CN113828218A - Defoaming agent emulsifying system and emulsifying method - Google Patents

Abstract

The invention discloses a defoaming agent emulsifying system which comprises a fixing unit, a stirring unit and a stirring unit, wherein the fixing unit comprises a vibration assembly and a clamping assembly arranged on the vibration assembly; and the stirring unit comprises a lifting component connected with the fixing unit and a stirring component arranged at one end of the lifting component. The defoaming agent emulsifying device can fully stir the emulsifying process of the defoaming agent through the positive and negative alternate rotation of the stirring blades, so that the emulsifying effect of the defoaming agent is better, the viscous defoaming agent is easily dispersed and then stirred by matching with the vibration component to carry out high-frequency vibration, the stability factor of foam is easily smaller than the attenuation factor in the vibration process, and the quantity of the foam is gradually reduced; in addition, the clamping assembly is arranged, so that the stability of the material containing vessel in the operation process of the device is improved.

Description

Defoaming agent emulsifying system and emulsifying method

Technical Field

The invention relates to the technical field of defoaming agents, in particular to a defoaming agent emulsifying system and a defoaming agent emulsifying method.

Background

An antifoaming agent is a substance that reduces the surface tension of water, solutions, suspensions, etc., prevents the formation of foam, or reduces or eliminates the original foam. A large amount of foam can be generated in the production and application processes in the fields of coating, textile, medicine, fermentation, papermaking, water treatment, petrochemical industry and the like, and further the product quality and the production process are influenced. A specific amount of an antifoaming agent is usually added to the foam at the time of production based on the suppression and elimination of the foam. The existing defoaming agent emulsification production is to put the defoaming agent into the barrel body, only to stir, and because the concentration of the raw material of the defoaming agent is higher and more viscous, the phenomenon of uneven mixing is easy to occur in the simple stirring process, thereby influencing the emulsification effect of finished products.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or problems occurring in the conventional antifoaming agent emulsification systems and emulsification methods.

Therefore, the invention aims to solve the problem that a defoaming agent emulsifying system and a defoaming agent emulsifying method are needed to solve the problem that the existing defoaming agent is easy to mix unevenly in the emulsifying process.

In order to solve the technical problems, the invention provides the following technical scheme, wherein: an antifoaming agent emulsification system comprises a fixing unit, a fixing unit and a control unit, wherein the fixing unit comprises a vibration assembly and a clamping assembly arranged on the vibration assembly; and the stirring unit comprises a lifting component connected with the fixing unit and a stirring component arranged at one end of the lifting component.

As a preferable embodiment of the defoaming agent emulsifying system of the present invention, wherein: the vibration assembly comprises a base and a fixed disk, wherein a first movable hole is vertically formed in the center of one side of the base, a plurality of second movable holes are uniformly formed in the periphery of the first movable hole, a first connecting hole is vertically formed in the center of one side of the fixed disk, a plurality of second connecting holes are uniformly formed in the periphery of the first connecting hole, the first connecting hole is nested in the first movable hole, the second connecting hole is nested in the second movable hole, a first elastic piece is arranged in the second connecting hole, and two ends of the first elastic piece are respectively abutted to the bottoms of the second connecting hole and the first movable hole.

As a preferable embodiment of the defoaming agent emulsifying system of the present invention, wherein: the base middle part is equipped with movable chamber, first movable hole with the movable chamber communicates with each other, the downthehole moving part that is equipped with of first movable hole, the inside cavity of moving part and one end trompil, be equipped with spacing post in the first connecting hole, spacing post one end is smooth round bar, round bar one end with first connecting hole bottom fixed connection, the other end are equipped with the spacing head, the spacing head is located in the moving part, the cover is equipped with the second elastic component on the round bar, the second elastic component is located the inside trompil department of moving part with between the spacing head.

As a preferable embodiment of the defoaming agent emulsifying system of the present invention, wherein: still be equipped with the third activity hole on the base, the third activity hole runs through the activity chamber, install the actuating lever in the third activity hole, the actuating lever middle part is equipped with cam structure, cam structure is located in the activity chamber, cam structure's one end articulates there is the connecting piece, the other end of connecting piece with the moving part is not articulated the one end of trompil.

As a preferable embodiment of the defoaming agent emulsifying system of the present invention, wherein: the clamping assembly is composed of a plurality of clamping pieces, a sliding block is arranged at one end of each clamping piece, a sliding groove is formed in the sliding block, a sliding strip extends out of the sliding block, the sliding strip is installed in the sliding groove of the other clamping piece, and the clamping pieces are connected in pairs to form a loop.

As a preferable embodiment of the defoaming agent emulsifying system of the present invention, wherein: the novel LED lamp holder is characterized in that a plurality of grooves are formed in the other side of the fixed disk, the grooves are evenly distributed, the sliding block is installed in the grooves, first threaded holes are formed in the sliding block, first screw rods are further arranged on the fixed disk, the first screw rods are located in the grooves, and the first screw rods penetrate through the first threaded holes.

As a preferable embodiment of the defoaming agent emulsifying system of the present invention, wherein: the lifting assembly comprises a lifting seat, a first transmission piece, a second screw rod and a plurality of guide rods, the lifting seat is fixedly connected to one side of the base, the lifting seat is provided with a containing hole and a plurality of guide holes, the outer ring of the first transmission piece is of a helical gear structure, a second threaded hole is formed in the middle of the first transmission piece, the first transmission piece is installed at one end of the containing hole, the second screw rod penetrates through the second threaded hole and enters the containing hole, and the guide rods are located in the guide holes.

As a preferable embodiment of the defoaming agent emulsifying system of the present invention, wherein: the second transmission piece is installed on the lifting seat, the second transmission piece is of an oblique gear structure, one surface of the oblique gear structure is provided with a handle, and the second transmission piece is meshed with the first transmission piece.

As a preferable embodiment of the defoaming agent emulsifying system of the present invention, wherein: the stirring subassembly includes elevating platform, driving piece, follower, the elevating platform with second screw rod, guide bar fixed connection, the driving piece middle part is equipped with drive gear, the outer coaxial drive ring that is equipped with of drive gear, drive gear passes through support fixed connection with the drive ring, the driving piece is installed in the one side of elevating platform, the arc length that the teeth of a cogwheel of drive gear covered is no longer than half of girth, the teeth of a cogwheel of drive ring are located the arc length that the ring was inside and covered and are not longer than half of girth, the follower middle part is smooth shaft-like, and the one end of pole is equipped with driven gear, and the other end is equipped with the stirring head, follower middle part pole passes the elevating platform, driven gear with drive gear, the meshing of drive ring.

A defoamer emulsification method, wherein:

putting the defoaming agent into a circular material containing vessel, and then placing the circular material containing vessel on a fixed disc;

rotating the first screw rod to enable the sliding block to contract towards the middle of the fixed disc so as to clamp the material containing vessel;

rotating a second transmission piece in the lifting assembly to enable the stirring assembly to descend;

when the stirring head descends to a proper position in the material containing vessel, the driving piece and the driving rod are rotated to stir and emulsify the raw materials in the material containing vessel.

The invention has the beneficial effects that: the defoaming agent emulsifying device can fully stir the emulsifying process of the defoaming agent through the positive and negative alternate rotation of the stirring blades, so that the emulsifying effect of the defoaming agent is better, the viscous defoaming agent is easily dispersed and then stirred by matching with the vibration component to carry out high-frequency vibration, the stability factor of foam is easily smaller than the attenuation factor in the vibration process, and the quantity of the foam is gradually reduced; in addition, the clamping assembly is arranged, so that the stability of the material containing vessel in the operation process of the device is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

FIG. 1 is a schematic diagram of the overall assembly of a defoamer emulsification system.

FIG. 2 is a perspective cross-sectional structural view of a defoamer emulsification system.

FIG. 3 is a perspective cross-sectional structural view of another depth of the defoamer emulsification system.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 3, a first embodiment of the present invention provides a defoamer emulsification system, which can sufficiently stir a defoamer to enhance an emulsification effect.

The defoaming agent emulsifying system comprises a fixing unit 100, a fixing device and a control device, wherein the fixing unit 100 comprises a vibration assembly 101 and a clamping assembly 102 arranged on the vibration assembly 101; and a stirring unit 200 including a lifting assembly 201 connected to the fixing unit 100, and a stirring assembly 202 installed at one end of the lifting assembly 201.

Specifically, the vibration assembly 101 comprises a base 101a and a fixed disk 101b, wherein a first movable hole 101a-1 is vertically arranged at the center of one surface of the base 101a, a plurality of second movable holes 101a-2 are uniformly arranged around the first movable hole 101a-1, a first connection hole 101b-1 is vertically arranged at the center of one surface of the fixed disk 101b, a plurality of second connection holes 101b-2 are uniformly arranged around the first connection hole 101b-1, the first movable hole 101a-1, the second movable hole 101a-2, the first connection hole 101b-1 and the second connection hole 101b-2 are all raised cylindrical structures, the first connection hole 101b-1 is nested in the first movable hole 101a-1, the second connection hole 101b-2 is nested in the second movable hole 101a-2, a first elastic piece T-1 is arranged in the second connection hole 101b-2, two ends of the first elastic piece T-1 are respectively propped against the bottoms of the second connecting hole 101b-2 and the first movable hole 101 a-2. The first elastic piece T-1 is a compression spring, the length of the compression spring is larger than the depth of the second connecting hole 101b-2, and the second movable hole 101a-2 plays a role in guiding and stabilizing the second connecting hole 101b-2, so that transition shaking in the vertical movement process of the fixed disc 101b is avoided.

Furthermore, a movable cavity 101a-3 is arranged in the middle of the base 101a, the first movable hole 101a-1 is communicated with the movable cavity 101a-3, a movable element 101c is arranged in the first movable hole 101a-1, the movable element 101c is integrally cylindrical and can slide in the first movable hole 101a-1, the movable element 101c is hollow and has an opening at one end, a limiting column 101d is arranged in the first connecting hole 101b-1, one end of the limiting column 101d is a smooth round rod 101d-1, one end of the round rod 101d-1 is fixedly connected with the bottom of the first connecting hole 101b-1, the other end of the round rod is provided with a limiting head 101d-2, the limiting head 101d-2 is positioned in the movable element 101c, a second elastic element T-2 is sleeved on the round rod 101d-1, and the second elastic element T-2 is positioned between the opening in the movable element 101c and the limiting head 101 d-2. The second elastic member T-2 is a compression spring. The base 101a is further provided with a third movable hole 101a-4, the third movable hole 101a-4 penetrates through the movable cavity 101a-3, a driving rod 101e is installed in the third movable hole 101a-4, the middle of the driving rod 101e is provided with a cam structure 101e-1, the cam structure 101e-1 is located in the movable cavity 101a-3, one end of the cam structure 101e-1 is hinged to a connecting piece 101f, and the other end of the connecting piece 101f is hinged to the end, not provided with a hole, of the movable piece 101 c. The driving rod 101e is coaxial with the larger end of the cam structure 101e-1, when the driving rod 101e rotates, the cam structure 101e-1 pulls the connecting piece 101f, the connecting piece 101f pulls the movable piece 101c to move in the first movable hole 101a-1, and in the actual use process, the driving rod 101c is driven by the motor, so that the movable piece 101c slides at high frequency, and the fixed disc 101b vibrates at high frequency up and down under the action of the springs.

Still further, the clamping assembly 102 is composed of a plurality of clamping members 102a, one end of each clamping member 102a is provided with a sliding block 102a-1, the sliding block 102a-1 is provided with a sliding groove 102a-2, a sliding bar 102a-3 extends from the sliding block 102a-1, the sliding bar 102a-3 is installed in the sliding groove 102a-2 of the other clamping member 102a, and the plurality of clamping members 102a are connected in pairs to form a loop. In this embodiment, there are four clamping members 102a, the whole clamping member 102a is a rectangular block, the sliding slot 102a-2 is arranged on a diagonal line of one surface of the rectangle, the sliding bar 102a-3 is arranged on the other diagonal line, and the sliding bars 102a-3 of the four clamping members 102a and the sliding slot 102a-2 are mutually matched to form a square.

Correspondingly, the other surface of the fixed disk 101b is provided with a plurality of grooves 101b-3, the grooves 101b-3 are uniformly distributed in a cross shape, the sliding blocks 102a-1 are arranged in the grooves 101b-3, the sliding block 102a-1 is also provided with a first threaded hole 102a-3, the first threaded hole 102a-3 is arranged at one end close to the groove 101b-3, the fixed disc 101b is also provided with a first screw 101b-4, the first screw 101b-4 passes through the groove 101b-3 and the side wall at the periphery of the fixed disc 101b, the front end of the screw is positioned in the groove 101b-3, the portion beyond the fixed disk 101b is used as a handle, the first screw 101b-4 passes through the first screw hole 102a-3, by rotating the handle, the slide block 102a-1 is moved toward or away from the center of the fixed disk 101 b. The width of the slide bar 102a-3 can be adjusted without affecting the movement of the slide block 102a-1, and a suction cup, a magnet, etc. are installed on the slide bar 102a-3 to clamp and fix smooth vessels made of various materials.

In addition, the lifting assembly 201 comprises a lifting seat 201a, a first transmission member 201b, a second transmission member 201c, a second screw 201d and a plurality of guide rods 201e, the lifting seat 201a is fixedly connected to one side of the base 101a, the lifting seat 201a is provided with a receiving hole 201a-1 and a plurality of guide holes 201a-2, the outer ring of the first transmission member 201b is in a helical gear structure, the middle of the first transmission member 201b is provided with a second threaded hole 201a-1, the first transmission member 201b is installed at one end of the receiving hole 201a-1, the second screw 201d penetrates through the second threaded hole 201a-1 and enters the receiving hole 201a-1, and the guide rods 201e are located in the guide holes 201 a-2. In this embodiment, the guide rod 201e and the guide hole 201a-2 are provided with two guide holes 201a-2 respectively located at two sides of the receiving hole 201 a-1. The second transmission member 201c is installed on the lifting base 201a, the second transmission member 201c is a bevel gear structure with a handle on one surface, and the second transmission member 201c is engaged with the first transmission member 201 b. When the second transmission member 201c is rotated, the first transmission member 201b rotates in the receiving hole 201a-1, the second screw 201d enters and exits the receiving hole 201a-1 under the action of the screw, and the guide rod 201e plays a role in stable guiding.

Further, the stirring assembly 202 comprises an elevating platform 202a, a driving member 202b and a driven member 202c, the elevating platform 202a is fixedly connected with a second screw 201d and a guide rod 201e, a driving gear 202b-1 is arranged in the middle of the driving member 202b, a driving gear ring 202b-2 is coaxially arranged outside the driving gear 202b-1, the driving gear 202b-1 is fixedly connected with the driving gear ring 202b-2 through a support, the driving member 202b is installed on one surface of the elevating platform 202a, the arc length covered by the gear teeth of the driving gear 202b-1 is not more than half of the circumference length, the gear teeth of the driving gear 202b-2 are positioned in the circular ring and cover the arc length is not more than half of the circumference length, the middle of the driven member 202c is in a smooth rod shape, a driven gear 202c-1 is arranged at one end of the rod, a stirring head 202c-2 is arranged at the other end of the rod, a circular rod in the middle of the driven member 202c passes through the elevating platform 202a, driven gear 202c-1 meshes with drive gear 202b-1 and drive ring gear 202 b-2. When the driving gear ring 202b-2 rotates together with the driving gear 202b-1, the driven gear 202c-1 is driven to rotate counterclockwise or clockwise once every rotation, and the driving member 202b can be driven to rotate by the motor during the actual use.

Based on the above, the use steps of the defoaming agent emulsification system of the present invention are as follows:

firstly, putting the defoaming agent into a circular material container, and then placing the circular material container on a fixed disc 101 b;

secondly, rotating the first screw 101b-4 to enable the sliding block 102a-1 to contract towards the middle of the fixed disc 101b so as to clamp the material containing vessel;

thirdly, rotating a second transmission piece 201c in the lifting assembly 201 to enable the stirring assembly 202 to descend;

fourthly, when the stirring head 202c-2 descends to a proper position in the container, the driving piece 202b and the driving rod 101e are rotated to stir and emulsify the raw materials in the container.

The defoaming agent emulsifying device can fully stir the emulsifying process of the defoaming agent through the positive and negative alternate rotation of the stirring blades, so that the emulsifying effect of the defoaming agent is better, the viscous defoaming agent is easily dispersed and then stirred by matching with the vibration component to carry out high-frequency vibration, the stability factor of foam is easily smaller than the attenuation factor in the vibration process, and the quantity of the foam is gradually reduced; in addition, the clamping assembly is arranged, so that the stability of the material containing vessel in the operation process of the device is improved.

It is important to note that the construction and arrangement of the present application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperatures, pressures, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter recited in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of this invention. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present inventions. Therefore, the present invention is not limited to a particular embodiment, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Moreover, in an effort to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those unrelated to the presently contemplated best mode of carrying out the invention, or those unrelated to enabling the invention).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure, without undue experimentation.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. An antifoaming agent emulsification system, comprising: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the fixing unit (100) comprises a vibration assembly (101) and a clamping assembly (102) arranged on the vibration assembly (101); and the number of the first and second groups,

the stirring unit (200) comprises a lifting component (201) connected with the fixing unit (100) and a stirring component (202) installed at one end of the lifting component (201).

2. The defoamer emulsification system of claim 1, wherein: the vibration assembly (101) comprises a base (101a) and a fixed disc (101b), a first movable hole (101a-1) is vertically arranged at the center of one face of the base (101a), a plurality of second movable holes (101a-2) are uniformly arranged around the first movable hole (101a-1), a first connecting hole (101b-1) is vertically arranged at the center of one face of the fixed disc (101b), a plurality of second connecting holes (101b-2) are uniformly arranged around the first connecting hole (101b-1), the first connecting hole (101b-1) is embedded in the first movable hole (101a-1), the second connecting hole (101b-2) is embedded in the second movable hole (101a-2), and a first elastic piece (T-1) is arranged in the second connecting hole (101b-2), two ends of the first elastic piece (T-1) are respectively abutted against the bottom of the second connecting hole (101b-2) and the bottom of the first movable hole (101 a-2).

3. The defoamer emulsification system of claim 2, wherein: the middle of the base (101a) is provided with a movable cavity (101a-3), the first movable hole (101a-1) is communicated with the movable cavity (101a-3), a movable part (101c) is arranged in the first movable hole (101a-1), the movable part (101c) is hollow, one end of the movable part is provided with a hole, a limiting column (101d) is arranged in the first connecting hole (101b-1), one end of the limiting column (101d) is a smooth round rod (101d-1), one end of the round rod (101d-1) is fixedly connected with the bottom of the first connecting hole (101b-1), the other end of the round rod is provided with a limiting head (101d-2), the limiting head (101d-2) is positioned in the movable part (101c), and a second elastic piece (T-2) is sleeved on the round rod (101d-1), the second elastic element (T-2) is positioned between the inner opening of the movable element (101c) and the limiting head (101 d-2).

4. The defoamer emulsification system of claim 3, wherein: still be equipped with third activity hole (101a-4) on base (101a), third activity hole (101a-4) run through activity chamber (101a-3), install actuating lever (101e) in third activity hole (101a-4), actuating lever (101e) middle part is equipped with cam structure (101e-1), cam structure (101e-1) are located in activity chamber (101a-3), the one end of cam structure (101e-1) articulates there is connecting piece (101f), the other end of connecting piece (101f) with the one end that moving part (101c) did not open a hole is articulated.

5. The defoamer emulsification system of claim 4, wherein: the clamping assembly (102) is composed of a plurality of clamping pieces (102a), one end of each clamping piece (102a) is provided with a sliding block (102a-1), the sliding block (102a-1) is provided with a sliding groove (102a-2), a sliding strip (102a-3) extends out of the sliding block (102a-1), the sliding strip (102a-3) is installed in the sliding groove (102a-2) of the other clamping piece (102a), and the clamping pieces (102a) are connected in pairs to form a loop.

6. The defoamer emulsification system of claim 5, wherein: be equipped with a plurality of recesses (101b-3) on the other face of fixed disk (101b), recess (101b-3) are the even distribution that diverges, install sliding block (102a-1) in recess (101b-3), still be equipped with first screw hole (102a-3) on sliding block (102a-1), still be equipped with first screw rod (101b-4) on fixed disk (101b), first screw rod (101b-4) are located in recess (101b-3), first screw rod (101b-4) pass first screw hole (102 a-3).

7. The defoamer emulsification system of claim 6, wherein: the lifting component (201) comprises a lifting seat (201a), a first transmission piece (201b), a second transmission piece (201c), a second screw rod (201d) and a plurality of guide rods (201e), the lifting seat (201a) is fixedly connected with one side of the base (101a), a containing hole (201a-1) and a plurality of guide holes (201a-2) are arranged on the lifting seat (201a), the outer ring of the first transmission piece (201b) is of a helical gear structure, the middle part of the first transmission piece (201b) is provided with a second threaded hole (201a-1), the first transmission piece (201b) is installed at one end of the receiving hole (201a-1), the second screw (201d) passes through the second threaded hole (201a-1) and enters the receiving hole (201a-1), and the guide rod (201e) is positioned in the guide hole (201 a-2).

8. The defoamer emulsification system of claim 7, wherein: the second transmission piece (201c) is installed on the lifting seat (201a), the second transmission piece (201c) is of an oblique gear structure with a handle arranged on one surface, and the second transmission piece (201c) is meshed with the first transmission piece (201 b).

9. The defoamer emulsification system of claim 8, wherein: the stirring assembly (202) comprises a lifting table (202a), a driving piece (202b) and a driven piece (202c), the lifting table (202a) is fixedly connected with the second screw (201d) and the guide rod (201e), a driving gear (202b-1) is arranged in the middle of the driving piece (202b), a driving gear ring (202b-2) is coaxially arranged outside the driving gear (202b-1), the driving gear (202b-1) is fixedly connected with the driving gear ring (202b-2) through a support, the driving piece (202b) is installed on one surface of the lifting table (202a), the circumference of an arc length covered by the gear teeth of the driving gear (202b-1) is not more than half of the circumference of the arc length, the gear teeth of the driving gear ring (202b-2) are positioned inside the circular ring and cover the arc length not more than half of the circumference of the arc length, the middle of the driven piece (202c) is in a smooth rod shape, one end of the rod is provided with a driven gear (202c-1), the other end of the rod is provided with a stirring head (202c-2), a round rod in the middle of the driven piece (202c) penetrates through the lifting table (202a), and the driven gear (202c-1) is meshed with the driving gear (202b-1) and the driving gear ring (202 b-2).

10. An emulsification method of a defoaming agent is characterized in that:

putting the defoaming agent into a round material containing vessel, and then placing the round material containing vessel on a fixed disc (101 b);

rotating the first screw (101b-4) to enable the sliding block (102a-1) to shrink towards the middle of the fixed disc (101b) so as to clamp the material containing vessel;

rotating a second transmission piece (201c) in the lifting assembly (201) to enable the stirring assembly (202) to descend;

when the stirring head (202c-2) descends to a proper position in the material containing vessel, the driving piece (202b) and the driving rod (101e) are rotated to stir and emulsify the raw materials in the material containing vessel.

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