CN216093317U - A stirring dispersion tank that material mixes before being used for combining cream - Google Patents

Abstract

The utility model discloses a stirring and dispersing kettle for mixing materials before paste mixing, wherein a dispersing machine, an emulsifying machine and a frame type stirrer are arranged in the stirring and dispersing kettle, the upper part of the stirring dispersion kettle is provided with an additive auxiliary material input pipeline, a lead powder input pipeline and a conveying pipeline for inputting pure water and dilute sulfuric acid, a flow meter is arranged on the conveying pipeline, an electromagnetic valve is arranged on the output pipeline at the bottom of the stirring dispersion kettle, the frame type stirrer comprises a vertical rectangular frame, a vertical driving shaft is arranged in the middle of the rectangular frame, a driving motor in transmission connection with the driving shaft is arranged on the outer side of the top of the stirring dispersion kettle, the rectangular frame comprises two straight pipes and a transverse pipe communicated with the two straight pipes, the straight pipe and the transverse pipe are provided with a plurality of fumaroles, the stirring dispersion kettle is provided with a high-pressure gas pipe, one end of the high-pressure gas pipe is connected with a compressed gas source, and the other end of the high-pressure gas pipe is communicated with the fumaroles of the rectangular frame. The utility model can ensure that the lead powder and the additive auxiliary materials are uniformly mixed when the paste is mixed, and simultaneously, the production efficiency of the mixed paste is obviously improved.

Description

A stirring dispersion tank that material mixes before being used for combining cream

Technical Field

The utility model relates to the technical field of lead-acid storage battery manufacturing, in particular to a stirring dispersion kettle for mixing materials before paste mixing.

Background

It is known that in the production process of lead-acid storage batteries, the production of lead paste is a very important link which directly affects the quality of the storage batteries, and the so-called paste mixing is that the processed lead powder, additive auxiliary materials, pure water and dilute sulfuric acid are uniformly stirred in a paste mixing machine to form pasty lead paste. And coating the lead plaster on the surface of the base material of the polar plate, drying, and punching into a required size to form the polar plate.

At present, the paste mixing production process of the paste mixing machine is roughly as follows: adding lead powder and then additive auxiliary materials into a paste mixing machine, then premixing and stirring the paste mixing machine to uniformly mix the lead powder and the powdery additive auxiliary materials, adding pure water and dilute sulfuric acid, and mixing and stirring to form the lead paste.

However, the existing lead paste production mode has the following technical defects: firstly, because the production mode of the paste mixing machine is one-time staged production, the lead powder and the additive auxiliary materials are uniformly mixed, and the mixing and stirring after the pure water and the dilute sulfuric acid are added can not be carried out simultaneously, the paste mixing efficiency can be greatly influenced, and particularly, the amount of the lead powder, the additive auxiliary materials and the pure water and the dilute sulfuric acid need to be accurately weighed again in each paste mixing process of the paste mixing machine so as to realize the accurate proportioning of the components of the lead paste. In addition, because the amount of the additive auxiliary materials is less relative to the lead powder, the uniformity of each component is not easy to guarantee during paste mixing, generally, people can only solve the problem by prolonging the stirring and mixing time, and the efficiency of paste mixing is favorably influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a stirring and dispersing kettle for mixing materials before paste mixing, which can ensure that lead powder and additive auxiliary materials are uniformly mixed during paste mixing and obviously improve the production efficiency of paste mixing.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a stirring dispersion tank for close material mixture before cream, be equipped with dispenser, emulsion machine and frame agitator in the stirring dispersion tank, stirring dispersion tank upper portion is equipped with additive auxiliary material input pipeline, lead powder input pipeline, is used for the pipeline of inputing pure water, dilute sulphuric acid, is equipped with the flowmeter on the pipeline, is equipped with the solenoid valve on the output pipeline of stirring dispersion tank bottom, the frame agitator includes the rectangle frame by driving motor driven, the rectangle frame includes two straight tubes, the violently pipe of intercommunication two straight tubes, is equipped with a plurality of fumaroles on straight tube and violently manage, and an at least straight tube is connected with a high-pressurepipe one end, and the high-pressurepipe other end is connected with outside compressed air source.

During paste mixing production, the lead powder, the additive auxiliary materials, the pure water, the dilute sulfuric acid and other materials are firstly put into the stirring and dispersing kettle to be stirred and mixed, and then paste mixing production can be simultaneously carried out in the paste mixing machine, namely, both stirring and paste mixing can be realized, so that the paste mixing production efficiency is effectively improved.

It should be noted that, compared to the lead powder, the amount of the additive auxiliary materials is small, and the dry powder lead powder and the additive auxiliary materials are required to be uniformly stirred, which is difficult and accordingly takes much time. For this purpose, we can add additive auxiliary materials, pure water and dilute sulphuric acid into a stirring dispersion kettle to stir and mix into dilute materials. It can be understood that the additive auxiliary materials can be easily and uniformly diffused and even dissolved in the liquid formed by pure water and dilute sulfuric acid, so that a uniformly mixed dilute material can be formed, and then the additive auxiliary materials and the lead powder are stirred and mixed to form a uniform mixed material.

Particularly, when various materials enter the stirring dispersion kettle for mixing and stirring, compressed air is input into the stirring dispersion kettle through a high-pressure air pipe connected with the frame type stirrer, and the compressed air can enable the materials in the stirring dispersion kettle to turn up and down so as to further improve the uniformity of material mixing. It can be understood that the frame stirrer can rotate ceaselessly during operation, and therefore, the positions of the air injection holes arranged on the frame stirrer relative to the stirring dispersion tank change ceaselessly, so that the materials at each position in the stirring dispersion tank can be further mixed, and uniform mixing of all the materials is facilitated.

In addition, the frame type stirrer with the vertical rectangular frame is favorable for uniformly stirring various materials in the large-capacity stirring dispersion kettle. Particularly, because some components in the materials can corrode metal materials and the like, and the driving motor for driving the rectangular frame is arranged on the outer side of the top of the stirring dispersion kettle, the driving motor can be prevented from being influenced by the components with corrosion in the mixture, and the service life of the stirring dispersion kettle is prolonged.

Preferably, the driving motor is a double-end motor, a through hole is formed in the center of an output shaft of the driving motor, the high-pressure air pipe comprises a metal pipe which is rotatably connected into the output shaft, the metal pipe which upwards stretches out one end of the output shaft is connected with a compressed air source, and the other end of the metal pipe stretches into the stirring dispersion kettle and is communicated with a straight pipe of the rectangular frame through a communicating pipe which is transversely arranged.

Because the metal tube in the high-pressure air tube is rotationally connected in the output shaft of the driving motor, when the output shaft rotates, the metal tube can be kept static relative to the output shaft, and therefore compressed air can be conveniently conveyed to the rectangular frame through the metal tube. It can be understood that, when the driving motor drives the rectangular frame to rotate, the axis position of the output shaft is kept unchanged, so that the arrangement of the metal pipe is facilitated, one end of the transversely arranged connecting pipe is rotatably connected to the lower end of the metal pipe, and the sealing connection is realized by arranging the corresponding sealing ring.

In addition, driving motor adopts double-end motor to make its output shaft both ends expose, be convenient for on the one hand to set up the tubular metal resonator in inside and be connected with compressed air source, on the other hand makes things convenient for the tubular metal resonator to pass the drive shaft junction of output shaft and rectangular frame.

Preferably, n circles of air injection holes are arranged on the straight pipe and the horizontal pipe of the rectangular frame at equal intervals, the air injection holes of each circle are uniformly arranged in the circumferential direction, an offset angle alpha is formed between the air injection holes of two adjacent circles on the straight pipe and the horizontal pipe in the circumferential direction, and the angle alpha x n =360 degrees x b, wherein b is a positive integer.

When compressed gas is input into the rectangular frame through the high-pressure air pipe, the compressed gas can be sprayed out from each gas spraying hole on the straight pipe and the transverse pipe, so that materials of the stirring dispersion kettle are driven to turn up and down, and the mixing uniformity is further improved. It can be understood that the plurality of gas injection holes are arranged, so that the flow and the flow velocity of each gas injection hole can be reduced, the phenomenon of local severe turnover of the material is avoided, and the compressed gas sprayed from all parts of the straight pipe and the transverse pipe immersed in the material can further uniformly disperse and mix the material.

In addition, according to the scheme, an offset angle alpha is formed between every two adjacent circles of the air injection holes in the circumferential direction, and the angle alpha x n =360 degrees x b (wherein b is a positive integer), that is, the sum of the offset angles of the air injection holes of the circles on the straight pipe or the horizontal pipe is just an integer circle, and the air injection holes of each integer circle form a group of air injection hole groups, so that a plurality of groups of air injection hole groups are formed on the rectangular frame. Like this, on the one hand be favorable to the rectangle frame to spout compressed gas more evenly in order to stir the mixture, on the other hand, the compressed gas of blowout is even on the straight tube or violently managing in circumference, both can avoid the material to appear local "violently turning over" phenomenon effectively, can ensure again that the rectangle frame can receive the even reaction force of material when jet-propelled, avoids the rectangle frame to appear the shake phenomenon when stirring.

Preferably, the straight pipe of the rectangular frame is provided with a plurality of turbines on the rear side in the rotation direction, each turbine comprises a turbine shaft and an impeller, the turbine shaft is horizontally arranged, the impeller is connected to one end of the turbine shaft, the other end of the turbine shaft is connected to the straight pipe, and the turbine shaft is perpendicular to the transverse pipe.

In this scheme, when driving motor drove the rectangle frame and rotates when with the stirring material, the turbine on the straight tube formed relative motion with the material, and the material at this moment can make the turbine produce and rotate, and pivoted turbine then plays to mix the dispersion to the material.

Particularly, the two straight pipes of the rectangular frame are respectively provided with the plurality of turbines, so that the turbines with smaller outer diameters can be arranged, the resistance of the turbines during rotation for stirring materials can be reduced, and the phenomenon of local severe turnover of the materials is avoided.

Therefore, the utility model has the following beneficial effects: the lead powder and the additive auxiliary materials can be uniformly mixed during paste mixing, and the production efficiency of the paste mixing is obviously improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention.

FIG. 2 is a schematic view of a structure of a frame stirrer.

Fig. 3 is a schematic diagram of a straight pipe.

Fig. 4 is a schematic view of a connection structure of a turbine and a straight pipe.

Fig. 5 is a side projection view of the connection block.

In the figure: 1. stirring dispersion tank 11, electromagnetic valve 2, flowmeter 3, disperser 4, high-pressure gas pipe 41, gas orifice 5, emulsifying machine 6, frame stirrer 61, rectangular frame 611, straight pipe 612, spherical cavity 613, circular through hole 614, rectangular hole 615, horizontal pipe 62, driving shaft 63, driving motor 631, output shaft 7, turbine 71, turbine shaft 72, impeller 8, rotating ring 9 and connecting block.

Detailed Description

The utility model is further described with reference to the following detailed description and accompanying drawings.

As shown in fig. 1, a stirring dispersion tank for mixing materials before paste mixing is suitable for uniformly mixing materials such as lead powder, additive auxiliary materials, pure water, dilute sulfuric acid and the like during paste mixing production so as to enable a paste mixing machine to efficiently mix paste, specifically, a dispersion machine 3, an emulsifying machine 5 and a frame type stirrer 6 are arranged in the stirring dispersion tank 1, and an additive auxiliary material input pipeline, a lead powder input pipeline and a conveying pipeline for inputting pure water and dilute sulfuric acid are arranged at the upper part of the stirring dispersion tank.

During paste mixing production, the lead powder, the additive auxiliary materials, the pure water, the dilute sulfuric acid and other materials can be placed into a stirring and dispersing kettle for stirring and mixing, and at the moment, paste mixing production can be simultaneously carried out in a paste mixing machine, namely, both stirring and paste mixing can be realized, so that the paste mixing production efficiency is effectively improved.

It should be noted that, compared to the lead powder, the amount of the additive auxiliary materials is small, and the dry powder lead powder and the additive auxiliary materials are required to be uniformly stirred, which is difficult and accordingly takes much time. For this purpose, we can add additive auxiliary materials, pure water and dilute sulphuric acid into a stirring dispersion kettle to stir and mix into dilute materials. It can be understood that the additive auxiliary materials can be easily and uniformly diffused and even dissolved in the liquid formed by pure water and dilute sulfuric acid, so that a uniformly mixed dilute material can be formed, and then the additive auxiliary materials and the lead powder are stirred and mixed to form a uniform mixed material.

In addition, the capacity of the stirring dispersion kettle can be set to be about 3000 liters, so that a subsequent paste mixing machine can continuously produce paste. The frame type stirrer provided with the vertical rectangular frame is favorable for uniformly stirring various materials in the large-capacity stirring dispersion kettle.

Of course, we can arrange a flow meter 2 on the delivery pipeline to accurately meter the required pure water and dilute sulfuric acid. Of course, the additive auxiliary materials and the lead powder which are sent into the stirring dispersion kettle through the additive auxiliary material input pipeline and the lead powder input pipeline can be accurately weighed and metered through other weighing and metering devices, and then the additive auxiliary materials and the lead powder with specified weight are fed into the stirring dispersion kettle according to the set component proportion.

Meanwhile, an electromagnetic valve 11 is arranged on an output pipeline at the bottom of the stirring dispersion kettle to control the amount and rhythm of the stirred materials to be output outwards.

Since such devices are in the prior art, they will not be described in detail in this embodiment.

After the materials are uniformly stirred and mixed in the stirring dispersion kettle, the materials can enter a weighing tank for weighing and quantifying, and then are input into a corresponding paste mixing machine for paste mixing production.

In order to improve the mixing uniformity of materials, as shown in fig. 1, fig. 2 and fig. 3, the frame type stirrer comprises a vertical rectangular frame 61, a vertical driving shaft 62 is arranged in the middle of the rectangular frame, a driving motor 63 in transmission connection with the driving shaft is arranged on the outer side of the top of the stirring dispersion kettle, the rectangular frame comprises two straight pipes 611 and a transverse pipe 615 communicated with the two straight pipes, a plurality of air injection holes 41 are formed in the straight pipes and the transverse pipe, a high-pressure air pipe 4 is arranged on the stirring dispersion kettle, one end of the high-pressure air pipe is connected with a compressed air source, and the other end of the high-pressure air pipe is communicated with the air injection holes of the rectangular frame.

When various materials get into the stirring dispersion tank and mix the stirring, the high-pressure air pipe outwards spouts compressed air through the fumarole of frame agitator, and compressed air can promote the material in the stirring dispersion tank and turn from top to bottom to further promote the degree of consistency that the material mixes. It can be understood that the frame stirrer can rotate ceaselessly during operation, and therefore, the positions of the air injection holes arranged on the frame stirrer relative to the stirring dispersion tank change ceaselessly, so that the materials at each position in the stirring dispersion tank can be further mixed, and uniform mixing of all the materials is facilitated.

Because the components such as dilute sulfuric acid in the material can corrode metal materials and the like, and the driving motor for driving the rectangular frame is arranged on the outer side of the top of the stirring dispersion kettle, the driving motor can be prevented from being influenced by the components with corrosion in the mixture, and the service life of the stirring dispersion kettle can be prolonged.

Preferably, the transverse pipes are respectively arranged between the lower ends of the two straight pipes and between the middle parts of the two straight pipes, and the sealing communication between the transverse pipes and the straight pipes is ensured so as to facilitate the flow of the compressed air.

For the convenience of connecting the high-pressure air pipe with the rectangular frame, the driving motor is a double-head motor, and the output shaft 631 of the driving motor vertically extends out of the upper end and the lower end of the driving motor. The center of an output shaft of the driving motor is provided with a through hole penetrating through the upper end and the lower end, the high-pressure air pipe comprises a metal pipe which is rotatably connected in the output shaft, the metal pipe which upwards extends out of one end of the output shaft is connected with a compressed air source, and the other end of the metal pipe extends into the stirring dispersion kettle and is communicated with a straight pipe of the rectangular frame through a communicating pipe (not shown in the figure) which is transversely arranged.

Preferably, the other end of the metal pipe extending into the stirring dispersion tank can be communicated with the lowest horizontal pipe. That is, the horizontal tube functions as a communicating tube at this time.

Because the metal tube in the high-pressure air tube is rotationally connected in the output shaft of the driving motor, when the output shaft rotates, the metal tube can be kept static relative to the output shaft, and therefore compressed air can be conveniently conveyed to the rectangular frame through the metal tube. It can be understood that, when the driving motor drives the rectangular frame to rotate, the axis position of the output shaft is kept unchanged, so that the arrangement of the metal pipe is facilitated, one end of the transversely arranged connecting pipe is rotatably connected to the lower end of the metal pipe, and the sealing connection is realized by arranging the corresponding sealing ring.

Of course, a bearing can be arranged between the metal tube and the inner hole of the output shaft so as to further reduce the friction force between the output shaft and the metal tube when the output shaft rotates.

In addition, the lower end of the output shaft may be inserted into the upper end of the driving shaft of the rectangular frame and form a spline connection to transmit torque. The metal pipe passes through the joint of the output shaft and the driving shaft downwards, and a sealing ring is arranged between the metal pipe and the driving shaft, so that the metal pipe and the driving shaft form rotatable sealing connection. When the other end of the metal pipe extending into the stirring dispersion kettle is communicated with the lowest horizontal pipe, compressed gas firstly enters the horizontal pipe at the bottom of the rectangular frame through the metal pipe and the driving shaft, and then enters the two straight pipes and flows upwards.

It can be understood that the pressure of the compressed gas ejected from the gas ejection port from bottom to top of the rectangular frame is gradually reduced, and correspondingly, the resistance of the ejected compressed gas for stirring the materials is gradually reduced from bottom to top, so that the pressure of the compressed gas and the change energy of the stirring force and the resistance of the materials form a positive correlation relationship, and further, the uniform and synchronous mixing of the materials at different positions is realized.

Further, n circles of air injection holes can be arranged on the straight pipe and the transverse pipe of the rectangular frame, the axial distance between every two circles of air injection holes is kept the same, the air injection holes in every circle are uniformly arranged in the circumferential direction, an offset angle alpha is formed between every two adjacent circles of air injection holes in the circumferential direction, and the angle alpha x n =360 degrees x b, wherein b is a positive integer.

Therefore, when compressed gas is input into the rectangular frame through the high-pressure air pipe, the compressed gas can be sprayed out from the straight pipe and each gas orifice on the horizontal pipe, so that the materials of the stirring dispersion kettle are driven to turn up and down, and the mixing uniformity is further improved. Because the straight pipe and the transverse pipe are provided with the plurality of the fumaroles, the flow and the flow speed of each fumarole can be reduced, the phenomenon of local severe billowing of the material is avoided, and the compressed gas sprayed from all parts of the straight pipe and the transverse pipe which are immersed in the material is favorable for further uniform dispersion and mixing of the material.

In addition, since an offset angle α is formed between the gas injection holes of two adjacent circles in the circumferential direction, and α × n =360 ° × b (where b is a positive integer), that is, the sum of the offset angles of the gas injection holes of the circles on the straight pipe or the horizontal pipe is just an integer number of circles, the gas injection holes of each integer number of circles constitute one group of gas injection hole groups, so that a plurality of groups of gas injection hole groups are formed on the rectangular frame. Like this, on the one hand be favorable to the rectangle frame to spout compressed gas more evenly in order to stir the mixture, on the other hand, the compressed gas of blowout is even on the straight tube or violently managing in circumference, both can avoid the material to appear local "violently turning over" phenomenon effectively, can ensure again that the rectangle frame can receive the even reaction force of material when jet-propelled, avoids the rectangle frame to appear the shake phenomenon when stirring.

Furthermore, the highest air injection hole height on the rectangular frame can be 1/2-2/3 when the material in the stirring dispersion tank reaches the set weight. That is to say, when the material in the stirring dispersion tank reaches the highest position, all the gas injection holes are immersed in the material, so that the compressed gas can fully play a role in stirring the material, and meanwhile, the phenomenon that the compressed gas sprayed out from the gas injection holes at the higher positions can cause the material to be locally and violently overturned is avoided.

In order to further improve the uniform stirring effect of the frame type stirrer on materials, as shown in fig. 4, a plurality of turbines 7 can be arranged at intervals on the rear side of a rectangular frame straight pipe, wherein each turbine comprises a turbine shaft 71 and an impeller 72, the turbine shaft is horizontally arranged, the impeller 72 is connected to one end of the turbine shaft, the other end of the turbine shaft is connected to the straight pipe, and the turbine shaft is perpendicular to the horizontal pipe. That is, when the rectangular frame is rotated, the turbine shaft is located in a tangential direction to the rear side in the rotational direction of the straight pipe.

When driving motor passes through the drive shaft and drives vertical rectangle frame and rotate in order to stir the material, form relative motion between turbine and the material of setting on the straight tube, the material at this moment makes the turbine rotate, and pivoted turbine can play the effect of stirring and dispersion to the material.

Of course, the outer diameter of the turbine can be properly controlled to reduce the resistance of the turbine when rotating to stir the material and avoid the phenomenon of local 'violent tumbling' of the material.

To facilitate the assembly and connection of the turbine, as shown in fig. 4 and 5, a connecting block 9 may be disposed on the straight pipe at the rear side in the rotation direction, a spherical cavity 612 may be disposed in the connecting block, a circular through hole 613 and a rectangular hole 614 may be disposed on the rear side of the connecting block, and the spherical center of the spherical cavity may be located on the axis of the circular through hole. In addition, the circular through hole penetrates through the spherical cavity, and the rectangular hole extends to two width side edges to be tangent to the spherical cavity. That is, the rectangular aperture extends inward as far as the center of the spherical cavity. In addition, be equipped with in spherical cavity and rotate ring 8, it includes two circular terminal surfaces that are parallel to each other, connects the annular face between two terminal surfaces to rotate the ring, the annular face is the sphere with spherical cavity adaptation, threaded connection is in the hole of rotating the ring after the turbine shaft passes circular through-hole, the width of rectangular hole is not less than the thickness of rotating the ring.

The rotating circular ring is in ball joint with the spherical cavity on the straight pipe. That is, the turbine can rotate 360 ° about the spherical center of the spherical cavity by the turbine shaft.

The turbine will tilt downwards under its own weight before the start of the stirring. When the rectangular frame rotates to stir materials, the turbine positioned at the rear side of the straight pipe is upwards rotated by the resistance of the materials until the turbine shaft is approximately in a horizontal state, and the turbine at the moment can drive the rotating circular ring to rotate in the spherical cavity through the turbine shaft.

When the turbine is required to be installed on a straight pipe, the rotating circular ring can be rotated by 90 degrees, so that the rotating circular ring enters a rectangular hole from the rear side of the straight pipe by the thickness; when the spherical center of the annular surface of the rotating circular ring is coincident with the spherical center of the spherical cavity, the rotating circular ring is rotated by 90 degrees, so that the axis of the rotating circular ring is basically coincident with the axis of the circular through hole, and at the moment, the turbine shaft penetrates through the circular through hole in the connecting block and is connected in the inner hole of the rotating circular ring. On the one hand, the rotating ring can rotate 360 degrees in the spherical cavity, on the other hand, the rotating ring can be effectively prevented from being separated from the spherical cavity, and the assembly connection of the turbine and the vertical edge is facilitated.

Of course, a positioning groove can be arranged on the annular surface of the rotating ring, a threaded through hole penetrating through the spherical cavity is arranged on the side surface of the connecting block, and a positioning screw is arranged in the threaded through hole. When the rotating circular ring enters the rectangular hole from the rear side of the straight pipe by the thickness, the positioning groove is over against the positioning screw, and the positioning screw is screwed at the moment, so that the inner end of the positioning screw is clamped in the positioning groove, and the rotating circular ring can be conveniently rotated by 90 degrees.

Claims (4)

1. The utility model provides a stirring dispersion tank for closing material mixes before cream, be equipped with dispenser, emulsion machine and frame agitator among the stirring dispersion tank, characterized by, stirring dispersion tank upper portion is equipped with additive auxiliary material input pipeline, lead powder input pipeline, is used for the pipeline of input pure water, dilute sulphuric acid, is equipped with the flowmeter on the pipeline, is equipped with the solenoid valve on the output pipeline of stirring dispersion tank bottom, the frame agitator includes the rectangle frame by driving motor drive, the rectangle frame includes two straight tubes, the violently pipe of two straight tubes of intercommunication, is equipped with a plurality of fumaroles on straight tube and violently manage, and an at least straight tube is connected with a high-pressurepipe one end, and the high-pressurepipe other end is connected with outside compressed air source.

2. The stirring and dispersing kettle according to claim 1, wherein the driving motor is a double-head motor, the center of the output shaft of the driving motor is provided with a through hole, the high-pressure air pipe comprises a metal pipe rotatably connected in the output shaft, the metal pipe extending upwards from one end of the output shaft is connected with a compressed air source, and the other end of the metal pipe extends into the stirring and dispersing kettle and is communicated with a straight pipe of the rectangular frame through a transversely arranged communicating pipe.

3. The stirring and dispersing kettle for mixing materials before paste mixing as claimed in claim 1, wherein n circles of air injection holes are arranged at equal intervals on the straight pipe and the horizontal pipe of the rectangular frame, the air injection holes of each circle are uniformly arranged in the circumferential direction, an offset angle α is formed between the air injection holes of two adjacent circles on the straight pipe and the horizontal pipe in the circumferential direction, and α x n =360 ° x b, wherein b is a positive integer.

4. The stirring and dispersing kettle for mixing materials before paste mixing as claimed in claim 1, wherein a plurality of turbines are arranged on the rear side of the rectangular frame straight pipe in the rotation direction, each turbine comprises a turbine shaft and an impeller, the turbine shaft is horizontally arranged, the impeller is connected to one end of the turbine shaft, the other end of the turbine shaft is connected to the straight pipe, and the turbine shaft is perpendicular to the transverse pipe.

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