CN113117604A - Atmosphere protection is from stirring system mucilage binding and is put - Google Patents

Abstract

An atmosphere protection self-stirring glue making device comprises a stock bin, a stirring assembly and a heating assembly, wherein the stock bin is connected with a pneumatic three-way valve pipeline, and the pneumatic three-way valve is connected with the stirring assembly pipeline; the stirring assembly is connected with the support frame in a clamping manner, and a weighing module is arranged between the stirring assembly and the support frame; the stirring assembly is provided with a vacuumizing port and is connected with a buffer tank pipeline through the vacuumizing port, and the buffer tank is connected with a vacuum pump pipeline; the stirring assembly is connected with the heating assembly through a pipeline, the heating assembly is provided with an oil temperature machine, the oil temperature machine is communicated with a heating pipeline, and the heating pipeline is connected with the stirring assembly in a winding manner; the device creates a proper stirring and mixing environment in the kettle by heating the oil control pipe, vacuumizing and inputting different protective gases; and carry on the reation kettle through mertlet many weighing module area and weigh, know initial weight or peel off and weigh and can better avoid appearing relatively great error.

Description

Atmosphere protection is from stirring system mucilage binding and is put

Technical Field

The invention relates to the field of stirring devices, in particular to an atmosphere protection self-stirring glue making device.

Background

When some special materials are mixed, some organic inflammable and explosive substances may exist, and stirring protection is needed; and at present most stirring ratio all measure earlier and pour into the stirred tank the inside again, but to some needs extremely meticulous article with weigh earlier and then reach and easily produce great error in the stirred tank, finally lead to the article effect quality of stirring out relatively poor.

Disclosure of Invention

The invention aims to provide an atmosphere protection self-stirring glue making device, which can effectively solve the problems in the background technology.

In order to solve the problems, the technical scheme adopted by the invention is as follows: an atmosphere protection self-stirring glue making device comprises a stock bin, a liquid feeding assembly, a stirring assembly and a heating assembly, wherein the stock bin is connected with a pneumatic three-way valve pipeline; the stirring component is provided with a first stirring reaction kettle and a second stirring reaction kettle; the stirring assembly is connected with the support frame in a clamping manner, and a weighing module is arranged between the stirring assembly and the support frame; the stirring assembly is connected with the liquid feeding assembly through a pipeline; the liquid feeding assembly is provided with a resin tank and an inlet pipe, and the resin tank is communicated with the stirring assembly through the inlet pipe; the stirring assembly is provided with a vacuumizing port and is connected with a buffer tank pipeline through the vacuumizing port, and the buffer tank is connected with a vacuum pump pipeline; the stirring assembly is connected with the heating assembly through a pipeline, the heating assembly is provided with an oil temperature machine, the oil temperature machine is connected with a heating pipeline in a through mode, and the heating pipeline is connected with the stirring assembly in a winding mode.

As a further preferable scheme of the invention, a first support frame is arranged below the stock bin, a first lug seat is arranged on the outer wall of the stock bin, and the stock bin is connected with the first support frame in a clamping manner through the first lug seat; the bin is provided with a tank body and a bin cover, and the tank body is connected with the bin cover in a buckling manner; a first discharge hole is formed below the tank body, and a ball valve is arranged at the first discharge hole; the bin cover is provided with a first feeding hole, and a butterfly valve is arranged at the first feeding hole; the bin cover surface is equipped with first gas inlet, first manometer interface, first observation window, first gas vent, and first gas vent is equipped with first exhaust valve.

As a further preferred scheme of the invention, a communicating pipe is arranged between the stock bin and the pneumatic three-way valve, and the stock bin is communicated with the communicating pipe through a ball valve; one end of the communicating pipe is provided with a spiral feeding machine, the communicating pipe is provided with a second air inlet, and the second air inlet is positioned beside the spiral feeding machine; and an on-line oxygen component detection sensor is arranged between the communicating pipe and the pneumatic three-way valve.

As a further preferable scheme of the invention, a first stirring reaction kettle of the stirring assembly is provided with a second ear seat, the first stirring reaction kettle is connected with a second support frame in a clamping manner through the second ear seat, and a mettlerlatido weighing module is arranged between the second ear seat and the second support frame; second stirring reation kettle is equipped with the third ear seat, and second stirring reation kettle passes through the third ear seat and is connected with the second support frame screens, be equipped with the many weighing modules of mertler support between third ear seat and the second support frame.

As a further preferable scheme of the invention, the first stirring reaction kettle is provided with an end enclosure, and the end enclosure and the kettle body are fixed through bolts; the end enclosure is provided with a second feed port and is connected with one valve pipeline of the pneumatic three-way valve through the second feed port; the end socket is connected with the transmission stirring assembly in a penetrating way, and the transmission stirring assembly is provided with a double-speed explosion-proof motor; the seal head is provided with a resin vacuum leading-in port and is connected with the resin tank pipeline through the resin vacuum leading-in port; the seal head is provided with a first vacuumizing port, the first vacuumizing port is connected with a buffer tank pipeline, and the buffer tank is connected with a vacuum pump pipeline; the head is equipped with first air inlet and first pressure sensor, the head is equipped with first reserve mouth, and just first reserve mouth is one of them in thermometer mouth, perspective window, the manhole.

As a further preferable scheme of the invention, a second discharge port is arranged below the kettle body of the first stirring reaction kettle, and the second discharge port is provided with a first valve which is communicated with the second discharge port; a first sampling port is arranged below the kettle body of the first stirring reaction kettle, and a second valve is arranged at the first sampling port and is communicated with the first sampling port; the cauldron body is equipped with first compounding temperature sensor, and first compounding temperature sensor runs through the cauldron body.

As a further preferable scheme of the invention, a cavity in the kettle body of the first stirring reaction kettle is provided with a stirring head, and the stirring head is provided with a stirring main rod in transmission connection with the transmission stirring assembly; the stirring main rod is provided with a paddle for clamping connection, and the tail end of the stirring main rod is provided with a stirring dispersion disc; the stirring mobile jib is equipped with the stirring frame screens and connects, and the stirring frame is equipped with balancing pole screens and connects.

As a further preferable scheme of the present invention, the structure of the second stirred tank reactor except for the capacity is the same as that of the first stirred tank reactor; the second stirring reaction kettle is provided with a second vacuumizing port, and the second vacuumizing port is connected with the buffer tank through a pipeline; the second vacuum pumping port is independently connected with the buffer tank, or the pipeline of the second vacuum pumping port is intersected with the pipeline of the first vacuum pumping port to form a main pipeline which is connected with the buffer tank, and a three-way valve is arranged at the intersection of the main pipeline.

As a further preferred scheme of the invention, the first stirring reaction kettle is provided with a first heat conduction oil inlet, a first oil guide pipeline is arranged on the first stirring reaction kettle and is communicated with the first heat conduction oil outlet, and the first oil guide pipeline is surrounded in the kettle wall of the first stirring reaction kettle; the first oil guide pipeline is formed by welding a semicircular outer pipe and the inner kettle wall of the first stirring reaction kettle; two ends of the first oil guide pipeline are communicated with the first oil temperature machine; the second stirring reaction kettle is provided with a second heat conduction oil pipeline which is connected with a second oil temperature machine pipeline, the second heat conduction oil pipeline is the same as the first heat conduction oil pipeline, and the second heat conduction oil pipeline is formed by welding a semicircular outer pipe and the inner kettle wall of the second stirring reaction kettle.

Compared with the prior art, the invention provides an atmosphere protection self-stirring glue making device, which has the following beneficial effects:

the device creates a proper stirring and mixing environment in the kettle by heating the oil control pipe, vacuumizing and inputting different protective gases; and carry on the reation kettle through mertlet many weighing module area and weigh, know initial weight or peel and weigh and can be better can be the accuse stirring raw materials weight, avoid appearing great relatively error.

Drawings

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

FIG. 2 is a plan view of the overall structure of the present invention;

FIG. 3 is a front view of the bin structure of the present invention;

FIG. 4 is a top view of the bin structure of the present invention;

FIG. 5 is a schematic view of a communication tube according to the present invention;

FIG. 6 is a schematic structural view of a first stirred tank reactor according to the present invention;

FIG. 7 is a schematic view of the internal structure of a first stirred tank reactor according to the present invention;

wherein: 1. the device comprises a storage bin, 1-1 part, a first lug seat, 1-2 parts, a tank body, 1-3 parts, a bin cover, 1-4 parts, a ball valve, 1-5 parts, a butterfly valve, 1-6 parts, a first air inlet, 1-7 parts, a first pressure gauge interface, 1-8 parts, a first observation window, 1-9 parts, a first air outlet, 2 parts, a pneumatic three-way valve, 3 parts, a first stirring reaction kettle, 3-1 parts, a second lug seat, 3-2 parts, a sealing head, 3-3 parts, a kettle body, 3-4 parts, a second air inlet, 3-5 parts, a resin vacuum inlet, 3-6 parts, a first vacuumizing port, 3-7 parts, a first air inlet, 3-8 parts, a first pressure sensor, 3-9 parts, a first standby port, 3-10 parts, a second air outlet, 3-11 parts, a first sampling port, 3-12 parts, The device comprises a first mixed material temperature sensor, 3-13 parts of a stirring main rod, 3-14 parts of a blade, 3-15 parts of a stirring dispersion disc, 3-16 parts of a stirring frame, 3-17 parts of a balancing rod, 3-18 parts of a first heat conduction oil inlet, 3-19 parts of a first oil guide pipeline, 3-20 parts of a first heat conduction oil outlet, 4 parts of a second stirring reaction kettle, 5 parts of a resin tank, 6 parts of a leading-in pipe, 7 parts of a first supporting frame, 8 parts of a communicating pipe, 9 parts of a spiral feeding machine, 10 parts of a second air inlet, 11 parts of an online detection oxygen content sensor, 12 parts of a second supporting frame, 13 parts of a MettlerTorrel multi weighing module, 14 parts of a double-speed explosion-proof motor, 15 parts of a buffer tank, 16 parts of a vacuum pump, 17 parts of a first oil temperature machine, 18 parts.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-7, the invention provides an atmosphere protection self-stirring glue making device, which comprises a stock bin 1, a liquid feeding assembly, a stirring assembly and a heating assembly, wherein the stock bin 1 is connected with a pneumatic three-way valve 2 through a pipeline, the mixed material in the stock bin 1 is distributed through the pneumatic three-way valve 2, and the pneumatic three-way valve 2 is connected with the stirring assembly through a pipeline; the stirring component is provided with a first stirring reaction kettle 3 and a second stirring reaction kettle 4; the stirring assembly is connected with the support frame in a clamping manner, and a weighing module is arranged between the stirring assembly and the support frame; the stirring assembly is connected with the liquid feeding assembly through a pipeline; the liquid feeding component is provided with a resin tank 5 and an inlet pipe 6, and the resin tank 5 is communicated with the stirring component through the inlet pipe 6; the stirring assembly is provided with a vacuumizing port, is connected with a buffer tank 15 through a pipeline, and the buffer tank 15 is connected with a vacuum pump 16 through a pipeline; the stirring assembly is connected with the heating assembly through a pipeline, the heating assembly is provided with an oil temperature machine, the oil temperature machine is connected with a heating pipeline in a through mode, and the heating pipeline is connected with the stirring assembly in a winding mode.

As a further preferable scheme of the invention, a first support frame 7 is arranged below the stock bin 1, a first lug seat 1-1 is arranged on the outer wall of the stock bin 1, and the stock bin 1 is connected with the first support frame 7 in a clamping manner through the first lug seat 1-1; the storage bin 1 is provided with a tank body 1-2 and a bin cover 1-3, and the tank body 1-2 is connected with the bin cover 1-3 in a buckling manner; a first discharge port is arranged below the tank body 1-2, and a ball valve 1-4 is arranged at the first discharge port; the bin cover 1-3 is provided with a first feed port, and the first feed port is provided with a butterfly valve 1-5; the surface of the bin cover 1-3 is provided with a first air inlet 1-6, a first pressure gauge interface 1-7, a first observation window 1-8 and a first exhaust port 1-9, and the first exhaust port 1-9 is provided with a first exhaust valve.

As a further preferred scheme of the invention, a communicating pipe 8 is arranged between the stock bin 1 and the pneumatic three-way valve 2, and the stock bin 1 is communicated with the communicating pipe 8 through ball valves 1-4; a spiral feeding machine 9 is arranged at one end of the communicating pipe 8, a second air inlet 10 is arranged on the communicating pipe 8, and the second air inlet 10 is positioned beside the spiral feeding machine 9; an on-line oxygen content detecting sensor 11 is arranged between the communicating pipe 8 and the pneumatic three-way valve 2.

As a further preferable scheme of the present invention, the first stirred tank reactor 3 of the stirring assembly is provided with a second ear seat 3-1, the first stirred tank reactor 3 is connected with the second support frame 12 by the second ear seat 3-1 in a clamping manner, a mettlerlatido weighing module 13 is arranged between the second ear seat 3-1 and the second support frame 12, the weight of the first stirred tank reactor 3 is supported by the second ear seat 3-1 and weighed, so that contact support at other positions is avoided, the first stirred tank reactor 3 can be effectively kept in a vertical state, and the suspended first stirred tank reactor 3 reduces the transmission of shaking during stirring; second stirred tank reactor 4 is equipped with the third ear seat, and second stirred tank reactor 4 passes through the third ear seat and is connected with 12 screens of second support frame, be equipped with the many weighing module of mertler toli 13 between third ear seat and the second support frame 12.

As a further preferable scheme of the invention, the first stirring reaction kettle 3 is provided with an end enclosure 3-2, and the end enclosure 3-2 and the kettle body 3-3 are fixed through bolts; the end socket 3-2 is provided with a second feeding hole 3-4, and the end socket 3-2 is connected with one valve pipeline of the pneumatic three-way valve 2 through the second feeding hole 3-4; the end socket 3-2 is connected with the transmission stirring assembly in a penetrating way, and the transmission stirring assembly is provided with a double-speed explosion-proof motor 14; the seal head 3-2 is provided with a resin vacuum inlet 3-5, and the seal head 3-2 is connected with a resin tank 5 through a resin vacuum inlet 3-5 by a pipeline; the end socket 3-2 is provided with a first vacuumizing port 3-6, and the first vacuumizing port 3-6 is connected with a buffer tank 15 through a pipeline; the sealing head 3-2 is provided with a first air inlet 3-7 and a first pressure sensor 3-8, the sealing head 3-2 is provided with a first standby port 3-9, and the first standby port 3-9 is one of a thermometer port, a perspective window and a manhole.

As a further preferable scheme of the invention, a second discharge port 3-10 is arranged below the kettle body 3-3 of the first stirring reaction kettle 3, and the second discharge port 3-10 is provided with a first valve which is communicated with the first discharge port; a first sampling port 3-11 is arranged below the kettle body 3-3 of the first stirring reaction kettle 3, and the first sampling port 3-11 is provided with a second valve which is communicated with the first sampling port; the kettle body 3-3 is provided with a first material mixing temperature sensor 3-12, and the first material mixing temperature sensor 3-12 penetrates through the kettle body 3-3.

As a further preferable scheme of the invention, a cavity in the kettle body 3-3 of the first stirring reaction kettle 3 is provided with a stirring head, and the stirring head is provided with a stirring main rod 3-13 which is in transmission connection with the transmission stirring assembly; the stirring main rod 3-13 is provided with blades 3-14 which are connected in a clamping manner, and the tail end of the stirring main rod 3-13 is provided with a stirring dispersion disc 3-15; the stirring main rods 3-13 are provided with stirring frames 3-16 which are connected in a clamping way, and the stirring frames 3-16 are provided with balancing rods 3-17 which are connected in a clamping way.

As a further preferable embodiment of the present invention, the structure of the second stirred tank reactor 4 except for the capacity is the same as that of the first stirred tank reactor 3; the second stirring reaction kettle 4 is provided with a second vacuumizing port, and the second vacuumizing port is connected with the buffer tank 15 through a pipeline; the second vacuum pumping port is independently connected with the buffer tank 15, or the pipeline of the second vacuum pumping port and the pipeline of the first vacuum pumping port are converged into a main pipeline which is connected with the buffer tank 15, and a three-way valve is arranged at the intersection of the main pipeline.

As a further preferable scheme of the invention, the first stirring reaction kettle 3 is provided with a first heat conduction oil inlet 3-18, a first oil guide pipeline 3-19 is communicated with a first heat conduction oil outlet 3-20, and the first oil guide pipeline 3-19 is surrounded in the kettle wall of the first stirring reaction kettle 3; the first oil guide pipeline 3-19 is formed by welding a semicircular outer pipe and the inner kettle wall of the first stirring reaction kettle 3; two ends of the first oil guide pipeline 3-19 are communicated with the first oil temperature machine 17; the second stirring reaction kettle 4 is provided with a second heat conduction oil pipeline which is connected with a second oil temperature machine 18 pipeline, the second heat conduction oil pipeline is the same as the first heat conduction oil pipeline 3-19, and the second heat conduction oil pipeline is formed by welding a semicircular outer pipe and the inner kettle wall of the second stirring reaction kettle 4.

As a specific embodiment of the present invention:

before mixing and stirring, sufficient preparation work needs to be done, for example, a stirring head is selected and installed on a stirring main rod according to the distance and the shape between a stirring frame 3-16 and the inner wall of a reaction kettle, the size of blades 3-14, the length of balance rods 3-17, the size of a stirring dispersion disc, materials and other factors, then the positions of the blades 3-14 and the balance rods 3-17 are adjusted, a vacuum pump 16 and a buffer tank 15 are utilized to check the sealing performance of stirring equipment, even the stirring reaction kettle is directly vacuumized, and the influence of air or other gases on stirring raw materials is reduced.

Stirring raw materials are transmitted to a pneumatic three-way valve 2 through a ball valve 1-4 or a spiral feeding machine 9 of a stock bin 1, the raw materials are distributed to different stirring reaction kettles as required, and a first air inlet 1-6 or a second air inlet 10 of the stock bin 1 ensures that the raw materials gradually enter a stirring environment before being stirred, so that the raw materials are prevented from being oxidized, volatilized, deteriorated and the like before being stirred; and opening an oil temperature machine connected with the corresponding stirring reaction kettle.

Before the raw materials enter the stirring reaction kettle, resetting and resetting the Mettlerlatorium weighing module 13, gradually adding the raw materials guided by the stock bin 1, the resin tank 5 or the spiral feeding machine 9 into the stirring reaction kettle, but adding the raw materials in batches so as to control the weight of each stirring raw material; treat that the raw materials of stirring gets into stirring reation kettle completely, adjust reation kettle internal pressure through vacuum pump 16 and buffer tank 15 to and carry the abundant reation kettle of required gas through the air inlet, form suitable stirring environment, avoid the raw materials to take place the raw materials and not stirred the appearance of just taking place adverse conditions such as oxidation, volatilization rotten etc. that takes place to mix yet at the stirring in-process, still need satisfy simultaneously that the compounding temperature sensor begins to put through double-speed explosion-proof motor 14 and stir after reaching required stirring temperature.

The observation can be carried out through a perspective window during the stirring and mixing process, or the sample inspection after the stirring is carried out through a sampling port.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. An atmosphere protection self-stirring glue making device comprises a stock bin (1), a liquid feeding assembly, a stirring assembly and a heating assembly, and is characterized in that the stock bin (1) is connected with a pneumatic three-way valve (2) through a pipeline, and the pneumatic three-way valve (2) is connected with the stirring assembly through a pipeline; the stirring component is provided with a first stirring reaction kettle (3) and a second stirring reaction kettle (4); the stirring assembly is connected with the support frame in a clamping manner, and a weighing module is arranged between the stirring assembly and the support frame; the stirring assembly is connected with the liquid feeding assembly through a pipeline; the liquid feeding component is provided with a resin tank (5) and an inlet pipe (6), and the resin tank (5) is communicated with the stirring component through the inlet pipe (6); the stirring assembly is provided with a vacuumizing port, is connected with a buffer tank (15) through a pipeline, and the buffer tank (15) is connected with a vacuum pump (16) through a pipeline; the stirring assembly is connected with the heating assembly through a pipeline, the heating assembly is provided with an oil temperature machine, the oil temperature machine is connected with a heating pipeline in a through mode, and the heating pipeline is connected with the stirring assembly in a winding mode.

2. The atmosphere protection self-stirring glue making device according to claim 1, characterized in that a first support frame (7) is arranged below the stock bin (1), a first lug seat (1-1) is arranged on the outer wall of the stock bin (1), and the stock bin (1) is connected with the first support frame (7) in a clamping manner through the first lug seat (1-1); the storage bin (1) is provided with a tank body (1-2) and a bin cover (1-3), and the tank body (1-2) is connected with the bin cover (1-3) in a buckling manner; a first discharge hole is formed below the tank body (1-2), and a ball valve (1-4) is arranged at the first discharge hole; the bin cover (1-3) is provided with a first feeding hole, and a butterfly valve (1-5) is arranged at the first feeding hole; the surface of the bin cover (1-3) is provided with a first air inlet (1-6), a first pressure gauge connector (1-7), a first observation window (1-8) and a first exhaust port (1-9), and the first exhaust port (1-9) is provided with a first exhaust valve.

3. The atmosphere protection self-stirring glue making device according to claim 1, characterized in that a communicating pipe (8) is arranged between the stock bin (1) and the pneumatic three-way valve (2), and the stock bin (1) is communicated with the communicating pipe (8) through a ball valve (1-4); a spiral feeding machine (9) is arranged at one end of the communicating pipe (8), a second air inlet (10) is formed in the communicating pipe (8), and the second air inlet (10) is located beside the spiral feeding machine (9); an online oxygen component detection sensor (11) is arranged between the communicating pipe (8) and the pneumatic three-way valve (2).

4. The atmosphere protection self-stirring glue making device according to claim 1, wherein the first stirring reaction kettle (3) of the stirring assembly is provided with a second ear seat (3-1), the first stirring reaction kettle (3) is connected with the second support frame (12) in a clamping manner through the second ear seat (3-1), and a Mettlerlatim weighing module (13) is arranged between the second ear seat (3-1) and the second support frame (12); second stirred tank reactor (4) are equipped with the third ear seat, and second stirred tank reactor (4) are connected with second support frame (12) screens through the third ear seat, be equipped with mertler many weighing module of support (13) between third ear seat and second support frame (12).

5. The atmosphere protection self-stirring glue making device according to claim 1, wherein the first stirring reaction kettle (3) is provided with a seal head (3-2), and the seal head (3-2) and the kettle body (3-3) are fixed through bolts; the end enclosure (3-2) is provided with a second feeding hole (3-4), and the end enclosure (3-2) is connected with one valve pipeline of the pneumatic three-way valve (2) through the second feeding hole (3-4); the seal head (3-2) is in through connection with the transmission stirring assembly, and the transmission stirring assembly is provided with a double-speed explosion-proof motor (14); the end enclosure (3-2) is provided with a resin vacuum inlet (3-5), and the end enclosure (3-2) is connected with the resin tank (5) through the resin vacuum inlet (3-5) by a pipeline; the end enclosure (3-2) is provided with a first vacuumizing port (3-6), and the first vacuumizing port (3-6) is connected with the buffer tank (15) through a pipeline; the sealing head (3-2) is provided with a first air inlet (3-7) and a first pressure sensor (3-8), the sealing head (3-2) is provided with a first standby port (3-9), and the first standby port (3-9) is one of a thermometer port, a perspective window and a manhole.

6. The atmosphere protection self-stirring glue making device according to claim 5, characterized in that a second discharge port (3-10) is arranged below the kettle body (3-3) of the first stirring reaction kettle (3), and the second discharge port (3-10) is provided with a first valve in through connection; a first sampling port (3-11) is arranged below the kettle body (3-3) of the first stirring reaction kettle (3), and the first sampling port (3-11) is provided with a second valve which is communicated with the first sampling port; the kettle body (3-3) is provided with a first material mixing temperature sensor (3-12), and the first material mixing temperature sensor (3-12) penetrates through the kettle body (3-3).

7. The atmosphere protection self-stirring glue making device according to claim 5 or 6, wherein a cavity in the kettle body (3-3) of the first stirring reaction kettle (3) is provided with a stirring head, and the stirring head is provided with a stirring main rod (3-13) in transmission connection with a transmission stirring component; the stirring main rods (3-13) are provided with blades (3-14) which are connected in a clamping manner, and the tail ends of the stirring main rods (3-13) are provided with stirring dispersion discs (3-15); the stirring main rods (3-13) are provided with stirring frames (3-16) which are connected in a clamping manner, and the stirring frames (3-16) are provided with balancing rods (3-17) which are connected in a clamping manner.

8. An atmosphere protection self-stirring glue making device according to any one of the claims 1, 5, 6 and 7, characterized in that the structure of the second stirring reaction kettle (4) is the same as the structure of the first stirring reaction kettle (3) except the capacity; the second stirring reaction kettle (4) is provided with a second vacuumizing port, and the second vacuumizing port is connected with the buffer tank (15) through a pipeline; the second vacuum pumping port is independently connected with the buffer tank (15), or the pipeline of the second vacuum pumping port and the pipeline of the first vacuum pumping port are converged into a main pipeline which is connected with the buffer tank (15), and a three-way valve is arranged at the junction of the main pipeline.

9. The atmosphere protection self-stirring glue making device according to claim 1, wherein the first stirring reaction kettle (3) is provided with a first heat conduction oil inlet (3-18), a first oil guide pipeline (3-19) is communicated with the first heat conduction oil outlet (3-20), and the first oil guide pipeline (3-19) surrounds the kettle wall of the first stirring reaction kettle (3); the first oil guide pipeline (3-19) is formed by welding a semicircular outer pipe and the inner kettle wall of the first stirring reaction kettle (3); two ends of the first oil guide pipeline (3-19) are communicated with the first oil temperature machine (17); the second stirring reaction kettle (4) is provided with a second heat conduction oil pipeline which is connected with a second oil temperature machine (18) through a pipeline, the second heat conduction oil pipeline is the same as the first heat conduction oil pipeline (3-19), and the second heat conduction oil pipeline is formed by welding a semicircular outer pipe and the inner kettle wall of the second stirring reaction kettle (4).

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