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Antibacterial and acarus-killing perfumed soap

A soap and soap-based technology, applied in the field of antibacterial and mite-removing soaps, can solve problems such as low mildness, microbial resistance, and safety to be explored, and achieve mild product performance, soft touch, and good lubricating and moisturizing effects

Inactive Publication Date: 2019-12-31
安徽氧趣生物科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Soap is an indispensable cleaning product in people's daily life, but soap with antibacterial effect is usually added with chemical antibacterial materials, its safety needs to be explored, and long-term contact with similar chemical antibacterial materials can easily lead to microbial production drug resistance
Conventional soaps have a relatively high pH value, strong degreasing power, low mildness, and a certain degree of irritation to the skin. After use, the skin often feels dry, and at the same time, it will produce insoluble calcium soap in hard water. sense of use

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] S1: Weigh 13KG of ozone oil and 25KG of sodium percarbonate, mix the ozone oil and sodium percarbonate evenly for later use;

[0031] S2: Weigh 40KG of soap base, 4KG of lauroyl glutamic acid, 3KG of sodium lauroyl glycinate, 4KG of sodium myristoyl glutamate, 4KG of sodium cocoyl glutamate, 3KG of sodium cocoyl glycinate, and 4KG of glycerin;

[0032] S3: Put the above raw materials into the reaction kettle, heat the materials in the reaction kettle to slowly raise the temperature to 60-70°C, start stirring when heating the materials, and stir the materials in the kettle evenly;

[0033] S4: Stop heating, and when the temperature of the materials in the kettle cools down to 25-30°C, put the mixture of ozone oil and sodium percarbonate into the reaction kettle, and after the materials in the kettle are stirred evenly, the discharged materials are transferred into soap molds After being cooled and solidified, the mold is released to obtain an antibacterial and mite-remov...

Embodiment 2

[0035] S1: Weigh 14KG of ozone oil and 28KG of urea peroxide, and mix the ozone oil and urea peroxide evenly for later use;

[0036] S2: Weigh 44KG of soap base, 5KG of lauroyl glutamic acid, 3.5KG of sodium lauroyl glycinate, 5KG of sodium myristoyl glutamate, 54KG of cocoyl glutamic acid, 3.5KG of sodium cocoyl glycinate, and 5KG of glycerin;

[0037] S3: Put the above raw materials into the reaction kettle, heat the materials in the reaction kettle to slowly raise the temperature to 60-70°C, start stirring when heating the materials, and stir the materials in the kettle evenly;

[0038]S4: Stop heating, and when the temperature of the materials in the kettle cools down to 25-30°C, put the mixture of ozone oil and sodium percarbonate into the reaction kettle, and after the materials in the kettle are stirred evenly, the discharged materials are transferred into soap molds After being cooled and solidified, the mold is released to obtain an antibacterial and mite-removing soa...

Embodiment 3

[0040] S1: Weigh 12KG of ozone oil and 23KG of sodium percarbonate, and mix the ozone oil and sodium percarbonate evenly for later use;

[0041] S2: Weigh 38KG of soap base, 3.6KG of lauroyl glutamate, 2.8KG of sodium lauroyl glycinate, 3.6KG of sodium myristoyl glutamate, 3.6KG of sodium cocoyl glutamate, and 2.8KG of sodium cocoyl glycinate , Glycerin 3.6KG;

[0042] S3: Put the above raw materials into the reaction kettle, heat the materials in the reaction kettle to slowly raise the temperature to 60-70°C, start stirring when heating the materials, and stir the materials in the kettle evenly;

[0043] S4: Stop heating, and when the temperature of the materials in the kettle cools down to 25-30°C, put the mixture of ozone oil and sodium percarbonate into the reaction kettle, and after the materials in the kettle are stirred evenly, the discharged materials are transferred into soap molds After being cooled and solidified, the mold is released to obtain an antibacterial and...

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PUM

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Abstract

The invention discloses an antibacterial and acarus-killing perfumed soap. The formula of the perfumed soap comprises the following raw materials by weight: 40 parts of a soap base, 4 parts of lauroylglutamic acid, 3 parts of sodium lauroyl glycinate, 4 parts of sodium myristoylglutamate, 4 parts of sodium cocoyl glutamate, 3 parts of sodium cocoyl glycinate, 4 parts of glycerin, 13 parts of ozone oil and 25 parts of sodium percarbonate. According to the invention, by means of a variety of sufficient amino acid surfactants, the product has mild performance and extremely low skin irritation, is suitable for skin cleansing under the conditions of bathing, face washing, makeup removing and the like, contains ozone oil and sodium percarbonate, can achieve continuous sterilization and mite inhibition efficacy, contains glycerin, has smooth handfeel during use, can generate comfortable sense after use, has good lubricating and moisturizing effects, endows skin with moist and luster, is verysuitable for dry skin and winter use, has certain skin beautifying effect, has no need for additional adding of preservative, and the ozone oil can inhibit and kill bacteria, and has the efficacy ofpreservatives.

Description

technical field [0001] The invention relates to a scented soap, in particular to an antibacterial and mite-removing soap. Background technique [0002] Mites are tiny pests that are not easy to see with the naked eye, and their body size is generally about 0.5 mm. Mites live in the sebaceous glands of the human face. Under a microscope, it can be found that several mites are parasitic in a small skin hair follicle at the same time. Exposure to light can cause skin problems such as enlarged pores, rough and oily skin, acne, pimples, and small red bumps; in severe cases, it can develop into chronic skin diseases, which can cause secondary infections, abscesses, folliculitis, or boils. As we all know, cleaning helps to remove mites and reduce the harm of mites to human health. The selection of suitable antibacterial and mite-removing daily chemical cleaning products can fully inhibit and kill the parasitic reproduction of mites in the skin. Acne and acne caused by mites Vario...

Claims

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Application Information

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IPC IPC(8): C11D10/04A61Q17/00A61Q19/10A61Q19/00
CPCC11D1/10C11D10/042
Inventor 万炜刘学军苏天健侯哲
Owner 安徽氧趣生物科技有限公司
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