PH12019050018A1

PH12019050018A1 - A composite soap and preparation method

Info

Publication number: PH12019050018A1
Application number: PH12019050018A
Authority: PH
Inventors: Shiwei Liu; Xiaomin Sun; Xiangdang Zhang; Xuhui Zhan
Original assignee: Shiwei Liu; Xuhui Zhan; Xiaomin Sun; Xiangdang Zhang
Priority date: 2018-05-31
Filing date: 2019-01-23
Publication date: 2019-12-02
Also published as: CN108774611A

Abstract

The invention discloses a composite soap which is composed of the following parts by weight:30-50 parts of sodium fatty acid, 10-20 parts of stearic acid, 3-8 parts of coconut oil, 1-3 parts of glycerin, and a chelating agent 0.1-0.5 parts, 10-30 parts of filler. The composite soap of the invention has a good foaming performance, good sterilization effect, can kill a variety of pathogenic bacteria, has strong resistance to hard water, and is not easy to produce soap scale, and the addition of chelating agent contributes to the formation of a beneficial crystal form of the soap, so that the soap is used. It is slippery and does not easily adhere to the wall of the container. The preparation method of the invention is simple and easy, and has a wide source of raw materials, and is suitable for large-scale industrial application.

Description

(3) The milled soap piece is placed into a vacuum plodder for vacuum beading, the outlet temperature of the bead is controlled at 42 © C, and the temperature of the laminating machine is controlled at 8 © C; (4) The long soap body pressed out by the plodder directly enters the printer to print, and the formed soap body is obtained. When printing, the temperature of the mold is -15 °C.

Experimental Example 1:

Refer to GB/T 7462-94 for foam performance determination. The surface layer of the sample was scraped 2 mm, the inner layer soap was taken, and the samples of Examples 1-4 were weighed, and the solution of mass fraction of 0.08 was prepared by using 3 mmol/LCa2+ hard water, and placed in a water bath at 52 ° C to maintain a constant temperature at 50 © C. The foam height of the samples was measured at 30 s and 10 min. Each group of samples was measured three times, and the results of three measurements were the final results. The foam height at 30 s was taken as the foaming index of the sample, and the foam height at 10 min was taken as the foam stability index of the sample. Then, the pH value of the sample at the mass concentration at room temperature was measured.

The measurement results are shown in Table 1:

Table 1 Foam and pH of soap bars test group 30sFoam heightmm | 10minFoam pH value heightmmmm * Significant (P<0.05)

It can be seen from Table 1 that the 30s foam height of Example 2 and the foam height of 10 minutes are significantly higher than that of Example 1, and other conditions are the same as in Example 1, except that the gray raspberry extract is added to Example 2, It was proved that the gray raspberry extract had a promoting effect on the foaming performance of the composite soap; in Example 3, compared with Example 1, the p H value was significantly reduced, the 30 s foam height, and the 10 min foam height were not significantly different, compared with Example 1. The other conditions are the same. Only the extract of

Xing'an Raspberry has been added in Example 3. It proves that Xing'an Rapeseed extract has no promoting effect on the foaming performance of the composite soap, and can significantly reduce the p H value, which is not conducive to skin care and emollient.

Experimental Example 2:

The composite soaps prepared in Examples 1-4 were prepared, and 10 g of each group was ground and ground to prepare a solution having a mass fraction of 0.4, which was a test drug.

Select Staphylococcus aureus (ATCC25923) and Escherichia coli (441490), inoculate them in nutrient broth medium, incubate at 37 °C for 18 h, take 11 sterile tubes, and add 1 ml of nutrient broth liquid medium to the first tube. 1ml of each tube, take 0.4ml of the test drug diluent into the first tube, mix and take 1ml to the second tube, dilute in order, take 10ml out of the 10th tube, discard the 11th tube without adding liquid Control. 0.1 ml of the diluted bacterial solution was added to each tube, and cultured at 37 ° C for 24 hours. Remove and observe the growth of the bacteria. If the liquid medicine tube is turbid, it means that the bacteria grows, and the test drug has no bacteriostatic effect; if the liquid medicine tube is clear, it means that the growth of the bacteria is inhibited, and the liquid of the maximum dilution which can inhibit the growth of the bacteria is the minimum of the drug. Inhibitory concentration (MIC). The tubes of the clear liquid broth were transferred to the broth agar plate and cultured for 24 hours. The

Description

A composite soap and preparation method—# & 5 EB RH HS 77%

Claim of Priority

This application claims priority from China provisional Patent Application

Serial No. CN CN201810551820.8, filed May 31, 2018, currently pending.

Field of the Invention

The invention belongs to the technical field of solid soap preparation, and in particular relates to a multifunctional composite soap and a preparation method.

Background

The solid soap is classified into a complex soap in which a solid soap and a soap having a sodium fatty acid sodium as a main active ingredient are blended with a surfactant other than sodium fatty acid. After long-term use and development, solid soap has excellent decontamination and washing performance in soft water, rich in foam, good wettability, mild performance, easy to degrade, and less impact on the environment. At the same time, it also found many shortcomings, such as poor low-temperature solubility, which in turn affects its low-temperature detergency; poor resistance to hard water, and in the hard water, it will synthesize insoluble and non-washing calcium with Ca2+ and Mg2+.

Magnesium metal soap, which removes some of the soap from washing power, and the resulting metal soap mixes with the dirt to form an objectionable soap scum, which is adsorbed on the washed fabric and the container, making the fabric difficult to rinse, causing the fabric to be yellowish and hard. Brittle fracture, reduced density.

Patent 201310704666.0 discloses a traditional Chinese medicine liquid soap consisting of 40-60 parts of sodium lauryl sulfate, 6-10 parts of lanolin, 2-4 parts of Luxian grass and 2-4 parts of cat grass. The preparation steps are as follows: taking deer grass and cat grass, and boiling water twice, the first time adding water is 8-12 times the weight of the medicine, boiling for 1-2 hours, and the second adding water is 6-10 of the weight of the medicine. Double the amount, boil for 1-2h, combine the decoction, concentrate to 10 times the total weight of deer grass and cat grass, add sodium lauryl sulfate, lanolin, melt at 70- 80 °C, that is. Patent 201410674325.8 discloses a neutral moisturizing cleansing soap comprising the following parts by weight: 40-60 parts of sodium cocoyl isethionate; fatty acid 3-10 Parts; 5-20 parts of fatty alcohol; 0.2-2 parts of glycerin; 0.1-0.5 parts of chelating agent; 20-40 parts of filler; 5-15 parts of water.

The pH value is between 4.5 and 6.5, which is close to the weak acid environment of human skin. It can avoid the skin irritation during the washing process, and there is no sand grain feeling. The soap body is not easy to be smashed in water.

However, the above soap has poor foaming performance, poor sterilization effect, poor resistance to hard water, and easy to produce soap scale.

Detailed Description of Invention

The object of the present invention is to provide a multifunctional composite soap and a preparation method thereof.

A composite soap consisting of the following parts by weight: 30-50 parts of sodium fatty acid, 10-20 parts of stearic acid, 3-8 parts of coconut oil, 1-3 parts of glycerin, 0.1-0.5 parts of chelating agent, Filler 10-30 parts.

The chelating agent is one or more of hydroxyethylidene diphosphate, 1- decene-8-0l acetate, polyoxypropylene glycol, and tetrasodium ethylenediaminetetraacetate.

The filler is one or more of starch, dextrin, calcium carbonate, and calcium silicate.

The complex soap further comprises 1-3 parts of the gray raspberry extract.

The method for extracting the gray raspberry extract is as follows: taking the gray raspberry leaves, mashing and slurring, adding 3-8 times by weight of water to reflux for 3 times, combining the filtrate, decolorizing the activated carbon, and evaporating and drying. .

The preparation method of the above composite soap is carried out according to the following steps: (1) According to parts by weight, take 30-50 parts of sodium fatty acid, 10-20 parts of stearic acid, 3-8 parts of coconut oil, 1-3 parts of glycerin, 0.1-0.5 parts of chelating agent, 10-30 parts of filler, adding to a kneading machine for conventional soap making, kneading and stirring and mixing uniformly, wherein the stirring time is 12-18 minutes, and the stirring temperature is 35-50 © C, (2) The kneading and mixing of the materials after mixing, adding to the mill, grinding the soap body, the thickness of the milled soap sheet is controlled to be 0.1-0.5 mm; (3) passing the milled soap sheet into a vacuum plodder for vacuum beading; (4) The long soap body pressed out by the plodder directly enters the printer to print, and the formed soap body is obtained.

Step (3) When the vacuum bead is pressed, the outlet temperature of the bead head is controlled at 38-55 ° C, and the temperature of the cooling water of the beading machine is controlled at 3-12 ° C.

When the step (4) is printed, the temperature of the mold is -10 to -20 °C.

The invention has the beneficial effects that the composite soap of the invention has good foaming performance, good sterilization effect, can kill various pathogenic bacteria, has strong resistance to hard water, and is not easy to produce soap scale, and the addition of a chelating agent contributes to the beneficial crystal form of the soap. The resulting soap makes the soap smooth and does not easily adhere to the container wall. The preparation method of the invention is simple and easy, and has a wide source of raw materials, and is suitable for large-scale industrial production.

Detailed Description of Embodiments

The invention will be further described below in conjunction with specific embodiments.

Example 1

A composite soap consisting of the following parts by weight: 40 parts of sodium fatty acid, 15 parts of stearic acid, 6 parts of coconut oil, 2 parts of glycerin, 0.3 parts of tetrasodium edetate, and 20 parts of dextrin.

The preparation method of the above composite soap is carried out according to the following steps: (1) According to the parts by weight, take 40 parts of sodium fatty acid, 15 parts of stearic acid, 6 parts of coconut oil, 2 parts of glycerin, 0.3 parts of tetrasodium edetate, 20 parts of dextrin, and added to conventional soap. In the kneading machine, knead and stirred to mix evenly, wherein the stirring time is 15 minutes, and the stirring temperature is 40 ° C; (2) The kneading and mixing of the materials after mixing, adding to the mill, grinding the soap body, the thickness of the milled soap sheet is controlled to 0.3 mm; (3) The milled soap piece is placed into a vacuum plodder for vacuum beading, the outlet temperature of the bead is controlled at 42 ° C, and the temperature of the laminating machine is controlled at 8 © C; (4) The long soap body pressed out by the plodder directly enters the printer to print, and the formed soap body is obtained. When printing, the temperature of the mold is -15 °C.

Example 2

A composite soap consisting of the following parts by weight: 40 parts of sodium fatty acid, 15 parts of stearic acid, 6 parts of coconut oil, 2 parts of glycerin, 0.3 parts of tetrasodium edetate, 20 parts of dextrin, 2 pieces of gray raspberry extract.

The method for extracting the gray raspberry extract is as follows: taking the gray raspberry leaves, mashing and slurring, adding 6 times by weight of water to reflux for 3 times, combining the filtrate, decolorizing the activated carbon, and evaporating and drying.

The preparation method of the above composite soap is carried out according to the following steps: (1) According to parts by weight, take 40 parts of sodium fatty acid, 15 parts of stearic acid, 6 parts of coconut oil, 2 parts of glycerin, 0.3 parts of tetrasodium edetate, 20 parts of dextrin, and 2 extracts of gray raspberry a portion, added to a conventional kneading machine for kneading, kneading and stirring and mixing uniformly, wherein the stirring time is 15 minutes, the stirring temperature is 40 ° C; (2) The kneading and mixing of the materials after mixing, adding to the mill, grinding the soap body, the thickness of the milled soap sheet is controlled to 0.3 mm; (3) The milled soap piece is placed into a vacuum plodder for vacuum beading, the outlet temperature of the bead is controlled at 42 © C, and the temperature of the laminating machine is controlled at 8 © C; (4) The long soap body pressed out by the plodder directly enters the printer to print, and the formed soap body is obtained. When printing, the temperature of the mold is -15 °C.

Example 3

A composite soap consisting of the following parts by weight: 40 parts of sodium fatty acid, 15 parts of stearic acid, 6 parts of coconut oil, 2 parts of glycerin, 0.3 parts of tetrasodium edetate, 20 parts of dextrin, Xing'an Rubus extract 2 parts.

The extraction method of the Xing'an stalk extract is: taking Xing'an stalk leaf, mashing, slurrying, adding 6 times by weight of water to reflux for 3 times, combining the filtrate, decolorizing the activated carbon, and evaporating to make.

The preparation method of the above composite soap is carried out according to the following steps: (1) According to the parts by weight, take 40 parts of sodium fatty acid, 15 parts of stearic acid, 6 parts of coconut oil, 2 parts of glycerin, 0.3 parts of tetrasodium edetate, 20 parts of dextrin, Xing'an Raspberry Extract 2 a portion, added to a conventional kneading machine for kneading, kneading and stirring and mixing uniformly, wherein the stirring time is 15 minutes, the stirring temperature is 40 ° C, (2) The kneading and mixing of the materials after mixing, adding to the mill, grinding the soap body, the thickness of the milled soap sheet is controlled to 0.3 mm; (3) The milled soap piece is placed into a vacuum plodder for vacuum beading, the outlet temperature of the bead is controlled at 42 ° C, and the temperature of the laminating machine is controlled at 8 ° C; (4) The long soap body pressed out by the plodder directly enters the printer to print, and the formed soap body is obtained. When printing, the temperature of the mold is -15 °C.

Example 4

A composite soap consisting of the following parts by weight: 40 parts of sodium fatty acid, 15 parts of stearic acid, 6 parts of coconut oil, 2 parts of glycerin, 0.3 parts of tetrasodium edetate, 20 parts of dextrin, 1 part of L- carnosine.

The preparation method of the above composite soap is carried out according to the following steps: (1) According to parts by weight, take 40 parts of sodium fatty acid, 15 parts of stearic acid, 6 parts of coconut oil, 2 parts of glycerin, 0.3 parts of tetrasodium edetate, 20 parts of dextrin and 1 part of L-carnosine. Adding to a kneading machine for conventional soap making, kneading and stirring and mixing uniformly, wherein the stirring time is 15 minutes, and the stirring temperature is 40 ° C; (2) the kneading and mixing of the materials after mixing, adding to the mill, grinding the soap body, the thickness of the milled soap sheet is controlled to 0.3 mm;

Claims

EE — Claims

1. A composite soap comprising the following components by weight: 30- 50 parts of sodium fatty acid, 10-20 parts of stearic ; acid, 3-8 parts of coconut oil, 1-3 parts of glycerin, chelated fhe mixture is 0.1-0.5 parts, and the filler is 10-30 parts. (tet cer ty¥ :

2. The composite soap according to claim 1, wherein the chelating agent is hydroxyethylidene diphosphate, 1-decene-8-0l acetate, polyoxypropylene glycol, ethylenediaminetetraacetic acid On or more of tetrasodium.

3. The composite soap according to claim 1, wherein the filler is one or more of starch, dextrin, calcium carbonate, and calcium silicate.

4. The composite soap according to claim 1, wherein the composite soap further comprises 1-3 parts of gray raspberry extract. (Xing'an Raspberry) The composite soap according to claim 4, wherein the gray raspberry extract is extracted by taking gray raspberry leaves, mashing, slurring, adding 3-8 times by weight of water reflux. The mixture was extracted 3 times, and the filtrate was combined, decolorized by activated carbon, and evaporated to dryness.

5. The method for preparing a composite soap according to claim 1, wherein the method comprises the following steps: (1) According to parts by weight, take 30-50 parts of sodium fatty acid, 10-20 parts of stearic acid, 3-8 parts of coconut oil, 1-3 parts of glycerin, 0.1-0.5 parts of chelating agent, 10-30 parts of filler, adding to a kneading machine for conventional soap making, kneading and stirring and mixing uniformly, wherein the stirring time is 12-18 minutes, and the stirring temperature is 35-50 ° C; (2) The kneading and mixing of the materials after mixing, adding to the mill, grinding the soap body, the thickness of the milled soap sheet is controlled to be 0.1-0.5 mm; (3) passing the milled soap sheet into a vacuum plodder for vacuum beading; (4) The long soap body pressed out by the plodder directly enters the printer to print, and the formed soap body is obtained.