CN115069103A

CN115069103A - High dispersion stable form graphite alkene composite conductive paste preparation equipment

Info

Publication number: CN115069103A
Application number: CN202210949351.1A
Authority: CN
Inventors: 刘德承; 彭雪梅
Original assignee: Nantong Shengyuan Graphene New Material Co ltd
Current assignee: Nantong Shengyuan Graphene New Material Co ltd
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2022-09-20

Abstract

The invention discloses a preparation device of high-dispersion stable graphene composite conductive slurry, belonging to the technical field of graphene products and comprising the following steps: mixing drum and hot melt case, the surface of mixing drum is provided with the hybrid module, the feeder hopper is installed to one side at hybrid module top, and feeder hopper and mixing drum intercommunication, one side of mixing drum bottom is provided with ejection of compact subassembly, the surface mounting of mixing drum has first control panel, one side of mixing drum is provided with electronic transport rail, one side of electronic transport rail is provided with two risers, two the surface of the relative inboard of riser is provided with rolling subassembly, the surface of riser is provided with cooling module, the surface mounting of riser has the second control panel, one side of riser is provided with the collecting box. The invention can effectively prevent the surface of the electrode from being oxidized on the basis of realizing the normal conduction of the slurry, and can reduce the consumption of the electrode.

Description

High dispersion stable form graphite alkene composite conductive paste preparation equipment

Technical Field

The invention relates to the technical field of graphene products, in particular to high-dispersion stable graphene composite conductive slurry preparation equipment.

Background

Graphene is a two-dimensional atomic scale, hexagonal-shaped, carbon allotrope with one atom per vertex. It is the basic building block for other allotropes, including graphite, charcoal, carbon nanotubes, and fullerenes. It can also be considered as the final case of an indefinite family of large aromatic molecules, planar polycyclic aromatics. Graphene has many characteristics. In proportion to its thickness, it is approximately 100 times stronger than the strongest steel. It conducts heat and electricity very effectively and is almost transparent. Graphene also exhibits a large nonlinear diamagnetism, even larger than graphite, that can be levitated by neodymium-iron-boron magnets. Researchers have identified the bipolar transistor effect, ballistic transport of charges, and large numbers of sub-oscillations in materials.

When most of current conductive paste reuses, because electrode surface oxidation leads to the performance reduction of electrode, and conductive paste is high temperature resistance relatively poor, and thick liquids just can not protect the electrode after long-time work with the electrode contact, makes the life of electrode descend, and thick liquids deposit easily and gel when the storage, leads to the inconvenient storage to the thick liquids of user, for this we propose a high dispersion stable form graphite alkene composite conductive paste preparation equipment.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a preparation device of high-dispersion stable graphene composite conductive paste.

2. Technical scheme

In order to solve the problems, the invention adopts the following technical scheme:

a high-dispersion stable graphene composite conductive slurry preparation device comprises a mixing barrel and a hot melting box, wherein a mixing assembly is arranged on the surface of the mixing barrel, a feeding hopper is installed on one side of the top of the mixing assembly and is communicated with the mixing barrel, a discharging assembly is arranged on one side of the bottom of the mixing barrel, a first control panel is installed on the surface of the mixing barrel, an electric conveying rail is arranged on one side of the mixing barrel, two vertical plates are arranged on one side of the electric conveying rail, rolling assemblies are arranged on the surfaces of the two vertical plates on the opposite inner sides, cooling assemblies are arranged on the surfaces of the vertical plates, a second control panel is installed on the surfaces of the vertical plates, a collecting box is arranged on one side of each vertical plate, a filtering assembly is installed on the top of the hot melting box, a protective door is rotatably connected on the surface of the hot melting box, and a temperature adjusting button is installed on the surface of the hot melting box, and a third control panel is installed below the temperature adjusting button, and a plurality of hot melting plates are slidably connected inside the hot melting box.

As a preferred embodiment of the present invention, the mixing assembly includes a first rotating shaft, a rotating ring, a mixing shaft, a mixing blade, a scraping blade, a pushing blade, a first protection box, a first fluted disc, a second fluted disc, a first servo motor, and a first gear, the first rotating shaft is rotatably connected to the inside of the mixing barrel, the rotating ring is rotatably connected to both sides of the surface of the first rotating shaft, the mixing shaft is fixedly connected to the surface of the first rotating shaft and located inside the rotating ring, the mixing blades are provided in plurality, the mixing blades are fixedly connected to the surface of the mixing shaft, the scraping blades are provided in plurality, one side of the scraping blade is fixedly connected to the rotating ring on one side, the other side of the scraping blade is fixedly connected to the rotating ring on the other side, the pushing blade is fixedly connected to the surface of one end of the first rotating shaft, the first protection box is mounted on the top of the mixing barrel, first fluted disc rotates to be connected in the inside of first protection box, and first fluted disc and rotating ring fixed connection, the second fluted disc rotates to be connected in the inside of first protection box, and second fluted disc and first axis of rotation fixed connection, first servo motor installs in the surface at hybrid bucket top, first gear fixed connection is in the surface of first servo motor output shaft, and first gear meshes with first fluted disc and second fluted disc respectively.

As a preferable scheme of the invention, the discharging component comprises a mounting frame, a discharging hopper, a threaded rod, a moving block, a second servo motor, a transmission belt, a limiting plate and a discharging plate, the mounting frame is mounted on one side of the bottom of the mixing barrel, the discharging hopper is mounted on the bottom of the mounting frame, the threaded rod is rotatably connected to the surfaces of two sides of the mounting frame, the moving block is slidably connected to the surface of the mounting frame and is in threaded connection with the threaded rod, the discharging plate is fixedly connected to the surface of the opposite inner side of the moving block, the second servo motor is mounted on the surface of the mounting frame, one end of the transmission belt is in contact with an output shaft of the second servo motor, the other end of the transmission belt is in contact with the discharging hopper, the transmission belt is used for rotating the two discharging hoppers while an output shaft of the second servo motor rotates, the limiting plate is mounted on the surface of the mounting frame, and the inner side of the lower hopper.

As a preferable mode of the present invention, the rolling assembly includes a storage battery, a dual-shaft motor, two second gears, two third gears, two second rotating shafts, four fourth gears and a hot roll, the storage battery is mounted on the surface of the opposite inner sides of the vertical plate, the dual-shaft motor is mounted on the top of the storage battery, the two second gears are rotatably connected to the surface of the inner wall of the vertical plate, the two second gears are fixedly connected to the output shafts at the two ends of the dual-shaft motor, respectively, the two third gears are rotatably connected to the inner wall of the vertical plate, the two third gears are respectively engaged with the two second gears, the plurality of second rotating shafts are rotatably connected to the surface of the vertical plate, the fourth gears are mounted on the surfaces at the two ends of the second rotating shafts, and the fourth gears are engaged with the third gears, the hot roller is fixedly connected to the surface of the second rotating shaft.

As a preferable scheme of the present invention, the cooling module includes a water spray plate, a connection plate, a cold water tank, a water inlet valve, a second protection tank, a waterproof plate, a water pump, a water leakage plate, a water pipe, a water cooler, and a condenser pipe, the water spray plate is installed on the surface of the inner side of the vertical plate and above the hot roll, the connection plate is installed on the top of the water spray plate, the cold water tank is installed on the surface of the inner side of the vertical plate and below the battery, the water inlet valve is installed on the surface of the cold water tank, the second protection tank is installed inside the cold water tank, the water cooler is installed on the surface of the second protection tank, the condenser pipe is installed on the surface of the second protection tank, both ends of the condenser pipe are communicated with the water cooler, the waterproof plate is installed on the surface of the top of the second protection tank, the water pump is installed inside the cold water tank, the water leakage plate is installed on the surface of the top of the cold water tank, one end of the water delivery pipe is communicated with the connecting plate, and the other end of the water delivery pipe penetrates through the cold water tank and is communicated with the water suction pump.

According to a preferable scheme of the invention, the filtering assembly comprises an air suction cover, an air blower, an air guide pipe, a filtering box, a filtering plate and an air outlet pipe, wherein the air suction cover is arranged at the top of the hot melting box and communicated with the hot melting box, the air blower is arranged at the top of the hot melting box, one end of the air guide pipe is communicated with the air suction cover, the other end of the air guide pipe is communicated with the air blower, the filtering box is arranged on the surface of one side of the air blower and communicated with the air blower, the filtering plates are arranged in a plurality, the filtering plates are connected to the surface of the filtering box in a sliding mode, and the air outlet pipe is arranged on the surface of the filtering box.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

the conductive paste body consists of the conductive phase, the binder phase and the liquid carrier, so that the conductive paste body has good conductivity, does not precipitate or gel when being stored, has good process compatibility with the existing battery, and can be directly added, so that the conductive paste body has better application performance, reduces the internal resistance of the lithium battery, improves the multiplying power performance and the cycle life of the lithium battery, effectively prevents the surface oxidation of the electrode, reduces the consumption of the electrode, and improves the service life of the electrode;

the invention can rapidly melt the raw materials through the matching use of the hot melting box, the filtering component, the protective door, the temperature adjusting button, the third control panel and the hot melting plate, thereby facilitating the subsequent processing of the raw materials, simultaneously the filtering component can filter and discharge the waste gas generated by hot melting when the raw materials are processed, thereby reducing the harm of the waste gas to the environment, the materials to be processed can be fully stirred through the matching use of the mixing barrel, the mixing component, the feed hopper and the discharging component, the sticky materials on the inner wall of the mixing barrel can be scraped during the stirring process, the sticky probability of the material processing is reduced, and the convenience is brought to the cleaning of the mixing barrel by workers, the materials after stirring can be rolled through the matching use of the vertical plate, the rolling component and the cooling component, and the materials are cooled during the rolling process, thereby improving the efficiency of rolling.

Drawings

Fig. 1 is a schematic diagram of a high dispersion stable type graphene composite conductive paste preparation apparatus according to the present invention;

fig. 2 is a sectional view of a partial structure of a high dispersion stable type graphene composite conductive paste manufacturing apparatus according to the present invention;

fig. 3 is a schematic diagram of a mixing assembly in the high dispersion stable graphene composite conductive paste preparation apparatus according to the present invention;

fig. 4 is a schematic view of a discharging assembly in the high dispersion stable type graphene composite conductive paste preparation apparatus of the present invention;

fig. 5 is a schematic view of a rolling assembly in a high dispersion stable graphene composite conductive paste preparation device according to the present invention;

fig. 6 is an exploded view of a cooling assembly in the high dispersion stable type graphene composite conductive paste preparation apparatus of the present invention;

fig. 7 is a partial schematic view of a cooling assembly in the high dispersion stable type graphene composite conductive paste preparation apparatus of the present invention;

fig. 8 is a schematic view of a filter assembly in the high dispersion stable graphene composite conductive paste preparation apparatus of the present invention.

The reference numbers in the figures illustrate:

1. a mixing barrel; 2. a mixing assembly; 201. a first rotating shaft; 202. a rotating ring; 203. a mixing shaft; 204. mixing the leaves; 205. a squeegee; 206. a material pushing plate; 207. a first protective box; 208. a first fluted disc; 209. a second fluted disc; 210. a first servo motor; 211. a first gear; 3. a feed hopper; 4. a discharge assembly; 401. installing a frame; 402. a feeding hopper; 403. a threaded rod; 404. a moving block; 405. a second servo motor; 406. a drive belt; 407. a limiting plate; 408. a blanking plate; 5. a first control panel; 6. an electric conveying rail; 7. a vertical plate; 8. a rolling assembly; 801. a storage battery; 802. a double-shaft motor; 803. a second gear; 804. a third gear; 805. a second rotating shaft; 806. a fourth gear; 807. a hot roll; 9. a cooling assembly; 901. a water spray plate; 902. a connecting plate; 903. a cold water tank; 904. a water inlet valve; 905. a second protection box; 906. a waterproof sheet; 907. a water pump; 908. a water leakage plate; 909. a water delivery pipe; 910. a water cooler; 911. a condenser tube; 10. a second control panel; 11. a collection box; 12. a hot melting box; 13. a filter assembly; 1301. an air suction hood; 1302. a blower; 1303. an air duct; 1304. a filter box; 1305. a filter plate; 1306. an air outlet pipe; 14. a protective door; 15. a temperature adjusting knob; 16. a third control panel; 17. a hot melt plate.

Detailed Description

The technical solution 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. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of 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. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may 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 in specific cases to those skilled in the art.

Example (b):

referring to fig. 1-8, a high dispersion stable type graphene composite conductive paste preparation device comprises a mixing barrel 1 and a hot melting box 12, a mixing component 2 is arranged on the surface of the mixing barrel 1, a feed hopper 3 is arranged on one side of the top of the mixing component 2, the feed hopper 3 is communicated with the mixing barrel 1, a discharging component 4 is arranged on one side of the bottom of the mixing barrel 1, a first control panel 5 is arranged on the surface of the mixing barrel 1, an electric conveying rail 6 is arranged on one side of the mixing barrel 1, two vertical plates 7 are arranged on one side of the electric conveying rail 6, rolling components 8 are arranged on the surfaces of the opposite inner sides of the two vertical plates 7, a cooling component 9 is arranged on the surface of each vertical plate 7, a second control panel 10 is arranged on the surface of each vertical plate 7, a collecting box 11 is arranged on one side of each vertical plate 7, a filtering component 13 is arranged on the top of the hot melting box 12, and a protective door 14 is rotatably connected on the surface of the hot melting box 12, the surface of the hot melting box 12 is provided with a temperature adjusting button 15, a third control panel 16 is arranged below the temperature adjusting button 15, and a plurality of hot melting plates 17 are connected inside the hot melting box 12 in a sliding manner.

In the embodiment of the invention, through the matching use of the hot melting box 12, the filtering component 13, the protective door 14, the temperature adjusting button 15, the third control panel 16 and the hot melting plate 17, the raw materials can be melted rapidly, so that the subsequent processing of the raw materials is convenient, meanwhile, the filtering component 13 can filter and discharge waste gas generated by hot melting when the raw materials are processed, so that the harm of the waste gas to the environment is reduced, through the matching use of the mixing barrel 1, the mixing component 2, the feed hopper 3 and the discharging component 4, the materials to be processed instead can be fully stirred, and the materials adhered to the inner wall of the mixing barrel 1 can be scraped in the stirring process, so that the probability of material processing adhesion is reduced, convenience is brought to the cleaning of the mixing barrel 1 by workers, and through the matching use of the vertical plate 7, the rolling component 8 and the cooling component 9, the stirred materials can be rolled, and the material is cooled in the rolling process, so that the rolling efficiency is improved.

Specifically, the mixing assembly 2 includes a first rotating shaft 201, a rotating ring 202, a mixing shaft 203, a mixing blade 204, a scraping blade 205, a pushing blade 206, a first protection box 207, a first toothed disc 208, a second toothed disc 209, a first servo motor 210 and a first gear 211, the first rotating shaft 201 is rotatably connected to the inside of the mixing tub 1, the rotating ring 202 is rotatably connected to both sides of the surface of the first rotating shaft 201, the mixing shaft 203 is fixedly connected to the surface of the first rotating shaft 201 and located inside the rotating ring 202, the mixing blade 204 is provided in plurality, the plurality of mixing blades 204 are fixedly connected to the surface of the mixing shaft 203, the scraping blades 205 are provided in plurality, one side of the scraping blade 205 is fixedly connected to one side of the rotating ring 202, the other side of the scraping blade 205 is fixedly connected to the other side of the rotating ring 202, the pushing blade 206 is fixedly connected to the surface of one end of the first rotating shaft 201, the first protection box 207 is installed on the top of the mixing tub 1, the first gear plate 208 is rotatably connected to the inside of the first protection box 207, the first gear plate 208 is fixedly connected to the rotating ring 202, the second gear plate 209 is rotatably connected to the inside of the first protection box 207, the second gear plate 209 is fixedly connected to the first rotating shaft 201, the first servo motor 210 is installed on the surface of the top of the mixing barrel 1, the first gear 211 is fixedly connected to the surface of the output shaft of the first servo motor 210, and the first gear 211 is respectively engaged with the first gear plate 208 and the second gear plate 209.

In the embodiment of the invention, the first rotating shaft 201, the rotating ring 202, the mixing shaft 203, the mixing blade 204, the scraping plate 205, the pushing plate 206, the first protection box 207, the first fluted disc 208, the second fluted disc 209, the first servo motor 210 and the first gear 211 are used in cooperation, so that the slurry can be rapidly mixed, and the sticky slurry on the inner wall of the mixing barrel 1 can be scraped while mixing, thereby reducing the probability of the sticky slurry, facilitating the cleaning of the inside of the mixing barrel 1 by the staff and bringing convenience to the staff.

Specifically, the discharging assembly 4 comprises a mounting frame 401, a discharging hopper 402, a threaded rod 403, a moving block 404, a second servo motor 405, a transmission belt 406, a limiting plate 407 and a discharging plate 408, the mounting frame 401 is mounted on one side of the bottom of the mixing barrel 1, the discharging hopper 402 is mounted at the bottom of the mounting frame 401, the threaded rod 403 is rotatably connected to the surfaces of the two sides of the mounting frame 401, the moving block 404 is slidably connected to the surface of the mounting frame 401, the moving block 404 is in threaded connection with the threaded rod 403, the discharging plate 408 is fixedly connected to the surface of the opposite inner side of the moving block 404, the second servo motor 405 is mounted on the surface of the mounting frame 401, one end of the transmission belt 406 is in contact with the output shaft of the second servo motor 405, the other end of the transmission belt 406 is in contact with the discharging hopper 402, the transmission belt 406 is used for rotating the output shaft of the second servo motor 405 while being rotated by passing through the two discharging hoppers 402, the limiting plate 407 is mounted on the surface of the mounting frame 401, and inside the lower hopper 402.

In the embodiment of the invention, by matching the mounting frame 401, the blanking hopper 402, the threaded rod 403, the moving block 404, the second servo motor 405, the transmission belt 406, the limiting plate 407 and the blanking plate 408, after the stirring of the slurry in the mixing barrel 1 is completed, the slurry can be conveniently discharged from the mixing barrel 1, and the sealing performance of the mixing barrel 1 can be improved when the mixing barrel 1 stirs the slurry.

Specifically, the rolling assembly 8 includes a storage battery 801, a dual-shaft motor 802, second gears 803, third gears 804, second rotating shafts 805, fourth gears 806 and hot rolls 807, the storage battery 801 is mounted on the surface of the opposite inner side of a vertical plate 7, the dual-shaft motor 802 is mounted on the top of the storage battery 801, the second gears 803 are provided in two, the two second gears 803 are rotatably connected to the surface of the inner wall of the vertical plate 7, the two second gears 803 are fixedly connected to the output shafts at the two ends of the dual-shaft motor 802 respectively, the three gears 804 are provided in two, the two third gears 804 are rotatably connected to the inner wall of the vertical plate 7 respectively, the two third gears 804 are engaged with the two second gears 803 respectively, the plurality of second rotating shafts 805 are provided in plurality, the plurality of second rotating shafts are rotatably connected to the surface of the vertical plate 7, the fourth gears 806 are mounted on the surfaces at the two ends of the second rotating shafts 805, and the fourth gears 806 are engaged with the third gears 804, the hot roll 807 is fixedly attached to the surface of the second rotating shaft 805.

In the embodiment of the present invention, the storage battery 801, the dual-shaft motor 802, the second gear 803, the third gear 804, the second rotating shaft 805, the fourth gear 806 and the hot roll 807 are used in cooperation, so that the slurry can be rapidly rolled, and the rolling efficiency is improved.

Specifically, the cooling module 9 includes a water spraying plate 901, a connecting plate 902, a cold water tank 903, a water inlet valve 904, a second protection tank 905, a waterproof plate 906, a water pump 907, a water leakage plate 908, a water delivery pipe 909, a water cooler 910 and a condensation pipe 911, the water spraying plate 901 is mounted on the surface of the inner side opposite to the vertical plate 7 and above the hot roll 807, the connecting plate 902 is mounted on the top of the water spraying plate 901, the cold water tank 903 is mounted on the surface of the inner side opposite to the vertical plate 7 and below the storage battery 801, the water inlet valve 904 is mounted on the surface of the cold water tank 903, the second protection tank 905 is mounted inside the cold water tank 903, the water cooler 910 is mounted on the surface of the second protection tank 905, the condensation pipe 911 is mounted on the surface of the second protection tank 905, both ends of the condensation pipe 911 are communicated with the water cooler 910, the waterproof plate 906 is mounted on the surface of the top of the second protection tank 905, the water pump 907 is mounted inside the cold water tank 903, the water leakage plate 908 is mounted on the surface of the top of the cold water tank 903, one end of the water pipe 909 is communicated with the connecting plate 902, and the other end of the water pipe 909 penetrates through the cold water tank 903 and is communicated with the water suction pump 907.

In the embodiment of the invention, the water spraying plate 901, the connecting plate 902, the cold water tank 903, the water inlet valve 904, the second protection box 905, the waterproof plate 906, the water suction pump 907, the water leakage plate 908, the water conveying pipe 909, the water cooler 910 and the condensation pipe 911 are used in cooperation, so that slurry is cooled in the rolling process, and water flow used for cooling is circulated and utilized, so that the utilization rate of water resources is improved.

Specifically, the filter assembly 13 comprises an air suction hood 1301, a blower 1302, air guide pipes 1303, a filter box 1304, filter plates 1305 and an air outlet pipe 1306, wherein the air suction hood 1301 is installed at the top of the hot melting box 12 and communicated with the hot melting box 12, the blower 1302 is installed at the top of the hot melting box 12, one end of each air guide pipe 1303 is communicated with the air suction hood 1301, the other end of each air guide pipe 1303 is communicated with the blower 1302, the filter box 1304 is connected with one side surface of the blower 1302 and communicated with the blower 1302, the filter plates 1305 are arranged in a plurality, the filter plates 1305 are connected to the surface of the filter box 1304 in a sliding mode, and the air outlet pipe 1306 is installed on the surface of the filter box 1304.

In the embodiment of the present invention, the exhaust hood 1301, the blower 1302, the air duct 1303, the filter box 1304, the filter plate 1305 and the air outlet pipe 1306 are used in cooperation, so that the exhaust generated inside the hot melting box 12 can be filtered, and the harm of the exhaust to the environment is reduced.

The use method of the high-dispersion stable graphene composite conductive paste preparation equipment comprises the following steps:

s1, when in use, firstly, the protective door 14 is rotated to put raw materials into the interior of the hot melting plate 17, then the protective door 14 is closed, the temperature of the hot melting box 12 is selected through the temperature adjusting button 15, then the hot melting box 12 is started through the third control panel 16, the air blower 1302 is started while the hot melting box 12 works, the air blower 1302 sucks air in the interior of the mixing barrel 1 through the air duct 1303 and the air suction hood 1301, then the air enters the interior of the filter box 1304, the air is filtered through the plurality of filter plates 1305, and the filtered air is discharged through the air outlet pipe 1306;

s2, pouring the hot-melted materials into the mixing barrel 1 through the feed hopper 3, starting the first servo motor 210 through the first control panel 5, enabling an output shaft of the first servo motor 210 to rotate to drive the first gear 211 to rotate, enabling the first gear 211 to rotate to drive the second gear 209 and the first gear 208 to rotate, enabling the second gear 209 to rotate to drive the first rotating shaft 201 to rotate, enabling the first rotating shaft 201 to rotate to drive the mixing shaft 203, the mixing blades 204 and the material pushing plate 206 to rotate, so as to stir the materials, enabling the first gear 208 to rotate to drive the rotating ring 202 and the scraping plate 205 to rotate, and accordingly scraping the materials stuck inside the mixing barrel 1;

s3, leaking the materials of the mixing barrel 1 through the discharging assembly 4 after stirring, falling the materials on the surface of the electric conveying rail 6 for transportation, shaping while transporting, starting the double-shaft motor 802 through the second control panel 10, driving the second gear 803 to rotate by the rotation of the output shafts at the two ends of the double-shaft motor 802, driving the third gear 804 to rotate by the rotation of the second gear 803, driving the fourth gear 806 to rotate by the rotation of the third gear 804, driving the second rotating shaft 805 and the hot roller 807 to rotate under the action of the fourth gear 806, thereby rolling the materials, forming uniform paste after repeated rolling, and using the coating;

s4, starting the water cooler 910 and the water pump 907 while the rolling assembly 8 works, connecting the water inlet valve 904 with an external water supply pipe, continuously cooling water in the cold water tank 903 by the water cooler 910 and the condenser 911, conveying water flow in the cold water tank 903 to the connecting plate 902 by the water pump 907 through the water conveying pipe 909, discharging the water flow through the water spraying plate 901, cooling materials, and enabling the water flow to fall into the water leaking plate 908 and return to the inside of the cold water tank 903 so as to achieve water circulation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the equivalent replacement or change according to the technical solution and the modified concept of the present invention should be covered by the scope of the present invention.

Claims

1. The utility model provides a high dispersion stable form graphite alkene composite conductive paste preparation equipment, its characterized in that includes mixing drum (1) and hot melt case (12), the surface of mixing drum (1) is provided with hybrid module (2), feeder hopper (3) are installed to one side at hybrid module (2) top, and feeder hopper (3) and mixing drum (1) intercommunication, one side of mixing drum (1) bottom is provided with ejection of compact subassembly (4), the surface mounting of mixing drum (1) has first control panel (5), one side of mixing drum (1) is provided with electronic delivery rail (6), one side of electronic delivery rail (6) is provided with two risers (7), two the surface of the relative inboard of riser (7) is provided with rolling subassembly (8), the surface of riser (7) is provided with cooling module (9), the surface mounting of riser (7) has second control panel (10), one side of riser (7) is provided with collecting box (11), filtering component (13) are installed at the top of hot melt case (12), the surface of hot melt case (12) is rotated and is connected with guard gate (14), the surface mounting of hot melt case (12) has temperature regulation button (15), third control panel (16) are installed to the below of temperature regulation button (15), the inside sliding connection of hot melt case (12) has a plurality of hot melt boards (17).

2. The apparatus for preparing graphene composite conductive paste with high dispersion stability according to claim 1, wherein the mixing assembly (2) comprises a first rotating shaft (201), a rotating ring (202), a mixing shaft (203), a mixing blade (204), a scraper blade (205), a material pushing plate (206), a first protecting box (207), a first fluted disc (208), a second fluted disc (209), a first servo motor (210) and a first gear (211), the first rotating shaft (201) is rotatably connected to the inside of the mixing barrel (1), the rotating ring (202) is rotatably connected to two sides of the surface of the first rotating shaft (201), the mixing shaft (203) is fixedly connected to the surface of the first rotating shaft (201) and located at the inner side of the rotating ring (202), the mixing blades (204) are provided in plurality, and the plurality of mixing blades (204) are fixedly connected to the surface of the mixing shaft (203), the scraper blades (205) are arranged in a plurality of numbers, one side of each scraper blade (205) is fixedly connected with one side of the corresponding rotating ring (202), the other side of each scraper blade (205) is fixedly connected with the other side of the corresponding rotating ring (202), the material pushing plate (206) is fixedly connected to the surface of one end of the corresponding first rotating shaft (201), the first protection box (207) is installed at the top of the mixing barrel (1), the first fluted disc (208) is rotatably connected to the inside of the first protection box (207), the first fluted disc (208) is fixedly connected with the corresponding rotating ring (202), the second fluted disc (209) is rotatably connected to the inside of the first protection box (207), the second fluted disc (209) is fixedly connected with the corresponding first rotating shaft (201), the first servo motor (210) is installed on the surface of the top of the mixing barrel (1), and the first gear (211) is fixedly connected to the surface of the output shaft of the first servo motor (210), and the first gear (211) is engaged with the first toothed disc (208) and the second toothed disc (209), respectively.

3. The device for preparing the high-dispersion stable graphene composite conductive paste according to claim 1, wherein the discharging assembly (4) comprises a mounting frame (401), a discharging hopper (402), a threaded rod (403), a moving block (404), a second servo motor (405), a transmission belt (406), a limiting plate (407) and a discharging plate (408), the mounting frame (401) is mounted on one side of the bottom of the mixing barrel (1), the discharging hopper (402) is mounted on the bottom of the mounting frame (401), the threaded rod (403) is rotatably connected to the surfaces of two sides of the mounting frame (401), the moving block (404) is slidably connected to the surface of the mounting frame (401), the moving block (404) is in threaded connection with the threaded rod (403), the discharging plate (408) is fixedly connected to the surface of the opposite inner side of the moving block (404), and the second servo motor (405) is mounted on the surface of the mounting frame (401), the one end of driving belt (406) and the output shaft contact of second servo motor (405), and the other end of driving belt (406) and hopper (402) contact down, driving belt (406) are used for second servo motor (405) output shaft pivoted band-pass two simultaneously hopper (402) rotate down, limiting plate (407) are installed in the surface of installing frame (401), and the inboard of hopper (402) down.

4. The equipment for preparing the high-dispersion stable graphene composite conductive paste according to claim 1, wherein the rolling assembly (8) comprises a storage battery (801), a double-shaft motor (802), second gears (803), third gears (804), a second rotating shaft (805), fourth gears (806) and hot rollers (807), the storage battery (801) is mounted on the surface of the opposite inner side of a vertical plate (7), the double-shaft motor (802) is mounted on the top of the storage battery (801), the second gears (803) are provided in two, the two second gears (803) are rotatably connected to the surface of the inner wall of the vertical plate (7), the two second gears (803) are fixedly connected with output shafts at two ends of the double-shaft motor (802), the three gears (804) are provided in two, and the two third gears (804) are rotatably connected to the inner wall of the vertical plate (7), and the two third gears (804) are respectively meshed with the two second gears (803), the second rotating shafts (805) are arranged in a plurality, the second rotating shafts (805) are rotatably connected to the surfaces of the vertical plates (7), the fourth gears (806) are arranged on the surfaces of two ends of the second rotating shafts (805), the fourth gears (806) are meshed with the third gears (804), and the hot rollers (807) are fixedly connected to the surfaces of the second rotating shafts (805).

5. The equipment for preparing the high-dispersion stable graphene composite conductive paste as claimed in claim 4, wherein the cooling assembly (9) comprises a water spraying plate (901), a connecting plate (902), a cold water tank (903), a water inlet valve (904), a second protection tank (905), a waterproof plate (906), a water pump (907), a water leakage plate (908), a water conveying pipe (909), a water cooler (910) and a condensation pipe (911), the water spraying plate (901) is installed on the surface of the inner side opposite to the vertical plate (7) and above the hot roller (807), the connecting plate (902) is installed on the top of the water spraying plate (901), the cold water tank (903) is installed on the surface of the inner side opposite to the vertical plate (7) and below the storage battery (801), the water inlet valve (904) is installed on the surface of the cold water tank (903), and the second protection tank (905) is installed inside the cold water tank (903), the water cooler (910) is arranged on the surface of the second protection box (905), the condensation pipe (911) is arranged on the surface of the second protection box (905), the two ends of the condensation pipe (911) are communicated with the water cooler (910), the waterproof plate (906) is arranged on the surface of the top of the second protection box (905), the water suction pump (907) is arranged inside the cold water box (903), the water leakage plate (908) is arranged on the surface of the top of the cold water box (903), one end of the water conveying pipe (909) is communicated with the connecting plate (902), and the other end of the water conveying pipe (909) penetrates through the cold water box (903) and is communicated with the water suction pump (907).

6. The apparatus for preparing the graphene composite conductive paste with high dispersion stability according to claim 1, wherein the filtering assembly (13) comprises an air suction hood (1301), a blower (1302), an air guide pipe (1303), a filtering box (1304), a filtering plate (1305) and an air outlet pipe (1306), the air suction hood (1301) is mounted at the top of the hot melting box (12) and communicated with the hot melting box (12), the blower (1302) is mounted at the top of the hot melting box (12), one end of the air guide pipe (1303) is communicated with the air suction hood (1301), the other end of the air guide pipe (1303) is communicated with the blower (1302), the filtering box (1304) is connected with one side surface of the blower (1302) and communicated with the blower (1302), the filtering plate (1305) is provided in plurality, and the filtering plates (1305) are slidably connected to the surface of the filtering box (1304), the air outlet pipe (1306) is installed on the surface of the filter box (1304).