CN115337818B

CN115337818B - Manufacturing equipment for producing efficient heat stabilizer and application method

Info

Publication number: CN115337818B
Application number: CN202211111575.1A
Authority: CN
Inventors: 徐晨; 王志勇; 张挺
Original assignee: Huangshan Jiabao New Material Technology Co ltd
Current assignee: Huangshan Jiabao New Material Technology Co ltd
Priority date: 2022-09-13
Filing date: 2022-09-13
Publication date: 2023-09-26
Anticipated expiration: 2042-09-13
Also published as: CN115337818A

Abstract

The invention relates to the field of heat stabilizer production equipment, and provides equipment for producing a high-efficiency heat stabilizer and a using method thereof, which solve the technical problems of poor quality and high production cost of the heat stabilizer produced by the heat stabilizer production equipment in the prior art. The manufacturing equipment for producing the high-efficiency heat stabilizer comprises a stirring cylinder and a receiving box which is arranged below the stirring cylinder and used for receiving raw materials discharged by the stirring cylinder. The stirring shaft is provided with the stirring blades and the heating plates, and the heating plates can heat the raw materials in the stirring cavity and stir the raw materials in the stirring cavity, so that the raw materials are uniformly stirred in the stirring cavity, and the production quality of the heat stabilizer is improved. In addition, waste heat in the material receiving box can be recycled through the heat recycling pipeline, so that the production cost of the heat stabilizer is reduced, and the cooling efficiency of raw materials is improved.

Description

Manufacturing equipment for producing efficient heat stabilizer and application method

Technical Field

The invention relates to the field of heat stabilizer production equipment, in particular to equipment for producing a high-efficiency heat stabilizer and a using method thereof.

Background

With the rapid development of PVC composite stabilizer processing technology and the increasing of market competition of high-end industry at home and abroad, in the existing stabilizer production and processing process, the heat stabilizer is an auxiliary agent commonly used in the chemical industry, in the traditional heat stabilizer production process, the liquid high-temperature stabilizer needs to be tabletted and cooled, and then the tabletted sheet stabilizer is packaged by an automatic packaging machine to prepare the product.

However, some existing heat stabilizer production devices mostly have the condition of uneven stirring of raw materials, so that poor quality of the heat stabilizer is caused, inferior products are easy to occur, meanwhile, time and labor are consumed in heating, and the produced heat stabilizer is not filtered, so that a heat stabilizer production device is needed.

Disclosure of Invention

The manufacturing equipment and the using method for producing the high-efficiency heat stabilizer solve the technical problems of poor quality and high production cost of the heat stabilizer produced by the heat stabilizer production equipment in the prior art.

Some embodiments employed to solve the above technical problems include:

in a first aspect, a manufacturing apparatus for producing a high-efficiency heat stabilizer is provided, including a mixing drum and a receiving box disposed below the mixing drum for receiving a raw material discharged from the mixing drum;

the diameter of the lower end of the stirring cylinder is smaller than that of the upper end of the stirring cylinder, the stirring cylinder is provided with a stirring cavity, the upper end of the stirring cavity is opened, a preheating cavity is arranged in the side wall of the stirring cylinder, the upper end of the stirring cylinder is provided with a cover body, and the cover body is provided with a stirring mechanism for stirring raw materials in the stirring cavity;

a filter screen is arranged in the material receiving box, the space in the material receiving box is divided into an upper cavity and a lower cavity by the filter screen, a material dispersing device is also arranged in the material receiving box, the material dispersing device extends to the upper cavity and is rotationally connected in the material receiving box, the material dispersing device is provided with a material stirring rod stirring the raw materials above the filter screen, the lower end of the stirring barrel is provided with a material discharging barrel, the material discharging barrel is communicated with the stirring cavity, and the axis of the material discharging barrel is coaxial with the axis of the material dispersing device;

a cooling cavity is arranged in the side wall of the receiving box and is communicated with the preheating cavity through a heat recovery pipeline, the heat recovery pipeline is provided with an exhaust fan and a heater, the exhaust fan extracts air flow in the cooling cavity and outputs the air flow to the preheating cavity after being heated by the heater, the cooling cavity is respectively communicated with the upper cavity and the lower cavity through an air suction hole, the lower end of the stirring cylinder is provided with an exhaust valve, and the exhaust valve is communicated with the preheating cavity;

the stirring mechanism comprises a stirring shaft, and stirring blades and heating plates are arranged on the stirring shaft.

In the actual production process, exhaust fan and heater are opened earlier, the air that the exhaust fan extracted is discharged into after the heater heats and is preheated the intracavity to the churn, then put into the stirring intracavity with the raw materials of heat stabilizer, open the power of rabbling mechanism and heating plate, the (mixing) shaft drives stirring leaf and heating plate rotation, the heating plate can fully heat rotatory raw materials, and can also stir the raw materials that are located the stirring intracavity, and then be favorable to shortening the time of heating, after stirring heating finishes, the raw materials get into the receipts magazine through the charging barrel, the raw materials is evenly dispersed by the bulk cargo ware before getting into the receipts magazine again and gets into the lower intracavity through the filter screen. After the raw materials enter the material receiving box, the heater is turned off, and the waste heat in the cooling cavity is utilized to heat the air so as to recycle the heat energy.

The stirring shaft is provided with the stirring blades and the heating plates, and the heating plates can heat the raw materials in the stirring cavity and stir the raw materials in the stirring cavity, so that the raw materials are uniformly stirred in the stirring cavity, and the production quality of the heat stabilizer is improved. In addition, waste heat in the material receiving box can be recycled through the heat recycling pipeline, so that the production cost of the heat stabilizer is reduced, and the cooling efficiency of raw materials is improved.

Preferably, the stirring mechanism includes a motor provided on the cover, the stirring shaft is driven to rotate by the motor, the stirring blade and the stirring shaft are integrally structured, and the heating plate and the stirring She Jiaoti are provided.

In this scheme, through setting up the lid, rabbling mechanism can conveniently set up to, the lid can close the stirring chamber, and the heat of stirring intracavity is difficult for losing, has further reduced heat stabilizer's manufacturing cost.

The heating plates and the stirring blades are alternately arranged, and raw materials in the stirring cavity are heated uniformly.

Preferably, the stirring blade comprises an inner blade and an outer blade, the outer blade comprises a vertical portion and an inclined portion inclined relative to the vertical portion, the inclined portion is inclined toward the stirring shaft direction, the heating plate comprises an inner plate and an outer plate, the outer plate comprises a vertical section and an inclined section, and the inclined section is inclined toward the stirring shaft direction.

In this scheme, through setting up tilting part and slope section, outer leaf and outer piece can adapt to the shape of churn effectively, and the raw materials in the churn all can be stirred leaf and heating plate stirring, heating, and the material in the stirring chamber mixes, is heated evenly.

The setting of outer leaf, interior leaf and outer piece, interior piece for stirring leaf and heating plate distribute evenly in the stirring chamber, and then make the raw materials in the stirring chamber be heated evenly.

Preferably, the outer blade is provided with a cross bar, the outer blade is fixed on the stirring shaft through the cross bar, the outer blade is provided with a connecting rod, the outer blade is fixed on the stirring shaft through the connecting rod, the inner blade is fixed on the cross bar, and the inner blade is fixed on the connecting rod.

In this scheme, stirring piece and stirring leaf easily are fixed with the (mixing) shaft, have reduced the processing cost of (mixing) shaft.

Preferably, the receiving box is internally provided with a mounting cylinder for mounting the bulk cargo device, the mounting cylinder and the bottom wall of the receiving box are of an integrated structure, the mounting cylinder extends to the upper cavity, the lower end of the mounting cylinder is arranged in an open mode, and a motor for driving the bulk cargo device to rotate is arranged in the mounting cylinder.

In this scheme, the bulk cargo ware is driven by the motor, and the bulk cargo ware can rotate to can be effectively with row feed cylinder exhaust raw materials evenly dispersed, make the raw materials evenly drop to the filter screen on.

Preferably, the bulk cargo device comprises a cylinder body and a bulk cargo cover arranged at the upper end of the cylinder body, wherein the bulk cargo cover is a cone with an upward tip, and the bulk cargo cover and the cylinder body are of an integrated structure.

In this scheme, the bulk cargo ware includes the bulk cargo cover, and the bulk cargo cover has the advantage that the bulk cargo performance is good and easy processing.

Preferably, the material stirring rod and the cylinder body are of an integrated structure.

Preferably, a step structure is arranged on the cylinder body, and the step structure is abutted against the upper end of the mounting cylinder to limit the position of the dispenser.

In this scheme, the barrel is contradicted with the upper end of installation section of thick bamboo, can prevent that the material in the upper chamber from getting into in the installation section of thick bamboo, prevents that the material from leaking.

Preferably, the installation cylinder and the material receiving box are both provided with supporting edges for supporting the filter screen, the supporting edges on the installation cylinder and the installation cylinder are of an integrated structure, and the supporting edges on the material receiving box and the material receiving box are of an integrated structure.

In this scheme, the filter screen easily with receive the magazine assembly to make the filter screen easily change.

In a second aspect, a method for using the apparatus for producing a high-efficiency heat stabilizer is provided, including the following steps:

starting an exhaust fan and a heater, wherein the exhaust fan extracts air flow in the cooling cavity, the air flow extracted by the exhaust fan is heated by the heater and then is fed into the preheating cavity, and the stirring cavity is preheated by high-temperature air flow in the preheating cavity;

pouring raw materials into a stirring cavity, turning on a power switch of a motor and a heating plate, enabling the motor to drive a stirring shaft to rotate, enabling the stirring shaft to drive stirring blades and the heating plate to rotate, heating the raw materials in the stirring cavity in the rotation process of the stirring blades, and enabling the heating plate to heat the raw materials in the stirring cavity while stirring the raw materials in the stirring cavity;

starting a motor, driving a bulk cargo device to rotate by the motor, discharging raw materials in the stirring cavity through a discharging barrel after the raw materials in the stirring cavity are stirred and heated, uniformly distributing the raw materials discharged by the discharging barrel in an upper cavity through the bulk cargo device, filtering part of the raw materials through a filter screen, and then entering a lower cavity;

and after the raw materials discharged by the discharging cylinder enter the receiving box, the heater is turned off, the raw materials entering the receiving box heat air in the receiving box, and the air heated by the raw materials in the receiving box enters the preheating cavity through the exhaust fan to preheat the stirring cylinder.

The heating plate can heat the raw materials in the stirring cavity and stir the raw materials in the stirring cavity, so that the raw materials are uniformly stirred in the stirring cavity, and the production quality of the heat stabilizer is improved. In addition, waste heat in the material receiving box can be recycled through the heat recycling pipeline, and the production cost of the heat stabilizer is reduced.

Compared with the prior art, the manufacturing equipment and the using method for producing the high-efficiency heat stabilizer have the following advantages:

The stirring shaft is provided with the stirring blades and the heating plates, and the heating plates can heat the raw materials in the stirring cavity and stir the raw materials in the stirring cavity, so that the raw materials are uniformly stirred in the stirring cavity, and the production quality of the heat stabilizer is improved. In addition, waste heat in the material receiving box can be recycled through the heat recycling pipeline, and the production cost of the heat stabilizer is reduced.

Drawings

For purposes of explanation, several embodiments of the present technology are set forth in the following figures. The following drawings are incorporated herein and constitute a part of this detailed description. In some instances, well-known structures and components are shown in block diagram form in order to avoid obscuring the concepts of the subject technology.

Fig. 1 is a schematic view of the internal structure of the present invention.

Fig. 2 is a schematic view of a first direction of the present invention.

Fig. 3 is a schematic view of a second direction of the present invention.

Fig. 4 is a schematic view of the stirring mechanism in a first direction.

Fig. 5 is a schematic view of the stirring mechanism in a second direction.

Fig. 6 is an isometric view of a mixing drum.

Fig. 7 is a schematic view of a first direction of the spreader.

Fig. 8 is a schematic view of the second direction of the spreader.

Fig. 9 is an isometric view of a filter screen.

In the figure:

1. the stirring cylinder, 11, the stirring cavity, 12, the preheating cavity, 13 and the discharging cylinder.

2. The device comprises a receiving box, 21, a filter screen, 22, an upper cavity, 23, a lower cavity, 24, a cooling cavity, 25, a mounting cylinder, 26, a motor, 27 and supporting ribs.

3. The cover body, 31, the stirring shaft, 32, the stirring blade, 321, the inner blade, 322, the outer blade, 323, the vertical part, 324, the inclined part, 33, the heating plate, 331, the inner plate, 332, the outer plate, 333, the vertical section, 334, the inclined section, 34, the motor, 35, the cross bar, 36 and the connecting rod.

4. A bulk material dispenser 41, a material stirring rod 42, a cylinder body 43 and a bulk material cover.

5. Heat recovery pipes, 51, suction fans, 52, heaters.

Detailed Description

The specific embodiments illustrated below are intended as descriptions of various configurations of the subject technology and are not intended to represent the only configurations in which the subject technology may be practiced. Particular embodiments include specific details for the purpose of providing a thorough understanding of the subject technology. It will be clear and apparent, however, to one skilled in the art that the subject technology is not limited to the specific details shown herein and may be practiced without these specific details.

It is obvious that the terms "first", "second" herein are merely for distinguishing the corresponding features and do not limit the number of the corresponding features.

Referring to fig. 1 to 9, in a first aspect, there is provided a production apparatus for producing a high-efficiency heat stabilizer, comprising a stirring cylinder 1 and a receiving box 2 provided below the stirring cylinder 1 for receiving a raw material discharged from the stirring cylinder 1;

the diameter of the lower end of the stirring cylinder 1 is smaller than that of the upper end of the stirring cylinder 1, the stirring cylinder 1 is provided with a stirring cavity 11, the upper end of the stirring cavity 11 is opened, a preheating cavity 12 is arranged in the side wall of the stirring cylinder 1, the upper end of the stirring cylinder 1 is provided with a cover body 3, and the cover body 3 is provided with a stirring mechanism for stirring raw materials in the stirring cavity 11;

a filter screen 21 is arranged in the material receiving box 2, the space in the material receiving box 2 is divided into an upper cavity 22 and a lower cavity 23 by the filter screen 21, a material dispersing device 4 is further arranged in the material receiving box 2, the material dispersing device 4 extends to the upper cavity 22, the material dispersing device 4 is rotatably connected in the material receiving box 2, a material stirring rod 41 stirring the raw materials above the filter screen 21 is arranged on the material dispersing device 4, a material discharging barrel 13 is arranged at the lower end of the stirring barrel 1, the material discharging barrel 13 is communicated with the stirring cavity 11, and the axis of the material discharging barrel 13 is coaxial with the axis of the material dispersing device;

a cooling cavity 24 is arranged in the side wall of the receiving box 2, the cooling cavity 24 is communicated with the preheating cavity 12 through a heat recovery pipeline 5, the heat recovery pipeline 5 is provided with an exhaust fan 51 and a heater 52, the exhaust fan 51 extracts air flow in the cooling cavity 24 and outputs the air flow to the preheating cavity 12 after being heated by the heater 52, the cooling cavity 24 is respectively communicated with the upper cavity 22 and the lower cavity 23 through an air suction hole, filter cloth can be arranged in the air suction hole so as to prevent raw materials from entering the heat recovery pipeline 5, or the diameter of the air suction hole can be as small as possible so as to prevent the raw materials from entering the heat recovery pipeline 5, the lower end of the stirring cylinder 1 is provided with an exhaust valve, and the exhaust valve is communicated with the preheating cavity 12;

the stirring mechanism comprises a stirring shaft 31, and stirring blades 32 and heating plates 33 are arranged on the stirring shaft 31.

The heating plate 33 may generate heat energy by an electric heating method, and a rotary electric connector may be provided on the cover 3 to connect a power source to the heating plate 33.

One end of the heat recovery pipe 5 may be adhered to the collecting box 2, and the other end of the heat recovery pipe 5 may be adhered to the stirring cylinder 1.

In one or more embodiments, the stirring mechanism includes a motor 34 disposed on the cover 3, the stirring shaft 31 is driven to rotate by the motor 34, the stirring blade 32 and the stirring shaft 31 are in an integral structure, and the heating blades 33 and the stirring blade 32 are alternately disposed. The motor 34 may be fixed to the cover 3 by screws.

In one or more embodiments, the stirring blade 32 includes an inner blade 321 and an outer blade 322, the outer blade 322 includes a vertical portion 323 and an inclined portion 324 that is inclined with respect to the vertical portion 323, the inclined portion 324 is inclined toward the stirring shaft 31, the heating plate 33 includes an inner plate 331 and an outer plate 332, the outer plate 332 includes a vertical section 333 and an inclined section 334, and the inclined section 334 is inclined toward the stirring shaft 31.

The outer blade 322 is provided with a cross rod 35, the outer blade 322 is fixed on the stirring shaft 31 through the cross rod 35, the outer blade 332 is provided with a connecting rod 36, the outer blade 332 is fixed on the stirring shaft 31 through the connecting rod 36, the inner blade 321 is fixed on the cross rod 35, and the inner blade 331 is fixed on the connecting rod 36.

In one or more embodiments, a mounting cylinder 25 for mounting the bulk cargo device 4 is disposed in the material receiving box 2, the mounting cylinder 25 and the bottom wall of the material receiving box 2 are of an integrated structure, the mounting cylinder 25 extends to the upper cavity 22, the lower end of the mounting cylinder 25 is disposed in an open manner, and a motor 26 for driving the bulk cargo device 4 to rotate is disposed in the mounting cylinder 25. The motor 26 can be fixed in the mounting cylinder 25 by screws, and the output shaft of the motor 26 can be fixed with the bulk material container 4 by threads.

The bulk cargo device 4 comprises a cylinder 42 and a bulk cargo cover 43 arranged at the upper end of the cylinder 42, wherein the bulk cargo cover 43 is a cone with an upward tip, and the bulk cargo cover 43 and the cylinder 42 are of an integrated structure.

The material stirring rod 41 and the cylinder 42 are of an integrated structure.

The cylinder 42 is provided with a stepped structure which abuts against the upper end of the mounting cylinder 25 to define the position of the spreader 4. A portion of the barrel 42 extends into the mounting cylinder 25 so that material in the upper chamber 22 does not readily enter the mounting cylinder 25.

In one or more embodiments, the mounting cylinder 25 and the receiving box 2 are both provided with a supporting rib 27 for supporting the filter screen 21, the supporting rib 27 on the mounting cylinder 25 and the mounting cylinder 25 are in an integral structure, and the supporting rib 27 on the receiving box 2 and the receiving box 2 are in an integral structure.

the exhaust fan 51 and the heater 52 are started, the exhaust fan 51 extracts air flow in the cooling cavity 24, the air flow extracted by the exhaust fan 51 is heated by the heater 52 and then is fed into the preheating cavity 12, and the stirring cavity 11 is preheated by high-temperature air flow in the preheating cavity 12;

pouring raw materials into the stirring cavity 11, turning on a power switch of a motor 34 and a heating plate 33, enabling the motor 34 to drive a stirring shaft 31 to rotate, enabling the stirring shaft 31 to drive a stirring blade 32 and the heating plate 33 to rotate, heating the raw materials in the stirring cavity 11 by the stirring blade 32 in the rotating process, and heating the raw materials in the stirring cavity 11 by the heating plate 33 while stirring the raw materials in the stirring cavity 11;

starting a motor 26, driving a material dispersing device 4 to rotate by the motor 26, discharging the raw materials in the stirring cavity 11 through a discharge cylinder 13 after the raw materials in the stirring cavity 11 are stirred and heated, uniformly distributing the raw materials discharged by the discharge cylinder 13 in an upper cavity 22 through the material dispersing device 4, filtering part of the raw materials through a filter screen 21, and then entering a lower cavity 23;

after the raw materials discharged by the discharge cylinder 13 enter the receiving box 2, the heater 52 is turned off, the raw materials entering the receiving box 2 heat the air in the receiving box 2, and the air heated by the raw materials in the receiving box 2 enters the preheating cavity 12 through the exhaust fan 51 to preheat the stirring cylinder 1.

While the foregoing has been presented with a specific embodiment of the subject matter and with corresponding details, it should be understood that the foregoing description is only a few embodiments of the subject matter and that some details may be omitted when the embodiments are particularly implemented.

In addition, in some embodiments of the above invention, there are many embodiments that can be implemented in combination, and the various combinations are not listed here. The above embodiments may be freely combined and implemented by those skilled in the art in specific implementation according to requirements, so as to obtain a better application experience.

When implementing the subject matter technical scheme, the person skilled in the art can obtain other detail configurations or drawings according to the subject matter technical scheme and the drawings, and obviously, the details still belong to the scope covered by the subject matter technical scheme without departing from the subject matter technical scheme.

Claims

1. A manufacturing device for producing a high-efficiency heat stabilizer is characterized in that: comprises a stirring cylinder (1) and a receiving box (2) which is arranged below the stirring cylinder (1) and is used for receiving raw materials discharged by the stirring cylinder (1);

the diameter of the lower end of the stirring cylinder (1) is smaller than that of the upper end of the stirring cylinder (1), the stirring cylinder (1) is provided with a stirring cavity (11), the upper end of the stirring cavity (11) is opened, a preheating cavity (12) is arranged in the side wall of the stirring cylinder (1), a cover body (3) is arranged at the upper end of the stirring cylinder (1), and a stirring mechanism for stirring raw materials in the stirring cavity (11) is arranged on the cover body (3);

a filter screen (21) is arranged in the material receiving box (2), the space in the material receiving box (2) is divided into an upper cavity (22) and a lower cavity (23) by the filter screen (21), a material dispersing device (4) is further arranged in the material receiving box (2), the material dispersing device (4) extends to the upper cavity (22), the material dispersing device (4) is rotationally connected in the material receiving box (2), a stirring rod (41) stirring raw materials above the filter screen (21) is arranged on the material dispersing device (4), a material discharging barrel (13) is arranged at the lower end of the stirring barrel (1), the material discharging barrel (13) is communicated with the stirring cavity (11), and the axis of the material discharging barrel (13) is coaxial with the axis of the material dispersing device;

a cooling cavity (24) is arranged in the side wall of the receiving box (2), the cooling cavity (24) is communicated with the preheating cavity (12) through a heat recovery pipeline (5), the heat recovery pipeline (5) is provided with an exhaust fan (51) and a heater (52), the exhaust fan (51) extracts air flow in the cooling cavity (24) and outputs the air flow to the preheating cavity (12) after heating through the heater (52), the cooling cavity (24) is respectively communicated with the upper cavity (22) and the lower cavity (23) through air suction holes, and the lower end of the stirring cylinder (1) is provided with an exhaust valve which is communicated with the preheating cavity (12);

the stirring mechanism comprises a stirring shaft (31), and stirring blades (32) and heating plates (33) are arranged on the stirring shaft (31).

2. The apparatus for producing a high-efficiency heat stabilizer according to claim 1, wherein: the stirring mechanism comprises a motor (34) arranged on the cover body (3), the stirring shaft (31) is driven to rotate by the motor (34), the stirring blades (32) and the stirring shaft (31) are of an integrated structure, and the heating plates (33) and the stirring blades (32) are alternately arranged.

3. The apparatus for producing a high-efficiency heat stabilizer according to claim 2, wherein: stirring leaf (32) include interior leaf (321) and outer leaf (322), outer leaf (322) include vertical portion (323) and for tilting portion (324) that vertical portion (323) slope set up, tilting portion (324) to (mixing) shaft (31) direction slope set up, heating plate (33) include interior piece (331) and outer piece (332), outer piece (332) include vertical section (333) and tilting section (334), tilting section (334) to (mixing) shaft (31) direction slope.

4. A production apparatus for producing a high-efficiency heat stabilizer according to claim 3, characterized in that: outer leaf (322) are provided with horizontal pole (35), outer leaf (322) are passed through horizontal pole (35) are fixed in (31) stirring axle, outer piece (332) are provided with connecting rod (36), outer piece (332) are fixed in through connecting rod (36) (31) stirring axle, interior leaf (321) are fixed in horizontal pole (35), interior piece (331) are fixed in connecting rod (36).

5. The apparatus for producing a high-efficiency heat stabilizer according to claim 4, wherein: the automatic feeding device is characterized in that a mounting cylinder (25) for mounting the material dispersing device (4) is arranged in the material receiving box (2), the mounting cylinder (25) and the bottom wall of the material receiving box (2) are of an integrated structure, the mounting cylinder (25) extends to the upper cavity (22), the lower end of the mounting cylinder (25) is arranged in an open mode, and a motor (26) for driving the material dispersing device (4) to rotate is arranged in the mounting cylinder (25).

6. The apparatus for producing a high-efficiency heat stabilizer according to claim 5, wherein: the bulk cargo ware (4) include barrel (42) and set up in bulk cargo cover (43) of barrel (42) upper end, bulk cargo cover (43) are the tip and upwards cone, bulk cargo cover (43) with barrel (42) are integrated into one piece structure.

7. The apparatus for producing a high-efficiency heat stabilizer according to claim 6, wherein: the stirring rod (41) and the cylinder (42) are of an integrated structure.

8. The apparatus for producing a high-efficiency heat stabilizer according to claim 7, wherein: the cylinder (42) is provided with a step structure which is abutted against the upper end of the mounting cylinder (25) to limit the position of the bulk cargo container (4).

9. The apparatus for producing a high-efficiency heat stabilizer according to claim 8, wherein: the filter screen is characterized in that the mounting cylinder (25) and the receiving box (2) are respectively provided with a supporting edge (27) for supporting the filter screen (21), the supporting edges (27) on the mounting cylinder (25) and the mounting cylinder (25) are of an integrated structure, and the supporting edges (27) on the receiving box (2) and the receiving box (2) are of an integrated structure.

10. A method of using the apparatus for producing a high efficiency heat stabilizer according to claim 9, wherein: the method comprises the following steps:

starting an exhaust fan (51) and a heater (52), wherein the exhaust fan (51) extracts air flow in the cooling cavity (24), the air flow extracted by the exhaust fan (51) is heated by the heater (52) and then is fed into the preheating cavity (12), and the stirring cavity (11) is preheated by high-temperature air flow in the preheating cavity (12);

pouring raw materials into a stirring cavity (11), turning on a power switch of a motor (34) and a heating plate (33), enabling the motor (34) to drive a stirring shaft (31) to rotate, enabling the stirring shaft (31) to drive a stirring blade (32) and the heating plate (33) to rotate, heating the raw materials in the stirring cavity (11) by the stirring blade (32) in the rotating process, and heating the raw materials in the stirring cavity (11) by the heating plate (33) while stirring the raw materials in the stirring cavity (11);

starting a motor (26), wherein the motor (26) drives the material dispersing device (4) to rotate, after the raw materials in the stirring cavity (11) are stirred and heated, the raw materials in the stirring cavity (11) are discharged through a discharge cylinder (13), the raw materials discharged by the discharge cylinder (13) are uniformly distributed in the upper cavity (22) through the material dispersing device (4), and part of the raw materials enter the lower cavity (23) after being filtered by a filter screen (21);

after the raw materials discharged by the discharge cylinder (13) enter the receiving box (2), the heater (52) is closed, the raw materials entering the receiving box (2) heat air in the receiving box (2), and the air heated by the raw materials in the receiving box (2) enters the preheating cavity (12) through the exhaust fan (51) to preheat the stirring cylinder (1).