阅读说明：本技术 一种去屑洗发水及其加工方法 (Anti-dandruff shampoo and processing method thereof ) 是由 于凤红 于 2021-09-29 设计创作，主要内容包括：本发明涉及洗发水生产技术领域,更具体的说是一种去屑洗发水及其加工方法；该方法包括以下步骤：步骤一：利用橡胶为原料制作出具有弹性的橡胶颗粒；步骤二：将橡胶颗粒加工为球型结构,去除边角；步骤三：把橡胶颗粒加入到原料当中,得到混合物A；步骤四：对混合物A在常温状态下以40～60r/min的速度搅拌0.5～1小时之后,获得去屑洗发水；所述去屑洗发水由以下质量份数的原料组成：氨基酸2～3份；牛奶6～8份；芦荟精华液3～5份；皂角提取物4～8份；芳香剂2～4份；乳化剂2～5份；二硫化硒5～7份；橡胶颗粒5～7份；去离子水8～12份；可以在彻底清除头皮屑的同时对头皮进行按摩。(The invention relates to the technical field of shampoo production, in particular to anti-dandruff shampoo and a processing method thereof; the method comprises the following steps: the method comprises the following steps: preparing elastic rubber particles by using rubber as a raw material; step two: processing rubber particles into a spherical structure, and removing corners; step three: adding rubber particles into the raw materials to obtain a mixture A; step four: stirring the mixture A at the normal temperature for 0.5-1 hour at the speed of 40-60 r/min to obtain anti-dandruff shampoo; the anti-dandruff shampoo is prepared from the following raw materials in parts by weight: 2-3 parts of amino acid; 6-8 parts of milk; 3-5 parts of aloe essence; 4-8 parts of a saponin extract; 2-4 parts of an aromatic; 2-5 parts of an emulsifier; 5-7 parts of selenium disulfide; 5-7 parts of rubber particles; 8-12 parts of deionized water; can massage scalp while thoroughly removing dandruff.)

1. The processing method of the anti-dandruff shampoo is characterized by comprising the following steps:

the method comprises the following steps: preparing elastic rubber particles by using rubber as a raw material;

step two: processing rubber particles into a spherical structure;

step three: adding rubber particles into the raw materials to obtain a mixture A;

step four: and stirring the mixture A at the normal temperature for 0.5-1 hour at the speed of 40-60 r/min to obtain the anti-dandruff shampoo.

2. The method for processing an anti-dandruff shampoo as claimed in claim 1, wherein: the anti-dandruff shampoo processing method further relates to an anti-dandruff shampoo processing device which comprises a rounding portion and a granulating portion, wherein the rounding portion is arranged on the granulating portion and comprises a disc (01), a right-angle shaft (02) and a circular groove (09), the right-angle shaft (02) is of a Z-shaped structure, the lower end of the right-angle shaft (02) is fixed at the center of the disc (01) and drives the disc (01) to rotate by taking the upper end of the right-angle shaft (02) as an axis, and an inner cavity used for rounding rubber particles is arranged between the disc (01) and the circular groove (09).

3. The method for processing an anti-dandruff shampoo as claimed in claim 2, wherein: the device further comprises a rotating shaft (03) and a middle frame (04), the rotating shaft (03) is connected to the middle frame (04) in a switching mode, the lower end of the rotating shaft (03) is connected with the upper end of the right-angle shaft (02) in a sliding mode, and a spring I is arranged between the lower end of the rotating shaft (03) and the upper end of the right-angle shaft (02).

4. The method for processing an anti-dandruff shampoo as claimed in claim 2, wherein: the edge of the disc (01) is provided with an inclined surface (07).

5. The method for processing an anti-dandruff shampoo as claimed in claim 2, wherein: the device also comprises a bracket (08), wherein the bracket (08) is provided with an air cylinder (05), and an air cylinder rod of the air cylinder (05) is fixedly connected to the middle frame (04).

6. The method for processing an anti-dandruff shampoo as claimed in claim 3, wherein: the middle frame (04) is connected with a circular ring (06) in a sliding mode, a spring II is arranged between the circular ring (06) and the middle frame (04), and the circular ring (06) is located above the disc (01).

7. Method for processing an anti-dandruff shampoo according to any of claims 2 to 6, characterized in that: pelletization portion includes material pipe (17), liter throat (20) and blade (21), and blade (21) rotate in material pipe (17) below, and material pipe (17) bottom is provided with the round hole, and liter throat (20) rigid coupling is on material pipe (17) top, and the rigid coupling has clamp plate (19) on liter throat (20), and clamp plate (19) can reciprocate in material pipe (17), still be provided with check valve (18) on material pipe (17).

8. The method for processing an anti-dandruff shampoo as claimed in claim 7, wherein: the granulating part further comprises a flat plate (10), a screw rod (14) and a bottom frame (15), the circular groove (09) rotates on the flat plate (10), two sliding sleeves (11) are arranged on the flat plate (10), one of the sliding sleeves (11) is in threaded connection with the screw rod (14), the screw rod (14) rotates on the bottom frame (15), the other sliding sleeve (11) slides on the bottom frame (15), and the material pipe (17) and the support (08) are fixedly connected on the bottom frame (15).

9. The method for processing an anti-dandruff shampoo as claimed in claim 8, wherein: pelletization portion still includes serration plate (12) and kicking block (16), kicking block (16) sliding connection on chassis (15), is provided with spring III between kicking block (16) and chassis (15), and sliding sleeve (11) bottom is provided with serration plate (12), circular slot (09) bottom still is provided with cushion (13).

10. The anti-dandruff shampoo processed by the anti-dandruff shampoo processing method according to claim 1, characterized by comprising the following raw materials in parts by weight: 2-3 parts of amino acid; 6-8 parts of milk; 3-5 parts of aloe essence; 4-8 parts of a saponin extract; 2-4 parts of an aromatic; 2-5 parts of an emulsifier; 5-7 parts of selenium disulfide; 5-7 parts of rubber particles; 8-12 parts of deionized water.

Technical Field

The invention relates to the technical field of shampoo production, in particular to anti-dandruff shampoo and a processing method thereof.

Background

Shampoo, also known as shampoo and shampoo, is a hair washing product which is most widely applied and is one of the most commonly used hair cosmetics. Used for cleaning human body secreted oil, sweat scale, cells dropped from scalp, foreign dust, microorganism, and residues and unpleasant odor of styling product, etc. attached to scalp and hair, and keeping scalp and hair clean and beautiful; however, the existing anti-dandruff shampoo in the market cannot thoroughly clean dandruff generated on the scalp.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a preparation process of a liquid organic fertilizer, which can thoroughly remove dandruff.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a processing method of anti-dandruff shampoo comprises the following steps:

the method comprises the following steps: preparing elastic rubber particles by using rubber as a raw material;

step two: processing rubber particles into a spherical structure;

step three: adding rubber particles into the raw materials to obtain a mixture A;

step four: and stirring the mixture A at the normal temperature for 0.5-1 hour at the speed of 40-60 r/min to obtain the anti-dandruff shampoo.

The device comprises a rounding part and a granulating part, the rounding part is arranged on the granulating part and comprises a disc, a right-angle shaft and a circular groove, the right-angle shaft is of a Z-shaped structure, the lower end of the right-angle shaft is fixed at the center of the disc and drives the disc to rotate by taking the upper end of the right-angle shaft as an axis, and an inner cavity used for rounding rubber particles is arranged between the disc and the circular groove.

The anti-dandruff shampoo processed by the anti-dandruff shampoo processing method is further composed of the following raw materials in parts by weight: 2-3 parts of amino acid; 6-8 parts of milk; 3-5 parts of aloe essence; 4-8 parts of a saponin extract; 2-4 parts of an aromatic; 2-5 parts of an emulsifier; 5-7 parts of selenium disulfide; 5-7 parts of rubber particles; 8-12 parts of deionized water.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a flow chart of a processing method of the anti-dandruff shampoo in the invention;

FIG. 2 is a flow chart of rubber particle rounding in the present invention;

FIG. 3 is a schematic diagram of the construction of a disk and a right-angle shaft according to the present invention;

FIG. 4 is a schematic view showing the construction of the rotating shaft and the middle frame in the present invention;

FIG. 5 is a schematic view of the structure of the ring and the bevel of the present invention;

FIG. 6 is a schematic view of the structure of the cylinder and the bracket of the present invention;

FIG. 7 is a schematic structural view of a screw and a base frame in the present invention;

FIG. 8 is a schematic structural view of the sliding sleeve and the serrated plate according to the present invention;

FIG. 9 is a schematic structural view of a serration plate and a top block according to the present invention;

FIG. 10 is a schematic view of the granulation section of the present invention;

FIG. 11 is a schematic view of a blade according to the present invention;

fig. 12 is a schematic structural view of the anti-dandruff shampoo processing device of the present invention.

Detailed Description

Referring to fig. 1 and 2, according to the process flow of the method for processing the anti-dandruff shampoo shown in the figure, firstly, rubber is melted as a raw material, then, elastic rubber particles are produced at a temperature which is not completely cooled and formed, then, the rubber particles are processed into a spherical structure, corners are removed, then, the rubber particles are added into the raw material to obtain a mixture A, finally, the mixture A is stirred for 0.5-1 hour at a speed of 40-60 r/min at a normal temperature state to obtain the anti-dandruff shampoo, by the method in the application, the anti-dandruff shampoo obtained by processing comprises the elastic rubber particles with the spherical structure, so that the anti-dandruff shampoo has a frosting effect when in use, dandruff on the scalp surface is cleaned by utilizing the elastic rubber particles with the spherical structure, and dandruff on the scalp surface of the scalp between hair roots is completely cleaned, avoid the dandruff adhesion to get off at hairy root or scalp surface and can't clean comprehensively, elastic rubber granule can play the massage effect for the head because of the elastic deformation of self simultaneously, and the user can feel comfortable at the in-process that uses to the elastic rubber granule who removes the corner can avoid the corner to cause the damage to the scalp.

Referring to fig. 3 and 12, one exemplary operation that may be achieved to round the elastomeric rubber particles is shown:

after the rubber raw material is melted, elastic rubber particles are manufactured at the temperature of incomplete cooling forming, and then the rubber particles are required to be rounded to remove corners; the processing method of the anti-dandruff shampoo in the application also relates to an anti-dandruff shampoo processing device, the device comprises a rounding part and a granulating part, the rounding part is arranged on the granulating part and comprises a disc 01, a right-angle shaft 02 and a circular groove 09, the right-angle shaft 02 is of a Z-shaped structure, the lower end of the right-angle shaft 02 is fixed at the center of the disc 01 and drives the disc 01 to rotate by taking the upper end of the right-angle shaft 02 as an axis, the upper end of the right-angle shaft 02 and the center of the circular groove 09 are both positioned on the same axis, an inner cavity for rounding rubber particles is arranged between the disc 01 and the circular groove 09, when rounding is carried out, a large amount of incompletely-cooled and formed rubber particles are only required to be laid in the circular groove 09 and then the right-angle shaft 02 is used for rotating, the disc 01 is rotated, so that the lower surface of the disc 01 and the upper surface of the circular groove 09 are rubbed by utilizing the displacement of the disc 01 and the circular groove 09 in the horizontal direction, a large amount of incompletely cooled molded rubber particles roll in the inner cavity until the rubber particles roll into a spherical structure, so that the effect of rounding the elastic rubber particles and removing corners is realized.

Referring to fig. 3 and 4, one exemplary operation that can be achieved to avoid crushing the elastomeric rubber particles according to the illustration is:

in this application the device still includes rotation axis 03 and well frame 04, the rotation axis 03 switching is on well frame 04, rotation axis 03 lower extreme and right angle axle 02 upper end sliding connection, be provided with spring I between rotation axis 03 lower extreme and the right angle axle 02 upper end, in the time of the elastic rubber granule of spheronization, can utilize spring I, make disc 01 when receiving the rubber granule reaction force to disc 01, carry out the fluctuation adjustment according to the surperficial anomalous shape of rubber granule, make right angle axle 02 suitable slip on rotation axis 03, avoid disc 01 to crush elastic rubber granule.

Referring to fig. 3 and 5, one exemplary operation that can be achieved to avoid crushing the elastomeric rubber particles is shown:

because disc 01 is eccentric rotation for circular slot 09, so disc 01 and circular slot 09 can appear the space in the horizontal direction, get into the rubber granule easily in the space, can crowd bad rubber granule when disc 01 rotates and comes, and in this application the edge of disc 01 is provided with inclined plane 07, so when disc 01 rotates and meets the rubber granule in the space, can utilize inclined plane 07 guide rubber granule to enter into disc 01 below, avoid being crowded bad by disc 01.

Referring to fig. 5 and 6, one exemplary operation that can be achieved to avoid crushing the elastomeric rubber particles is shown:

the device further comprises a support 08, wherein the support 08 is provided with an air cylinder 05, and an air cylinder rod of the air cylinder 05 is fixedly connected to the middle frame 04; therefore, the distance between the disc 01 and the circular groove 09 can be changed by only using the cylinder 05 to drive the middle frame 04 to move up and down, so that the rubber particles with different sizes can be rounded.

Referring to fig. 4 and 5, one exemplary operation that can be achieved to avoid waste of the elastomer particles is shown in the figures as:

because in the rounding process, disc 01 and circular slot 09 all exert some effort to the rubber granule, after disc 01 removed from the rubber granule top, the rubber granule was easy to pop out to the external world from circular slot 09 because of self elasticity to cause the waste, so sliding connection has ring 06 on the well frame 04, is provided with spring II between ring 06 and the well frame 04, and ring 06 is located disc 01 top, when disc 01 was located the circular slot 09 and was carried out the rounding, ring 06 can cover disc 01 and circular slot 09 space in the horizontal direction, avoids the rubber granule to pop out to the external world from circular slot 09, avoids the rubber granule waste.

Referring to fig. 10 and 11, one exemplary process by which elastomeric rubber particles may be processed is shown:

the granulating part comprises a material pipe 17, a lifting and shrinking rod 20 and a blade 21, the blade 21 rotates below the material pipe 17, a round hole is formed in the bottom end of the material pipe 17, the lifting and shrinking rod 20 is fixedly connected to the top end of the material pipe 17, a pressing plate 19 is fixedly connected to the lifting and shrinking rod 20, the pressing plate 19 can move up and down in the material pipe 17, and a one-way valve 18 is further arranged on the material pipe 17; during granulation, rubber in a molten state is injected into the material pipe 17 through the check valve 18, then the telescopic rod 20 is used for driving the telescopic rod 20 to be fixedly connected with the pressing plate 19 to move downwards in the material pipe 17, so that the rubber in the molten state is extruded out of the round hole formed in the bottom end of the material pipe 17, at the moment, the blade 21 is driven to swing back and forth only by using an external power source, so that the rubber in the molten state extruded out of the round hole formed in the bottom end of the material pipe 17 can be cut into particles by the blade 21, the particles which are not completely cooled and formed are obtained after being cooled by air along with the cutting of the particles, at the moment, the particles which are not completely cooled and formed are added into an inner cavity between the disc 01 and the circular groove 09 to be rounded, corners of the particles which are not completely cooled and formed due to cutting of the blade 21 can be removed, and the particles which are not completely cooled and formed are gradually cooled in the rounding process, finally, the rubber particles with the spherical structure which are completely cooled and formed are formed.

Referring to fig. 10 and 11, one exemplary process by which the elastomeric rubber particles may be transported is shown:

because the granulating part also comprises a flat plate 10, a screw rod 14 and a bottom frame 15, the circular groove 09 rotates on the flat plate 10, two sliding sleeves 11 are arranged on the flat plate 10, one of the sliding sleeves 11 is connected on a screw rod 14 in a threaded manner, the screw rod 14 rotates on an underframe 15, the other sliding sleeve 11 slides on the bottom frame 15, the material pipe 17 and the bracket 08 are both fixedly connected on the bottom frame 15, therefore, only the screw rod 14 needs to rotate, one of the sliding sleeves 11 can drive the other sliding sleeve 11 to slide on the bottom frame 15, so that the flat plate 10 drives the circular groove 09 to move to the lower part of the material pipe 17 to receive rubber particles, then move below the disc 01 and carry out the rounding processing again, round slot 09 moves out from below the disc 01 after the rounding processing, use gear motor to drive round slot 09 at this moment and rotate and incline on the flat plate 10, pour out the rubber granule that the rounding was accomplished in the round slot 09 and use, realize automatic transportation.

Referring to fig. 8 and 9, one exemplary operation that can be achieved to spread the elastic rubber particles in the circular groove 09 is as follows:

because the rubber granule that drops down in the material pipe 17 can be piled up when dropping in the circular slot 09, so pelletization portion still includes serration plate 12 and kicking block 16, kicking block 16 sliding connection is on chassis 15, is provided with spring III between kicking block 16 and the chassis 15, and 11 bottoms of sliding sleeve are provided with serration plate 12, circular slot 09 bottom still is provided with cushion 13, at this moment, only need when flat board 10 removes, alright produce vibrations with serration plate 12 contact in order to utilize kicking block 16 to receive the influence of vibrations to tile gradually and open the elastic rubber granule in the circular slot 09 to do not need the manual work to pave, realize the automation, avoid simultaneously because the rubber granule piles when carrying out the rounding together, the adhesion that is pressed by the pressure of disc 01 is in the same place.