CN114948775A

CN114948775A - Amino acid oil-control facial cleanser and preparation method thereof

Info

Publication number: CN114948775A
Application number: CN202210808537.5A
Authority: CN
Inventors: 赵喜茹
Original assignee: Guangzhou Yunkelai Cosmetics Technology Co ltd
Current assignee: Guangzhou Yunkelai Cosmetics Technology Co ltd
Priority date: 2022-07-11
Filing date: 2022-07-11
Publication date: 2022-08-30

Abstract

The amino acid oil-control facial cleanser comprises cocamidopropyl betaine, so that the product has multiple effects of small irritation, high water solubility, stability to acid and alkali, more foams, strong detergency and good oil-control capability, an automatic liquid outlet mechanism is arranged in a preparation device, the corresponding materials are automatically added under different temperature conditions for stirring, the stirring conditions of the materials are ensured, the component fusion reaction in the materials is facilitated, the product has an excellent decontamination effect, and the condition that the product is free of manual operation and is prevented from being polluted by impurities or bacteria is realized.

Description

Amino acid oil-control facial cleanser and preparation method thereof

Technical Field

The invention belongs to the technical field related to cosmetics, and particularly relates to an amino acid oil-control facial cleanser and a preparation method thereof.

Background

A facial cleanser belongs to a facial skin cleaning product. In washing the skin, the target of cleansing with facial cleanser is dirt generated from the body, such as sebum secreted from the skin of the human face, sweat, and exfoliated stratum corneum cells, and dirt from the outside, such as dust, various microorganisms, and cosmetic residues. These residual metabolites are unstable and can react with oxygen in the air, or deposited molecules. When exposed to sunlight or bacteria present on the skin, various physicochemical and biochemical reactions occur, forming irritating substances that may harm the skin. In order to achieve the effects of efficiently cleaning, blackhead removing, oil removing and the like, the traditional facial cleanser is added with the surfactant with strong alkalinity, has good decontamination effect but has great irritation to skin, can damage the skin lipid membrane of the skin, and enables the skin to be easily injured by the outside world.

The amino acid facial cleanser is a new concept facial cleanser appearing on the market in recent years. The cleaning components of the traditional facial cleanser are all cleaning active agents, and the amino acid facial cleanser adopts amino acid (such as glutamic acid, glycine and the like) salt (sodium salt, potassium salt and triethanolamine salt) with foaming and dirt-removing capabilities. The weak acidic amino acid surfactant has pH value close to that of human skin, and amino acid is a basic substance for forming protein, so that the weak acidic amino acid surfactant is mild, skin-friendly and sensitive to skin. Although the amino acid facial cleanser has many advantages, the amino acid facial cleanser still has many defects in the technical aspect, such as: the prior amino acid facial cleanser has the problems of difficult thickening, less foam, poor decontamination capability, poor stability and the like, and the prior amino acid facial cleanser has poor oil control capability generally due to insufficient foam, and the experience of consumers is influenced due to insufficient softness. In addition, in the preparation process of the amino acid facial cleanser, materials need to be added at different temperatures for stirring, corresponding materials are added at different temperatures for stirring manually in the traditional preparation method, the preparation efficiency is low, impurities are easily doped into the product due to manual operation, the product quality is unqualified, and the manual operation cannot guarantee the required temperature condition, so that the product effect is reduced.

Disclosure of Invention

The invention aims to provide an amino acid oil-control facial cleanser and a preparation method thereof, wherein corresponding substances can be automatically added for stirring according to the temperature through an automatic liquid outlet mechanism so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an amino acid oil-control facial cleanser, which comprises the following components in percentage by weight: 11% of deionized water, 50% of sodium methyl cocoyl taurate, 0.8% of glyceryl stearate SE, 1% of ethylene diamine tetraacetic acid, 1% of sodium chloride, 10% of glycerol, 1.2% of ethylene glycol distearate, 1% of dodecanoic acid and 1% of tetradecanoic acid, 10% of cocamidopropyl betaine, 0.6% of starch phosphate, 5% of glycerol, 2% of acrylic copolymer and 2% of deionized water are taken as a phase B, 0.1% of menthone, 1% of pentanediol, 1% of erythritol, 0.1% of water-soluble salicylic acid and 0.1% of azelaic acid diglycolic acid are taken as a phase C.

Preferably, the cocoamidopropyl betaine is added, so that the cleaning agent has the effects of small irritation, high water solubility, stability to acid and alkali, more foam and strong detergency.

The invention also discloses a preparation method of the amino acid oil-control facial cleanser, which comprises the following steps:

(1) adding the phase C into a stirring cavity and stirring at the temperature of 45 ℃;

(2) adding the phase A into a stirring cavity and stirring uniformly at 75-80 ℃;

(3) heating the substances in the stirring cavity to 80-85 ℃, adding the phase B, and stirring until the substances are completely dissolved;

(4) and observing the mixing degree of substances in the stirring cavity, and discharging after the substances are qualified.

Wherein a preparation facilities of amino acid accuse oil facial cleanser includes the motor, the motor runs through to rotate and is connected with the transmission shaft, transmission shaft left side outer lane is rotated the cover and is equipped with the stirring chamber, the fixed cover in stirring chamber outer lane is equipped with water bath heating chamber, water bath heating chamber both sides fixedly connected with heat insulation type water circulation pipeline, the fixed cover in transmission shaft left side outer lane is equipped with turbine formula agitator, turbine formula agitator is located inside the stirring chamber, its characterized in that: the left end of the stirring cavity is provided with an automatic liquid outlet mechanism, the automatic liquid outlet mechanism comprises an expansion air cavity, the lower end of the expansion air cavity is provided with a piston, a high-temperature liquid channel and a low-temperature liquid channel are arranged in the piston, the lower end of the piston is provided with a compression air cavity, the left end of the automatic liquid outlet mechanism is provided with a liquid storage mechanism, and the right end of the motor is provided with a heating mechanism.

Preferably, the piston slides between the expansion air cavity and the compression air cavity, the upper end of the high-temperature liquid channel penetrates through the top of the piston, the lower end of the high-temperature liquid channel penetrates through the left side of the piston, the low-temperature liquid channel and the high-temperature liquid channel are symmetrically distributed about the axis of the piston, the upper surface of the stirring cavity is symmetrically and fixedly provided with the high-temperature liquid cavity and the low-temperature liquid cavity, the upper surfaces of the high-temperature liquid cavity and the low-temperature liquid cavity are fixedly connected with two springs respectively, and the bottoms of the springs are fixedly connected with rubber gaskets.

Preferably, the side wall of the expansion air cavity is made of heat-conducting stainless steel metal, the interior of the expansion air cavity is filled with preheated heated expandable gas, in the initial state, the gas pressure in the expansion gas cavity is equal to the pressure of the compression gas cavity, and the upper surface of the piston is flush with the upper surfaces of the liquid cavity under high temperature and the liquid cavity under low temperature, the inner side walls of the liquid cavity at high temperature and the liquid cavity at low temperature are provided with through holes, the diameters of the liquid channel at high temperature and the liquid channel at low temperature are the same as the diameter of the through hole, the distance between the positions of the through holes of the liquid cavity at the high temperature and the liquid cavity at the low temperature in the axial direction of the piston is 10mm, through holes are arranged at the bottom of the liquid cavity at high temperature and the bottom of the liquid cavity at low temperature, the diameter of the rubber gasket is larger than that of the through holes, in an initial state, the spring is in a stretching state, and the upper surface of the rubber gasket is tightly attached to the lower surfaces of the high-temperature liquid cavity and the low-temperature liquid cavity.

Preferably, heating mechanism includes thermal-insulated formula heating pipe, the inside driving gear that is provided with of thermal-insulated formula heating pipe, driving gear back of the body cone portion rotates and is connected with the support, the support other end rotates and is connected with driven gear, the driving gear is connected with driven gear vertical meshing, driven gear left end fixedly connected with driven shaft, driven shaft other end fixedly connected with impulse type stirs the blender, the driven gear right-hand member is provided with the heating wire, heating wire right-hand member fixedly connected with circuit module, circuit module with thermal-insulated formula heating pipe runs through fixed connection.

Preferably, the left end of the heat insulation type heating pipe is connected with the transmission shaft in a penetrating and rotating mode, the driving gear is fixedly connected with the transmission shaft, the front end and the rear end of the heat insulation type heating pipe are respectively fixedly connected with the heat insulation type water circulation pipeline, and the water flow direction in the heat insulation type heating pipe is from the electric heating wire to the push type stirring device.

Preferably, the liquid storage mechanism comprises a liquid supplementing box, a connecting pipe is fixedly connected to the bottom of the liquid supplementing box, a liquid adding box is fixedly connected to the other end of the connecting pipe, and a hose is fixedly connected to the bottom of the liquid adding box.

Preferably, a through hole is formed in the bottom of the liquid adding tank, the liquid adding tank is communicated with the hose through the through hole, the liquid supplementing tank, the connecting pipe, the liquid adding tank and the hose are all provided with two hoses and are symmetrically distributed about the axis of the compressed air cavity, the right ends of the two hoses are fixedly connected with the liquid channel at high temperature and the liquid channel at low temperature respectively, and the length of the hose is larger than the maximum distance for the piston to move.

Preferably, the water bath heating chamber top is provided with the viewing aperture, mark the temperature registration on the viewing aperture, through the viewing aperture can observe the inside condition of stirring chamber.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the automatic liquid outlet mechanism is arranged, so that corresponding materials are automatically added and stirred under different temperature conditions, the stirring conditions of the materials are ensured, the component fusion reaction is facilitated, the product has an excellent decontamination effect, and the product is prevented from being polluted by impurities or bacteria without manual operation.

2. According to the invention, by arranging the heating mechanism and the water bath heating cavity, the water bath heating of the material being stirred is realized, the uniform heating of the material is ensured, the temperature environment of the material is accurately controlled, the more sufficient fusion of all components in the material is promoted, and the product effect is ensured.

3. The cocoamidopropyl betaine is added, so that the product has various effects of small irritation, high water solubility, stability to acid and alkali, more foams, strong detergency and good oil control capability, and the thickening property, flexibility, bactericidal property, antistatic property and hard water resistance of the product can be effectively improved, and the softness, conditioning and low-temperature stability of the product are ensured.

Drawings

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

FIG. 2 is a cross-sectional view of the overall construction of the present invention;

FIG. 3 is a structural cross-sectional view of a heating tunnel according to the present invention;

FIG. 4 is a structural sectional view of a heating mechanism of the present invention;

FIG. 5 is a schematic view of the propeller agitator of the present invention;

FIG. 6 is a structural sectional view of the automatic liquid outlet mechanism of the present invention;

FIG. 7 is a structural cross-sectional view of a reservoir mechanism of the present invention;

FIG. 8 is a structural sectional view of the present invention in a stirred phase C state;

FIG. 9 is a sectional view of the structure of the present invention in a state of being added to phase A;

FIG. 10 is a structural sectional view of the present invention in a state of being added with phase B;

in the figure: 1. a motor; 2. a drive shaft; 3. a heat-insulating water circulation pipe; 4. a water bath heating cavity; 5. a stirring chamber; 6. a turbine agitator; 7. a viewing port; 100. an automatic liquid outlet mechanism; 101. an expansion air cavity; 102. a liquid channel at high temperature; 103. a liquid channel at low temperature; 104. a piston; 105. a compressed air cavity; 106. liquid cavity under high temperature; 107. liquid cavity under low temperature; 108. a spring; 109. a rubber gasket; 200. a heating mechanism; 201. a heat-insulating heating pipe; 202. a driving gear; 203. a driven gear; 204. a support; 205. a driven shaft; 206. a propeller type blender; 207. an electric heating wire; 208. a circuit module; 300. a liquid storage mechanism; 301. a liquid replenishing box; 302. a connecting pipe; 303. a liquid adding tank; 304. a hose.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

The existing amino acid facial cleanser is difficult to thicken, has less foam, and cannot effectively control oil and clean, and the preparation process of the amino acid facial cleanser is stirred by adding different substances through manual operation under different temperature conditions, so that the temperature conditions cannot be ensured, and the pollution of impurities and bacteria is caused.

Referring to fig. 1 to 10, the present invention provides a technical solution: an amino acid oil-control facial cleanser, which comprises the following components in percentage by weight: 11% of deionized water, 50% of sodium methyl cocoyl taurate, 0.8% of glyceryl stearate SE, 1% of ethylene diamine tetraacetic acid, 1% of sodium chloride, 10% of glycerol, 1.2% of ethylene glycol distearate, 1% of dodecanoic acid and 1% of tetradecanoic acid, 10% of cocamidopropyl betaine, 0.6% of starch phosphate, 5% of glycerol, 2% of acrylic copolymer and 2% of deionized water are taken as a phase B, 0.1% of menthone, 1% of pentanediol, 1% of erythritol, 0.1% of water-soluble salicylic acid and 0.1% of azelaic acid diglycolic acid are taken as a phase C.

Wherein a preparation facilities of amino acid accuse oil facial cleanser includes motor 1, and motor 1 runs through to rotate and is connected with

transmission shaft

2, and 2 left side outer lanes of transmission shaft rotate the cover and are equipped with stirring chamber 5, and the fixed cover in stirring chamber 5 outer lane is equipped with water bath heating chamber 4, and water bath heating chamber 4 both sides fixedly connected with is thermal-insulated formula water circulating pipeline 3, and the fixed cover in 2 left side outer lanes of transmission shaft is equipped with turbine formula agitator 6, and turbine formula agitator 6 is located inside 5 stirring chambers, its characterized in that: the left end of the stirring cavity 5 is provided with an automatic liquid outlet mechanism 100, the automatic liquid outlet mechanism 100 comprises an expansion air cavity 101, the lower end of the expansion air cavity 101 is provided with a piston 104, a high-temperature liquid channel 102 and a low-temperature liquid channel 103 are arranged in the piston 104, the lower end of the piston 104 is provided with a compressed air cavity 105, the left end of the automatic liquid outlet mechanism 100 is provided with a liquid storage mechanism 300, and the right end of the motor 1 is provided with a heating mechanism 200.

In order to realize automatic addition of different substances for stirring under different temperature conditions, as shown in fig. 6, a piston 104 slides between an expansion air cavity 101 and a compression air cavity 105, the upper end of a high-temperature liquid channel 102 penetrates through the top of the piston 104, the lower end of the high-temperature liquid channel penetrates through the left side of the piston 104, a low-temperature liquid channel 103 and the high-temperature liquid channel 102 are symmetrically distributed around the axis of the piston 104, a high-temperature liquid cavity 106 and a low-temperature liquid cavity 107 are symmetrically and fixedly arranged on the upper surface of a stirring cavity 5, two springs 108 are fixedly connected to the inner upper surfaces of the high-temperature liquid cavity 106 and the low-temperature liquid cavity 107 respectively, and rubber gaskets 109 are fixedly connected to the bottoms of the springs 108. The side wall of the expansion air cavity 101 is made of heat-conductive stainless steel metal, the interior of the expansion air cavity 101 is filled with preheated heated expandable gas, the gas pressure in the expansion gas chamber 101 is equal to the pressure in the compression gas chamber 105 in the initial state, and the upper surface of the piston 104 is flush with the upper surfaces of the high-temperature liquid cavity 106 and the low-temperature liquid cavity 107, through holes are arranged on the inner side walls of the high-temperature liquid cavity 106 and the low-temperature liquid cavity 107, the diameters of the high-temperature liquid channel 102 and the low-temperature liquid channel 103 are the same as the diameter of the through holes, the distance between the positions of the through holes of the high-temperature liquid cavity 106 and the low-temperature liquid cavity 107 in the axial direction of the piston 104 is 10mm, through holes are arranged at the bottoms of the high-temperature liquid cavity 106 and the low-temperature liquid cavity 107, the diameter of the rubber gasket 109 is larger than the diameter of the through holes, in the initial state, the spring 108 is in a stretched state, and the upper surface of the rubber gasket 109 is tightly attached to the lower surfaces of the high-temperature liquid chamber 106 and the low-temperature liquid chamber 107.

In order to realize water bath heating of the stirring cavity, as shown in fig. 3-5, the heating mechanism 200 includes a heat insulation type heating pipe 201, a driving gear 202 is disposed inside the heat insulation type heating pipe 201, a back cone of the driving gear 202 is rotatably connected with a support 204, the other end of the support 204 is rotatably connected with a driven gear 203, the driving gear 202 is vertically engaged with the driven gear 203, a left end of the driven gear 203 is fixedly connected with a driven shaft 205, the other end of the driven shaft 205 is fixedly connected with a push type stirring device 206, a right end of the driven gear 203 is provided with a heating wire 207, a right end of the heating wire 207 is fixedly connected with a circuit module 208, and the circuit module 208 is fixedly connected with the heat insulation type heating pipe 201 in a penetrating manner. The left end of the heat insulation type heating pipe 201 is connected with the transmission shaft 2 in a penetrating and rotating mode, the driving gear 202 is fixedly connected with the transmission shaft 2, the front end and the rear end of the heat insulation type heating pipe 201 are respectively fixedly connected with the heat insulation type water circulation pipeline 3, and the direction of water flow inside the heat insulation type heating pipe 201 flows from the heating wire 207 to the push type stirring device 206.

It is worth noting that the liquid storage mechanism 300 comprises a liquid supplementing box 301, a connecting pipe 302 is fixedly connected to the bottom of the liquid supplementing box 301, a liquid adding box 303 is fixedly connected to the other end of the connecting pipe 302, and a hose 304 is fixedly connected to the bottom of the liquid adding box 303. The bottom of the liquid adding box 303 is provided with a through hole, the liquid adding box 303 is communicated with the hose 304 through the through hole, the liquid supplementing box 301, the connecting pipe 302, the liquid adding box 303 and the hose 304 are all provided with two pipes and symmetrically distributed about the axis of the compressed air cavity 105, the right ends of the two hoses 304 are fixedly connected with the liquid channel 102 at high temperature and the liquid channel 103 at low temperature respectively, and the length of the hose 304 is larger than the maximum distance of the movement of the piston 104.

In addition, be provided with viewing aperture 7 above water bath heating chamber 4, be marked with the temperature registration on viewing aperture 7, can observe the stirring chamber 5 internal conditions through viewing aperture 7.

In the actual preparation process, phase C is added into the stirring cavity 5, the motor 1 is started to drive the turbine stirrer 6 through the transmission shaft 2 rotationally connected with the motor to fully stir phase C, meanwhile, the motor 1 drives the driving gear 202 fixedly connected with the motor through the transmission shaft 2 to rotate, the driving gear 202 drives the bracket 204 vertically meshed with the driving gear to rotate, so that the driven gear 203 drives the push-type agitator 206 to rotate, the power supply of the driven gear 203 is turned on to heat the heating wire 207 fixedly connected with the driven gear, so that the heating wire 207 starts to heat water inside the heat insulation type heating pipe 201, the push-type agitator 206 can agitate water flow to enhance the turbulence degree inside the heat insulation type heating pipe 201 to fully heat the water, the temperature rises faster, in addition, the push-type agitator 206 can push the water flow in the heat insulation type heating pipe 201, the heat insulation type water circulation pipeline 3 and the water bath heating cavity 4 to flow anticlockwise, meanwhile, as the water flow direction is from the heating wire 207 to the propulsion type blender 206 inside the heat insulation type heating pipe 201, the water flow process encounters a barrier to the driven gear 203 and is divided to two sides, thereby increasing the heating time of the water flow at the position and increasing the water temperature faster, in addition, the heat insulation type heating pipe 201, the heat insulation type water circulation pipeline 3 and the outer wall of the water bath heating chamber 4 are both provided with a foam layer with better heat insulation effect, and the heat loss of the water flow reaching the water bath heating chamber 4 is less.

The outer walls of the expansion air cavity 101 and the stirring cavity 5 are both made of stainless steel with higher heat conductivity coefficient, water heated at the heating wire 207 is pushed by the push type agitator 206 to reach the water bath heating cavity 4 to heat the gas in the expansion air cavity 101 and the stirring substances in the stirring cavity 5 in a water bath manner, wherein the gas in the expansion air cavity 101 adopts gas with higher heat expansion coefficient such as argon, carbon dioxide and the like, the gas in the expansion air cavity 101 is heated and expanded by the water in the water bath heating cavity 4 to enable the piston 104 with the initial position on the upper surfaces of the high-temperature liquid cavity 106 and the low-temperature liquid cavity 107 to move downwards, the hoses 304 fixedly connected with the high-temperature liquid channel 102 and the low-temperature liquid channel 103 are respectively lengthened, the temperature of the heating wire 207 is increased through the control circuit module 208 to enable the temperature of the water in the water bath heating cavity 4 to be increased, and when the temperature reaches 75 ℃, the gas pressing piston 104 in the expansion air cavity 101 enables the low-temperature liquid channel 103 and the low-temperature liquid cavity 103 inside the piston 104 to be lengthened 107, the phase A entering the low-temperature liquid channel 103 from the liquid supplementing tank 301 through the connecting pipe 302 and the hose 304 enters the low-temperature liquid cavity 107, the pressure pressed on the rubber gasket 109 is increased along with the increase of the phase A substance in the low-temperature liquid cavity 107, finally the rubber gasket 109 in the initial state clings to the lower surface of the low-temperature liquid cavity 107 to move downwards, the phase A in the low-temperature liquid cavity 107 enters the stirring cavity 5 through a gap formed by the lower surface of the low-temperature liquid cavity 107 and the rubber gasket 109, the temperature of the heating wire 207 is continuously increased under the condition of water heating in the water bath heating cavity 4, the temperature in the water bath heating cavity 4 is increased, when the temperature reaches 80 ℃, the gas pressing piston 104 in the expansion gas cavity 101 enables the high-temperature liquid channel 102 in the piston 104 to be communicated with the through hole in the side wall of the high-temperature liquid cavity 106, meanwhile, the liquid channel 103 at low temperature is separated from the through hole on the liquid cavity 107 at low temperature, the phase B entering the liquid channel 102 at high temperature from the liquid supplementing tank 301 through the connecting pipe 302 and the hose 304 enters the liquid cavity 106 at high temperature, the pressure pressed down on the rubber gasket 109 is increased along with the increase of the phase A substance in the liquid cavity 106 at high temperature, finally the rubber gasket 109 at the lower surface of the liquid cavity 107 at low temperature is clung to the initial state to move downwards, the phase B in the liquid cavity 106 at high temperature enters the stirring cavity 5 through the gap formed by the lower surface of the liquid cavity 106 at high temperature and the rubber gasket 109, the mixture of the phase B and the phase A is kept at 80-85 ℃ under the condition of heating water in the water bath heating cavity 4, the surface part of the water bath heating cavity 4 is made of glass, the observation port 7 is arranged on the glass, the observation port 7 is marked with temperature indication number according to the moving position of the piston 104, the water temperature in the water bath heating cavity 4 is further controlled, the stirring condition in the stirring cavity 5 can be observed through the observation port 7, and the discharging can be carried out after the discharging is qualified.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims

1. The preparation method of the amino acid oil-control facial cleanser is characterized by comprising the following steps of:

s1, adding the phase C into a stirring cavity and stirring at the temperature of 45 ℃;

s2, adding the phase A into a stirring cavity and stirring uniformly at 75-80 ℃;

s3, heating the substances in the stirring cavity to 80-85 ℃, adding the phase B, and stirring until the substances are completely dissolved;

s4, observing the mixing degree of the substances in the stirring cavity, and discharging after the substances are qualified;

the preparation method of the amino acid oil-control facial cleanser also comprises an amino acid oil-control facial cleanser preparation device: amino acid accuse oil face cream preparation facilities includes motor (1), motor (1) runs through to rotate and is connected with transmission shaft (2), transmission shaft (2) left side outer lane is rotated the cover and is equipped with stirring chamber (5), the fixed cover in stirring chamber (5) outer lane is equipped with water bath heating chamber (4), water bath heating chamber (4) both sides fixedly connected with heat insulation type water circulating pipe way (3), the fixed cover in transmission shaft (2) left side outer lane is equipped with turbine formula agitator (6), turbine formula agitator (6) are located inside stirring chamber (5), its characterized in that: the left end of the stirring cavity (5) is provided with an automatic liquid outlet mechanism (100), the automatic liquid outlet mechanism (100) comprises an expansion air cavity (101), the lower end of the expansion air cavity (101) is provided with a piston (104), a high-temperature liquid channel (102) and a low-temperature liquid channel (103) are arranged inside the piston (104), the lower end of the piston (104) is provided with a compression air cavity (105), the left end of the automatic liquid outlet mechanism (100) is provided with a liquid storage mechanism (300), and the right end of the motor (1) is provided with a heating mechanism (200).

2. The preparation method of the amino acid oil-control facial cleanser according to claim 1, characterized by comprising the following steps: a piston (104) of the amino acid oil-control facial cleanser preparation device slides between an expansion air cavity (101) and a compression air cavity (105), the upper end of a liquid channel (102) at high temperature penetrates through the top of the piston (104), the lower end of the liquid channel penetrates through the left side of the piston (104), the liquid channel (103) at low temperature and the liquid channel (102) at high temperature are symmetrically distributed about the axis of the piston (104), a liquid cavity (106) at high temperature and a liquid cavity (107) at low temperature are symmetrically and fixedly arranged on the upper surface of a stirring cavity (5), two springs (108) are fixedly connected to the inner upper surfaces of the liquid cavity (106) at high temperature and the liquid cavity (107) at low temperature respectively, and rubber gaskets (109) are fixedly connected to the bottoms of the springs (108).

3. The preparation method of the amino acid oil-control facial cleanser according to claim 2, characterized by comprising the following steps: the side wall of an expansion air cavity (101) of the amino acid oil-control facial cleanser preparation device is made of heat-conducting stainless steel metal, the expansion air cavity (101) is filled with preheated heated expandable gas, the gas pressure in the expansion air cavity (101) is equal to the pressure of a compression air cavity (105) in an initial state, the upper surface of a piston (104) is flush with the upper surfaces of a high-temperature liquid cavity (106) and a low-temperature liquid cavity (107), through holes are formed in the inner side walls of the high-temperature liquid cavity (106) and the low-temperature liquid cavity (107), the diameters of the high-temperature liquid channel (102) and the low-temperature liquid channel (103) are the same as the diameter of the through holes, the distance between the positions of the through holes of the high-temperature liquid cavity (106) and the low-temperature liquid cavity (107) in the axial direction of the piston (104) is 10mm, and through holes are formed in the bottoms of the high-temperature liquid cavity (106) and the low-temperature liquid cavity (107), the diameter of the rubber gasket (109) is larger than that of the through hole, the spring (108) is in a stretching state in an initial state, and the upper surface of the rubber gasket (109) is tightly attached to the lower surfaces of the liquid cavity (106) at high temperature and the liquid cavity (107) at low temperature.

4. The preparation method of the amino acid oil-control facial cleanser according to claim 3, characterized by comprising the following steps: heating mechanism (200) of amino acid accuse oil facial cleanser preparation facilities includes thermal-insulated formula heating pipe (201), thermal-insulated formula heating pipe (201) inside is provided with driving gear (202), driving gear (202) back of the body cone portion rotates and is connected with support (204), support (204) other end rotates and is connected with driven gear (203), driving gear (202) and driven gear (203) vertical toothing are connected, driven gear (203) left end fixedly connected with driven shaft (205), driven shaft (205) other end fixedly connected with impulse type stirs muddy ware (206), driven gear (203) right-hand member is provided with heating wire (207), heating wire (207) right-hand member fixedly connected with circuit module (208), circuit module (208) with thermal-insulated formula heating pipe (201) runs through fixed connection.

5. The preparation method of the amino acid oil-control facial cleanser according to claim 4, characterized by comprising the following steps: the left end of a heat insulation type heating pipe (201) of the amino acid oil control facial cleanser preparation device is connected with a transmission shaft (2) in a penetrating and rotating mode, a driving gear (202) is fixedly connected with the transmission shaft (2), the front end and the rear end of the heat insulation type heating pipe (201) are respectively fixedly connected with a heat insulation type water circulation pipeline (3), and the direction of water flow inside the heat insulation type heating pipe (201) is from an electric heating wire (207) to a push type stirring mixer (206).

6. The preparation method of the amino acid oil-control facial cleanser according to claim 5, characterized by comprising the following steps: the liquid storage mechanism (300) of the amino acid oil-control facial cleanser preparation device comprises a liquid supplementing box (301), the bottom of the liquid supplementing box (301) is fixedly connected with a connecting pipe (302), the other end of the connecting pipe (302) is fixedly connected with a liquid adding box (303), and the bottom of the liquid adding box (303) is fixedly connected with a hose (304).

7. The preparation method of the amino acid oil-control facial cleanser according to claim 6, characterized by comprising the following steps: a through hole is formed in the bottom of a liquid adding box (303) of the amino acid oil-control facial cleanser preparation device, the liquid adding box (303) is communicated with a hose (304) through the through hole, two liquid supplementing boxes (301), a connecting pipe (302), two liquid adding boxes (303) and the hose (304) are arranged and symmetrically distributed relative to the axis of the compressed air cavity (105), the right ends of the two hoses (304) are fixedly connected with the high-temperature liquid channel (102) and the low-temperature liquid channel (103) respectively, and the length of the hose (304) is larger than the maximum moving distance of the piston (104).

8. The preparation method of the amino acid oil-control facial cleanser according to claim 7, characterized by comprising the following steps: amino acid accuse oil facial cleanser preparation facilities's water bath heating chamber (4) top is provided with viewing aperture (7), mark the temperature registration on viewing aperture (7), through viewing aperture (7) can be observed stirring chamber (5) internal conditions.

9. The amino acid oil-controlling facial cleanser prepared by the amino acid oil-controlling facial cleanser preparation method according to claim 8, wherein the amino acid oil-controlling facial cleanser comprises the following components: 11% of deionized water, 50% of sodium methyl cocoyl taurate, 0.8% of glyceryl stearate SE, 1% of disodium ethylenediamine tetraacetate, 1% of sodium chloride, 10% of glycerin, 1.2% of ethylene glycol distearate, 1% of dodecanoic acid and 1% of tetradecanoic acid as phase A, 10% of cocamidopropyl betaine, 0.6% of starch phosphate, 5% of glycerin, 2% of acrylic copolymer and 2% of deionized water as phase B, 0.1% of carithazone, 1% of pentanediol, 1% of erythritol, 0.1% of water-soluble salicylic acid and 0.1% of diglycolic acid as phase C.