CN112076650A

CN112076650A - Water-based heat-conducting coating and preparation method and preparation system thereof

Info

Publication number: CN112076650A
Application number: CN202011058617.0A
Authority: CN
Inventors: 蔡柳娟
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2020-12-15

Abstract

The invention relates to the field of paint preparation, in particular to a water-based heat-conducting paint, a preparation method and a preparation system thereof, wherein the method comprises the following steps: 1. adding the raw materials into a feeding pipe through a feeding port, starting a feeding motor to drive a feeding spiral plate to rotate, and pushing the raw materials into a stirring barrel; 2. the stirring shaft is driven to rotate by the stirring motor, the stirring shaft drives the stirring fixing plate to rotate in the stirring barrel through the stirring fixing seat, and meanwhile, the stirring shaft drives the stirring expansion plate to rotate in the stirring barrel through the stirring sliding seat to stir the raw materials; 3. the rotating wheel is driven to rotate by the lifting motor, the rotating wheel drives the lifting stirring plate to reciprocate in the stirring barrel through the linkage plate for stirring, the raw materials are uniformly stirred to obtain the water-based heat-conducting coating, and finally the water-based heat-conducting coating is discharged through the discharging pipe.

Description

Water-based heat-conducting coating and preparation method and preparation system thereof

Technical Field

The invention relates to the field of paint preparation, in particular to a water-based heat-conducting paint, and a preparation method and a preparation system thereof.

Background

The coating is traditionally named as paint in China. The coating is a continuous film which is coated on the surface of an object to be protected or decorated and can form firm adhesion with the object to be coated, and is a viscous liquid which is prepared by taking resin, oil or emulsion as a main material, adding or not adding pigments and fillers, adding corresponding auxiliaries and using an organic solvent or water. Some heat conduction equipment needs water-based heat conduction paint, and the existing paint preparation equipment has low stirring efficiency during preparation, so that the paint production efficiency is influenced.

Disclosure of Invention

The invention aims to provide a water-based heat-conducting coating, a preparation method and a preparation system thereof, which have high stirring efficiency and improve the production efficiency of the coating.

The purpose of the invention is realized by the following technical scheme:

waterborne heat conduction coating preparation system, including agitator tank frame, upper cover mechanism, feeding conveying mechanism, stirring power unit, stirring mount, stirring expansion bracket and lift rabbling mechanism, its characterized in that: upper cover mechanism connect on the agitator tank frame, feed conveyor connect the side at the agitator tank frame, stirring power unit connect the lower extreme at the agitator tank frame, the stirring mount be equipped with two, two stirring mount symmetry fixed connection just all are located the agitator tank frame on stirring power unit, the stirring flexible frame be equipped with two, two equal sliding connection of stirring flexible frame are on stirring power unit, two stirring flexible frames respectively with two stirring mount sliding connection, lift rabbling mechanism connect in upper cover mechanism and with stirring power unit rotate to be connected, lift rabbling mechanism sliding connection is in the agitator tank frame.

Agitator tank frame include agitator, discharging pipe, landing leg, inlet pipe, charge door and motor fixing base I, the lateral wall lower extreme of agitator is equipped with the discharging pipe, is equipped with the valve on the discharging pipe, four landing legs of the lower extreme fixedly connected with of agitator, inlet pipe fixed connection is equipped with the charge door in the upper end of agitator lateral wall on the inlet pipe, I fixed connection of motor fixing base is in the upper end of agitator lateral wall.

The upper cover mechanism include upper cover plate, slide opening, ring gear, fixed spacing ring, upper cover rotation motor and motor fixing base II, be equipped with two slide openings on the upper cover plate, ring gear fixed connection is in the outer end of upper cover plate, fixed spacing ring fixed connection is at the lower terminal surface of upper cover plate, upper cover rotation motor fixed connection is on motor fixing base I, the upper cover rotates motor and ring gear transmission and connects, II fixed connections of motor fixing base are at the up end of upper cover plate, fixed spacing ring rotates the upper end of connecting at the agitator.

Feeding conveying mechanism include feeding motor, feeding mounting panel, feeding axle and feeding spiral plate, feeding mounting panel fixed connection is in the outer end of inlet pipe, feeding motor fixed connection is on the feeding mounting panel, feeding axle fixed connection is on the output shaft of feeding motor, feeding spiral plate fixed connection is on the feeding axle, the feeding spiral plate rotates to be connected in the inlet pipe.

Stirring power unit include agitator motor, (mixing) shaft, spacing key and interlock seat, agitator motor fixed connection is at the lower extreme of agitator, (mixing) shaft fixed connection on agitator motor's output shaft, (mixing) shaft is last the symmetry to be equipped with two spacing keys, interlock seat sliding connection is on (mixing) shaft and two spacing keys.

The stirring mount including stirring fixing base, stirring fixed plate and spout, the three stirring fixed plate of the even fixedly connected with of stirring fixing base circumference all is equipped with the spout in the three stirring fixed plate, the stirring mount be equipped with two, two stirring fixing base symmetry fixed connection are at the both ends of (mixing) shaft.

Stirring expansion bracket including stirring slide, stirring expansion plate and spring, the three stirring expansion plate of the even fixedly connected with of stirring slide circumference, stirring expansion bracket be equipped with two, two equal sliding connection of stirring slide are on the (mixing) shaft, two stirring slides are located the both ends of interlock seat, six stirring expansion plates are sliding connection respectively in six spouts, two springs are all established on the (mixing) shaft, two springs are located the upper and lower both ends of two stirring slides respectively, the both ends of two springs are all pushed up tight stirring slide and stirring fixing base.

The lifting stirring mechanism comprises a lifting stirring plate, hollow holes, lifting linkage sliding plates, an upper transverse plate, a linkage frame, a linkage plate, a rotating wheel and a lifting motor, wherein the lifting stirring plate is connected to a linkage seat in a rotating manner, the lifting stirring plate is symmetrically provided with two hollow holes, the lifting stirring plate is symmetrically and fixedly connected with two lifting linkage sliding plates, the upper transverse plate is fixedly connected to the upper ends of the two lifting linkage sliding plates, the linkage frame is fixedly connected to the lower end face of the upper transverse plate, the upper end of the linkage plate is connected to the linkage frame in a rotating manner, the lower end of the linkage plate is connected to the eccentric position of the rotating wheel in a rotating manner, the rotating wheel is fixedly connected to the output shaft of the lifting motor, the lifting motor is fixedly connected to a motor fixing seat II, the two lifting linkage sliding plates are respectively connected to the two sliding.

The water-based heat-conducting coating prepared by the water-based heat-conducting coating preparation system comprises the following components in parts by weight: 30 parts of water-based epoxy resin, 10 parts of organic silicon resin, 10 parts of silica sol, 20 parts of titanium dioxide, 30 parts of water and 3 parts of wetting agent.

The preparation method of the water-based heat-conducting paint preparation system comprises the following steps:

the method comprises the following steps: adding the raw materials into a feeding pipe through a feeding port, starting a feeding motor to drive a feeding spiral plate to rotate, and pushing the raw materials into a stirring barrel;

step two: the stirring shaft is driven to rotate by the stirring motor, the stirring shaft drives the stirring fixing plate to rotate in the stirring barrel through the stirring fixing seat, and meanwhile, the stirring shaft drives the stirring expansion plate to rotate in the stirring barrel through the stirring sliding seat to stir the raw materials;

step three: the rotating wheel is driven to rotate by the lifting motor, the rotating wheel drives the lifting stirring plate to reciprocate in the stirring barrel through the linkage plate for stirring, the raw materials are uniformly stirred to obtain the water-based heat-conducting coating, and finally the water-based heat-conducting coating is discharged through the discharging pipe.

The invention has the beneficial effects that: the invention provides a water-based heat-conducting coating and a preparation method and a preparation system thereof.

Drawings

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

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

FIG. 3 is a schematic view of a portion of the structure of the present invention;

FIG. 4 is a schematic view of the construction of the agitator tank frame of the present invention;

FIG. 5 is a schematic structural view of the cover mechanism of the present invention;

FIG. 6 is a schematic structural view of the feed delivery mechanism of the present invention;

FIG. 7 is a schematic view of the structure of the stirring power mechanism of the present invention;

FIG. 8 is a schematic view of the stirring holder according to the present invention;

FIG. 9 is a schematic view of the configuration of the agitator frame of the present invention;

fig. 10 is a schematic structural view of the lifting stirring mechanism of the invention.

In the figure: a stirring tank frame 1; 1-1 of a stirring barrel; 1-2 parts of a discharge pipe; 1-3 of supporting legs; 1-4 parts of a feeding pipe; 1-5 parts of a feed inlet; 1-6 motor fixing seats; an upper cover mechanism 2; an upper cover plate 2-1; 2-2 of a slide hole; 2-3 of a toothed ring; fixing a limiting ring 2-4; the upper cover rotates the electrical machinery 2-5; motor fixing seats II 2-6; a feed conveying mechanism 3; a feeding motor 3-1; a feeding mounting plate 3-2; 3-3 of a feeding shaft; 3-4 parts of a feeding spiral plate; a stirring power mechanism 4; 4-1 of a stirring motor; 4-2 of a stirring shaft; 4-3 of a limit key; 4-4 of a linkage seat; a stirring fixing frame 5; 5-1 of a stirring fixed seat; 5-2 of a stirring fixing plate; 5-3 of a chute; a stirring expansion bracket 6; a stirring slide 6-1; 6-2 of a stirring expansion plate; 6-3 of a spring; a lifting and stirring mechanism 7; lifting the stirring plate 7-1; 7-2 of hollow holes; a lifting linkage sliding plate 7-3; 7-4 of an upper transverse plate; a linkage frame 7-5; a linkage plate 7-6; 7-7 of a rotating wheel; and 7-8 of a lifting motor.

Detailed Description

The invention is described in further detail below with reference to figures 1-10.

The first embodiment is as follows:

as shown in fig. 1-10, the water-based heat-conducting paint preparation system includes a stirring tank frame 1, an upper cover mechanism 2, a feeding and conveying mechanism 3, a stirring power mechanism 4, a stirring fixing frame 5, a stirring expansion frame 6 and a lifting and stirring mechanism 7, and is characterized in that: upper cover mechanism 2 connect on agitator tank frame 1, feed conveyor 3 connect the side at agitator tank frame 1, stirring power unit 4 connect the lower extreme at agitator tank frame 1, stirring mount 5 be equipped with two, two 5 symmetrical fixed connections of stirring mount just all are located agitator tank frame 1 on stirring power unit 4, stirring expansion bracket 6 be equipped with two, two equal sliding connection of stirring expansion bracket 6 are on stirring power unit 4, two stirring expansion brackets 6 respectively with two 5 sliding connection of stirring mount, lift rabbling mechanism 7 connect on upper cover mechanism 2 and rotate with stirring power unit 4 and be connected, 7 sliding connection of lift rabbling mechanism are in agitator tank frame 1.

When in use, raw materials are added into the feeding pipe 1-4 through the feeding port 1-5, the feeding motor 3-1 is started to drive the feeding spiral plate 3-4 to rotate, and the raw materials are pushed into the stirring barrel 1-1; then, the stirring shaft 4-2 is driven to rotate by the stirring motor 4-1, the stirring shaft 4-2 drives the stirring fixing plate 5-2 to rotate in the stirring barrel 1-1 through the stirring fixing seat 5-1, and meanwhile, the stirring shaft 4-2 drives the stirring expansion plate 6-2 to rotate in the stirring barrel 1-1 through the stirring sliding seat 6-1, so that the raw materials are stirred, and the mixing of the raw materials is accelerated; the lifting motor 7-8 drives the rotating wheel 7-7 to rotate, the rotating wheel 7-7 drives the lifting stirring plate 7-1 to reciprocate in the stirring barrel 1-1 through the linkage plate 7-6 to stir, mixed liquid in the stirring barrel 1-1 violently rolls, the stirring efficiency is improved, meanwhile, the mixed liquid per se erodes the inner wall of the stirring barrel 1-1, raw materials are prevented from being retained on the inner wall of the stirring barrel 1-1, after the raw materials are uniformly stirred, water-based heat conduction coating is obtained, and finally the water-based heat conduction coating is discharged through the discharging pipe 1-2.

The second embodiment is as follows:

as shown in the figures 1-10, the stirring box frame 1 comprises a stirring barrel 1-1, a discharging pipe 1-2, supporting legs 1-3, a feeding pipe 1-4, a feeding port 1-5 and a motor fixing seat I1-6, wherein the discharging pipe 1-2 is arranged at the lower end of the side wall of the stirring barrel 1-1, a valve is arranged on the discharging pipe 1-2, the four supporting legs 1-3 are fixedly connected to the lower end of the stirring barrel 1-1, the feeding pipe 1-4 is fixedly connected to the upper end of the side wall of the stirring barrel 1-1, the feeding port 1-5 is arranged on the feeding pipe 1-4, and the motor fixing seat I1-6 is fixedly connected to the upper end of the side wall of.

The third concrete implementation mode:

as shown in fig. 1-10, the upper cover mechanism 2 comprises an upper cover plate 2-1, a slide hole 2-2 and a toothed ring 2-3, the device comprises a fixed limiting ring 2-4, an upper cover rotating motor 2-5 and a motor fixing seat II 2-6, wherein the upper cover plate 2-1 is provided with two sliding holes 2-2, a gear ring 2-3 is fixedly connected at the outer end of the upper cover plate 2-1, the fixed limiting ring 2-4 is fixedly connected with the lower end face of the upper cover plate 2-1, the upper cover rotating motor 2-5 is fixedly connected on the motor fixing seat I1-6, the upper cover rotating motor 2-5 is in transmission connection with the gear ring 2-3, the motor fixing seat II 2-6 is fixedly connected with the upper end face of the upper cover plate 2-1, and the fixed limiting ring 2-4 is rotatably connected at the upper end of a stirring barrel 1-1.

The gear ring 2-3 is driven by the upper cover rotating motor 2-5 to enable the upper cover plate 2-1 to rotate at the upper end of the stirring barrel 1-1 through the fixed limiting ring 2-4, so that the lifting stirring mechanism 7 is driven to rotate in the stirring barrel 1-1 through the slide hole 2-2 to change the position of the hollowed hole 7-2, namely when the lifting stirring plate 7-1 is lifted, the mixed liquid washes the position, the stirring efficiency is further improved, and meanwhile, the washing efficiency of the mixed liquid on the inner wall of the stirring barrel 1-1 is improved.

The fourth concrete implementation mode:

as shown in fig. 1-10, the feeding conveying mechanism 3 includes a feeding motor 3-1, a feeding mounting plate 3-2, a feeding shaft 3-3, and a feeding spiral plate 3-4, the feeding mounting plate 3-2 is fixedly connected to an outer end of the feeding pipe 1-4, the feeding motor 3-1 is fixedly connected to the feeding mounting plate 3-2, the feeding shaft 3-3 is fixedly connected to an output shaft of the feeding motor 3-1, the feeding spiral plate 3-4 is fixedly connected to the feeding shaft 3-3, and the feeding spiral plate 3-4 is rotatably connected to the feeding pipe 1-4.

The feeding motor 3-1 drives the feeding spiral plate 3-4 to rotate in the feeding pipe 1-4 through the feeding shaft 3-3, so that the raw materials added into the feeding pipe 1-4 through the feeding port 1-5 are pushed into the stirring barrel 1-1.

The fifth concrete implementation mode:

as shown in fig. 1-10, the stirring power mechanism 4 includes a stirring motor 4-1, a stirring shaft 4-2, a limit key 4-3 and a linkage seat 4-4, the stirring motor 4-1 is fixedly connected to the lower end of the stirring barrel 1-1, the stirring shaft 4-2 is fixedly connected to the output shaft of the stirring motor 4-1, two limit keys 4-3 are symmetrically arranged on the stirring shaft 4-2, and the linkage seat 4-4 is slidably connected to the stirring shaft 4-2 and the two limit keys 4-3.

The sixth specific implementation mode:

as shown in fig. 1-10, the stirring fixing frame 5 includes two stirring fixing bases 5-1, two stirring fixing bases 5-1 symmetrically and fixedly connected to two ends of the stirring shaft 4-2, three stirring fixing plates 5-2 and three chutes 5-3 are uniformly and fixedly connected to the stirring fixing base 5-1 in the circumferential direction, and the chutes 5-3 are respectively formed in the three stirring fixing plates 5-2.

The seventh embodiment:

as shown in fig. 1-10, the stirring expansion bracket 6 comprises a stirring slide seat 6-1, a stirring expansion plate 6-2 and a spring 6-3, the stirring slide seat 6-1 is uniformly and fixedly connected with three stirring expansion plates 6-2 in the circumferential direction, the stirring expansion bracket 6 is provided with two stirring sliding seats 6-1 which are both connected on the stirring shaft 4-2 in a sliding manner, the two stirring sliding seats 6-1 are positioned at two ends of the interlocking seat 4-4, the six stirring expansion plates 6-2 are respectively connected in the six sliding grooves 5-3 in a sliding manner, the two springs 6-3 are both sleeved on the stirring shaft 4-2, the two springs 6-3 are respectively positioned at the upper end and the lower end of the two stirring sliding seats 6-1, and two ends of the two springs 6-3 are both tightly propped against the stirring sliding seat 6-1 and the stirring fixing seat 5-1.

The stirring motor 4-1 drives the stirring shaft 4-2 to rotate, the stirring shaft 4-2 drives the stirring fixing plate 5-2 to rotate in the stirring barrel 1-1 through the stirring fixing seat 5-1, and simultaneously the stirring shaft 4-2 drives the stirring slide seat 6-1 to rotate through the limit key 4-3, so that the stirring slide seat 6-1 drives the stirring expansion plate 6-2 to rotate in the stirring barrel 1-1, and the raw materials are stirred;

the specific implementation mode is eight:

as shown in the figures 1-10, the lifting and stirring mechanism 7 comprises a lifting and stirring plate 7-1, hollowed holes 7-2, a lifting and linking slide plate 7-3, an upper horizontal plate 7-4, a linking frame 7-5, a linking plate 7-6, a rotating wheel 7-7 and a lifting motor 7-8, the lifting and stirring plate 7-1 is rotatably connected to a linking seat 4-4, two hollowed holes 7-2 are symmetrically arranged on the lifting and stirring plate 7-1, two lifting and linking slide plates 7-3 are symmetrically and fixedly connected to the lifting and stirring plate 7-1, an upper horizontal plate 7-4 is fixedly connected to the upper ends of the two lifting and linking slide plates 7-3, the linking frame 7-5 is fixedly connected to the lower end face of the upper horizontal plate 7-4, the upper end of the linking plate 7-6 is rotatably connected to the linking frame 7-5, the lower end of the linkage plate 7-6 is rotatably connected to the eccentric position of the rotating wheel 7-7, the rotating wheel 7-7 is fixedly connected to an output shaft of the lifting motor 7-8, the lifting motor 7-8 is fixedly connected to the motor fixing seat II 2-6, the two lifting linkage sliding plates 7-3 are respectively connected in the two sliding holes 2-2 in a sliding mode, and the outer end of the lifting stirring plate 7-1 is connected with the inner wall of the stirring barrel 1-1 in a sliding mode.

The rotating wheel 7-7 is driven to rotate by the lifting motor 7-8, the rotating wheel 7-7 drives the linkage frame 7-5 through the linkage plate 7-6, the linkage frame 7-5 drives the lifting stirring plate 7-1 to reciprocate in the stirring barrel 1-1 through the upper transverse plate 7-4 and the lifting linkage sliding plate 7-3, the lifting stirring plate 7-1 extrudes the stirring slide seat 6-1 through the linkage seat 4-4, the stirring slide seat 6-1 drives the stirring telescopic plate 6-2 to slide in the sliding chute 5-3, and the two stirring slide seats 6-1 are tightly pressed against the upper end and the lower end of the linkage seat 4-4 through the elasticity of the two springs 6-3, so that the lifting stirring plate 7-1 does not influence the rotation of the stirring fixing frame 5 and the stirring telescopic frame 6 when moving up and down, and the stirring plate 7-1 is lifted up and down through the reciprocation of the lifting stirring, the mixed liquid in the stirring barrel 1-1 is formed to be violently rolled, the inner wall of the stirring barrel 1-1 is washed by the mixed liquid, and the influence on the production of the coating due to the fact that the raw material is retained on the inner wall of the stirring barrel 1-1 is avoided while the stirring efficiency is improved.

The specific implementation method nine:

as shown in fig. 1 to 10, the aqueous heat-conducting coating prepared by the aqueous heat-conducting coating preparation system comprises the following components in parts by weight: 30 parts of water-based epoxy resin, 10 parts of organic silicon resin, 10 parts of silica sol, 20 parts of titanium dioxide, 30 parts of water and 3 parts of wetting agent.

The detailed implementation mode is ten:

as shown in fig. 1 to 10, the method for preparing the water-based heat-conducting paint preparation system comprises the following steps:

the method comprises the following steps: adding raw materials into a feeding pipe 1-4 through a feeding port 1-5, starting a feeding motor 3-1 to drive a feeding spiral plate 3-4 to rotate, and pushing the raw materials into a stirring barrel 1-1;

step two: the stirring shaft 4-2 is driven to rotate by the stirring motor 4-1, the stirring shaft 4-2 drives the stirring fixing plate 5-2 to rotate in the stirring barrel 1-1 through the stirring fixing seat 5-1, and meanwhile, the stirring shaft 4-2 drives the stirring expansion plate 6-2 to rotate in the stirring barrel 1-1 through the stirring sliding seat 6-1 to stir the raw materials;

step three: the lifting motor 7-8 drives the rotating wheel 7-7 to rotate, the rotating wheel 7-7 drives the lifting stirring plate 7-1 to reciprocate in the stirring barrel 1-1 through the linkage plate 7-6 to stir the raw materials uniformly to obtain the water-based heat-conducting coating, and the water-based heat-conducting coating is discharged through the discharge pipe 1-2.

The invention discloses a water-based heat-conducting coating, a preparation method and a preparation system thereof, and the application principle is as follows: when in use, raw materials are added into the feeding pipe 1-4 through the feeding port 1-5, the feeding motor 3-1 is started to drive the feeding spiral plate 3-4 to rotate, and the raw materials are pushed into the stirring barrel 1-1; then, the stirring shaft 4-2 is driven to rotate by the stirring motor 4-1, the stirring shaft 4-2 drives the stirring fixing plate 5-2 to rotate in the stirring barrel 1-1 through the stirring fixing seat 5-1, and meanwhile, the stirring shaft 4-2 drives the stirring expansion plate 6-2 to rotate in the stirring barrel 1-1 through the stirring sliding seat 6-1, so that the raw materials are stirred, and the mixing of the raw materials is accelerated; the lifting motor 7-8 drives the rotating wheel 7-7 to rotate, the rotating wheel 7-7 drives the lifting stirring plate 7-1 to reciprocate in the stirring barrel 1-1 through the linkage plate 7-6 to stir, mixed liquid in the stirring barrel 1-1 violently rolls, the stirring efficiency is improved, meanwhile, the mixed liquid per se erodes the inner wall of the stirring barrel 1-1, raw materials are prevented from being retained on the inner wall of the stirring barrel 1-1, after the raw materials are uniformly stirred, water-based heat conduction coating is obtained, and finally the water-based heat conduction coating is discharged through the discharging pipe 1-2. The gear ring 2-3 is driven by the upper cover rotating motor 2-5 to enable the upper cover plate 2-1 to rotate at the upper end of the stirring barrel 1-1 through the fixed limiting ring 2-4, so that the lifting stirring mechanism 7 is driven to rotate in the stirring barrel 1-1 through the slide hole 2-2 to change the position of the hollowed hole 7-2, namely when the lifting stirring plate 7-1 is lifted, the mixed liquid washes the position, the stirring efficiency is further improved, and meanwhile, the washing efficiency of the mixed liquid on the inner wall of the stirring barrel 1-1 is improved. The feeding motor 3-1 drives the feeding spiral plate 3-4 to rotate in the feeding pipe 1-4 through the feeding shaft 3-3, so that the raw materials added into the feeding pipe 1-4 through the feeding port 1-5 are pushed into the stirring barrel 1-1. The stirring motor 4-1 drives the stirring shaft 4-2 to rotate, the stirring shaft 4-2 drives the stirring fixing plate 5-2 to rotate in the stirring barrel 1-1 through the stirring fixing seat 5-1, and simultaneously the stirring shaft 4-2 drives the stirring slide seat 6-1 to rotate through the limit key 4-3, so that the stirring slide seat 6-1 drives the stirring expansion plate 6-2 to rotate in the stirring barrel 1-1, and the raw materials are stirred; the rotating wheel 7-7 is driven to rotate by the lifting motor 7-8, the rotating wheel 7-7 drives the linkage frame 7-5 through the linkage plate 7-6, the linkage frame 7-5 drives the lifting stirring plate 7-1 to reciprocate in the stirring barrel 1-1 through the upper transverse plate 7-4 and the lifting linkage sliding plate 7-3, the lifting stirring plate 7-1 extrudes the stirring slide seat 6-1 through the linkage seat 4-4, the stirring slide seat 6-1 drives the stirring telescopic plate 6-2 to slide in the sliding chute 5-3, and the two stirring slide seats 6-1 are tightly pressed against the upper end and the lower end of the linkage seat 4-4 through the elasticity of the two springs 6-3, so that the lifting stirring plate 7-1 does not influence the rotation of the stirring fixing frame 5 and the stirring telescopic frame 6 when moving up and down, and the stirring plate 7-1 is lifted up and down through the reciprocation of the lifting stirring, the mixed liquid in the stirring barrel 1-1 is formed to be violently rolled, the inner wall of the stirring barrel 1-1 is washed by the mixed liquid, and the influence on the production of the coating due to the fact that the raw material is retained on the inner wall of the stirring barrel 1-1 is avoided while the stirring efficiency is improved.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. Waterborne heat conduction coating preparation system, including agitator tank frame (1), upper cover mechanism (2), feeding conveying mechanism (3), stirring power unit (4), stirring mount (5), stirring expansion bracket (6) and lift rabbling mechanism (7), its characterized in that: the upper cover mechanism (2) is connected on the stirring box frame (1), the feeding and conveying mechanism (3) is connected at the side end of the stirring box frame (1), the stirring power mechanism (4) is connected with the lower end of the stirring box frame (1), two stirring fixing frames (5) are arranged, the two stirring fixing frames (5) are symmetrically and fixedly connected with the stirring power mechanism (4) and are both positioned in the stirring box frame (1), the two stirring expansion brackets (6) are arranged, the two stirring expansion brackets (6) are both connected on the stirring power mechanism (4) in a sliding way, the two stirring expansion brackets (6) are respectively connected with the two stirring fixing frames (5) in a sliding way, the lifting stirring mechanism (7) is connected to the upper cover mechanism (2) and is rotationally connected with the stirring power mechanism (4), and the lifting stirring mechanism (7) is slidably connected into the stirring box frame (1).

2. The aqueous thermally conductive coating preparation system of claim 1, wherein: the stirring box frame (1) comprises a stirring barrel (1-1), a discharging pipe (1-2), supporting legs (1-3), a feeding pipe (1-4), a feeding port (1-5) and a motor fixing seat I (1-6), wherein the discharging pipe (1-2) is arranged at the lower end of the side wall of the stirring barrel (1-1), a valve is arranged on the discharging pipe (1-2), the four supporting legs (1-3) are fixedly connected to the lower end of the stirring barrel (1-1), the feeding pipe (1-4) is fixedly connected to the upper end of the side wall of the stirring barrel (1-1), the feeding port (1-5) is arranged on the feeding pipe (1-4), and the motor fixing seat I (1-6) is fixedly connected to the upper end of the side wall of the stirring barrel (1-1.

3. The aqueous thermally conductive coating preparation system of claim 2, wherein: the upper cover mechanism (2) comprises an upper cover plate (2-1), sliding holes (2-2), a gear ring (2-3), a fixed limiting ring (2-4), an upper cover rotating motor (2-5) and a motor fixing seat II (2-6), wherein the upper cover plate (2-1) is provided with two sliding holes (2-2), the gear ring (2-3) is fixedly connected with the outer end of the upper cover plate (2-1), the fixed limiting ring (2-4) is fixedly connected with the lower end face of the upper cover plate (2-1), the upper cover rotating motor (2-5) is fixedly connected with the motor fixing seat I (1-6), the upper cover rotating motor (2-5) is in transmission connection with the gear ring (2-3), and the motor fixing seat II (2-6) is fixedly connected with the upper end face of the upper cover plate (2-1), the fixed limit ring (2-4) is rotatably connected to the upper end of the stirring barrel (1-1).

4. The aqueous thermally conductive coating preparation system of claim 3, wherein: the feeding conveying mechanism (3) comprises a feeding motor (3-1), a feeding mounting plate (3-2), a feeding shaft (3-3) and a feeding spiral plate (3-4), wherein the feeding mounting plate (3-2) is fixedly connected to the outer end of the feeding pipe (1-4), the feeding motor (3-1) is fixedly connected to the feeding mounting plate (3-2), the feeding shaft (3-3) is fixedly connected to the output shaft of the feeding motor (3-1), the feeding spiral plate (3-4) is fixedly connected to the feeding shaft (3-3), and the feeding spiral plate (3-4) is rotatably connected to the feeding pipe (1-4).

5. The aqueous thermally conductive coating preparation system of claim 4, wherein: the stirring power mechanism (4) comprises a stirring motor (4-1), a stirring shaft (4-2), limiting keys (4-3) and a linkage seat (4-4), the stirring motor (4-1) is fixedly connected to the lower end of the stirring barrel (1-1), the stirring shaft (4-2) is fixedly connected to an output shaft of the stirring motor (4-1), the stirring shaft (4-2) is symmetrically provided with the two limiting keys (4-3), and the linkage seat (4-4) is connected to the stirring shaft (4-2) and the two limiting keys (4-3) in a sliding mode.

6. The aqueous thermally conductive coating preparation system of claim 5, wherein: the stirring fixing frame (5) comprises stirring fixing seats (5-1), stirring fixing plates (5-2) and sliding chutes (5-3), wherein the stirring fixing seats (5-1) are circumferentially and uniformly and fixedly connected with the three stirring fixing plates (5-2), the three stirring fixing plates (5-2) are internally provided with the sliding chutes (5-3), the number of the stirring fixing frames (5) is two, and the two stirring fixing seats (5-1) are symmetrically and fixedly connected at two ends of the stirring shaft (4-2).

7. The aqueous thermally conductive coating preparation system of claim 6, wherein: the stirring expansion bracket (6) comprises stirring sliding seats (6-1), stirring expansion plates (6-2) and springs (6-3), wherein the stirring sliding seats (6-1) are circumferentially and uniformly and fixedly connected with the three stirring expansion plates (6-2), the stirring expansion bracket (6) is provided with two stirring sliding seats (6-1) which are all connected onto the stirring shaft (4-2) in a sliding manner, the two stirring sliding seats (6-1) are positioned at two ends of a linkage seat (4-4), the six stirring expansion plates (6-2) are respectively connected into six sliding grooves (5-3) in a sliding manner, the two springs (6-3) are all sleeved on the stirring shaft (4-2), the two springs (6-3) are respectively positioned at the upper end and the lower end of the two stirring sliding seats (6-1), and two ends of the two springs (6-3) are respectively tightly propped against the stirring sliding seats (6-1) and the stirring fixing seat (6-3) 5-1).

8. The aqueous thermally conductive coating preparation system of claim 7, wherein: the lifting stirring mechanism (7) comprises a lifting stirring plate (7-1), hollowed holes (7-2), a lifting linkage sliding plate (7-3), an upper transverse plate (7-4), a linkage frame (7-5), a linkage plate (7-6), a rotating wheel (7-7) and a lifting motor (7-8), wherein the lifting stirring plate (7-1) is rotationally connected to the linkage seat (4-4), the lifting stirring plate (7-1) is symmetrically provided with two hollowed holes (7-2), the lifting stirring plate (7-1) is symmetrically and fixedly connected with two lifting linkage sliding plates (7-3), the upper transverse plate (7-4) is fixedly connected to the upper ends of the two lifting linkage sliding plates (7-3), and the linkage frame (7-5) is fixedly connected to the lower end face of the upper transverse plate (7-4), the upper end of the linkage plate (7-6) is rotatably connected to the linkage frame (7-5), the lower end of the linkage plate (7-6) is rotatably connected to the eccentric position of the rotating wheel (7-7), the rotating wheel (7-7) is fixedly connected to the output shaft of the lifting motor (7-8), the lifting motor (7-8) is fixedly connected to the motor fixing seat II (2-6), the two lifting linkage sliding plates (7-3) are respectively and slidably connected into the two sliding holes (2-2), and the outer end of the lifting stirring plate (7-1) is slidably connected with the inner wall of the stirring barrel (1-1).

9. The aqueous heat conductive paint prepared by using the aqueous heat conductive paint preparation system according to claim 8, characterized in that: the water-based heat-conducting coating comprises the following components in parts by weight: 30 parts of water-based epoxy resin, 10 parts of organic silicon resin, 10 parts of silica sol, 20 parts of titanium dioxide, 30 parts of water and 3 parts of wetting agent.

10. The method for preparing the water-based heat-conducting paint preparation system according to claim 8, wherein the method comprises the following steps: the method comprises the following steps:

the method comprises the following steps: adding raw materials into a feeding pipe (1-4) through a feeding port (1-5), starting a feeding motor (3-1) to drive a feeding spiral plate (3-4) to rotate, and pushing the raw materials into a stirring barrel (1-1);

step two: the stirring shaft (4-2) is driven to rotate by the stirring motor (4-1), the stirring shaft (4-2) drives the stirring fixing plate (5-2) to rotate in the stirring barrel (1-1) through the stirring fixing seat (5-1), and meanwhile, the stirring shaft (4-2) drives the stirring expansion plate (6-2) to rotate in the stirring barrel (1-1) through the stirring sliding seat (6-1) to stir the raw materials;

step three: the lifting motor (7-8) drives the rotating wheel (7-7) to rotate, the rotating wheel (7-7) drives the lifting stirring plate (7-1) to reciprocate in the stirring barrel (1-1) through the linkage plate (7-6) for stirring, the raw materials are uniformly stirred to obtain the water-based heat-conducting coating, and finally the water-based heat-conducting coating is discharged through the discharge pipe (1-2).