CN112691584B

CN112691584B - Facial cleanser stirring device

Info

Publication number: CN112691584B
Application number: CN202011394885.XA
Authority: CN
Inventors: 施晓东
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-03
Filing date: 2020-12-03
Publication date: 2023-11-28
Anticipated expiration: 2040-12-03
Also published as: CN112691584A

Abstract

The invention discloses a facial cleanser stirring device which comprises a barrel, a bracket, a barrel cover, a first motor and a stirring assembly, wherein the barrel cover is arranged on the bracket; the stirring assembly comprises a first block body arranged below the barrel cover, a clamping groove formed in the first block body, an outer stirring rod sleeved on the first block body, a clamping block fixedly connected to the outer stirring rod, a first rolling piece arranged on the clamping block, a first cavity arranged in the outer stirring rod, a transmission rod penetrating through the first cavity, a spiral stirring head arranged below the transmission rod, a discharge hole arranged below the barrel body, a transmission structure for linking the outer stirring rod and the transmission rod, a lifting structure for controlling the spiral stirring head to move up and down, and stirring blades with feeding functions arranged on the outer stirring rod; according to the invention, through the arrangement of the lifting degradation structure, the spiral stirring head is used for stirring and simultaneously feeding materials upwards, so that the bottom sediment is reduced; through the setting of stirring leaf, make the direct input material of material in, make stirring mix more rapidly.

Description

Facial cleanser stirring device

Technical Field

The invention belongs to the technical field of skin care product production, and particularly relates to a facial cleanser stirring device.

Background

During the stirring process of the facial cleanser, a certain amount of additive is required to be slowly added during the stirring process, so that the facial cleanser has more fragrant smell or better skin care effect, during the stirring process, the facial cleanser is thick liquid, the fluidity is poor, especially the raw materials are more easily accumulated at the bottom to cause poor overall stirring effect, meanwhile, during the discharging process, the discharging process only by means of gravity takes a long time, and during the stirring process, a plurality of additives are required to be added, but the common adding mode is adding on the stirring surface, but the adding method of the mode takes a very long time for mixing the additive into the materials by means of stirring, and consumes longer time and cost.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides the facial cleanser stirring device with high stirring efficiency and high discharging speed.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the facial cleanser stirring device comprises a barrel, a bracket for supporting the barrel, a barrel cover arranged on the barrel, a first motor arranged on the barrel cover, and a stirring assembly arranged in the barrel; the stirring assembly comprises a first block body arranged below the barrel cover, a clamping groove arranged on the first block body, an outer stirring rod sleeved on the first block body, a clamping block fixedly connected to the outer stirring rod, a first rolling piece arranged on the clamping block, a first cavity arranged in the outer stirring rod, a transmission rod penetrating through the first cavity, a spiral stirring head arranged below the transmission rod, a discharge hole arranged below the barrel body, a transmission structure for linking the outer stirring rod and the transmission rod, a lifting structure for controlling the spiral stirring head to move up and down, and stirring blades with feeding functions arranged on the outer stirring rod; the lifting of the spiral stirring head is controlled by the forward and reverse rotation of the first motor; through the rotation of first motor to drive the transfer line and rotate, can divide into two kinds of modes through the rotation of first motor, forward rotation is stirring mode, reverse rotation is then discharge mode, with stirring for example, first motor forward rotation, when the transfer line rotates, will control spiral stirring head downwardly moving, pour the material into wherein and stir in advance afterwards, roll, spiral stirring head will drive the material and upwards move in rotatory in-process, thereby form the impact with the material of subsidence, thereby produce better stirring effect, make the material mix more even, simultaneously the transfer line passes through transmission structure's setting, effectively drive outer puddler and rotate, through the form that is provided with first rolling element below joint piece in the rotation process, thereby effectively reduced the frictional force between joint piece and the draw-in groove, equipment's life has been prolonged, equipment's loss has been reduced, outer puddler's rotation stability has been guaranteed, outer puddler then through the inside liquid of stirring She Jiaodong, thereby make it fully mix, then, carry out the dispersing agent in the stirring leaf, thereby the material is directly dispersed in the middle of messenger, the material has been passed through the stirring effect has been improved, the bottom has been improved, the mixing effect has been improved, the bottom has been mixed, thereby improved the material has improved the stirring effect.

The stirring blade comprises a second cavity arranged on the outer stirring rod, a through groove arranged on the side wall of the second cavity, a swivel rotatably arranged in the second cavity, a second block fixedly connected to the swivel, a stirring rod arranged on the second block, a blade sleeved on the stirring rod, a feeding cavity arranged in the stirring rod, a material cavity arranged in the outer stirring rod, an extrusion block arranged in the material cavity, a material selecting structure arranged at the bottom of the material cavity, a material blocking ring arranged on the swivel, a through hole arranged on the material blocking ring, a material collecting groove arranged above the second cavity, a runner for communicating the material collecting groove and the material blocking ring, a first one-way valve arranged at the junction of the runner and the material collecting groove, a material discharging structure for resetting the swivel, and a one-way structure arranged on the stirring rod; before stirring starts, because the gravity of the extrusion piece in the material cavity, thereby will promote the additive in the material cavity, get into the corresponding aggregate tank of each swivel along the runner through first check valve, and finally pile up in throwing the material intracavity, a certain amount of additive has been put in promptly, in the in-process of stirring, because the continuous increase of viscosity of liquid, the power that the blade received will constantly increase this moment, in the continuous in-process of atress, the blade will drive the puddler and make the swivel rotate in the second cavity, thereby reduce the damage of impact to the blade, equipment's life has been prolonged, make the blade can produce slight back and forth rocking simultaneously, make the blade carry out irregular impact to the material, thereby the stirring effect has been improved, simultaneously make when the swivel rotates, this moment swivel will drive the baffle ring and rotate simultaneously, the through-hole on this in-process runner and the baffle ring separates each other, namely the additive capacity in the puddler is the ration, the accurate nature of having improved the interpolation, simultaneously, make the position of additive just to the position of blade stirring, make the blade will be in the stirring more direct in the process of stirring, thereby the impact efficiency can be more direct to the additive, thereby the shock efficiency is improved, the vibration efficiency is improved, the material can be more shock the additive is more directly to the stirring, and the vibration is more needed.

The material selecting structure comprises a first chute arranged at the bottom of the material cavity, a baffle plate capable of moving back and forth in the first chute, a third cavity arranged above the first chute, a second motor arranged in the third cavity, a rack fixedly connected to the baffle plate, and a first gear arranged on the second motor; the first gear is matched with the rack; through the rotation of first motor to thereby drive the baffle through the meshing between first gear and the rack and remove, thereby the entry of runner exposes, thereby make the material get into the collecting tank from the runner, through the removal of baffle promptly, can accomplish the change to the intracavity additive kind of throwing material, it is more convenient effective, through the setting of first check valve, thereby make the flow path mutually noninterfere between runner and the runner, avoid the material in the runner to fall into the intracavity that gathers materials, thereby cause the excessive interpolation of material, through the setting of this structure, thereby make the material can effectually switch, it is more convenient succinct to switch, can adapt to the interpolation stirring of multiple material, set up the material chamber simultaneously on outer (mixing) shaft, thereby carry out slow stirring simultaneously to the material chamber when carrying out the rotation, thereby the condition that the additive that makes the material intracavity can be in even state all the time, avoid sedimentation or concentration change takes place, the quality of adding has been effectively guaranteed, the final quality of product has been improved.

The discharging structure comprises a fourth cavity, a second one-way valve, a squeezing piece, a first elastic piece, a blocking piece and a moving block, wherein the fourth cavity is arranged on the swivel and is communicated with the discharging cavity; when the swivel rotates, the extrusion piece fixedly connected to the side wall of the second cavity moves relatively in the fourth cavity, so that air in the fourth cavity is extruded, the air in the fourth cavity continuously enters the feeding cavity through the second one-way valve after being extruded, the feeding cavity is divided into two sides by the baffle piece, one side is a discharging part connected with the collecting groove, the other side is a space for moving the moving block and is connected with the fourth cavity, the moving block in the feeding cavity is pushed by the air to be sent out, the extrusion baffle piece is used for extruding a solution in the feeding cavity to move outwards in the moving block moving process, the extrusion of the liquid received by the blade is effectively carried out through the arrangement of the structure, the power for discharging is provided, and the diameter is limited due to the structure, so that the speed of feeding the additive outwards from the feeding cavity is limited, the mode of gradual feeding is achieved, the stirring quality is effectively ensured, and the stirring is more uniform and the mixing is better.

The unidirectional structure comprises a discharge chute arranged on the side wall of the stirring cavity, a turning plate rotatably arranged on the side wall of the discharge chute, a second elastic piece arranged in the discharge chute and used for resetting the turning plate, a first extrusion inclined plane arranged at one end of the blade, a sharp point arranged at the other end of the blade, an embedding opening arranged on the blade and a first limiting block arranged on the blade; when the blade receives the impact of liquid, the impact that first extrusion inclined plane received will drive the blade and rotate, carry out pivoted blade round the puddler and finally will be in certain angle under the contact between inlaying mouth and the first stopper, be open state promptly, the blade slope this moment, will have carried out good cutting stirring with the material, at blade pivoted in-process, the blown down tank that sets up on the stirring chamber lateral wall this moment has lost the shielding of blade, expose, thereby the blown down tank has been opened, the baffle has lost the barrier of blade this moment, can overturn, and under the power that the movable block provided, the baffle overturns, the additive is sent out from throwing the material intracavity, through the setting of this structure, effectively avoided the backward flow of liquid, avoid the material to get into throwing the intracavity, thereby the subsequent batch cavity that leads to measures the error, simultaneously through the setting of first stopper and inlaying mouth on the blade, thereby make only have possessed certain rotational speed at outer puddler, and liquid has had when certain viscosity, thereby the blown down tank side can be exposed, the material has effectively been avoided, thereby the material has been guaranteed to be down, final quality has been guaranteed, the product accuracy has been guaranteed.

The transmission structure comprises a fifth cavity arranged on the outer stirring rod, a first convex tooth arranged on the side wall of the fifth cavity, a second gear sleeved on the transmission rod, a first fixed column arranged on the first block, a third gear sleeved on the first fixed column, a second fixed column arranged on one side of the third gear, and a fourth gear sleeved on the second fixed column; the third gear is matched with the second gear and the fourth gear; the fourth gear is matched with the third gear and the first convex teeth; through the setting of this structure, the mode that has produced between messenger's transfer line and the outer puddler and turn to all different with the rotational speed, the rotational speed of transfer line is faster than the rotational speed of outer puddler, and the rotation direction between transfer line and the puddler is opposite, the rotatory stirring bandeau through the bottom is played vortex to be inside to form a heliciform vortex, make the great impact of formation between the material under its reverse pivoted blade's impact afterwards, thereby make inside stirring more even, make facial cleanser foam more easily simultaneously, make the end product foam effect better in the use.

The lifting structure comprises a sixth cavity arranged on the side wall of the first cavity, a sleeve sleeved on the transmission rod, a connecting rod used for connecting the spiral stirring head and the sleeve, a second sliding chute arranged on the inner wall of the sleeve, a second limiting block arranged on the transmission rod, a first inclined block arranged on the side wall of the sixth cavity, a second inclined block arranged on the periphery of the outer wall of the sleeve and corresponding to the first inclined block, a round guiding angle arranged on the first inclined block, a first bearing piece arranged below the outer stirring rod, an anti-abrasion structure arranged in the sixth cavity and a sealing structure arranged at the discharge hole; the first inclined block and the second inclined block are of a diamond structure, the sleeve and the transmission rod are in rotation-stopping fit, the spiral stirring head descends for example, in the process, the rotation of the transmission rod drives the sleeve to rotate, the second inclined block on the sleeve is matched with the first inclined block arranged on the side wall of the sixth cavity, in the rotating process, the second inclined block is contacted with the acute angle end on the first inclined block, the second inclined block and the first inclined block are contacted with each other, so that the second inclined block moves downwards along the round guide angle on the first inclined block, in the moving process, the sleeve moves downwards and passes through the first inclined block, then the second inclined block rotates in the sixth cavity, the descending process of the spiral stirring head is completed, the contact mode of the second inclined block reaching the bottom and the first inclined block is the mutual contact between the obtuse angle at the moment, the effect of repulsion is achieved, a certain fixing effect is achieved, and in the contrary, the lifting process is completed; the action synchronism between spiral stirring head and the transmission rod is higher through the setting of this structure to the lift of rotatory stirring head can be accomplished through the forward and reverse rotation of motor, and it is more stable to go up and down, and the switching between the mode is convenient and fast more.

The anti-wear structure comprises a second rolling piece arranged on the second inclined block, a pushing block capable of moving back and forth in a sixth cavity, a third elastic piece arranged in the sixth cavity and used for resetting the pushing block, and a wire block arranged in the sixth cavity; the friction between the first oblique block and the second oblique block is reduced through the arrangement of the second rolling piece, so that the service life of the equipment is prolonged, corresponding certain thrust is always given through the arrangement of the pushing block, so that the first oblique block and the second oblique block are always in a certain contact state, the quick position exchange can be realized through the clamping connection between the acute angles at the moment when the motor is reversed, the excessive contact between the acute angles is reduced, the acute angle abrasion is caused, the damage possibility of internal equipment is caused, and the service life of the equipment is prolonged.

The sealing structure comprises a seventh cavity arranged at the bottom of the cylinder, a sliding block capable of moving back and forth in the seventh cavity, a second bearing piece arranged above the sliding block, a fourth elastic piece arranged in the seventh cavity and used for resetting the sliding block, a discharging through groove arranged on the cylinder, a third sliding groove arranged on the side wall of the discharging through groove, a sealing plate capable of moving back and forth in the third sliding groove, a rotary rod with two ends respectively rotatably connected to the sealing plate and the sliding block, an eighth cavity arranged on the spiral stirring head and a vertical plate corresponding to the eighth cavity; when the spiral stirring head moves downwards, the pushing slide block moves downwards, the rotary rod pushes the sealing plate to move in the third sliding groove, so that the sealing plate seals the discharging through groove, the sealing plate is in a sealing state, the sealing plate is in a stirring state, when discharging is needed, the first motor is reversed, the spiral stirring head is lifted upwards, the sealing plate is retracted, the discharging step can be completed, material infiltration is effectively avoided through the arrangement of the vertical plate and the eighth cavity, the second bearing piece is protected, concentricity of the spiral stirring head is guaranteed, equipment stability is guaranteed, the discharging process is smoother through the arrangement of the structure, meanwhile, discharging efficiency is effectively improved through the effect of the spiral stirring head, the sealing and the opening of discharging can be completed through the steering change of a single motor, and convenience of equipment is effectively guaranteed.

According to the invention, through the arrangement of the lifting degradation structure, the spiral stirring head is used for stirring and simultaneously feeding materials upwards, so that the bottom sediment is reduced; through the setting of stirring leaf, make the direct input material of material in, make stirring mix more rapidly.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a schematic perspective cross-sectional view of fig. 2 taken along line A-A.

Fig. 4 is a schematic plan sectional view of fig. 2 taken along line B-B.

Fig. 5 is a schematic perspective sectional view of fig. 2 taken along line C-C.

Fig. 6 is a schematic perspective cross-sectional view of fig. 2 taken along line D-D.

Fig. 7 is a schematic plan sectional view of fig. 2 taken along line E-E.

Fig. 8 is an enlarged schematic view at a in fig. 3.

Fig. 9 is an enlarged schematic view at B in fig. 3.

Fig. 10 is an enlarged schematic view at C in fig. 3.

Fig. 11 is an enlarged schematic view of fig. 10.

Fig. 12 is an enlarged schematic view at D in fig. 3.

Fig. 13 is an enlarged partial schematic view of fig. 4.

Fig. 14 is an enlarged schematic view of fig. 13.

Fig. 15 is an enlarged schematic view of fig. 5.

Fig. 16 is an enlarged schematic view of fig. 7.

FIG. 17 is an enlarged schematic view of the drive shaft and lifting structure

Detailed Description

As shown in fig. 1-17, the facial cleanser stirring device comprises a barrel 1, a bracket 12, a barrel cover 13, a first motor 14 and a stirring assembly 2; the bracket 12 is used for supporting the cylinder, the barrel cover 13 is arranged on the cylinder, the first motor 14 is arranged on the barrel cover, the first motor is the prior art purchased in the market, and the stirring assembly 2 is arranged in the cylinder and is not repeated here; the stirring assembly 2 comprises a first block 21, a clamping groove 22, an outer stirring rod 23, a clamping block 24, a first rolling piece 25, a first cavity 26, a transmission rod 27, a spiral stirring head 28, a discharge hole 29, a transmission structure 4, a lifting structure 5 and stirring blades 3; the first block 21 is arranged below the barrel cover, the clamping groove 22 is formed in the first block, the outer stirring rod 23 is sleeved on the first block, the clamping block 24 is fixedly connected to the outer stirring rod, the first rolling piece 25 is arranged on the clamping block, the first rolling piece is a ball, the first cavity 26 is formed in the outer stirring rod, the transmission rod 27 penetrates through the first cavity, the spiral stirring head 28 is arranged below the transmission rod, the spiral stirring head is preferably selected to be of a structure with a large upper part and a small lower part, a better material gathering effect can be achieved, the discharge hole 29 is formed in the lower part of the barrel body, the transmission structure 4 is used for linking the outer stirring rod with the transmission rod, the lifting structure 5 is used for controlling the spiral stirring head to move up and down, and the stirring blade 3 is arranged on the outer stirring rod and has a material throwing function; the lifting of the spiral stirring head is controlled by the forward and reverse rotation of the first motor.

The stirring blade 3 comprises a second cavity 31, a through groove 32, a swivel 33, a second block 34, a stirring rod 35, a blade 36, a feeding cavity 37, a feeding cavity 38, an extrusion block 381, a material blocking ring 39, a through hole 310, a material collecting groove 311, a flow passage 312, a first one-way valve 313, a material discharging structure 6 and a one-way structure 7; the second cavity 31 is disposed on the outer stirring rod, the through groove 32 is disposed on the side wall of the second cavity, the swivel 33 is rotatably disposed in the second cavity, the second block 34 is fixedly connected to the swivel, the stirring rod 35 is disposed on the second block, the blade 36 is sleeved on the stirring rod, the feeding cavity 37 is disposed in the stirring rod, the material cavity 38 is disposed in the outer stirring rod, the extrusion block 381 is disposed in the material cavity, the material selecting structure 10 is disposed at the bottom of the material cavity, the material blocking ring 39 is disposed on the swivel, the through hole 310 is disposed on the material blocking ring, the material collecting groove 311 is disposed above the second cavity, the runner 312 is used for communicating the material collecting groove with the material cavity, the first one-way valve 313 is disposed at the junction of the runner and the material collecting groove, the first one-way valve is a commercially available prior art, the material discharging structure 6 is not repeated here, the material resetting structure 6 is used for resetting the swivel, and the one-way structure 7 is disposed on the stirring rod.

The material selecting structure 10 comprises a first chute 101, a baffle 102, a third cavity 103, a second motor 104, a rack 105 and a first gear 106; the first chute 101 is arranged at the bottom of the material cavity, the baffle 102 can move back and forth in the first chute, the third cavity 103 is arranged above the first chute, the second motor 104 is arranged in the third cavity, the second motor is the prior art purchased in the market, the details are omitted here, the rack 105 is fixedly connected to the baffle, and the first gear 106 is arranged on the second motor; the first gear is matched with the rack.

The discharging structure 6 comprises a fourth cavity 61, a second one-way valve 62, a pressing sheet 63, a first elastic piece 64, a baffle 65 and a moving block 66; the fourth cavity 61 is disposed on the swivel and is communicated with the discharging cavity, the second one-way valve 62 is disposed at the joint of the fourth cavity and the discharging cavity, the second one-way valve is a commercially available prior art, not described in detail herein, the extruding sheet 63 is disposed on the side wall of the second cavity, the first elastic member 64 is disposed in the fourth cavity and is used for resetting the swivel, the first elastic member is disposed as a spring member, the baffle 65 is disposed in the discharging cavity, the baffle divides the discharging cavity into two areas, one side is a smaller sheet cavity, the liquid in the collecting tank is filled in the cavity preferentially, then enters the other side, the other side is a larger space cavity, is a most main storage space, the sheet space is smaller, when the moving block moves, the liquid in the cavity pushing the larger space enters the sheet space, then is discharged outwards through the position disposed in the sheet space, and the moving block 66 is disposed on one side of the baffle.

The unidirectional structure 7 comprises a discharge chute 71, a turning plate 72, a second elastic piece 73, a first extrusion inclined plane 74, a sharp point 75, an embedding opening 76 and a first limiting block 77; the blown down tank 71 set up on the stirring chamber lateral wall, turn over the rotatable setting of board 72 on the blown down tank is located be used for resetting in the blown down tank turn over the board, the second elastic component is here set up to the elastic sheet structure, and first extrusion inclined plane 74 is located blade one end, sharp 75 is located the blade other end, and sharp end is a comparatively sharp structure, and the effect is when first motor counter-rotating, and sharp end will play the effect of water conservancy diversion to make the blade be in the horizontality, thereby reduced the resistance of liquid, reduced the pressure of motor, inlay the mouth 76 and located on the blade, first stopper 77 is located on the blade.

The transmission structure 4 comprises a fifth cavity 41, a first convex tooth 42, a second gear 43, a first fixed column 44, a third gear 45, a second fixed column 46 and a fourth gear 47; the fifth cavity 41 is arranged on the outer stirring rod, the first convex tooth 42 is arranged on the side wall of the fifth cavity, the second gear 43 is sleeved on the transmission rod, the first fixed column 44 is arranged on the first block, the third gear 45 is sleeved on the first fixed column, the second fixed column 46 is arranged on one side of the third gear, and the fourth gear 47 is sleeved on the second fixed column; the third gear is matched with the second gear and the fourth gear; the fourth gear is matched with the third gear and the first convex teeth.

The lifting structure 5 comprises a sixth cavity 51, a sleeve 52, a connecting rod 53, a second chute 54, a second limiting block 55, a first inclined block 56, a second inclined block 57, a round guiding angle 58, a first bearing piece 59, an anti-abrasion structure 8 and a closed structure 9; the sixth cavity 51 is arranged on the side wall of the first cavity, the sleeve 52 is sleeved on the transmission rod, the connecting rod 53 is used for connecting the spiral stirring head with the sleeve, the second chute 54 is arranged on the inner wall of the sleeve, the second limiting block 55 is arranged on the transmission rod, the first inclined block 56 is arranged on the side wall of the sixth cavity, the second inclined block 57 is arranged on the outer wall of the sleeve, the periphery of the outer wall of the sleeve corresponds to the first inclined block, the round guide 58 is arranged on the first inclined block, the round guide is arranged at the obtuse angle of the diamond, the first bearing member 59 is arranged below the outer stirring rod, the anti-abrasion structure 8 is arranged in the sixth cavity, and the sealing structure 9 is arranged at the discharge hole.

The anti-wear structure 8 comprises a second rolling element 81, a push block 82, a third elastic element 83 and a wire block 84; the second rolling member 81 is disposed on the second inclined block, the second rolling member is here configured as a ball, the push block 82 can move back and forth in the sixth cavity, the third elastic member 83 is disposed in the sixth cavity for resetting the push block, the third elastic member is here configured as a spring member, and the wire block 84 is disposed in the sixth cavity.

The sealing structure 9 comprises a seventh cavity 91, a sliding block 92, a second bearing member 93, a fourth elastic member 94, a discharging through groove 95, a third sliding groove 96, a sealing plate 97, a rotating rod 98, an eighth cavity 99 and a vertical plate 910; the seventh cavity 91 is set up in the barrel bottom, and the slider 92 can reciprocate in the seventh cavity, and the second bearing spare 93 is located the slider top, fourth elastic component 94 is located be used for resetting in the seventh cavity the slider, fourth elastic component here sets up to the spring spare, and ejection of compact logical groove 95 is located on the barrel, the third spout 96 is set up on ejection of compact logical groove lateral wall, shrouding 97 can reciprocate in the third spout, and the dwang 98 both ends respectively rotatable coupling in the shrouding with on the slider, eighth cavity 99 is located on the spiral stirring head, riser 910 with eighth cavity phase corresponds.

The specific operation flow is as follows:

the first motor 14 rotates to form two modes, namely a stirring mode, the first motor rotates to form a material discharging mode, the first motor rotates to drive the transmission rod 27 to rotate, the transmission rod rotates to drive the sleeve 52 to rotate, the second inclined block 57 on the sleeve is matched with the first inclined block 56 arranged on the side wall of the sixth cavity 51, during the rotation, the second inclined block contacts with the acute angle end on the first inclined block, the second inclined block moves downwards along the round guide angle 58 on the first inclined block, during the movement, the sleeve moves downwards and passes through the first inclined block, then the second inclined block rotates in the sixth cavity, the descending process of the spiral stirring head 28 is completed, when the spiral stirring head moves downwards, the pushing slide block 92 moves downwards, the rotating rod 98 pushes the sealing plate 97 to move in the third sliding groove 96, so that the discharging through groove 95 is sealed by the sealing plate, the material is poured into the sealing plate to be stirred, in the continuous rotation process of the first motor, the rotation of the transmission rod drives the outer stirring rod 23 to rotate, the rotation speed of the transmission rod is faster than that of the outer stirring rod, the rotation direction between the transmission rod and the stirring rod is opposite, the rotation direction of the transmission rod and the stirring rod is enabled to be vortex through the rotary stirring head at the bottom, a spiral vortex is formed inside, then a larger impact is formed between the materials under the impact of the blades 36 which reversely rotate, the baffle plate 52 is driven to move through the meshing between the first gear 56 and the rack 55 through the rotation of the first motor, the inlet of the flow channel is exposed, the material enters the collecting groove 311 from the flow channel 312, namely, the replacement of the additive types in the feeding cavity can be completed through the movement of the baffle plate, before stirring starts, the additive in the material cavity is pushed to enter the material collecting grooves corresponding to the rotating rings through the first one-way valves 313 along the flow channels due to the gravity of the extrusion blocks 381 in the material cavity, and finally a certain amount of additive is accumulated in the material feeding cavity 37, during stirring, the force exerted by the blades is continuously increased due to the continuous increase of the viscosity of the liquid, during the continuous increase of the force, the blades drive the stirring rod to rotate the rotating rings 33 in the second cavity 31, when the rotating rings rotate, the extrusion sheets 63 fixedly connected to the side walls of the second cavity relatively move in the fourth cavity, so that air in the fourth cavity 61 is extruded, the moving blocks in the material feeding cavity are outwards pushed by the air, during the movement of the moving blocks, the solution in the material feeding cavity is extruded to outwards move by the extrusion sheets, when the blades are impacted by liquid, the impact on the first extrusion inclined plane 74 drives the blades to rotate, the blades rotating around the stirring rod are finally in a certain angle under the contact between the embedded opening 76 and the first limiting block 77, namely in an open state, the blades are inclined at the moment and well cut and stir materials, in the process of rotating the blades, the discharging grooves 71 arranged on the side wall of the stirring cavity at the moment lose the shielding of the blades and are exposed, so that the discharging grooves are opened, the turning plate 72 loses the blocking of the blades at the moment and can be turned over, and under the power provided by the moving block, the turning plate turns over, and the additive is sent out from the feeding cavity, so that the method of directly feeding the additive in the materials is realized, the working time is effectively shortened, the working efficiency is improved, when the discharging is required, at this moment, the first motor reversely rotates, the spiral stirring head moves upwards and reversely rotates, so that the discharge of materials is accelerated, meanwhile, when the spiral stirring head ascends, the discharging through groove at the lower part is opened, the movement of the materials is facilitated, and the steps are repeated.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The facial cleanser stirring device comprises a barrel (1), a bracket (12) for supporting the barrel, a barrel cover (13) arranged on the barrel, a first motor (14) arranged on the barrel cover, and a stirring assembly (2) arranged in the barrel; the method is characterized in that: the stirring assembly (2) comprises a first block (21) arranged below the barrel cover, a clamping groove (22) formed in the first block, an outer stirring rod (23) sleeved on the first block, a clamping block (24) fixedly connected to the outer stirring rod, a first rolling piece (25) arranged on the clamping block, a first cavity (26) formed in the outer stirring rod, a transmission rod (27) penetrating through the first cavity, a spiral stirring head (28) arranged below the transmission rod, a discharge hole (29) arranged below the barrel body, a transmission structure (4) for linking the outer stirring rod and the transmission rod, a lifting structure (5) for controlling the spiral stirring head to move up and down, and stirring blades (3) with a feeding function arranged on the outer stirring rod; the lifting of the spiral stirring head is controlled by the forward and reverse rotation of the first motor;

the stirring blade (3) comprises a second cavity (31) arranged on the outer stirring rod, a through groove (32) arranged on the side wall of the second cavity, a rotating ring (33) rotatably arranged in the second cavity, a second block (34) fixedly connected to the rotating ring, a stirring rod (35) arranged on the second block, blades (36) sleeved on the stirring rod, a feeding cavity (37) arranged in the stirring rod, a material cavity (38) arranged in the outer stirring rod, a squeezing block (381) arranged in the material cavity, a material selecting structure (10) arranged at the bottom of the material cavity, a material blocking ring (39) arranged on the rotating ring, a through hole (310) arranged on the material blocking ring, a material collecting groove (311) arranged above the second cavity, a flow passage (312) used for communicating the material collecting groove and the material cavity, a first one-way valve (313) arranged at the junction of the flow passage and the material collecting groove, a material discharging structure (6) used for resetting the rotating ring, and a one-way structure (7) arranged on the stirring rod;

the material selecting structure (10) comprises a first chute (101) arranged at the bottom of the material cavity, a baffle (102) capable of moving back and forth in the first chute, a third cavity (103) arranged above the first chute, a second motor (104) arranged in the third cavity, a rack (105) fixedly connected to the baffle, and a first gear (106) arranged on the second motor; the first gear is matched with the rack;

the discharging structure (6) comprises a fourth cavity (61) which is arranged on the swivel and is communicated with the discharging cavity, a second one-way valve (62) which is arranged at the joint of the fourth cavity and the discharging cavity, an extrusion piece (63) which is arranged on the side wall of the second cavity, a first elastic piece (64) which is arranged in the fourth cavity and is used for resetting the swivel, a baffle piece (65) which is arranged in the discharging cavity, and a moving block (66) which is arranged on one side of the baffle piece;

the unidirectional structure (7) comprises a discharge chute (71) arranged on the side wall of the stirring cavity, a turning plate (72) rotatably arranged on the side wall of the discharge chute, a second elastic piece (73) arranged in the discharge chute and used for resetting the turning plate, a first extrusion inclined plane (74) arranged at one end of the blade, a sharp point (75) arranged at the other end of the blade, an embedding opening (76) arranged on the blade and a first limiting block (77) arranged on the blade;

the transmission structure (4) comprises a fifth cavity (41) arranged on the outer stirring rod, a first convex tooth (42) arranged on the side wall of the fifth cavity, a second gear (43) sleeved on the transmission rod, a first fixed column (44) arranged on the first block body, a third gear (45) sleeved on the first fixed column, a second fixed column (46) arranged on one side of the third gear, and a fourth gear (47) sleeved on the second fixed column; the third gear is matched with the second gear and the fourth gear; the fourth gear is matched with the third gear and the first convex teeth;

the lifting structure (5) comprises a sixth cavity (51) arranged on the side wall of the first cavity, a sleeve (52) sleeved on the transmission rod, a connecting rod (53) used for connecting the spiral stirring head and the sleeve, a second chute (54) arranged on the inner wall of the sleeve, a second limiting block (55) arranged on the transmission rod, a first inclined block (56) arranged on the side wall of the sixth cavity, a second inclined block (57) arranged on the periphery of the outer wall of the sleeve and corresponding to the first inclined block, a round guiding angle (58) arranged on the first inclined block, a first bearing piece (59) arranged below the outer stirring rod, an anti-abrasion structure (8) arranged in the sixth cavity and a sealing structure (9) arranged at the discharge hole;

the anti-wear structure (8) comprises a second rolling element (81) arranged on the second inclined block, a push block (82) capable of moving back and forth in a sixth cavity, a third elastic element (83) arranged in the sixth cavity and used for resetting the push block, and a wire block (84) arranged in the sixth cavity;

the sealing structure (9) comprises a seventh cavity (91) formed in the bottom of the cylinder, a sliding block (92) capable of moving back and forth in the seventh cavity, a second bearing piece (93) arranged above the sliding block, a fourth elastic piece (94) arranged in the seventh cavity and used for resetting the sliding block, a discharging through groove (95) formed in the cylinder, a third sliding groove (96) formed in the side wall of the discharging through groove, a sealing plate (97) capable of moving back and forth in the third sliding groove, a rotary rod (98) with two ends respectively rotatably connected to the sealing plate and the sliding block, an eighth cavity (99) arranged on the spiral stirring head and a vertical plate (910) corresponding to the eighth cavity.