drum is arranged in an inclined shape with a high left side and a low right side, when the servo motor controls the primary screening drum to rotate through the connecting drum, the inner space in the primary screening drum is turned up and down in a wave shape along with the rotation, at the time, the material to be screened in the primary screening drum can vibrate and displace, conveniently improve whole screening efficiency and the screening precision of prescreening the inside material that rolls, the electrolyte of preliminary screening loops through the prescreening sieve mesh and the inside sieve mesh of stainless steel screen cloth cover is collected through the right part discharge gate, the electrolyte that appears the formation granule after the stoving gets into the left part discharge gate through prescreening sieve mesh and stainless steel screen cloth cover slope rotor plate and collects, open screw thread ejection of compact lid through rotating after prescreening the cylinder is dried and is rotated the certain time and utilize the inside discharge end of threaded connection section of thick bamboo to separate the collection processing of purification back black powder.

The invention provides a lithium battery electrolyte quick drying black powder separation device. The method has the following beneficial effects:

1. according to the invention, the connecting roller is arranged to control the rotation screening treatment of the primary screening roller, the connecting roller is connected with the heat-conducting plate through the heat-conducting rotating shaft, and the storage battery controls the heat-conducting plate to heat through the heating pipe, so that the integral heating treatment of the primary screening roller can be carried out, and further the drying treatment of the interior of the primary screening roller can be carried out, the black powder is dried and synchronously operated while the black powder is separated by the electrolyte, a small amount of electrolyte carried in the separated black powder can be separated out to be solid particles, and the screening is carried out through the primary screening mesh, so that the quality and purity of the extracted and separated black powder are improved, the integral quality reduction caused by the fact that the black powder carries part of the electrolyte is avoided, the safety of separating and using the black powder is improved, and the black powder can be conveniently and rapidly reused in lithium battery recycling or other fields.

2. According to the invention, the stainless steel screen sleeve is arranged into a horn shape with the larger left diameter and the smaller right diameter, the cavity inside the primary screen roller is arranged into an inclined shape with the higher left and the lower right, when the servo motor controls the primary screen roller to rotate through the connecting roller, the internal space of the primary screen roller is turned up and down in a wave shape along with the rotation, at the moment, the material to be screened inside the primary screen roller can vibrate and displace, and the integral screening efficiency and the screening accuracy of the material inside the primary screen roller can be conveniently improved.

3. According to the invention, the feed inlet mounting block is arranged on the upper side of the sealed feed cover, and the inner buckling spring structure consisting of the feed inlet mounting block, the connecting spring, the transmission slide block and the connecting shaft can be used for controlling the limiting sliding of the limiting clamping block in the clamping groove, so that the feed inlet can be rapidly sealed, the feed inlet can be conveniently and rapidly fed for multiple times, and the separation efficiency can be improved by utilizing multiple times of electrolyte material separation.

Drawings

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

FIG. 2 is a rear perspective view of the device housing structure of the present invention;

FIG. 3 is a schematic cross-sectional front view of the internal structure of the device housing of the present invention;

FIG. 4 is a schematic sectional side view of the connecting roller of the present invention;

FIG. 5 is a front perspective view of a stainless steel screen jacket mounting structure of the present invention;

FIG. 6 is a front perspective view of the seal feed cap of the present invention;

FIG. 7 is an enlarged view taken at A in FIG. 3;

fig. 8 is an enlarged view of fig. 3 at B.

Wherein, 1, an electric control cabinet; 2. a support frame; 3. a fixing plate; 4. an equipment enclosure; 5. primary screening of a roller; 6. primarily screening sieve pores; 7. a stainless steel screen mesh sleeve; 8. a connecting ring; 9. screening the cavity; 10. a discharging hopper; 11. a discharge port; 12. a servo motor; 13. a transmission rotating shaft; 14. connecting the rollers; 15. a heat-conducting rotating shaft; 16. a heat conducting plate; 17. heating a tube; 18. a storage battery; 19. a threaded discharge cover; 20. a discharging cover mounting block; 21. sealing the feeding cover; 22. a feed inlet mounting block; 23. a sliding empty slot; 24. a connecting spring; 25. a transmission chute; 26. a transmission slide block; 27. a connecting shaft; 28. a sliding shaft slot; 29. a limiting clamping block; 30. clamping the groove; 31. a connecting handle; 32. a connecting plate; 33. a threaded connection barrel; 34. a feed connection barrel; 35. and (4) heat dissipation holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example (b):

as shown in fig. 1 to 8, an embodiment of the present invention provides a lithium battery electrolyte fast drying black powder separation device, which includes a device housing 4 and a prescreening roller 5, the prescreening roller 5 is rotatably connected inside the device housing 4, four connection rollers 14 are uniformly distributed on the outer side of the left portion of the prescreening roller 5, the middle portion of the right side of each connection roller 14 is fixedly connected with a heat conduction rotating shaft 15, the outer side of the right end of each heat conduction rotating shaft 15 is rotatably connected inside the middle portion of the left side of each heat conduction plate 16, the outer side of each heat conduction plate 16 is connected to one end of a heating pipe 17, the other end of each heating pipe 17 is fixedly connected to a driving end of a storage battery 18, the outer sides of each connection roller 14 and each heat conduction rotating shaft 15 are rotatably connected inside the left portion of the device housing 4, and the heat conduction plates 16, the heating pipes 17 and the driving ends of the storage batteries 18 are all arranged inside the device housing 4.

Connect equal fixedly connected with transmission pivot 13 in cylinder 14 left side middle part, the equal fixed connection of the transmission pivot 13 other end is at servo motor 12 drive end, it all sets up to heat conduction steel class material to connect cylinder 14 and prescreening cylinder 5, servo motor 12 uses prescreening cylinder 5 as the even ring-shaped distribution's of axle setting inside equipment casing 4 left end respectively, the setting is connected cylinder 14 and is controlled the rotation of prescreening cylinder 5 and divide the sieve to handle, because it is connected with heat-conducting plate 16 to connect cylinder 14 through heat conduction pivot 15, and battery 18 heats through heating pipe 17 control heat-conducting plate 16, thereby can carry out the whole heating process of prescreening cylinder 5, and then can carry out the inside drying process of prescreening cylinder 5, carry out the stoving synchro-operated of black powder in the black powder of electrolyte separation, can separate out a small amount of electrolyte that the inside of black powder of after-separating and appear to be the solid particle, get the sieve through prescreening sieve mesh 6 and sieve, improve the quality and the purity of taking the separation black powder, avoid black powder to carry partial electrolyte and lead to whole quality reduction, improve the security of using black powder separately, be convenient for quick used repeatedly in lithium cell recovery or other fields.

The 5 outside of prescreening cylinder is provided with the prescreening sieve mesh 6 that runs through the inside and outside both sides of prescreening cylinder 5, and the fixed connection in go-between 8 left sides of prescreening cylinder 5 right side is inner, and go-between 8 left sides outer end fixed connection is on 7 right sides of stainless steel screen cloth cover, and the 7 outside of stainless steel screen cloth cover is provided with evenly distributed's sieve mesh, and the 7 outside of stainless steel screen cloth cover is rotated and is connected inside 4 right parts of equipment casing.

Preliminary screening cylinder 5 left end fixedly connected with threaded connection section of thick bamboo 33, go-between 8 right sides fixedly connected with feeding connecting cylinder 34, and threaded connection section of thick bamboo 33 and the feeding connecting cylinder 34 outside rotate respectively and connect inside 4 left sides of equipment and right side middle part, and threaded connection section of thick bamboo 33, feeding connecting cylinder 34 and preliminary screening cylinder 5 form the sieve and leave the mechanism.

Threaded connection 33 left end outside threaded connection is inside screw thread ejection of compact lid 19 right side middle part, and screw thread ejection of compact lid 19 is the equal fixedly connected with ejection of compact lid installation piece 20 in both ends about, and inside feeding connection 34 right side end outside sliding connection is in sealed feeding lid 21 left side middle part, screw thread ejection of compact lid 19 and sealed feeding lid 21 front and back both sides equal fixedly connected with connection handle 31.

A sliding empty groove 23 is arranged in the middle of the upper side of the sealed feeding cover 21, a transmission sliding groove 25 is arranged in the upper part of the sealed feeding cover 21, the upper end of the transmission sliding groove 25 is communicated with the lower side of the middle part of the sliding empty groove 23, the width of the transmission sliding groove 25 is far larger than that of the sliding empty groove 23, a feeding port installation block 22 is connected in the sliding empty groove 23, a transmission sliding block 26 is fixedly connected in the middle of the lower side of the feeding port installation block 22, the outer side of the transmission sliding block 26 is connected in the inner side of the transmission sliding groove 25 in a sliding manner, a plurality of evenly distributed connecting springs 24 are fixedly connected at the left and right ends of the lower side of the feeding port installation block 22, the other ends of the connecting springs 24 are respectively fixedly connected at the left and right ends of the inner bottom side of the sliding empty groove 23, sliding shaft grooves 28 are arranged at the front and back parts of the upper end of the left side of the groove in the left side of the sealed feeding cover 21, the right sides of the sliding shaft grooves 28 are communicated with the left side of the transmission sliding groove 25, the inboard equal sliding connection in sliding shaft groove 28 has connecting axle 27, connecting axle 27 right-hand member is fixed connection respectively at transmission slider 26 left end downside anterior portion and left end downside rear portion, the equal fixed connection in transmission slider 26 left end upside has spacing block 29, the equal sliding connection in spacing block 29 outside is inside block recess 30, block recess 30 sets up respectively at the inboard anterior portion of top side and top side rear portion on feeding connecting cylinder 34, through set up feed inlet installation piece 22 at sealed feed cover 21 upside, utilize feed inlet installation piece 22, coupling spring 24, the spacing slip of spacing block 29 inside block recess 30 can be controlled to interior knot spring structure that transmission slider 26 and connecting axle 27 constitute, and then can carry out the quick sealed processing of feed inlet, conveniently carry out the feeding processing of feed inlet fast many times, utilize many times electrolyte material separation to improve separation efficiency.

The inside lower part of equipment shell 4 is provided with screening cavity 9, and the primary screen cylinder 5 lower extreme outside sets up at screening cavity 9, stainless steel screen cover 7 sets up to the little loudspeaker form of the big right diameter of left diameter, the inside slope screening cavity that sets up the height in the left side in the middle part of primary screen cylinder 5, the inside evenly distributed's that runs through both sides inside and outside equipment shell 4 louvre 35 that is provided with in equipment shell 4 upper portion, through setting up stainless steel screen cover 7 to the little loudspeaker form of the big right diameter of left diameter, set up the slope form of the height in the left side with the inside cavity of primary screen cylinder 5, when servo motor 12 rotates through connecting cylinder 14 control primary screen cylinder 5, primary screen cylinder 5 inner space is the wave form along with rotating from top to bottom and overturns, the inside material of waiting to screen that rolls of primary screen this moment can vibrate the displacement, conveniently improve the whole screening efficiency and the screening precision of the inside material of primary screen.

4 downside outer ends fixed connection of equipment shell 3 in fixed plate, two all are provided with ejection of compact funnel 10 about 4 downside of equipment shell, ejection of compact funnel 10 is inside all to be provided with screening cavity 9, ejection of compact funnel 10 downside is provided with

discharge gate

11, 3 downside of fixed plate is provided with

support frame

2, and 2 rear sides of support frame are provided with the opening, 2 rear end openings of support frame and 11 places of discharge gate correspond each other, 2 fixed connection of support frame are in 32 upside rear ends of connecting plate, connecting plate 32 upside left side front end is provided with automatically controlled

cabinet

1, 1 electric connection of automatically controlled cabinet has servo motor 12, heating pipe 17 and battery 18.

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

Claims

1. The utility model provides a lithium cell electrolyte fast drying black powder splitter, includes equipment shell (4) and prescreening cylinder (5), its characterized in that: prescreening cylinder (5) rotate to be connected inside equipment shell (4), prescreening cylinder (5) left part outside is provided with four connection cylinder (14) of evenly distributed, connect equal fixedly connected with heat conduction pivot (15) in cylinder (14) right side middle part, heat conduction pivot (15) right-hand member outside all rotates to be connected inside heat-conducting plate (16) left side middle part, heat-conducting plate (16) outside all connects in heating pipe (17) one end, the equal fixed connection of heating pipe (17) other end is at battery (18) drive end, connect cylinder (14) and heat conduction pivot (15) outside all rotate to be connected inside equipment shell (4) left part, heat-conducting plate (16), heating pipe (17) and battery (18) drive end all set up inside equipment shell (4).

2. The lithium battery electrolyte quick drying black powder separation device of claim 1, which is characterized in that: connect cylinder (14) left side middle part equal fixedly connected with transmission pivot (13), the equal fixed connection of transmission pivot (13) other end is at servo motor (12) drive end, connect cylinder (14) and prescreen cylinder (5) and all set up to heat conduction steel class material, servo motor (12) use prescreen cylinder (5) respectively as the setting of the even annular distribution of axle inside equipment casing (4) left end.

3. The lithium battery electrolyte fast drying black powder separation device as claimed in claim 1, wherein: prescreening cylinder (5) outside is provided with the prescreening sieve mesh (6) that runs through the inside and outside both sides of prescreening cylinder (5), prescreening cylinder (5) right side fixed connection is inner in go-between (8) left side, go-between (8) left side outer end fixed connection is on stainless steel screen cloth cover (7) right side, the stainless steel screen cloth cover (7) outside is provided with evenly distributed's sieve mesh, stainless steel screen cloth cover (7) outside is rotated and is connected inside equipment casing (4) right part.

4. The lithium battery electrolyte quick drying black powder separation device of claim 3, which is characterized in that: just sieve cylinder (5) left end fixedly connected with threaded connection section of thick bamboo (33), go-between (8) right side fixedly connected with feeding connecting cylinder (34), just threaded connection section of thick bamboo (33) and feeding connecting cylinder (34) outside rotate respectively and connect inside equipment casing (4) left side and right side middle part, threaded connection section of thick bamboo (33), feeding connecting cylinder (34) and just sieve cylinder (5) form the sieve and leave the mechanism.

5. The lithium battery electrolyte quick drying black powder separation device of claim 4, which is characterized in that: threaded connection section of thick bamboo (33) left end outside threaded connection is inside screw thread ejection of compact lid (19) right side middle part, the equal fixedly connected with ejection of compact lid installation piece in both ends (20) about screw thread ejection of compact lid (19), inside feeding connection section of thick bamboo (34) right side end outside sliding connection is in sealed feeding lid (21) left side middle part, screw thread ejection of compact lid (19) and sealed feeding lid (21) around the equal fixedly connected with in both sides connect handle (31).

6. The lithium battery electrolyte quick drying black powder separation device of claim 5, wherein: a sliding empty groove (23) is arranged in the middle of the upper side of the sealed feeding cover (21), a transmission sliding groove (25) is arranged inside the upper portion of the sealed feeding cover (21), the upper end of the transmission sliding groove (25) is communicated with the lower side of the middle of the sliding empty groove (23), the setting width of the transmission sliding groove (25) is far larger than that of the sliding empty groove (23), a feeding port mounting block (22) is connected inside the sliding empty groove (23) in a sliding manner, a transmission sliding block (26) is fixedly connected in the middle of the lower side of the feeding port mounting block (22), the outer side of the transmission sliding block (26) is connected inside the transmission sliding groove (25) in a sliding manner, a plurality of connecting springs (24) which are uniformly distributed are fixedly connected at the left end and the right end of the lower side of the feeding port mounting block (22), the other end of the connecting spring (24) is respectively and fixedly connected with the left end and the right end of the inner bottom side of the sliding empty groove (23), the front part and the rear part of the upper end of the inner bottom side of the groove at the left side of the sealed feeding cover (21) are respectively provided with a sliding shaft groove (28), the right side of the sliding shaft groove (28) is respectively communicated with the left side of the transmission sliding groove (25), the inner side of the sliding shaft groove (28) is respectively and slidably connected with a connecting shaft (27), the right end of the connecting shaft (27) is respectively and fixedly connected with the front part of the lower side of the left end of the transmission sliding block (26) and the rear part of the lower side of the left end, the upper side of the left end of the transmission sliding block (26) is respectively and fixedly connected with a limiting clamping block (29), the outer sides of the limiting clamping blocks (29) are connected inside clamping grooves (30) in a sliding mode, and the clamping grooves (30) are arranged on the front portion of the top side and the rear portion of the top side on the inner side of the feeding connecting cylinder (34) respectively.

7. The lithium battery electrolyte quick drying black powder separation device of claim 3, which is characterized in that: the inside lower part of equipment shell (4) is provided with screening cavity (9), just the primary screen cylinder (5) lower extreme outside sets up at screening cavity (9), stainless steel screen cloth cover (7) set up to the little loudspeaker form of the major diameter in the left side, the inside slope screening cavity that sets up the height in the left side in primary screen cylinder (5) middle part, the inside louvre (35) that are provided with the evenly distributed who runs through the inside and outside both sides of equipment shell (4) in equipment shell (4) upper portion.

8. The lithium battery electrolyte quick drying black powder separation device of claim 2, which is characterized in that: equipment shell (4) downside outer end fixed connection is in fixed plate (3), two portions all are provided with ejection of compact funnel (10) about equipment shell (4) downside, ejection of compact funnel (10) inside all is provided with screening cavity (9), ejection of compact funnel (10) downside is provided with discharge gate (11), fixed plate (3) downside is provided with support frame (2), just support frame (2) rear side is provided with the opening, support frame (2) rear side opening and discharge gate (11) position correspond each other, support frame (2) fixed connection is in connecting plate (32) upside rear end, connecting plate (32) upside left side front end is provided with automatically controlled cabinet (1), automatically controlled cabinet (1) electric connection has servo motor (12), heating pipe (17) and battery (18).