CN115451687A

CN115451687A - Device for rapidly drying battery raw materials

Info

Publication number: CN115451687A
Application number: CN202211390506.9A
Authority: CN
Inventors: 周友来
Original assignee: Changzhou Lemar Drying Engineering Co ltd
Current assignee: Changzhou Lemar Drying Engineering Co ltd
Priority date: 2022-11-08
Filing date: 2022-11-08
Publication date: 2022-12-09

Abstract

The invention discloses a device for quickly drying battery raw materials, which belongs to the technical field of battery raw material processing and aims to solve the problem of low drying efficiency of the existing battery raw materials.

Description

Device for rapidly drying battery raw materials

Technical Field

The invention relates to the technical field of battery raw material processing, in particular to a device for rapidly drying battery raw materials.

Background

Manufacturing an electrode of a lithium ion battery, wherein positive electrode slurry comprises an adhesive, a conductive agent, a positive electrode material and the like; the preparation of the cathode slurry comprises a series of processes of mixing, dissolving, dispersing and the like between liquid and between liquid and solid materials, and the processes are accompanied by changes of temperature, viscosity, environment and the like. In the production process, the lithium material is required to be mixed according to a certain proportion, then is dried and cooled, and finally is calcined to obtain the lithium material;

the Chinese invention number: CN202110253764.1 discloses a horizontal drying device for lithium materials, which comprises a box body, a charging barrel, a feeding hopper, a discharging hopper, a fan and a heating resistance wire; the drying method can improve the drying speed of the lithium material, reduce the production cost of the lithium battery to a certain extent, facilitate the loading and the taking out of lithium battery particles, and bring convenience to workers, but in the drying method, the wind of the fan and the heating resistance wire can only heat and radiate the upper part and the lower part of material particles in the drying process, and the middle part is easy to stack together, so that the heat and the wind can not be well conducted, and the drying efficiency of the battery raw material is influenced;

we propose a device for rapidly drying battery feedstock for this purpose.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a device for rapidly drying battery raw materials, which overcomes the defects of the prior art and aims to solve the problem of low drying efficiency of the existing battery raw materials.

In order to achieve the purpose, the invention provides the following technical scheme: the device for rapidly drying the battery raw materials comprises a device shell, a drying tube, a dehumidification barrel, a drying barrel and a filtering assembly, wherein the drying tube and the dehumidification barrel are sequentially arranged at the top of the device shell;

the device comprises a shell and a base, wherein a control device, a guide motor and a vibration motor are respectively arranged in the base, the inner side of the bottom of the base is connected with a rotary drum driven by the guide motor through a bearing, a guide plate arranged above the vibration motor is also connected in the shell in a sliding manner, and a discharge pipe is arranged at the tail end of the guide plate of the shell;

the drying tube and the drying cylinder respectively comprise a first cylinder body and a second cylinder body, a heat conduction pipe is arranged in front of the inner side of the bottom of the second cylinder body, a transmission rod inserted in the rotary drum is arranged in the first cylinder body and the second cylinder body, the end portion of the transmission rod is fixed with the vibration motor through a bolt, a spiral pushing blade is welded on the surface of the transmission rod in the first cylinder body, and a stirring blade is welded on the surface of the transmission rod in the second cylinder body.

As a preferred technical scheme of the invention, the control device comprises a PLC with the model number of S4-400, and the PLC is respectively and electrically connected with the guide and feed motor, the vibration motor, the air guide machine and the semiconductor;

through adopting above-mentioned technical scheme, PLC programming in the usable controlling means realizes carrying out real time control to each part, and then drives the device and realizes automatic dry battery raw materials function.

As a preferred technical scheme of the present invention, the dehumidification barrel comprises two third barrels, the interiors of the two third barrels are respectively provided with an air guide and a heat conduction fin, and a semiconductor whose surface is in contact with the heat conduction fin is further installed between the two third barrels;

the top of a third cylinder body positioned at the semiconductor heating end is connected with one end of a heat conduction pipe through a pipeline, and the other end of the heat conduction pipe is connected with one side of the bottom of the third cylinder body through a pipeline;

the top and one side of the bottom of a third barrel body positioned at the semiconductor refrigerating end are respectively connected with a pipeline at one side of two ends of a first barrel body, a pipeline positioned at the upper part of the first barrel body is also fixedly connected with a filtering component in series, the bottom of the first barrel body is also connected with a liquid discharge pipe, and the bottom of a heat conduction fin in the first barrel body is welded with a liquid guide rod;

through adopting above-mentioned technical scheme, semiconductor circular telegram makes its both sides surface refrigerate respectively and heat and conduct the inside to two third barrels respectively through heat conduction fin, one of them third barrel lasts under the effect of air guide machine with heat transfer to in the heat conduction pipe, heat for the second barrel of drying cylinder is inside, so that let the temperature of material rise, increase the volatilization velocity of its inside moisture, another third barrel lasts the circulation with the air in the first barrel of drying tube under the effect of air guide machine and pumps, at the endless in-process, the air can with on the heat conduction fin of system cold end, and then condensate water, along with the liquid guide rod outflow fluid-discharge tube, realize the quick discharge to material moisture.

As a preferred technical scheme of the invention, the inner wall of the first cylinder is uniformly provided with pressure plates in an inclined manner through a spring shaft, and the pressure plates are arranged above the blades of the spiral pushing blade;

through adopting above-mentioned technical scheme, this material that makes after the heating can be through the downward delivery of screw propelling movement blade, at the in-process of delivering, can last by the clamp plate extrusion shakeouts to can let the abundant and shakeout material of wind-guiding machine contact, and then take away moisture fast.

As a preferable technical scheme of the invention, the inner wall of the rotary drum is provided with a guide groove, and the outer side of the end part of the transmission rod is welded with a limiting plate corresponding to the guide groove;

by adopting the technical scheme, therefore, the rotating drum can drive the transmission rod to rotate, and the transmission rod can also shake and stretch up and down in the rotating drum.

As a preferred technical scheme of the invention, the filtering component comprises a mounting ring fixed on one side of the end part of the first cylinder body by a bolt, the inside of the mounting ring is connected with a rotating sheet through a rotating shaft, and a filtering net is embedded in the rotating sheet;

by adopting the technical scheme, the filter screen in the rotating sheet can be screwed out by outwards rotating the rotating sheet along the connecting part of the rotating shaft of the mounting ring, so that the filter screen can be cleaned.

The invention has the beneficial effects that:

1. the material is placed in the drying cylinder through the drying cylinder, the PLC in the control device drives the guide motor and the vibrating motor to drive the transmission rod to rotate and simultaneously drive the transmission rod to vibrate up and down at a high speed in the rotating cylinder, the material can be stirred and continuously guided downwards to the guide plate by utilizing the stirring blade and the spiral pushing blade on the transmission rod, and the guide plate vibrates at a high speed under the action of the vibrating motor and pushes the material to the discharge pipe and discharges the material;

2. in the process of high-speed stirring of materials, the PLC programs the semiconductor to be electrified to generate high temperature, and conduct to the heat conduction fin, continuously send into the heat conduction pipe under the effect of air guide machine, heat for the materials in the stirring process, make it heat up, in the process of material guiding and sending, can be flattened by the clamp plate extrusion, let the wind abundant heat of taking away its surface, the semiconductor opposite side can refrigerate this moment, continuously bring the air of heating in the drying cylinder into wherein to carry out the condensation operation under the effect of air guide machine, and discharge along the liquid guide rod.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the dehumidifying cartridge of the present invention;

FIG. 4 is a schematic cross-sectional view of a drying duct according to the present invention;

fig. 5 is a schematic view of the filter assembly of the present invention.

In the figure: 1. a device housing; 2. a drying tube; 3. a drying cylinder; 4. a dehumidification cylinder; 5. a filter assembly;

11. a base; 12. a control device; 13. a guide motor; 14. a vibration motor; 15. a guide plate; 16. a discharge pipe; 17. a rotating drum;

21. a first cylinder; 22. a transmission rod; 23. pressing a plate; 24. a helical pusher blade;

31. a second cylinder; 32. a heat conducting pipe; 33. a stirring blade;

41. a third cylinder; 42. a wind guide fan; 43. a semiconductor; 44. a heat conductive fin; 45. a liquid guide rod;

51. a mounting ring; 52. a rotating sheet; 53. and (4) a filter screen.

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 one

Referring to fig. 1-2, the apparatus for rapidly drying battery raw materials includes an apparatus housing 1, a drying tube 2 and a dehumidifying drum 4 sequentially disposed on the top of the apparatus housing 1, a drying drum 3 disposed above the drying tube 2, and a filtering assembly 5 disposed on one side of an end of the drying tube 2;

the device shell 1 comprises a base 11, a control device 12, a guide motor 13 and a vibration motor 14 are respectively arranged in the base 11, the inner side of the bottom of the base 11 is connected with a rotary drum 17 driven by the guide motor 13 through a bearing, a guide plate 15 arranged above the vibration motor 14 is also connected in the device shell 1 in a sliding manner, and a discharge pipe 16 is arranged at the tail end of the guide plate 15 of the device shell 1;

the drying tube 2 and the drying cylinder 3 respectively comprise a first cylinder 21 and a second cylinder 31, a heat conduction pipe 32 is arranged in front of the inner side of the bottom of the second cylinder 31, a transmission rod 22 inserted in the rotary drum 17 is arranged in the first cylinder 21 and the second cylinder 31, the end part of the transmission rod 22 is fixed with the vibration motor 14 through a bolt, the surface of the transmission rod 22 in the first cylinder 21 is welded with a spiral pushing blade 24, and the surface of the transmission rod 22 in the second cylinder 31 is welded with a stirring blade 33;

the control device 12 comprises a PLC with the model number of S4-400, the PLC is respectively electrically connected with the guide and delivery motor 13, the vibration motor 14, the air guide fan 42 and the semiconductor 43, and the PLC in the control device 12 can be used for realizing real-time control on each part so as to drive the device to realize the function of automatically drying the battery raw materials;

further, referring to fig. 3, the dehumidifying drum 4 includes two third drum bodies 41, a fan 42 and a heat conducting fin 44 are respectively disposed inside each of the two third drum bodies 41, a semiconductor 43 whose surface is abutted against the heat conducting fin 44 is further installed between the two third drum bodies 41, the top of the third drum body 41 located at the heating end of the semiconductor 43 is connected to one end of the heat conducting pipe 32 through a pipeline, the other end of the heat conducting pipe 32 is connected to one side of the bottom of the third drum body 41 through a pipeline, the top and one side of the bottom of the third drum body 41 located at the refrigerating end of the semiconductor 43 are respectively connected to one side of two ends of the first drum body 21 through pipelines, the pipeline located at the upper part of the first drum body 21 is further connected and fixed to the filter assembly 5 in series, the bottom of the first drum body 21 is further connected to a liquid discharge pipe, and the bottom of the heat conducting fin 44 in the first drum body 21 is welded with a liquid guiding rod 45, the semiconductor 43 is electrified to make the surfaces at two sides of the third drum body 41 respectively cool and heat conducting pipe and conduct the inside of the two third drum bodies 41 through the fin 44, wherein one of the third drum body 41 continuously transfers heat to the heat conducting pipe 32 under the effect of the fan 42, so as to increase the temperature of the second drum body 31 of the drying drum 3, and increase the volatile material, so as to increase the volatile material;

the other third cylinder 41 continuously and circularly pumps the air in the first cylinder 21 of the drying tube 2 under the action of the air guide machine 42, and in the circulating process, the air can be condensed into water on the heat conduction fins 44 at the refrigerating end and flows out of the liquid discharge tube along with the liquid guide rod 45, so that the moisture of the material is quickly discharged;

it is worth noting that:

1. referring to fig. 4, the inner wall of the first cylinder 21 is provided with the pressing plate 23 in an inclined manner through uniform distribution of the spring shaft, the pressing plate 23 is arranged above the blades of the spiral pushing blade 24, so that the heated material is guided downwards through the spiral pushing blade 24, and the material is continuously extruded and flattened by the pressing plate 23 in the guiding process, so that the wind of the wind guide machine 42 can be fully contacted with the flattened material, and the moisture is quickly taken away.

2. The inner wall of the rotating drum 17 is provided with a guide groove, and the outer side of the end part of the transmission rod 22 is welded with a limiting plate corresponding to the guide groove, so that the transmission rod 22 can shake and stretch up and down in the rotating drum 17 in the process that the rotating drum 17 can drive the transmission rod 22 to rotate.

The working principle is as follows: in the using process, materials are placed in the drying cylinder 3, the PLC in the control device 12 is programmed to drive the guide motor 13 and the vibration motor 14 to drive the transmission rod 22 to rotate and simultaneously drive the transmission rod to vibrate up and down at a high speed in the rotating cylinder 17, the materials can be respectively stirred and continuously and downwards guided to the guide plate 15 by using the stirring blade 33 and the spiral pushing blade 24 on the transmission rod 22, and the guide plate 15 vibrates at a high speed under the action of the vibration motor 14 to push the materials to the discharge pipe 16 and discharge the materials;

in the process of high-speed stirring of materials, the PLC is programmed to drive the semiconductor 43 to be electrified to generate high temperature and conduct the high temperature to the heat conduction fins 44, the high temperature is continuously sent into the heat conduction pipe 32 under the action of the air guide fan 42 to heat the materials in the stirring process, so that the materials are heated, the materials are extruded and flattened by the pressing plate 23 in the material guiding and sending process, the air is enabled to fully take away the heat on the surface of the materials, at the moment, the other side of the semiconductor 43 can be refrigerated, the air heated in the drying cylinder 3 is continuously taken into the air guide fan 42 to be condensed, and the air is discharged along the liquid guide rod 45.

Example two

Referring to fig. 5, based on the first embodiment, the present invention provides a technical solution: the filter assembly 5 comprises a mounting ring 51 fixed on one side of the end of the first cylinder 21 by bolts, a rotating sheet 52 is connected to the inside of the mounting ring 51 through a rotating shaft, and a filter screen 53 is embedded in the rotating sheet 52, so that the filter screen 53 in the rotating sheet 52 can be screwed out by rotating the rotating sheet 52 outwards along the rotating shaft connection of the mounting ring 51, so as to clean the filter screen.

Finally, it should be noted that: in the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The device for rapidly drying the battery raw materials is characterized by comprising a device shell (1), a drying tube (2) and a dehumidifying barrel (4) which are sequentially arranged at the top of the device shell (1), a drying barrel (3) arranged above the drying tube (2) and a filtering component (5) arranged on one side of the end part of the drying tube (2);

the device comprises a shell (1) and is characterized in that the shell (1) comprises a base (11), a control device (12), a guide motor (13) and a vibration motor (14) are respectively installed inside the base (11), the inner side of the bottom of the base (11) is connected with a rotary drum (17) driven by the guide motor (13) through a bearing, a guide plate (15) arranged above the vibration motor (14) is further connected inside the shell (1) in a sliding mode, and a discharge pipe (16) is arranged at the tail end, located on the guide plate (15), of the shell (1);

the drying tube (2) and the drying cylinder (3) respectively comprise a first cylinder body (21) and a second cylinder body (31), a heat conduction pipe (32) is coiled on the inner side of the bottom of the second cylinder body (31), a transmission rod (22) inserted into the rotating cylinder (17) is arranged inside the first cylinder body (21) and the second cylinder body (31), a spiral pushing blade (24) is arranged on the surface of the transmission rod (22) inside the first cylinder body (21), and a stirring blade (33) is welded on the surface of the transmission rod (22) inside the second cylinder body (31).

2. The apparatus for rapidly drying battery feedstock as recited in claim 1, wherein the control device (12) comprises a PLC having a model number S4-400, which is electrically connected to the feeding motor (13), the vibration motor (14), the air guide (42), and the semiconductor (43), respectively, through the PLC.

3. The apparatus for rapidly drying battery raw material according to claim 1, wherein the dehumidifying cartridge (4) comprises two third cartridges (41), the three third cartridges (41) are internally provided with a heat conducting fan (42) and a heat conducting fin (44), respectively, and a semiconductor (43) having a surface contacting with the heat conducting fin (44) is further installed between the three third cartridges (41).

4. A device for rapidly drying battery raw material according to claim 3, characterized in that the top of the third cylinder (41) located at the heating end of the semiconductor (43) is connected to one end of the heat pipe (32), and the other end of the heat pipe (32) is connected to the bottom side of the third cylinder (41).

5. The device for rapidly drying the battery raw material according to claim 4, wherein the top and one side of the bottom of a third cylinder (41) at the cooling end of the semiconductor (43) are respectively connected with a pipeline at one side of two ends of the first cylinder (21), the pipeline at the upper part of the first cylinder (21) is further fixed in series with the filtering assembly (5), the bottom of the first cylinder (21) is further connected with a liquid discharge pipe, and the bottom of a heat conduction fin (44) in the first cylinder (21) is welded with a liquid guide rod (45).

6. The device for rapidly drying the battery raw material according to claim 1, wherein the inner wall of the first cylinder (21) is uniformly provided with pressing plates (23) which are obliquely arranged through a spring shaft, and the pressing plates (23) are arranged above the blades of the spiral pushing blade (24).

7. The device for rapidly drying the battery raw material according to claim 1, wherein a guide groove is formed in the inner wall of the rotating drum (17), and a limiting plate corresponding to the guide groove is welded on the outer side of the end part of the transmission rod (22).

8. The device for rapidly drying the battery raw material according to claim 1, wherein the filtering assembly (5) comprises a mounting ring (51) fixed on one side of the end part of the first cylinder body (21) through bolts, a rotating sheet (52) is connected to the inside of the mounting ring (51) through a rotating shaft, and a filtering net (53) is embedded in the rotating sheet (52).