CN118543268A - Graphene lithium electronic battery mixing and stirring equipment - Google Patents

Abstract

The invention relates to the technical field of battery material stirring, in particular to graphene lithium electronic battery material mixing and stirring equipment, which solves the technical problems that in the prior art, stirring equipment capable of exerting two mixing advantages is lacking, and end vibration generated by stirring is needed to be considered in equipment use, and particularly an isolation structure module can be connected to a first end of a stirrer barrel so as to seal the stirrer barrel; the stirring driving mechanism can be arranged on an installation position provided by the isolation structure module, and a stirring paddle rod extends into the stirrer cylinder; the stirring driving mechanism is driven by a driving motor to act by a controller so that the stirring track of the stirring paddle rod is a conical track, and the stirring driving mechanism is provided with a balancing component for balancing the stress of the stirring end part when the stirring paddle rod acts; the second end of the stirring paddle rod is connected with a stirring screw component, and the stirring screw component is provided with a ring-shaped screw blade structure, so that the running balance of the equipment is ensured.

Description

Graphene lithium electronic battery mixing and stirring equipment

Technical Field

The invention relates to the technical field of battery material stirring, in particular to graphene lithium electronic battery material mixing and stirring equipment.

Background

The preparation of the graphene lithium electronic battery is provided with a mixing process, wherein raw materials in the mixing process comprise various material components such as an adhesive, a conductive agent, a positive electrode material and graphite carbon powder, which can be collectively called as slurry, and the mixing process is an important link in the mixing process and comprises coarse mixing and fine mixing; in addition, the slurry is stirred through stirring equipment, so that the stirring of the slurry is improved, and the battery quality can be improved after the battery raw materials are fully mixed; especially, the battery raw materials usually have certain viscosity, and the conical mixer has good adaptability to different materials, so that the mixing of a plurality of different materials can be realized, and the materials can be well mixed no matter how the shapes, the sizes, the densities and the specific gravities of the materials are different; in addition, in the prior art, the other efficient stirring mode is spiral, and if the two stirring modes can be combined, the quality of a coarse mixing process can be greatly improved; however, in the prior art, there is no stirring device capable of exerting two mixing advantages, and there is also a need to consider end vibration generated by stirring for use of the device.

Disclosure of Invention

The invention aims to solve the technical problems that stirring equipment capable of exerting two mixing advantages is lacking in the prior art, and end vibration generated by stirring is needed to be considered in equipment use, and provides graphene lithium electronic battery mixing and stirring equipment.

In order to solve the technical problems, the technical scheme of the invention is as follows:

graphene lithium electronic battery compounding agitated vessel is applied to the agitator barrel, includes:

an isolation structure module connectable to a first end of the agitator cylinder to enclose the agitator cylinder;

The stirring driving mechanism can be arranged on the installation position provided by the isolation structure module, and a stirring paddle rod extends into the stirrer cylinder;

the stirring driving mechanism is driven by a driving motor to act by a controller, so that the stirring track of the stirring paddle rod is a conical track, and the stirring driving mechanism is provided with a balancing component for balancing the stress of the stirring end part when the stirring paddle rod acts;

The second end of the stirring paddle rod is connected with a stirring screw component, and a circular screw blade structure is formed on the stirring screw component.

Specifically, the stirring driving mechanism includes:

mounting seat structure, the first end of agitator barrel is provided with the closed top cap, the

The closed top cover is provided with a mounting opening;

the mounting seat structure is mounted on the mounting opening.

Specifically, the mount structure has an inner ring structure;

The stirring driving mechanism further includes:

A main connecting plate vertically arranged, the mounting seat structure is connected with the main connecting plate through an extension part

At the lower end of the main connecting plate;

The adjusting connecting seat is radially connected to the main connecting plate;

The rotary connecting seat is connected to the first end of the main connecting plate through a connecting frame;

the rotary connecting seat, the adjusting connecting seat and the mounting seat are coaxially arranged.

Specifically, the stirring driving mechanism further comprises:

the driving connecting part is rotationally connected to the rotating connecting seat;

The first end of the driving connecting part is connected with the output end of the driving motor;

The second end of the drive connection portion has a drive extension portion thereon

The device is fixedly connected with an inclined connecting part, and the axis of the inclined connecting part and the axis of the driving connecting part form an included angle of 45 degrees;

The inclined connecting part is connected to the radial direction of a paddle sleeve;

the axis of the paddle sleeve and the axis of the driving connecting part form an included angle of 120 degrees.

Specifically, the stirring driving mechanism further comprises:

driving the rotating arm;

the driving rotation arm includes:

The first end of the first arm rod is sleeved and fixed in the paddle sleeve;

The second end of the first arm rod is connected with a hemisphere, and the sphere of the hemisphere can be used for

The arc-shaped opening is clamped on the second surface of the annular ring of the adjusting connecting seat;

the second end of the hemisphere is connected with a spur gear;

the first end of the intermediate shaft is connected to the center of the spike gear;

the second end of the intermediate shaft is connected with a grinding and hemispheroidal body;

the second end of the grinding and hemispheroidal body is a sphere and can be clamped at the first end of the mounting seat structure

The formed conical hole is formed;

The second end of the grinding and hemispheroidal body is connected with a second arm rod.

Specifically, the balancing assembly includes:

pi Daicao formed on the drive extension;

A first pulley arranged coplanar with the belt groove, the first pulley being connected with the belt groove by a belt;

the first end of the driven rod is vertically connected to the center of the first belt pulley, and the second end of the driven rod is connected with a driven gear;

the driven gear is in meshed connection with the spike gear, and the thickness of the driven gear is larger than that of the spike gear;

an auxiliary bearing seat is radially connected with the adjusting connecting seat, and the driven rod is rotationally connected to the auxiliary bearing seat;

the second end of the driven rod penetrates through the driven gear to be rotationally connected with a driven bearing seat;

the driven shaft bearing seat is fixedly connected to the closed top cover.

Specifically, the main connecting plate

Is connected to the closed top cover through a supporting component.

Specifically, the second end of the stirring paddle rod is connected with a connecting main body rod;

the helical blade structure includes:

a main spiral stirring blade which is in a spiral strip shape and forms a platform area part at a spiral turning position;

the support connecting pieces are vertically arranged with the main spiral stirring sheets;

one end of the supporting connecting piece is fixedly connected to the main body rod, and the other end of the supporting connecting piece is fixed to the main spiral stirring piece.

Specifically, a plurality of the support links are arranged at equal intervals on the main body bar;

the support link includes:

One end of the support main rod is welded and fixedly connected to the radial direction of the main body rod, a notch is formed at the other end of the support main rod, and the section of the notch forms a preset radian, so that the notch can be clamped at the bending position of the main spiral stirring piece;

the circumference of support mobile jib is provided with the strengthening rib.

Specifically, the method also comprises the following steps:

the symmetrical bending blades are arranged at the end parts of the main body rods;

one end of the symmetrical bending blade is fixedly connected to the radial direction of the main body rod;

at least comprises a group of supporting connecting pieces which are used for fixedly connecting the symmetrical bending blades.

The invention has the following beneficial effects:

the present solution firstly designs a structure capable of realizing conical stirring, that is, a stirring driving mechanism drives the stirring screw component 40, in the stirring process, the present solution designs the screw blade structure 401, although the screw blade structure 401 itself cannot directly rotate, under the action of the conical stirring track, the stirring area capable of being realized by the screw blade structure 401 is larger, especially for stirring the lower space of the stirrer barrel 100, and can exert a great stirring efficiency, because the screw blade structure 401 in fig. 1 will realize the track of the largest circle below the stirrer barrel 100, and the screw blade structure 401 realizes the effect similar to "cutting" for the liquid with viscosity for the slurry, thus improving the stirring efficiency.

Drawings

The invention is described in further detail below with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic structural view of the stirring driving mechanism of the present invention;

FIG. 3 is a schematic diagram of a balance assembly according to the present invention;

fig. 4 is a schematic structural view of the stirring screw member of the present invention.

Reference numerals in the drawings denote:

The isolation structure module 10, the stirrer cylinder 100, the stirring paddle rod 201, the helical blade structure 401, and the stirring screw member 40;

mounting seat structure 210, mounting opening 102, closed top cover 101, stirring driving mechanism 20 and driving motor 30;

a main connection plate 212, an extension member 213, an adjustment connection base 220, a rotation connection base 230, a driving connection portion 250;

drive extension 251, tilt connection 252, paddle sleeve 253;

The drive rotary arm 260, the first arm lever 261, the hemispherical body 262, the spur gear 263, the intermediate shaft 264, the grinding and hemispherical body 265;

pi Daicao 272, a first pulley 271, a belt 273, a driven lever 274, a driven gear 275, an auxiliary bearing housing 276, a driven bearing housing 277, a supporting member 280;

the main body bar 41, the main screw stirring blade 42, the support connector 43, the support main bar 431, the support main bar 432, and the reinforcing rib 433 are connected.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, based on the embodiments of the application, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of the application; it should be noted that, for convenience of description, in the present application, a "left side" is a "first end", a "right side" is a "second end", an "upper side" is a "first end", and a "lower side" is a "second end" in the present view, and the description is for clearly expressing the technical solution, and should not be construed as unduly limiting the technical solution of the present application.

In a specific embodiment, referring to fig. 1, the present invention provides a graphene lithium electronic battery mixing and stirring device, which is specifically applied to a stirrer barrel 100, is a common stirring container in a conventional coarse mixing process in the prior art, and is characterized in that the device further comprises:

an isolation structure module 10 capable of being connected to a first end of the agitator cylinder 100 to enclose the agitator cylinder 100;

The stirring driving mechanism 20 can be arranged on the installation position provided by the isolation structure module 10, and a stirring paddle rod 201 extends into the stirrer cylinder 100;

The stirring driving mechanism 20 is driven by a driving motor 30 to act by a controller so that the stirring track of the stirring paddle rod 201 is a conical track, and the stirring driving mechanism is provided with a balancing component for balancing the stress of the stirring end part when the stirring paddle rod 201 acts;

A stirring screw member 40 is connected to the second end of the stirring paddle rod 201, and a ring-shaped screw blade structure 401 is formed on the stirring screw member 40;

the present solution firstly designs a structure capable of realizing conical stirring, that is, a stirring driving mechanism drives the stirring screw component 40, in the stirring process, the present solution designs the screw blade structure 401, although the screw blade structure 401 itself cannot directly rotate, under the action of the conical stirring track, the stirring area capable of being realized by the screw blade structure 401 is larger, especially for stirring the lower space of the stirrer barrel 100, and can exert a great stirring efficiency, because the screw blade structure 401 in fig. 1 will realize the track of the largest circle below the stirrer barrel 100, and the screw blade structure 401 realizes the effect similar to "cutting" for the liquid with viscosity for the slurry, thus improving the stirring efficiency.

In one specific embodiment, referring to fig. 1, 2 and 3, the agitation driving mechanism 20 comprises:

The mounting seat structure 210, the first end of the stirrer cylinder 100 is provided with a closed top cover 101, and the closed top cover 101 is provided with a mounting opening 102; the mounting base structure 210 is mounted on the mounting port 102, so that the modification of old container equipment can be adapted, and the cost is saved.

In one embodiment, referring to fig. 1, 2 and 3, the mounting base structure 210 has an inner ring structure;

The agitation driving mechanism 20 further includes: a main connection plate 212 vertically arranged, and the mounting base structure 210 is connected to the lower end of the main connection plate 212 through an extension member 213; an adjustment connection seat 220 radially connected to the main connection plate 212; the rotary connecting seat 230 is connected to the first end of the main connecting plate 212 through a connecting frame 231; the rotational connection receptacle 230, the adjustment connection receptacle 220, and the mount structure 210 are coaxially arranged; in order to ensure the sputtering of the slurry stirred and flooded, the technical scheme actually sets a barrier effect of 2 layers, and ensures that the stirring screw component 40 can effectively act in a space by adjusting the inner ring structure arranged in the middle of the connecting seat 220 and the rotating connecting seat 230.

In one specific embodiment, referring to fig. 1,2 and 3, the stirring driving mechanism 20 further includes: a driving connection part 250 rotatably connected to the rotation connection seat 230; a first end of the driving connection part 250 is connected with an output end of the driving motor 30;

The second end of the driving connection part 250 is provided with a driving extension part 251, an inclined connection part 252 is fixedly connected to the driving extension part 251, and the axis of the inclined connection part 252 and the axis of the driving connection part 250 form an included angle of 45 degrees; the inclined connecting part 251 is connected to the radial direction of a paddle sleeve 253; the axis of the paddle sleeve 253 forms an included angle of 120 degrees with the axis of the drive connection portion 250; preferred embodiments and design angles are provided herein to provide a conical trajectory; it should be noted that, the fixing of the driving motor 30 may be implemented by selecting the main connection plate 212 or separately designing a bracket.

In one specific embodiment, referring to fig. 1,2 and 3, the stirring driving mechanism 20 further includes: driving the rotating arm 260; the driving rotation arm 260 includes: a first arm 261 having a first end thereof secured within the paddle sleeve 253; the second end of the first arm 261 is connected with a hemisphere 262, and the sphere of the hemisphere 262 can be clamped on the arc-shaped opening of the second surface of the annular ring 280 of the adjusting and connecting seat 220; a spike gear 263 is connected to the second end of the hemisphere 262; an intermediate shaft 264 having a first end connected to the center of the spur gear 263; a grinding and hemispherical body 265 is connected to the second end of the intermediate shaft 264; the second end of the grinding and hemispherical body 265 is spherical and can be snapped into a tapered bore 266 formed in the first end of the mount structure 210; a second arm 267 is connected to a second end of the grinding and hemispherical body 265; the meaning of the described arc-shaped opening capable of being clamped on the second surface of the annular ring 280 of the adjusting and connecting seat 220 is to illustrate that the hemispherical body 262 is close to the inner ring structure, and even if friction exists in the rotation process, the friction is within a reasonable range, because the balance assembly in fig. 2 and 3 can be quickly adjusted, the balance assembly is equivalent to controllably fixing the length part of the whole stirring screw component 40 at the first end and the position close to the middle, and the implementation manner in the technical scheme is as follows: when the driving motor 30 rotates, the balancing assembly includes: pi Daicao 272, 272 formed on the drive extension 251; a first pulley 271 arranged coplanar with the belt groove 271, the first pulley 271 and the belt groove 271 being connected by a belt 273; at this time, the first pulley 271 is also rotated, and the first arm 261 is a main manner of rotating in a tapered trajectory;

a driven lever 274 having a first end vertically connected to the center of the first pulley 271 and a second end connected to the driven gear 275;

the driven gear 275 is in meshed connection with the spike gear 263, and the thickness of the driven gear 275 is greater than that of the spike gear 263;

At this time, the driven gear 275 rotates with the driven lever 274 along with the first pulley 271, and the driven gear 275 and the spur gear 263 also rotate, so that the entire length portion of the stirring screw member 40 can be stabilized, and the above-mentioned "can be caught" should be a limited contact state in order to ensure the blocking of the slurry splash as much as possible;

it is also apparent that in this rotation, the driven gear 275 and the spur gear 263 are intermittently engaged, so that the ratio of the diameters of the two gears is preferably 1:1 in order to ensure periodic balance.

An auxiliary bearing seat 276 is radially connected with the adjusting connecting seat 220, and the driven rod 274 is rotatably connected with the auxiliary bearing seat 276;

A second end of the driven rod 274 rotatably coupled to a driven bearing seat 277 through the driven gear 275; the driven bearing seat 277 is fixedly connected to the closing cap 101.

In one embodiment, referring to FIGS. 1-4, the main web 212 is coupled to the closure cap 101 by a support member 280.

In a specific embodiment, referring to fig. 4, a second end of the paddle shaft 201 is connected to a connecting body shaft 41;

The helical blade structure 401 includes: a main spiral stirring blade 42 having a spiral strip shape and forming a land area 402 at a spiral turning position; a plurality of support links 43 arranged perpendicularly to the main helical stirring sheet 42; one end of the support link 43 is fixedly connected to the main body bar 41 and the other end thereof is fixed to the main helical stirring sheet 42.

In one particular embodiment, referring to FIG. 4, a plurality of support links 43 are equally spaced on the body bar 41; the support link 43 includes: one end of the support main rod 431 is fixedly connected in the radial direction of the main body rod 41 in a welding way, the other end of the support main rod 431 is provided with a notch 432, and the section of the notch 432 forms a preset radian, so that the notch 432 can be clamped at the bending position of the main spiral stirring piece 42; the supporting main lever 432 is provided with a reinforcing rib 433 in the circumferential direction.

In one embodiment, please refer to fig. 4; the method also comprises the following steps: the symmetrical bending blades 44 are arranged at the end parts of the main body rod 41, which is the supplement for ensuring balance of the spiral blade structure 401, and one end of each symmetrical bending blade 44 is fixedly connected with the radial direction of the main body rod 41; at least one set of support connectors 43 is included for fixedly connecting the symmetrically curved vanes 44.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the invention.

Claims (10)

1. Graphene lithium electronic battery compounding agitated vessel is applied to agitator barrel (100), its characterized in that includes:

An isolation structure module (10) attachable to a first end of the agitator cylinder (100) to enclose the same

-The agitator cylinder (100);

A stirring driving mechanism (20) which can be arranged on an installation position provided by the isolation structure module (10) and enables a stirring paddle rod (201) to extend into the interior of the stirrer cylinder (100);

the stirring driving mechanism (20) is driven by a driving motor (30) to act by a controller so that the stirring track of the stirring paddle rod (201) is a conical track, and the stirring driving mechanism is provided with a balancing component for balancing the stress of the stirring end part when the stirring paddle rod (201) acts;

The second end of the stirring paddle rod (201) is connected with a stirring screw component (40), and a circular screw blade structure (401) is formed on the stirring screw component (40).

2. The graphene lithium-electronic battery compound stirring device according to claim 1, wherein the stirring driving mechanism (20) comprises:

Mounting base structure (210), the first end of the agitator cylinder (100) is provided with a closed top cover (101), the

The closed top cover (101) is provided with a mounting opening (102);

the mount structure (210) is mounted on the mounting port (102).

3. The graphene lithium-electronic battery mixing and stirring device according to claim 2, wherein the mount structure (210) has an inner ring structure;

The stirring driving mechanism (20) further includes:

A main connection plate (212) which is vertically arranged, the mounting base structure (210) being connected by an extension part (213)

At the lower end of the main connection plate (212);

an adjustment connection socket (220) radially connected to the main connection plate (212);

a rotary connecting seat (230) connected to the first end of the main connecting plate (212) through a connecting frame (231);

the rotary connection seat (230), the adjusting connection seat (220) and the mounting seat structure (210) are coaxially arranged.

4. A graphene lithium-electronic battery compound stirring device as claimed in claim 3, characterized in that the stirring driving mechanism (20) further comprises:

a drive connection part (250) rotatably connected to the rotation connection base (230);

a first end of the drive connection part (250) is connected with the output end of the drive motor (30);

the second end of the drive connection (250) has a drive extension (251), the drive extension (251) being on

An inclined connecting part (252) is fixedly connected, and the axis of the inclined connecting part (252) and the axis of the driving connecting part (250) form an included angle of 45 degrees;

the inclined connecting part (251) is connected to the radial direction of a paddle sleeve (253);

an included angle of 120 degrees is formed between the axis of the paddle sleeve (253) and the axis of the driving connecting part (250).

5. The graphene lithium-electronic battery compound stirring device of claim 4, wherein the stirring driving mechanism (20) further comprises:

A drive rotation arm (260);

the drive rotation arm (260) includes:

A first arm (261) having a first end thereof sleeved and fixed in the paddle sleeve (253);

the second end of the first arm lever (261) is connected with a hemisphere (262), and the sphere of the hemisphere (262) can be used for

Is clamped on an arc-shaped opening of the second surface of the annular ring (280) of the adjusting connecting seat (220);

A second end of the hemispherical body (262) is connected with a spike gear (263);

an intermediate shaft (264) having a first end connected to the center of the spur gear (263);

The second end of the intermediate shaft (264) is connected with a grinding and hemispherical body (265);

The second end of the grinding hemispherical body (265) is spherical and can be clamped at the first end of the mounting seat structure (210)

A tapered bore (266) formed therein;

The second end of the grinding and hemispherical body (265) is connected with a second arm rod (267).

6. A graphene lithium electronic battery compound stirring device according to claim 5, wherein the balancing component comprises:

Pi Daicao (272) formed on the drive extension (251);

-a first pulley (271) arranged coplanar with said belt groove (271), said first pulley (271) being connected with said belt groove (271) by a belt (273);

A driven lever (274) having a first end vertically connected to the center of the first pulley (271) and a second end connected to a driven gear (275);

The driven gear (275) is in meshed connection with the spike gear (263), and the thickness of the driven gear (275) is larger than that of the spike gear (263);

An auxiliary bearing seat (276) is radially connected with the adjusting connecting seat (220), and the driven rod (274) is rotatably connected to the auxiliary bearing seat (276);

The second end of the driven rod (274) penetrates through the driven gear (275) to be rotationally connected with a driven bearing seat (277);

The driven shaft bearing seat (277) is fixedly connected to the closed top cover (101).

7. A graphene lithium electronic battery mixing and stirring device according to claim 5, wherein the main connection plate

(212) Is connected to the closing cap (101) by a support element (280).

8. The graphene lithium electronic battery material mixing and stirring device according to claim 1, wherein a second end of the stirring paddle rod (201) is connected with a connecting main body rod (41);

the helical blade structure (401) comprises:

a main spiral stirring blade (42) which is configured to be a spiral strip and which forms a land area (402) at a spiral turning position;

A plurality of support connectors (43) arranged perpendicularly to the main helical stirring blades (42);

one end of the supporting connecting piece (43) is fixedly connected to the main body rod (41), and the other end of the supporting connecting piece is fixed to the main spiral stirring piece (42).

9. A graphene lithium-electronic battery compound stirring device as claimed in claim 8, characterized in that a plurality of said support connectors (43) are arranged at equal intervals on said main body bar (41);

the support connection (43) comprises:

one end of the supporting main rod (431) is fixedly connected with the radial direction of the main body rod (41) in a welding way, a notch (432) is formed at the other end of the supporting main rod, and the section of the notch (432) forms a preset radian, so that the notch (432) can be clamped at the bending position of the main spiral stirring sheet (42);

Reinforcing ribs (433) are arranged on the circumference of the support main rod (432).

10. The graphene lithium-electronic battery mixing and stirring device according to claim 9, further comprising:

A symmetrical curved blade (44), the end of the body bar (41) being provided with the symmetrical curved blade (44);

One end of the symmetrical bending blade (44) is fixedly connected to the radial direction of the main body rod (41);

At least comprises a group of supporting connecting pieces (43) for fixedly connecting the symmetrical bending blades (44).