CN220143114U - Choked flow prevents skin care products vacuum homogeneity emulsification device of adherence - Google Patents

Abstract

The utility model relates to the technical field of emulsifying machines, in particular to a choked flow and wall adhesion preventing skin care product vacuum homogenizing emulsifying device which comprises a base, a bracket, an emulsifying tank, a stirring mechanism, a scraping mechanism, a choked flow component and a vacuum pump, wherein the stirring mechanism is arranged on the base; the support is arranged on the base, the emulsifying tank is arranged on the support, the emulsifying tank is provided with a feed inlet and a discharge outlet, and the feed inlet and the discharge outlet are respectively provided with a one-way valve; the stirring mechanism is arranged in the emulsifying tank; the scraping mechanism is arranged in the emulsifying tank and comprises a pressing plate and a clamping assembly; the choke subassembly sets up on the emulsification tank, and choke subassembly includes choked flow and scraping portion, and the vacuum pump sets up in the top of emulsification tank, through the cooperation between rabbling mechanism and the scraping mechanism, and rabbling mechanism just reverses and can drive the clamp plate and reciprocate, can strike off the residue on the emulsification tank inner wall when the clamp plate reciprocates, through the spoiler in the choke subassembly, and the spoiler can make the material comparatively slow when flowing down to make the material stirring more abundant.

Description

Choked flow prevents skin care products vacuum homogeneity emulsification device of adherence

Technical Field

The utility model relates to the technical field of emulsifying machines, in particular to a vacuum homogenizing emulsifying device for a skin care product with flow resistance and wall adhesion prevention.

Background

The emulsifying machine shears, disperses and impacts the materials through the high-speed rotation of the homogenizing head connected with the engine, so that the materials become finer and finer, and the oil water is promoted to be in water. The preparation of a plurality of cream products such as cosmetics, bath lotion, sun cream and the like is carried out by an emulsifying machine. In the prior art, materials are emulsified in an emulsifying machine, the materials are poured out after being emulsified, and the materials after being emulsified have certain viscosity in the pouring process, so that the pouring is slow and the inner wall of an emulsifying tank has residues.

Chinese patent CN212188815U discloses a vacuum homogenizing emulsifying machine, which comprises an emulsifying tank, a supporting mechanism, a stirring mechanism, a dredging mechanism, a boom, a first valve body, a connecting rod, a shell, an air inlet pipe, a slide bar, a spring, a rubber plug, a push rod, a blanking mechanism and a blanking pipe. The beneficial effect of this scheme is: when the viscosity of the cosmetics inside the blanking pipe is higher and is difficult to blanking, the first valve body on the side wall of the shell is opened, the blanking pipe is opened, the connecting rod is further pressed by the pedal to rotate at the bottom of the hanging rod, then the sliding rod inside the connecting rod is enabled to slide, the spring is opened, the push rod is enabled to slide the rubber plug towards the direction of the air inlet pipe, the compressed air of the rubber plug enters the inside of the blanking pipe, the cosmetics at one end of the blanking pipe is extruded into the inside of the receiving container, the cosmetics at the other end of the blanking pipe is extruded into the inside of the emulsifying tank, the quick dredging blanking pipe is achieved, the smooth blanking is guaranteed, and the waste of the cosmetics caused by dredging with a cleaning tool is avoided.

According to the patent, the blanking pipe is dredged by compressing other materials into the blanking tank, so that the blanking is kept smooth, but the device can only ensure that the blanking pipe is not blocked and the residues on the inner wall of the emulsifying tank cannot be cleaned, and the device also needs manual cleaning and consumes time and labor.

Disclosure of Invention

To above-mentioned problem, provide a choked flow prevents adherence's skin care product vacuum homogeneity emulsification device, through the cooperation between rabbling mechanism and the striking off mechanism, the rabbling mechanism just reverses and can drive the clamp plate and reset and clear up the emulsification tank inner wall, has solved and has had remaining problem on the emulsification tank inner wall in the pouring process.

In order to solve the problems in the prior art, the utility model provides a choked flow and wall adhesion preventing skin care product vacuum homogenizing and emulsifying device which comprises a base, a bracket, an emulsifying tank, a stirring mechanism, a scraping mechanism, a choked flow component and a vacuum pump; the support is arranged on the base, the emulsifying tank is arranged on the support, the emulsifying tank is provided with a feed inlet and a discharge outlet, and the feed inlet and the discharge outlet are respectively provided with a one-way valve; the stirring mechanism is arranged in the emulsifying tank and comprises spiral stirring blades; the scraping mechanism is arranged in the emulsifying tank and comprises a pressing plate which can move up and down along with the rotation of the spiral stirring blade (43), the pressing plate can scrape residues on the inner wall of the emulsifying tank, and the scraping mechanism also comprises a clamping assembly which can fix the pressing plate and the stirring mechanism together; the choke assembly is provided with a plurality of choke assemblies, the choke assemblies are all arranged on the emulsifying tank, the choke assemblies comprise telescopic spoilers, the spoilers are positioned in the emulsifying tank, the choke assemblies further comprise scraping parts, and the scraping parts comprise scraping plates capable of scraping residues on the spoilers; the vacuum pump is arranged at the top of the emulsifying tank.

Preferably, the stirring mechanism further comprises a rotating motor and a stirring shaft; the rotary motor is arranged at the top of the emulsifying tank, an output shaft of the rotary motor penetrates through the emulsifying tank to extend inwards, and the rotary motor is connected with the emulsifying tank; the stirring shaft is vertically arranged in the emulsifying tank, one end of the stirring shaft is connected with the output shaft of the rotating motor, and the other end of the stirring shaft is rotationally connected with the bottom of the emulsifying tank; the spiral stirring blades are arranged on the stirring shaft in an annular array uniformly distributed manner, and are connected with the stirring shaft.

Preferably, the two clamping assemblies are uniformly distributed on the top of the pressing plate in an annular array, and each clamping assembly comprises a connecting rod, a limiting block and a clamping column; one end of the connecting rod is connected with the stirring shaft, the other end of the connecting rod faces the pressing plate, a through hole matched with the spiral stirring blade and the stirring shaft is formed in the middle of the pressing plate, and the peripheral wall of the pressing plate is in abutting connection with the inner wall of the emulsifying tank; the clamping column is arranged at one end of the connecting rod, which is far away from the stirring shaft, and is connected with the stirring shaft; the stopper sets up in the top of clamp plate, and the stopper is connected with the clamp plate, and the draw-in groove has been seted up towards the one end of joint post to the stopper.

Preferably, the choke assembly further comprises a first guide plate, a first driven rod and a first spring; the first guide plate is positioned outside the emulsifying tank, the first guide plate is connected with the emulsifying tank, one end of the first guide plate, which is close to the emulsifying tank, is provided with a groove, the first guide plate is communicated with the emulsifying tank, one end of the spoiler is positioned in the first guide plate, the spoiler is in sliding connection with the first guide plate, and one end of the spoiler, which is close to the stirring shaft, is an arc surface; the first driven rods are arranged in the first guide plate, one ends of the first driven rods are connected with the spoilers, the other ends of the first driven rods are inserted into the first guide plate, the first guide plate is provided with notches for the first driven rods to move, and the number of the notches is consistent with that of the first driven rods and corresponds to that of the first driven rods one by one; the first spring is sleeved on the first driven rod, the number of the first springs is consistent with that of the first driven rod and corresponds to that of the first driven rod one by one, one end of each first spring is in butt joint with the spoiler, and the other end of each first spring is in butt joint with the first guide plate.

Preferably, the scraping parts are arranged on two sides of the first guide plate in a mirror image mode, and the scraping parts further comprise a second guide plate, a second driven rod, a guide rod and a second spring; the second guide plate is vertically arranged on the first guide plate and is connected with the first guide plate, a slotted hole is formed in one end, close to the first guide plate, of the second guide plate, and the second guide plate is communicated with the first guide plate; the second driven rod is positioned in the first guide plate, one end of the second driven rod, which is close to the spoiler, is connected with the scraping plate, the scraping plate is in abutting connection with the spoiler, a circular groove is formed in the other end of the second driven rod, and the second driven rod is in sliding connection with the second guide plate; one end of the guide rod is connected with the second guide plate, the other end of the guide rod is inserted into a circular groove on the second driven rod, and the guide rod is in sliding connection with the second driven rod; the second spring is sleeved on the guide rod, one end of the second spring is in butt joint with the second driven rod, and the other end of the second spring is in butt joint with the second guide plate.

Preferably, the top of the emulsifying tank is also provided with a vacuum pressure gauge, the vacuum pressure gauge is connected with the emulsifying tank, the top of the emulsifying tank is also provided with an alarm tri-color lamp which can be matched with the vacuum pressure gauge, the alarm tri-color lamp is electrically connected with the vacuum pressure gauge, and the alarm tri-color lamp is connected with the emulsifying tank.

Preferably, a window is visible on the peripheral wall of the emulsification tank.

Preferably, the visual window is made of toughened glass.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, through the cooperation among the stirring mechanism, the scraping mechanism and the flow blocking assembly, the stirring mechanism can drive the pressing plate to move up and down in a forward and reverse direction, and the pressing plate can scrape residues on the inner wall of the emulsifying tank while moving up and down;

2. according to the utility model, through the flow blocking plate in the flow blocking assembly, the flow blocking plate can enable materials to flow downwards slowly, so that the stirring time of the materials is longer, and the stirring is more sufficient.

Drawings

FIG. 1 is a schematic perspective view of a vacuum homogenizing and emulsifying device for a skin care product with flow resistance and adhesion resistance;

FIG. 2 is a partial perspective sectional view of a vacuum homogenizing and emulsifying device for a skin care product with flow blocking and adhesion preventing functions;

FIG. 3 is a schematic view of a partial perspective view of a vacuum homogenizing and emulsifying device for a skin care product with flow blocking and adhesion prevention functions;

fig. 4 is an enlarged view at a in fig. 3;

fig. 5 is an enlarged view at B in fig. 2;

fig. 6 is an enlarged view at C in fig. 2.

The reference numerals in the figures are: 1-a base; 2-a bracket; 3-an emulsifying tank; 31-a feed inlet; 32-a one-way valve; 33, a discharge hole; 4-a stirring mechanism; 41-a rotating electrical machine; 42-stirring shaft; 43-spiral stirring blade; 5-scraping mechanism; 51-pressing plate; 52-clamping assembly; 53-limiting blocks; 531-a clamping groove; 54-connecting rod; 55-clamping the column; 6-a choke assembly; 61-spoilers; 62-a first guide plate; 621-a first driven bar; 622-a first spring; 63-a scraper; 631-a second guide plate; 632-a second follower rod; 633-guide bar; 634-a second spring; 635-scraper; 7-a vacuum pump; 8-a vacuum pressure gauge; 81-an alarm tri-color lamp; 9-visual window.

Detailed Description

The utility model will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the utility model and the specific objects and functions achieved.

Referring to fig. 1 to 6, a vacuum homogenizing emulsifying device for skin care products with blocking and adhesion prevention comprises a base 1, a support 2, an emulsifying tank 3, a stirring mechanism 4, a scraping mechanism 5, a blocking component 6 and a vacuum pump 7, wherein the support 2 is arranged on the base 1, the emulsifying tank 3 is arranged on the support 2, a feed inlet 31 and a discharge outlet 33 are arranged on the emulsifying tank 3, check valves 32 are arranged on the feed inlet 31 and the discharge outlet 33, the stirring mechanism 4 is arranged inside the emulsifying tank 3, the stirring mechanism 4 comprises a spiral stirring blade 43, the scraping mechanism 5 is arranged inside the emulsifying tank 3, the scraping mechanism 5 comprises a pressing plate 51 capable of moving up and down along with the rotation of the spiral stirring blade 43, the pressing plate 51 can scrape residues on the inner wall of the emulsifying tank 3, the scraping mechanism 5 further comprises a clamping component 52 capable of fixing the pressing plate 51 and the stirring mechanism 4 together, the blocking component 6 is provided with a plurality of blocking components, the plurality of components 6 are arranged on the emulsifying tank 3, the blocking component 6 comprises a telescopic blocking plate 61, the blocking plate 61 is arranged inside the emulsifying tank 3, the scraping component 6 further comprises a scraping part 635 and the vacuum pump 63 is arranged on the top of the emulsifying tank 3.

Before the operation, the vacuum pump 7 is opened, when the vacuum pump 7 enables the vacuum degree in the emulsifying tank 3 to reach a preset value, the one-way valve 32 connected with the feed inlet 31 is opened, after the one-way valve 32 is opened, the material in the external material tank can be sucked into the emulsifying tank 3 through the feed inlet 31 due to the negative pressure in the emulsifying tank 3, after the material suction is finished, the one-way valve 32 matched with the feed inlet 31 is closed and the stirring mechanism 4 is started, when the spiral stirring blade 43 rotates anticlockwise, the spiral stirring blade 43 can synchronously rotate with the pressing plate 51 through the clamping assembly 52, in the stirring process, the material stirring can be uniform through the baffle 61, the discharging quality is high, after the material in the emulsifying tank 3 is processed, the spiral stirring blade 43 in the stirring mechanism 4 starts to rotate clockwise, at the moment, the connection between the pressing plate 51 and the stirring mechanism 4 can be disconnected, the pressing plate 51 moves towards the bottom of the emulsifying tank 3 along with the rotation of the spiral stirring vane 43, the pressing plate 51 moves and simultaneously scrapes the materials in the emulsifying tank 3 and the materials on the inner walls of the spiral stirring vane 43 and the emulsifying tank 3 and pushes the materials out of the discharge hole 33 at the bottom of the emulsifying tank 3, when the pressing plate 51 contacts the baffle plate 61, the baffle plate 61 is retracted under the action of the pressing plate 51 to avoid obstructing the movement of the pressing plate 51, the baffle plate 61 is retracted, the scraping plate 635 on the scraping part 63 scrapes the residual materials on the baffle plate 61 to avoid residues in the emulsifying tank 3, when the pressing plate 51 moves to the bottom of the emulsifying tank 3, meaning that the materials in the emulsifying tank 3 are all discharged, at the moment, the one-way valve 32 on the discharge hole 33 is closed and the spiral stirring vane 43 is rotated anticlockwise until the pressing plate 51 is clamped together with the stirring mechanism 4 again, through the cooperation among the stirring mechanism 4, the scraping mechanism 5 and the flow blocking assembly 6, the stirring mechanism 4 can drive the pressing plate 51 to reset and clear the inner wall of the emulsifying tank 3 in forward and reverse rotation, and the material can flow downwards slowly by arranging the flow blocking plate 61 in the flow blocking assembly 6, so that the material stirring time is longer and the stirring is sufficient.

Referring to fig. 1 and 2, the stirring mechanism 4 further includes a rotating motor 41 and a stirring shaft 42, the rotating motor 41 is disposed at the top of the emulsifying tank 3, an output shaft of the rotating motor 41 extends inwards through the emulsifying tank 3, the rotating motor 41 is connected with the emulsifying tank 3, the stirring shaft 42 is vertically disposed in the emulsifying tank 3, one end of the stirring shaft 42 is connected with the output shaft of the rotating motor 41, the other end of the stirring shaft 42 is rotationally connected with the bottom of the emulsifying tank 3, two spiral stirring blades 43 are disposed on the stirring shaft 42 in a circular array uniformly distributed manner, and the spiral stirring blades 43 are connected with the stirring shaft 42.

When the material in the emulsifying tank 3 is fed, the rotating motor 41 is started, the rotating motor 41 drives the spiral stirring blade 43 to rotate through the stirring shaft 42, so that the material in the emulsifying tank 3 is stirred, the spiral stirring blade 43 can overturn the material in the emulsifying tank 3 in the stirring process, and the material at the bottom of the emulsifying tank 3 moves to the top of the emulsifying tank 3, so that stirring is more sufficient.

Referring to fig. 3 to 4, two clamping assemblies 52 are provided, the two clamping assemblies 52 are uniformly distributed in an annular array and are arranged at the top of the pressing plate 51, the two clamping assemblies 52 comprise a connecting rod 54, a limiting block 53 and a clamping column 55, one end of the connecting rod 54 is connected with the stirring shaft 42, the other end of the connecting rod 54 faces the pressing plate 51, through holes matched with the spiral stirring blades 43 and the stirring shaft 42 are formed in the middle of the pressing plate 51, the peripheral wall of the pressing plate 51 is in abutting connection with the inner wall of the emulsifying tank 3, the clamping column 55 is arranged at one end, away from the stirring shaft 42, of the connecting rod 54, the clamping column 55 is connected with the stirring shaft 42, the limiting block 53 is arranged at the top of the pressing plate 51, the limiting block 53 is connected with the pressing plate 51, and a clamping groove 531 is formed in one end, facing the clamping column 55, of the limiting block 53.

When stirring, the output end of the rotating motor 41 rotates anticlockwise and drives the stirring shaft 42 to rotate, the stirring shaft 42 rotates and drives the clamping column 55 to rotate through the connecting rod 54 connected with the stirring shaft 42 until the clamping column 55 is inserted into the clamping groove 531, when the clamping column 55 is inserted into the limiting block 53, the limiting block 53 is connected with the pressing plate 51, so that the pressing plate 51 can synchronously rotate along with the stirring shaft 42, the pressing plate 51 and the stirring shaft 42 synchronously rotate to ensure that the pressing plate 51 cannot move downwards, after the materials are stirred, the output end of the rotating motor 41 rotates clockwise, the clamping column 55 moves out of the clamping groove 531 on the limiting block 53 while the rotating motor 41 rotates clockwise, connection between the limiting block 53 and the clamping column 55 is disconnected, the pressing plate 51 can downwards move while the spiral stirring blade 43 rotates, and therefore the inner wall of the emulsifying tank 3 is cleaned.

Referring to fig. 2 and 5, the choke assembly 6 further includes a first guide plate 62, a first driven rod 621 and a first spring 622, the first guide plate 62 is located outside the emulsification tank 3, the first guide plate 62 is connected with the emulsification tank 3, one end of the first guide plate 62, which is close to the emulsification tank 3, is provided with a groove, the first guide plate 62 is communicated with the emulsification tank 3, one end of the choke plate 61 is located in the first guide plate 62, the choke plate 61 is in sliding connection with the first guide plate 62, one end of the choke plate 61, which is close to the stirring shaft 42, is an arc surface, the first driven rod 621 is provided with a plurality of first driven rods 621, the first driven rods 621 are located in the first guide plate 62, one end of the first driven rods 621 is connected with the choke plate 61, the other end of the first driven rods 621 is inserted in the first guide plate 62, notches for the movement of the first driven rods 621 are provided on the first guide plate 62, the number of the notches is consistent with the number of the first driven rods and one-to-one, the first springs 622 are sleeved on the first driven rods 621, the number of the first springs 622 is consistent with the number of the first driven rods 622, one-to one end of the first springs 622 is located on the first driven rods 622, one-to one side of the first springs 622 is provided with the first springs 622, and the first springs 61 are in contact with the first guide plates 62.

When the emulsifying tank 3 is in operation, the first baffle plate 61 is jacked up by the first spring 622, so that the stirring mechanism in the emulsifying tank 3 can enable materials to flow downwards slowly in the stirring process, the stirring time of the materials is longer, the stirring is sufficient, when the stirring is completed, the pressing plate 51 moves downwards, and because the top surface of the baffle plate 61 is an arc surface, the baffle plate 61 is pressed into the first guide plate 62 when the pressing plate 51 touches the baffle plate 61, the pressing plate 51 can smoothly move to the bottom of the emulsifying tank 3, and the first driven rod 621 can ensure that the first spring 622 cannot deviate in the compressed process.

Referring to fig. 2, 5 and 6, the scraping portion 63 has two scraping portions 63, the scraping portion 63 is mirror image and is disposed on two sides of the first guiding plate 62, the scraping portion 63 further includes a second guiding plate 631, a second driven rod 632, a guiding rod 633 and a second spring 634, the second guiding plate 631 is vertically disposed on the first guiding plate 62, the second guiding plate 631 is connected with the first guiding plate 62, a slot hole is disposed at one end of the second guiding plate 631 adjacent to the first guiding plate 62, the second guiding plate 631 is communicated with the first guiding plate 62, the second driven rod 632 is disposed in the first guiding plate 62, one end of the second driven rod 632 adjacent to the flow blocking plate 61 is connected with the scraping plate 635, the scraping plate 635 is in abutting connection with the flow blocking plate 61, a circular groove is disposed at the other end of the second driven rod 632, the second driven rod 632 is in sliding connection with the second guiding plate 631, the other end of the guiding rod 633 is inserted into the circular groove disposed on the second driven rod 632, the guiding rod 633 is in sliding connection with the second driven rod 632, the second driven rod 632 is in abutting connection with the second driven rod 634, the second driven rod 632 is in abutting connection with the second spring 634, and the second driven rod 632 is in abutting connection with the second driven rod 634.

When the spoiler 61 is retracted to the first guide plate 62, the second spring 634 will lift up the scraper 635 through the second driven lever 632 under the reaction force of the second spring 634, so that the working end of the scraper 635 is always in contact with the circular arc surface of the spoiler 61.

Referring to fig. 2, the top of the emulsifying tank 3 is further provided with a vacuum pressure gauge 8, the vacuum pressure gauge 8 is connected with the emulsifying tank 3, the top of the emulsifying tank 3 is further provided with an alarm tri-color lamp 81 which can be matched with the vacuum pressure gauge 8, the alarm tri-color lamp 81 is electrically connected with the vacuum pressure gauge 8, and the alarm tri-color lamp 81 is connected with the emulsifying tank 3.

The vacuum pressure gauge 8 can detect the pressure value in the emulsifying tank 3 in real time, and when the vacuum pressure gauge 8 detects that the pressure value in the emulsifying tank 3 is too large or too small, the alarm tri-color lamp 81 alarms and lights up to remind workers.

Referring to fig. 1, a window 9 is visible in the peripheral wall of the emulsification tank 3.

The visual window 9 on the emulsifying tank 3 can penetrate through the emulsifying tank 3 when stirring whether the state of the materials in the emulsifying tank is normal or not.

Referring to fig. 1, the viewing window 9 is made of tempered glass.

The visual window 9 is made of toughened glass, so that the toughened glass can observe the condition inside the emulsifying tank 3 and has certain hardness, and the visual window is safer in a negative pressure state.

The foregoing examples merely illustrate one or more embodiments of the utility model, which are described in greater detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of the utility model should be assessed as that of the appended claims.

Claims (8)

1. The vacuum homogenizing and emulsifying device for the skin care product is characterized by comprising a base (1), a bracket (2), an emulsifying tank (3), a stirring mechanism (4), a scraping mechanism (5), a flow blocking component (6) and a vacuum pump (7); the bracket (2) is arranged on the base (1), the emulsifying tank (3) is arranged on the bracket (2), the emulsifying tank (3) is provided with a feed inlet (31) and a discharge outlet (33), and the feed inlet (31) and the discharge outlet (33) are respectively provided with a one-way valve (32); the stirring mechanism (4) is arranged in the emulsifying tank (3), and the stirring mechanism (4) comprises a spiral stirring blade (43); the scraping mechanism (5) is arranged in the emulsifying tank (3), the scraping mechanism (5) comprises a pressing plate (51) capable of moving up and down along with the rotation of the spiral stirring blade (43), the pressing plate (51) can scrape residues on the inner wall of the emulsifying tank (3), and the scraping mechanism (5) further comprises a clamping assembly (52) capable of fixing the pressing plate (51) and the stirring mechanism (4) together; the choke assembly (6) is provided with a plurality of choke assemblies (6) which are all arranged on the emulsifying tank (3), the choke assembly (6) comprises a telescopic choke plate (61), the choke plate (61) is positioned in the emulsifying tank (3), the choke assembly (6) further comprises a scraping part (63), and the scraping part (63) comprises a scraping plate (635) capable of scraping residues on the choke plate (61); the vacuum pump (7) is arranged at the top of the emulsifying tank (3).

2. The choked flow anti-sticking skin care product vacuum homogenizing and emulsifying device according to claim 1, characterized in that the stirring mechanism (4) further comprises a rotating motor (41) and a stirring shaft (42); the rotary motor (41) is arranged at the top of the emulsifying tank (3), an output shaft of the rotary motor (41) penetrates through the emulsifying tank (3) to extend inwards, and the rotary motor (41) is connected with the emulsifying tank (3); the stirring shaft (42) is vertically arranged in the emulsifying tank (3), one end of the stirring shaft (42) is connected with the output shaft of the rotating motor (41), and the other end of the stirring shaft (42) is rotationally connected with the bottom of the emulsifying tank (3); the spiral stirring blades (43) are arranged on the stirring shaft (42) in an annular array uniformly, and the spiral stirring blades (43) are connected with the stirring shaft (42).

3. The vacuum homogenizing emulsifying device for the skin care product with the choked flow and the adhesion prevention function according to claim 2 is characterized in that two clamping components (52) are arranged on the top of a pressing plate (51) uniformly distributed in an annular array, and the two clamping components (52) comprise a connecting rod (54), a limiting block (53) and a clamping column (55); one end of a connecting rod (54) is connected with the stirring shaft (42), the other end of the connecting rod (54) faces the pressing plate (51), a through hole matched with the spiral stirring blade (43) and the stirring shaft (42) is formed in the middle of the pressing plate (51), and the peripheral wall of the pressing plate (51) is in abutting connection with the inner wall of the emulsifying tank (3); the clamping column (55) is arranged at one end of the connecting rod (54) far away from the stirring shaft (42), and the clamping column (55) is connected with the stirring shaft (42); the limiting block (53) is arranged at the top of the pressing plate (51), the limiting block (53) is connected with the pressing plate (51), and a clamping groove (531) is formed in one end, facing the clamping column (55), of the limiting block (53).

4. A skin care product vacuum homogenizing and emulsifying device according to claim 3, characterized in that the flow-blocking assembly (6) further comprises a first guide plate (62), a first driven rod (621) and a first spring (622); the first guide plate (62) is positioned outside the emulsifying tank (3), the first guide plate (62) is connected with the emulsifying tank (3), a groove is formed in one end, close to the emulsifying tank (3), of the first guide plate (62), the first guide plate (62) is communicated with the emulsifying tank (3), one end of the spoiler (61) is positioned in the first guide plate (62), the spoiler (61) is in sliding connection with the first guide plate (62), and one end, close to the stirring shaft (42), of the spoiler (61) is an arc surface; the first driven rods (621) are multiple, the first driven rods (621) are located in the first guide plate (62), one end of each first driven rod (621) is connected with the corresponding flow blocking plate (61), the other end of each first driven rod (621) is inserted into the corresponding first guide plate (62), the first guide plate (62) is provided with notches for the first driven rods (621) to move, and the number of the notches is consistent with that of the first driven rods (621) and corresponds to that of the first driven rods (621) one by one; the first springs (622) are sleeved on the first driven rods (621), the number of the first springs (622) is consistent with that of the first driven rods (621) and corresponds to that of the first driven rods (621) one by one, one ends of the first springs (622) are in butt joint with the spoilers (61), and the other ends of the first springs (622) are in butt joint with the first guide plates (62).

5. The vacuum homogenizing emulsifying device for skin care products with flow blocking and adhesion prevention according to claim 4, wherein the number of scraping parts (63) is two, the scraping parts (63) are mirror images and are arranged at two sides of the first guide plate (62), the scraping parts (63) further comprise a second guide plate (631), a second driven rod (632), a guide rod (633) and a second spring (634); the second guide plate (631) is vertically arranged on the first guide plate (62), the second guide plate (631) is connected with the first guide plate (62), a slotted hole is formed in one end, close to the first guide plate (62), of the second guide plate (631), and the second guide plate (631) is communicated with the first guide plate (62); the second driven rod (632) is positioned in the first guide plate (62), one end of the second driven rod (632) close to the spoiler (61) is connected with the scraper blade (635), the scraper blade (635) is in abutting connection with the spoiler (61), a circular groove is formed in the other end of the second driven rod (632), and the second driven rod (632) is in sliding connection with the second guide plate (631); one end of the guide rod (633) is connected with the second guide plate (631), the other end of the guide rod (633) is inserted into a circular groove on the second driven rod (632), and the guide rod (633) is in sliding connection with the second driven rod (632); the second spring (634) is sleeved on the guide rod (633), one end of the second spring (634) is in abutting connection with the second driven rod (632), and the other end of the second spring (634) is in abutting connection with the second guide plate (631).

6. The vacuum homogenizing emulsifying device for the skin care product with the choke and the wall adhesion prevention according to claim 1, wherein a vacuum pressure gauge (8) is further arranged at the top of the emulsifying tank (3), the vacuum pressure gauge (8) is connected with the emulsifying tank (3), an alarm tri-color lamp (81) which can be matched with the vacuum pressure gauge (8) is further arranged at the top of the emulsifying tank (3), the alarm tri-color lamp (81) is electrically connected with the vacuum pressure gauge (8), and the alarm tri-color lamp (81) is connected with the emulsifying tank (3).

7. The vacuum homogenizing emulsifying device for skin care products with flow blocking and adhesion prevention according to claim 6 is characterized in that a visual window (9) is arranged on the peripheral wall of the emulsifying tank (3).

8. The vacuum homogenizing emulsifying device for the skin care product with the choke and the adhesion prevention function according to claim 7 is characterized in that the visual window (9) is made of toughened glass.