CN116251496B - Raw material mixer for cosmetics production - Google Patents

Abstract

The invention discloses a raw material stirrer for cosmetic production, which relates to the technical field of stirrers and comprises a main support, wherein a stirring cylinder is fixedly arranged on the main support, an annular chute is fixedly arranged on the stirring cylinder, an arc-shaped sliding plate is slidably arranged on the annular chute, a rotating middle plate is fixedly arranged on the arc-shaped sliding plate, a middle sliding ring is slidably arranged on the rotating middle plate, a middle sliding ring is also slidably arranged on the rotating middle plate, a middle gear is rotatably arranged on the middle sliding ring, an outer side column is fixedly arranged on the middle gear, a plurality of coarse filtering holes are arranged on the outer side column, an inner cylinder is movably arranged in the outer side column, a plurality of inner filtering holes are arranged on the inner cylinder, a plurality of fan blade plates for stirring are rotatably arranged on the outer side column, and the device can speed up the stirring efficiency of the device by changing the inclination angle of the fan blade plates through the rotation of the inner cylinder.

Description

Raw material mixer for cosmetics production

Technical Field

The invention belongs to the technical field of stirrers, and particularly relates to a raw material stirrer for cosmetic production.

Background

Cosmetic refers to chemical industry or fine chemical products that are spread on any part of the surface of the human body by painting, spraying or the like, and function to clean, maintain, beautify, modify and change the appearance, or correct the smell of the human body, maintaining a good state.

The raw materials for producing cosmetics are required to be subjected to a series of processing procedures such as grinding, mixing, stirring and the like before molding, so that the cosmetics have basic texture, wherein the related stirring procedure is a particularly important one in the processing procedure.

The invention patent with publication number of CN111939791A discloses a cosmetic raw material mixing stirring device, which can avoid incomplete mixing of raw materials, ensure quality and use effect of cosmetics, facilitate taking out of the stirred cosmetic raw materials, prevent residues of the raw materials in a tank by dumping, and also enable people to easily clean the tank, so as to avoid deterioration of the raw materials deposited at the bottom of the tank and influence production quality.

The above-mentioned device has mainly improved the stirring mode of agitator tank, but does not consider the uneven result that obtains of cosmetics stirring very abominable, and because cosmetics raw materials often all are multiple raw materials and carry out synchronous mixing when stirring, so need sample to the raw materials in the agitator tank when stirring, the raw materials that cosmetics still have the liquid state also need to mix simultaneously, and the stirring mode that the above-mentioned device presented can not be quick to remove the multiple raw materials of mixed liquid class.

Disclosure of Invention

Aiming at the technical problems, the invention provides the technical scheme that:

the utility model provides a raw materials mixer for cosmetics production, includes the main stay, fixed mounting has the churn on the main stay, still fixed mounting has the material export on the churn, fixed mounting has annular spout on the churn, slidable mounting has the arc slide on the annular spout, fixed mounting has the rotation intermediate lamella on the arc slide, slidable mounting has the middle sliding ring on the rotation intermediate lamella, still fixed mounting has first cylinder on the rotation intermediate lamella, the other end and the middle sliding ring fixed connection of first cylinder, rotatable mounting has the intermediate gear on the middle sliding ring, fixed mounting has the outer side post on the intermediate gear, be provided with a plurality of coarse filtration holes on the outer side post, the inside movable mounting of outer side post has the inner tube, be provided with a plurality of internal filtration holes on the inner tube, and the coarse filtration hole on the inner tube is in dislocation state with the coarse filtration hole on the outer side post under the initial state, makes the outer side post and be the state of a closed cylinder, still rotate on the outer side post and install a plurality of boards that are used for the inner tube, still movable mounting has the movable mounting to have the outer side post on the fan blade, the extrusion angle is used for changing the extrusion rod on the arc chute of flabellum, the convenient setting up the extrusion rod.

Further, the inside of outer post still rotates and installs middle post, inner tube and middle post sliding connection, the one end slidable mounting that the middle post kept away from the rotation intermediate lamella has the pulling and pressing ring, still slide a plurality of collection device on the middle post, collection device sets up in the inside of inner tube, and collection device is the inner tube axis direction whole row inside the inner tube, and collection device includes the bottom cylinder, bottom cylinder and middle post sliding connection, fixed mounting has the collection case on the bottom cylinder, collection case and middle post sliding connection, collection case still with inner tube sliding connection, still be provided with a plurality of collection chute on the collection case, this collection chute sets up under the internal filter hole on the inner tube, fixed mounting has the second spring on the collection case, the other end fixed mounting of second spring has the limit high piece, fixed mounting has the first spring that is used for buffering on the limit high piece, through first spring fixed connection between a plurality of collection device in the inner tube.

Further, a sliding ring is slidably mounted on the inner cylinder, an arc-shaped air cylinder is fixedly mounted on the sliding ring, a rope support is fixedly mounted at the other end of the arc-shaped air cylinder, the rope support is fixedly connected with an intermediate gear, the sliding ring is further rotationally connected with the rope support, and a winch cover plate is rotationally arranged on the rope support.

Further, the winch column is rotatably arranged on the rope column, a steel rope is arranged on the winch column, one end, far away from the winch column, of the steel rope is fixed with the pulling ring, a winch gear is fixedly arranged on the winch column, a motor gear is meshed with the winch gear, the motor gear is rotatably arranged on the rope column, and the rotating gear is fixedly connected with a winch driving device on the rope column.

Further, a cone bottom plate is fixedly arranged on the stirring barrel, a material outlet is fixedly arranged on the cone bottom plate, a blocking plate is slidably arranged on the material outlet, and a gear cover plate is rotatably arranged on the stirring barrel.

Further, rotate on the gear cover plate and install a plurality of puddlers, the puddler is in the position between gear cover plate and the bobbin base plate and is provided with a plurality of horizontal blades that are used for stirring, fixed mounting has the main motor on the arc slide, fixed mounting has first gear on the output shaft of main motor, the one end that first gear is close to the gear cover plate is provided with the collision piece, rotate on the arc slide and install the tooth post that rotates, rotate tooth post and intermediate gear engagement, be provided with the intermediate belt on the tooth post that rotates, the other end setting of intermediate belt is on the output shaft of main motor, fixed mounting has fixed internal tooth on the annular spout.

Further, stirring teeth are fixedly arranged at one end, far away from the bobbin base plate, of the stirring rod, the stirring teeth are meshed with the fixed internal teeth, and compared with a collision block on the first gear, the distance between the collision block and the rotating middle plate is smaller than the distance between the end face of one end, provided with the stirring teeth, of the stirring rod and the rotating middle plate.

Further, the rotating middle plate is further provided with a U-shaped chute which is convenient for the middle gear to slide, the gear cover plate is further provided with a groove which is matched with the middle gear, and the middle gear can be meshed with the fixed inner teeth.

Compared with the prior art, the invention has the beneficial effects that: (1) The device achieves the effects of sampling and mixing materials by arranging a plurality of rough filtering holes on the outer side column and matching with a plurality of internal filtering holes on the inner cylinder, and can accelerate the stirring efficiency of the device by changing the inclination angle of the fan blade plate through the rotation of the inner cylinder; (2) The device drives the intermediate gear through the first cylinder, so that the intermediate gear is connected with the rotary intermediate plate and the gear cover plate, and the stirring state is synchronous, and the stirring can be accelerated; (3) The device can drive the collecting device to any position in the mixing drum to collect the mixed raw materials in the mixing drum for inspection through the movement of the intermediate gear in the mixing drum; (3) The device can stir the liquid raw materials by setting the winch column and the collecting device to be in a state capable of being separated from the inner cylinder.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a cross-sectional view of a mixing drum and annular chute of the present invention.

Fig. 3 is a schematic diagram of an intermediate gear structure according to the present invention.

FIG. 4 is a schematic view of the outer column structure of the present invention.

Fig. 5 is a cross-sectional view of the fixed internal teeth and the annular runner of the present invention.

FIG. 6 is a cross-sectional view of the outer column, fan blade, inner barrel, collection box, and bottom column of the present invention.

Fig. 7 is a partial enlarged view of fig. 6 at a.

Reference numerals: 101-main struts; 102-a stirring cylinder; 103-an annular chute; 104-a material outlet; 105-bobbin base plate; 106, stirring rod; 107-fixing internal teeth; 108-stirring teeth; 109-blocking plates; 110-gear cover plate; 201-rotating the intermediate plate; 202-an intermediate gear; 203-a first cylinder; 204-an intermediate slip ring; 205-rotating the tooth post; 206-an intermediate belt; 207-first gear; 208-a main motor; 209-arc slide; 301-rope struts; 302-winch column; 303—winch cover plate; 304-a steel rope; 305-a slip ring; 306-an arc cylinder; 401-outer column; 402-fan blades; 403-squeeze bar; 404-an inner barrel; 405-a first spring; 406-a height limiting block; 407-a second spring; 408-collecting boxes; 409-bottom column; 410-pulling the ring; 411-middle slide post.

Detailed Description

As shown in fig. 1 to 3, a raw material mixer for cosmetics production, including main stay 101, fixed mounting has churn 102 on the main stay 101, still fixed mounting has material outlet 104 on the churn 102, fixed mounting has annular chute 103 on the churn 102, fixed mounting has fixed internal tooth 107 on the annular chute 103, slidable mounting has arc slide 209 on the annular chute 103, fixed mounting has rotation intermediate plate 201 on the arc slide 209, slidable mounting has middle sliding ring 204 on the rotation intermediate plate 201, still fixed mounting has first cylinder 203 on the rotation intermediate plate 201, and the other end and the middle sliding ring 204 fixed connection of first cylinder 203, and rotatable mounting has middle gear 202 on the middle gear 204, and fixed mounting has outer side post 401 on the middle gear 202, is provided with a plurality of coarse filtration holes on the outer side post 401, and the inside movable mounting of outer side post 401 has inner tube 404, and is provided with a plurality of inside filtration holes on the inner tube 404, and the coarse filtration hole on the outer side post 401 is in the inner tube state, makes outer side post 401 and is in an inner tube state, and slidable mounting has middle sliding ring 204, and the fan 403 is used for the fan 402 is still fixed to the fan 402 in the change the rotation angle with the inner tube state, and the fan 403 is used for the fan 402 is still connected with the fan 402 in the rotation of the fan 402 in the initial state, and the fan 402 is used for the change, the fan 402 is rotated in the fan 402 is connected with the fan 402 in the rotation axis position, and is used for the fan 402.

As shown in fig. 3 to 7, the inside of the outer column 401 is further rotatably provided with a middle sliding column 411, the inner column 404 is slidably connected with the middle sliding column 411, one end of the middle sliding column 411, which is far away from the rotary middle plate 201, is slidably provided with a pulling ring 410, the middle sliding column 411 is further provided with a plurality of collecting devices, the collecting devices are arranged in the inner column 404 and are arranged in the inner column 404 in the axial direction of the inner column 404, so that samples of materials with different depths in the mixing drum 102 can be collected, the materials with different depths can be prevented from being unevenly mixed, the collecting devices comprise a bottom column 409, the bottom column 409 and the middle sliding column 411 are slidably connected, a collecting box 408 is fixedly arranged on the bottom column 409, the collecting box 408 is slidably connected with the middle sliding column 411, the collecting box 408 is further slidably connected with the inner column 404, a plurality of collecting chute grooves are further arranged on the collecting box 408, the collecting chute is arranged right below an internal filtering hole on the inner column 404, the raw materials can conveniently enter the collecting box 408, a second spring 407 is fixedly arranged on the collecting box, a high-end spring 406 is fixedly arranged on the collecting box, a high-end block 406 of the second spring 407 is fixedly arranged on the collecting box is fixedly connected with the collecting box 405, and a high-end spring 405 is fixedly connected with the first spring 405, and the collecting box 405 is fixedly arranged between the high-end and the first spring 405 and the high-end device is fixedly connected with the collecting box 405.

As shown in fig. 2, 3 and 5, a sliding ring 305 is slidably mounted on the inner cylinder 404, an arc cylinder 306 is fixedly mounted on the sliding ring 305, a rope strut 301 is fixedly mounted at the other end of the arc cylinder 306, the rope strut 301 is fixedly connected with an intermediate gear 202, the sliding ring 305 is also rotatably connected with the rope strut 301, a winch cover 303 is rotatably mounted on the rope strut 301, a winch column 302 is rotatably mounted on the rope strut 301, a steel cable 304 is arranged on the winch column 302, one end of the steel cable 304 far away from the winch column 302 is fixedly connected with a pulling ring 410 for pulling the collecting device, a winch gear is fixedly mounted on the winch column 302, a motor gear is mounted on the winch gear in a meshing manner, the motor gear is rotatably mounted on the rope strut 301, the rotating gear is fixedly connected with a winch driving device on the rope strut 301, a main motor 208 is fixedly mounted on an output shaft of the arc slide 209, a first gear 207 is fixedly mounted on an output shaft of the main motor 208, one end of the first gear 207, which is close to the gear cover 110, a bump block is arranged, a rotating toothed column 205 is rotatably mounted on the arc slide 209, a rotating toothed column 205 and the intermediate gear 205 is meshed with an output shaft 206 arranged on the intermediate belt 206.

As shown in fig. 2, fig. 3 and fig. 5, the stirring drum 102 is fixedly provided with a bottom plate 105, the bottom plate 105 is fixedly provided with a material outlet 104, the material outlet 104 is slidably provided with a blocking plate 109, the stirring drum 102 is rotatably provided with a gear cover plate 110, the gear cover plate 110 is rotatably provided with a plurality of stirring rods 106, a part of the stirring rods 106 between the gear cover plate 110 and the bottom plate 105 is provided with a plurality of transverse blades for stirring, one end of the stirring rods 106 far away from the bottom plate 105 is fixedly provided with stirring teeth 108, the stirring teeth 108 are meshed with fixed internal teeth 107, the distance between the collision block and a rotating intermediate plate 201 is smaller than the distance between one end face of the stirring rods 106 and the rotating intermediate plate 201, when the first gear 207 rotates around the axis of the fixed internal teeth 107, the collision block on the first gear 207 is contacted with the stirring rods 106, the rotating intermediate plate 106 is further provided with a U-shaped chute for facilitating the sliding of the intermediate gear 202, the stirring rods 202 are further arranged on the rotating intermediate plate 201 and are meshed with the rotating intermediate plate 201 around the axis of the fixed internal teeth 107, and the sliding plate 201 is further meshed with the rotating intermediate plate 201 around the axis of the fixed internal teeth 107.

Working principle: when the device is used, raw materials are fed into the stirring barrel 102 through an opening formed by a U-shaped chute on the rotating middle plate 201 and a groove on the gear cover plate 110 until the raw materials can fully cover transverse blades on the stirring rod 106, then the main motor 208 is started, the main motor 208 drives the first gear 207 to rotate, the first gear 207 is meshed on the fixed inner teeth 107 and drives the arc-shaped sliding plate 209 to rotate around the axis of the fixed inner teeth 107, after the first gear 207 rotates to a preset position, an impact block on the first gear 207 is contacted with the stirring rod 106 and presses the stirring rod 106 to rotate around the axis of the fixed inner teeth 107 together, so that the stirring teeth 108 are meshed with the fixed inner teeth 107 continuously, the stirring teeth 108 drive the stirring rod 106 to rotate on the gear cover plate 110, and the transverse blades on the stirring rod 106 can stir the mixed materials in the stirring barrel 102 continuously.

When the main motor 208 is started, the main motor 208 also drives the rotating toothed column 205 through the intermediate belt 206, so that the rotating toothed column 205 drives the intermediate gear 202 to rotate around the axis of the fixed internal teeth 107, and when the intermediate gear 202 rotates, the rotating toothed column 205 drives the vane plate 402 on the outer column 401 to stir materials, wherein it should be noted that when the intermediate gear 202 rotates, the intermediate gear 202 also drives the rope support 301, the sliding ring 305, the arc cylinder 306 and the inner cylinder 404 to rotate around the axis of the fixed internal teeth 107, at this time, the vane plate 402 will not rotate on the outer column 401, the state of the vane plate 402 will always keep in the initial state, if the inclination angle of the vane plate 402 is to be changed, namely, the arc cylinder 306 is started, the arc cylinder 306 drives the sliding ring 305 to rotate around the axis of the intermediate gear 202, so that the sliding ring 305 drives the inner cylinder 404 to rotate, and the inner cylinder 404 pulls the vane plate 402 to change the inclination angle through the extrusion rod 403, and note that the rotation angle of the inner filtering hole on the inner cylinder 404 cannot coincide with the coarse filtering hole on the inner cylinder 401.

When the stirring condition of the internal raw materials is sampled after the stirring condition is to a certain extent, the arc-shaped air cylinder 306 is started, the arc-shaped air cylinder 306 drives the inner cylinder 404 through the sliding ring 305, the internal filtering holes on the inner cylinder 404 are overlapped with the rough filtering holes on the outer side column 401, the main motor 208 is also in a starting state, so that the fan blade plate 402 is inclined relative to the initial state, the internal filtering holes are overlapped with the rough filtering holes in the state, the raw materials are continuously extruded by the fan blade plate 402 and enter the collecting box 408 through the internal filtering holes and the rough filtering holes, when the collected raw materials reach a certain weight, the arc-shaped air cylinder 306 drives the inner cylinder 404 to recover to the initial state, the internal filtering holes and the rough filtering holes are dislocated, the outer side column 401 and the inner cylinder 404 form a closed column body, then the winch driving device is started, the winch column 302 is driven to rotate through the motor gear and the winch gear, the winch column 302 is retracted into the steel cable 304, the winch column 302 is retracted into the pulling ring 410, the pulling ring 410 is retracted to press the collecting device to move, so that the collecting device in the inner cylinder 404 slowly moves out of the inner cylinder 404, when the winch column 302 tightens the tightenable steel cable 304, the collecting device does not leave the inner cylinder 404 completely, the winch cover 303 can be manually pulled at this time, the winch cover 303 is separated from contact with the rope column 301, the winch column 302 is manually pulled again, the winch column 302 is separated from the rope column 301, the winch column 302 is pulled to move away from the rotating middle plate 201, the winch column 302 brings all the collecting devices away from the inner cylinder 404, the collecting device is separated from contact with the inner cylinder 404, then whether raw materials in the collecting device are mixed is finished can be checked, and the position of the collecting device in the stirring cylinder 102 can be distinguished at this time, to observe whether the mixing effect of the raw materials of the layer in the mixing drum 102 meets the standard.

When the stirring is to a certain extent, the first cylinder 203 is started to drive the middle slip ring 204 to slide on the rotating middle plate 201, so that the middle slip ring 204 drives the middle gear 202 and the outer column 401 to move together in the stirring cylinder 102, the middle gear 202 slides on the U-shaped sliding groove on the rotating middle plate 201, when the middle gear 202 moves to a preset distance, the middle gear 202 is engaged with the groove on the gear cover plate 110, meanwhile, the middle gear 202 is engaged with the fixed internal teeth 107, when the main motor 208 drives the first gear 207 to be engaged with the fixed internal teeth 107, the first gear 207 drives the gear cover plate 110 to rotate through rotating the middle plate 201 and the middle gear 202 clamped on the gear cover plate 110, the effect of the moment is that the gear cover plate 110 and the rotating middle plate 201 synchronously rotate around the axis of the fixed internal teeth 107, so that the outer column 401 can move to any position outside the stirring cylinder 102, at the moment, the raw material stirring condition at any position inside the stirring cylinder 102 can be extracted, the situation is worth of being the situation that the inner teeth 202 is also can be stopped when the fan blade is engaged with the fixed internal teeth 107, and the raw material can be stopped from the outer column 102, and the raw material is completely mixed by the external stirring device is driven by the fixed blade 104, and the external stirring device is stopped from the external column 107.

Meanwhile, the device can be completely taken out by taking the collecting device out, namely after the manual driving winch column 302 is far away from the direction of the rotating middle plate 201, after the collecting device is completely separated from the inner cylinder 404, raw materials to be mixed can be added into the inner cylinder 404, when the mixed raw materials are positioned in the inner cylinder 404, the device can be started to start the arc-shaped air cylinder 306 when the intermediate gear 202 is in a state of being matched with the groove on the gear cover plate 110, and the internal filtering holes are overlapped with the rough filtering holes, so that the materials in the mixing cylinder 102 are accurately and quickly mixed.

Claims (1)

1. Raw material mixer for cosmetics production, including main support (101), fixed mounting has churn (102) on main support (101), still fixed mounting has material outlet (104), its characterized in that on churn (102): an annular chute (103) is fixedly arranged on the stirring cylinder (102), an arc-shaped sliding plate (209) is slidably arranged on the annular chute (103), a rotary middle plate (201) is fixedly arranged on the arc-shaped sliding plate (209), an intermediate sliding ring (204) is slidably arranged on the rotary middle plate (201), a first air cylinder (203) is fixedly arranged on the rotary middle plate (201), the other end of the first air cylinder (203) is fixedly connected with the intermediate sliding ring (204), an intermediate gear (202) is rotatably arranged on the intermediate sliding ring (204), an outer side column (401) is fixedly arranged on the intermediate gear (202), a plurality of rough filtering holes are formed in the outer side column (401), an inner cylinder (404) is movably arranged in the outer side column (401), a plurality of internal filtering holes are formed in the inner cylinder (404), the internal filtering holes in a dislocation state with the rough filtering holes in the outer side column (401) in an initial state, the outer side column (401) and the inner cylinder (404) are in a dislocation state, a plurality of extrusion plates (403) are arranged on the outer side column (403) and the fan blades (403) are further connected with the fan blades (403) in a movable mode, the fan blades (403) are used for changing the extrusion angle of the fan (402), the outer side column (401) is also provided with an arc chute which is convenient for the extrusion rod (403) to slide;

the inside of the outer side column (401) is also rotatably provided with a middle slide column (411), the inner cylinder (404) is in sliding connection with the middle slide column (411), one end of the middle slide column (411) far away from the rotary middle plate (201) is slidably provided with a pulling ring (410), the middle slide column (411) is also provided with a plurality of collecting devices, the collecting devices are arranged inside the inner cylinder (404), the collecting devices are arrayed in the axial direction of the inner cylinder (404) inside the inner cylinder (404), the collecting devices comprise a bottom cylinder (409), the bottom cylinder (409) is in sliding connection with the middle slide column (411), a collecting box (408) is fixedly arranged on the bottom cylinder (409), the collecting box (408) is in sliding connection with the middle slide column (411), the collecting box (408) is also in sliding connection with the inner cylinder (404), a plurality of collecting chute are also arranged on the collecting box (408), the collecting chute is arranged right below an inner filtering hole on the inner cylinder (404), the collecting box (408) is fixedly provided with a second spring (407), a second spring (407) is fixedly provided with a high-limit spring (406), and the other spring (407) is fixedly provided with a second spring (406), the plurality of collecting devices in the inner cylinder (404) are fixedly connected through a first spring (405);

a sliding ring (305) is slidably mounted on the inner cylinder (404), an arc-shaped air cylinder (306) is fixedly mounted on the sliding ring (305), a rope support (301) is fixedly mounted at the other end of the arc-shaped air cylinder (306), the rope support (301) is fixedly connected with the intermediate gear (202), the sliding ring (305) is also rotationally connected with the rope support (301), and a winch cover plate (303) is rotationally arranged on the rope support (301);

a winch column (302) is rotatably arranged on the rope support column (301), a steel cable (304) is arranged on the winch column (302), one end, far away from the winch column (302), of the steel cable (304) is fixed with a pulling ring (410), a winch gear is fixedly arranged on the winch column (302), a motor gear is meshed with the winch gear, and the motor gear is rotatably arranged on the rope support column (301);

a cone bottom plate (105) is fixedly arranged on the stirring barrel (102), a material outlet (104) is fixedly arranged on the cone bottom plate (105), a blocking plate (109) is slidably arranged on the material outlet (104), and a gear cover plate (110) is rotatably arranged on the stirring barrel (102);

a plurality of stirring rods (106) are rotatably arranged on the gear cover plate (110), a plurality of transverse blades used for stirring are arranged at the position, between the gear cover plate (110) and the bobbin base plate (105), of the stirring rods (106), a main motor (208) is fixedly arranged on an arc-shaped sliding plate (209), a first gear (207) is fixedly arranged on an output shaft of the main motor (208), an impact block is arranged at one end, close to the gear cover plate (110), of the first gear (207), a rotary tooth column (205) is rotatably arranged on the arc-shaped sliding plate (209), the rotary tooth column (205) is meshed with an intermediate gear (202), an intermediate belt (206) is arranged on the rotary tooth column (205), the other end of the intermediate belt (206) is arranged on the output shaft of the main motor (208), and fixed internal teeth (107) are fixedly arranged on the annular sliding groove (103);

one end of the stirring rod (106) far away from the bobbin base plate (105) is fixedly provided with stirring teeth (108), the stirring teeth (108) are meshed with the fixed internal teeth (107), and compared with a collision block on the first gear (207), the stirring rod (106) has a smaller distance between the collision block and the rotating middle plate (201) than that between one end face of the stirring rod (106) where the stirring teeth (108) are arranged and the rotating middle plate (201);

the gear cover plate (110) is also provided with a groove which is matched with the intermediate gear (202), the intermediate gear (202) can be meshed with the fixed internal teeth (107), and the rotary intermediate plate (201) is also provided with a U-shaped chute which is convenient for the intermediate gear (202) to slide.