CN114533577A

CN114533577A - Amino acid shampoo and preparation method thereof

Info

Publication number: CN114533577A
Application number: CN202210171152.2A
Authority: CN
Inventors: 于凯
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-02-23
Filing date: 2022-02-23
Publication date: 2022-05-27

Abstract

The invention relates to the field of shampoo preparation, in particular to amino acid shampoo and a preparation method thereof, wherein by using a preparation device, the shampoo is not required to be transferred and can be directly bottled, so that the preparation efficiency is improved; the shampoo comprises the following components in parts by weight: 1-5% of butanediol, 0.1-3% of glycine, 10-20% of surfactant, 0.1-0.5% of citric acid, 0.1-0.5% of essence and 75-92% of water; the method comprises the following steps: step one, adding butanediol, glycine, a surfactant and water into a preparation device, heating and uniformly stirring; step two, cooling the mixed liquid obtained in the step one, adding citric acid and essence, and uniformly stirring to obtain amino acid shampoo; step three, quantitatively discharging the amino acid shampoo and bottling by using a preparation device; and step four, packaging the bottled shampoo and putting the packaged shampoo into a warehouse.

Description

Amino acid shampoo and preparation method thereof

Technical Field

The invention relates to the field of shampoo preparation, and particularly relates to amino acid shampoo and a preparation method thereof.

Background

The shampoo is a living product with the functions of protecting hair and removing dandruff. Shampoo contains a plurality of components, and the combined action of the components can play a role in cleaning scalp and hair. The surface active agent is the most effective component in the shampoo, and has the function of cleaning hair and scalp, when the shampoo is prepared, the raw materials are generally uniformly mixed to obtain the shampoo, and then the shampoo is bottled and packaged for sale.

However, the existing arrangement only has the function of mixing raw materials when preparing shampoo, and during bottling, the shampoo needs to be transferred to bottling equipment for bottling, which affects the preparation efficiency of the shampoo.

Disclosure of Invention

The invention aims to provide amino acid shampoo and a preparation method thereof.

The purpose of the invention is realized by the following technical scheme:

a preparation method of amino acid shampoo comprises the following steps:

step one, adding butanediol, glycine, a surfactant and water into a preparation device, heating and uniformly stirring;

step two, cooling the mixed solution obtained in the step one, adding citric acid and essence, and uniformly stirring to obtain the amino acid shampoo;

step three, quantitatively discharging the amino acid shampoo and bottling by using a preparation device;

step four, packaging the bottled shampoo and putting the packaged shampoo in storage.

The heating temperature in the first step is 60-80 ℃.

The surfactant is composed of cocoyl propyl betaine and sodium lauroyl sarcosinate according to the weight ratio of 3: 1.

The preparation device comprises a conical wall cylinder, wherein a base is arranged at the lower end of the conical wall cylinder, a mounting frame is arranged at the upper end of the conical wall cylinder, a central pipe is arranged at the center of the base in a rotating mode, a stirring mechanism is arranged outside the central pipe, and a discharge mechanism for discharging shampoo is arranged in the central pipe.

The shampoo prepared by the preparation method of the amino acid shampoo comprises the following components in parts by weight: 1 to 5 percent of butanediol, 0.1 to 3 percent of glycine, 10 to 20 percent of surfactant, 0.1 to 0.5 percent of citric acid, 0.1 to 0.5 percent of essence and 71 to 92 percent of water.

Drawings

FIG. 1 is a schematic flow chart of a preparation method of an amino acid shampoo;

FIG. 2 is a schematic view of the overall structure of the production apparatus;

FIG. 3 is a schematic view of a part of the construction of a production apparatus;

FIG. 4 is a schematic structural view of a conical wall cylinder;

FIG. 5 is a schematic structural view of a center tube;

FIG. 6 is a schematic cross-sectional view of a center tube;

FIG. 7 is a schematic view of the structure of the arc plate;

FIG. 8 is a schematic view of an embodiment of a shampoo discharge;

FIG. 9 is a schematic view of the piston construction;

FIG. 10 is a schematic view of an embodiment of a shampoo blender;

FIG. 11 is a schematic structural view of a ring frame;

fig. 12 is a schematic view of the structure of the conveyance tray.

In the figure:

a tapered-wall cylinder 101; a base 102; a mounting frame 103; a center tube 201; a communication hole 202; a C-shaped plate 203; a circular plate 204; a flow-through pipe 205; an exhaust pipe 206; a plugging ball 207; a plugging spring 208; an arc plate 301; a square column frame 302; a spring II 303; stirring the small plate 304; a piston 401; a connection plate 402; a linkage plate 403; an arm link shaft 404; a power wheel 405; a stopper rod 406; a control round pipe 501; a stirring plate 502; a circular ring frame 503; a stirring disk 504; a dial plate 505; a worm 506; a driving wheel 507; a retainer ring 508; a toothed ring 509; a spring I510; a conveyance tray 601; a placement seat 602; a convex edge wheel 603; a single edge wheel 604.

Detailed Description

As shown in fig. 1:

a preparation method of amino acid shampoo comprises the following steps:

and step four, packaging the bottled shampoo and putting the packaged shampoo into a warehouse.

The heating temperature in the first step is 80 ℃.

As shown in fig. 2-12:

the preparation device comprises a conical wall cylinder 101 and a base 102, wherein the base 102 is arranged at the lower end of the conical wall cylinder 101, a mounting frame 103 is fixed at the upper end of the conical wall cylinder 101, a central tube 201 rotates at the center of the base 102, and a stirring mechanism is connected to the outer side of the central tube 201 and used for connecting a discharge mechanism for discharging shampoo into the central tube 201.

When the shampoo is used, the raw materials are added into the mixing barrel, the raw materials are heated and kept warm through a heating plate arranged on the conical wall barrel 101, then the raw materials are stirred and mixed through a stirring mechanism, the heat preservation is stopped after the raw materials are uniformly stirred, the citric acid and the essence are added into the mixing barrel after the mixed liquid is cooled, the mixed liquid is continuously mixed and stirred through the stirring mechanism, and the shampoo is obtained after the mixed liquid is uniformly stirred;

then, the shampoo in the mixing barrel is quantitatively discharged and bottled through the central tube 201 by a discharging mechanism, and then the bottled shampoo is taken down by the device, and finally packaged and put in storage.

As shown in fig. 2-12:

the discharge mechanism comprises a piston 401 and a connecting plate 402, the piston 401 slides in the central tube 201, the connecting plate 402 is connected to the upper end of the piston 401, a plurality of communication holes 202 are arranged at the lower part of the central tube 201, and the opening and closing mechanism is fixed at the lower end of the central tube 201.

When the shampoo is discharged, the control connecting plate 402 drives the piston 401 to ascend in the central tube 201, so that a low-pressure space is formed between the piston 401 and the switch mechanism in the central tube 201 until the piston 401 ascends and slides into the communicating hole 202, the communicating hole 202 is communicated with the low-pressure space, the shampoo flows into the low-pressure space, when the piston 401 moves towards the switch mechanism, the piston 401 crosses the communicating hole 202, the shampoo between the communicating hole 202 and the switch mechanism is squeezed out of the switch mechanism to be bottled, and the volume between the communicating hole 202 and the switch mechanism is fixed, so that the quantitative bottling of the device is formed.

As shown in fig. 2-12:

the opening and closing mechanism comprises a circular plate 204, a circulation pipe 205 and a blocking ball 207, wherein the circular plate 204 is fixed at the lower end of a central pipe 201, a central hole is formed in the circular plate 204, the circulation pipe 205 is fixed at the central hole of the circular plate 204, a discharge pipe 206 is fixed at the lower end of the circulation pipe 205, the blocking ball 207 slides at the center of the discharge pipe 206, a blocking spring 208 is arranged between the blocking ball 207 and the discharge pipe 206, and the blocking ball 207 tightly pushes against the central hole in the circular plate 204.

When the piston 401 is over the communication hole 202 and the shampoo between the communication hole 202 and the switch mechanism is squeezed, the shampoo in the space is squeezed to squeeze the blocking ball 207 which is tightly pressed against the central hole, so that the blocking ball 207 squeezes the blocking spring 208 to separate from the central hole, the shampoo flows into the circulating tube 205 from the central hole, is discharged through the discharge tube 206 and is bottled;

when the piston 401 completely extrudes the shampoo in the central tube 201, the extrusion force applied to the blocking ball 207 disappears, and the elastic force of the blocking spring 208 pushes the blocking ball 207 back to the central hole to continue to block the central hole, so that the situation that the pumping back is formed when the piston 401 rises to affect the bottling is avoided.

As shown in fig. 2-12:

rabbling mechanism includes control pipe 501, stirring board 502 and ring frame 503, and control pipe 501 cooperation slides on center tube 201, and a plurality of stirring boards 502 are fixed on control pipe 501, and ring frame 503 is fixed in the upper end of a plurality of stirring boards 502, is connected with three gag lever post 406 on the ring frame 503, and power wheel 405 fixes in the upper end of center tube 201, and power wheel 405 rotates to be connected on mounting bracket 103, and three gag lever post 406 is connected on power wheel 405.

During the stirring, carry out the transmission to power wheel 405 through installing the motor on mounting bracket 103 to make power wheel 405 drive center tube 201 and rotate, drive three stirring board 502 through gag lever post 406 simultaneously and rotate, form the stirring to the raw materials then, make raw materials misce bene.

Further, in the above-mentioned case,

one of the limit rods 406 is provided with threads and is in threaded connection with the circular ring frame 503, and the upper end of the control circular pipe 501 is provided with a sliding blocking edge matched with the communicating hole 202.

When raw materials are added, the raw materials are prevented from flowing into the central pipe 201 from the communicating hole 202, and then the stirring and mixing efficiency of the raw materials is influenced, so that the limiting rods 406 which drive the threads rotate to perform thread transmission on the circular ring frame 503, the circular ring frame 503 slides on the other two limiting rods 406 and drives the control circular pipes 501 to move upwards until the plugging edges on the control circular pipes 501 move to the uppermost end of the communicating hole 202, and thus the plugging of the communicating hole 202 is formed, and the raw materials are prevented from flowing into the central pipe 201 and influencing stirring and mixing;

after the mixing is finished and the shampoo is discharged, the position of the control circular tube 501 can be adjusted through the limiting rod 406 which drives the threads, so that the size of the communication hole 202 is adjusted through the control circular tube 501, namely, the space between the communication hole 202 and the switch mechanism is changed, when the piston 401 moves downwards to the plugging edge, the plugging edge and the control circular tube 501 form plugging on the communication hole 202, the piston 401 starts to extrude and discharge the shampoo between the communication hole 202 and the switch mechanism, and therefore the aim of adjusting the amount of the shampoo discharged by the device each time is achieved, and the device can be suitable for containing bottles with different capacities.

As shown in fig. 2-12:

the stirring plate 502 has a stirring disk 504 rotating thereon.

Through the setting of stirring plectane 504, increased the stirring area of stirring board 502, improved stirring efficiency then.

Further, a plurality of stirring plates 505 are fixed on the stirring circular plates 504, a plurality of worms 506 are rotated on the circular ring frame 503, the plurality of worms 506 are respectively meshed with the plurality of stirring circular plates 504 and are in transmission connection, transmission wheels 507 are fixed at the upper ends of the plurality of worms 506, the plurality of transmission wheels 507 are in transmission connection with a toothed ring 509, the toothed ring 509 slides on the mounting frame 103, a spring I510 is arranged between the toothed ring 509 and the mounting frame 103, retaining rings 508 are arranged at the lower ends of the plurality of transmission wheels 507, and the toothed ring 509 tightly supports the plurality of retaining rings 508.

During stirring, the circular ring frame 503 drives the worm 506 to rotate around the central tube 201, so that the worm 506 and the gear ring 509 perform meshing transmission, the worm 506 rotates, when the worm 506 rotates, the stirring circular plate 504 is transmitted, the stirring circular plate 504 rotates on the stirring plate 502, the stirring plate 505 is driven to rotate along with the stirring circular plate 504, the raw materials are further stirred, and the stirring efficiency is further improved.

As shown in fig. 2-12:

the preparation device further comprises a linkage plate 403, an arm connecting shaft 404, a conveying disc 601, a placing seat 602, a rib wheel 603 and a single rib wheel 604, wherein the arm connecting shaft 404 rotates on the mounting frame 103, one end of the linkage plate 403 is rotatably connected with the arm connecting shaft 404, the other end of the linkage plate 403 is rotatably connected with the connecting plate 402, the single rib wheel 604 rotates on the conical wall cylinder 101 and is in transmission connection with the arm connecting shaft 404, the rib wheel 603 rotates on the conical wall cylinder 101 and is in transmission connection with the single rib wheel 604, the conveying disc 601 is fixed at the lower end of the rib wheel 603, and the conveying disc 601 is uniformly provided with the placing seats 602.

During bottling, the driving motor arranged on the mounting frame 103 is started to drive the connecting arm shaft 404, so that the connecting arm shaft 404 drives the connecting plate 402 to move up and down through the linkage plate 403, and then drives the piston 401 to move up and down in a reciprocating manner, so that the connecting arm shaft 404 rotates for a circle, and the piston 401 performs one reciprocating movement, namely one liquid discharge and bottling is completed;

through the transmission connection of the connecting arm shaft 404 and the single-edge wheel 604, when the connecting arm shaft 404 rotates for one circle, the single-edge wheel 604 is driven to rotate for a circle, the single edge on the single-edge wheel 604 drives the plurality of edges on the rib wheel 603, so that the rib wheel 603 rotates for an angle of one edge, the conveying disc 601 is driven to rotate for a position of the placing seat 602, thereby forming a circle of rotation of the connecting arm shaft 404, completing one liquid discharge and bottling of the piston 401, performing one transposition of the placing seat 602 on the conveying disc 601, that is, when filling, filling bottles are placed on the placing seat 602, when the piston 401 rises, the single-edge wheel 604 drives the convex-edge wheel 603 to drive the conveying disc 601 to move the empty filling bottles to the lower end of the discharge pipe 206, and remains still until the piston 401 descends, pressing the shampoo into the filling bottle, the piston 401 ascends again, the transfer tray 601 moves the new empty filling bottle to the lower end of the discharge pipe 206 again, thus forming continuous and uninterrupted filling.

As shown in fig. 2-12:

the lower extreme of center tube 201 lateral wall is equipped with a plurality of C boards 203, is equipped with the opening on the center tube 201 in the C board 203, and sliding connection has square column frame 302 on the C board 203, and the inboard of square column frame 302 is equipped with the arc board 301 that corresponds with the opening, and the outer end of square column frame 302 is equipped with the spring II 303 of the tight C board 203 in top, and the outer end of square column frame 302 is equipped with stirring platelet 304.

The arc plate 301 blocks a corresponding opening in the C-shaped plate 203 through the elastic force of the spring II 303, when the piston 401 rises, the air pressure in the central tube 201 is reduced, so that the arc plate 301 moves into the central tube 201, the corresponding opening in the C-shaped plate 203 is opened, shampoo flows into the central tube 201 from the opening, after the air pressure in the central tube 201 is balanced, the arc plate 301 continues to block the opening through the elastic force of the spring II 303, and the phenomenon that the central tube 201 cannot be filled with the shampoo when the piston 401 descends during liquid drainage to affect quantitative liquid drainage of the device is effectively avoided;

and be equipped with stirring platelet 304 in the outer end of square column frame 302, when the stirring, stirring platelet 304 rotates along with center tube 201, forms the stirring to the raw materials, further improves stirring efficiency.

The shampoo prepared by the preparation method of the amino acid shampoo comprises the following components in parts by weight: 5% of butanediol, 3% of glycine, 20% of surfactant, 0.5% of citric acid, 0.5% of essence and 71% of water.

Claims

1. A preparation method of amino acid shampoo is characterized by comprising the following steps: the method comprises the following steps:

2. The preparation method of the amino acid shampoo as claimed in claim 1, wherein the preparation method comprises the following steps: the heating temperature in the first step is 60-80 ℃.

3. The preparation method of the amino acid shampoo as claimed in claim 1, wherein the preparation method comprises the following steps: the surfactant is composed of cocoyl propyl betaine and sodium lauroyl sarcosinate according to the weight ratio of 3: 1.

4. The preparation method of the amino acid shampoo as claimed in claim 1, wherein the preparation method comprises the following steps: the preparation device comprises a conical wall cylinder (101) with a base (102) arranged at the lower end, a mounting frame (103) is arranged at the upper end of the conical wall cylinder (101), a central pipe (201) is arranged at the center of the base (102) in a rotating mode, a stirring mechanism is arranged outside the central pipe (201), and a discharge mechanism for discharging shampoo is arranged in the central pipe (201).

5. The preparation method of the amino acid shampoo according to claim 4, characterized by comprising the following steps: the discharging mechanism comprises a piston (401) sliding in a central pipe (201), the upper end of the piston (401) is connected with a connecting plate (402), a plurality of communicating holes (202) are formed in the lower portion of the central pipe (201), and a switch mechanism is fixed at the lower end of the central pipe (201).

6. The preparation method of the amino acid shampoo as claimed in claim 5, wherein the preparation method comprises the following steps: the opening and closing mechanism comprises a circular plate (204) with a central hole, the circular plate (204) is fixed at the lower end of a central pipe (201), a circulating pipe (205) is fixed at the central hole of the circular plate (204), a discharge pipe (206) is fixed at the lower end of the circulating pipe (205), a blocking ball (207) slides at the center of the discharge pipe (206), a blocking spring (208) is arranged between the blocking ball (207) and the discharge pipe (206), and the blocking ball (207) tightly pushes the central hole in the circular plate (204).

7. The preparation method of the amino acid shampoo as claimed in claim 4, wherein the preparation method comprises the following steps: rabbling mechanism slides control pipe (501) on center tube (201) including the cooperation, is fixed with a plurality of stirring boards (502) on control pipe (501), and the upper end of a plurality of stirring boards (502) is fixed with ring frame (503), is connected with three gag lever post (406) on ring frame (503), and the upper end of center tube (201) is fixed with power wheel (405), and power wheel (405) rotate with mounting bracket (103) to be connected, and three gag lever post (406) are connected on power wheel (405).

8. The preparation method of the amino acid shampoo as claimed in claim 7, wherein the preparation method comprises the following steps: one of the limiting rods (406) is provided with threads and is in threaded connection with the circular ring frame (503), and the upper end of the control circular pipe (501) is provided with a sliding plugging edge matched with the communicating hole (202).

9. The preparation method of the amino acid shampoo as claimed in claim 7, wherein the preparation method comprises the following steps: the stirring plate (502) is provided with a stirring circular plate (504) in a rotating way.

10. Shampoo prepared by using the preparation method of amino acid shampoo as claimed in claim 1, characterized in that: the shampoo comprises the following components in parts by weight: 1 to 5 percent of butanediol, 0.1 to 3 percent of glycine, 10 to 20 percent of surfactant, 0.1 to 0.5 percent of citric acid, 0.1 to 0.5 percent of essence and 71 to 92 percent of water.