CN110628537A - Antibacterial mite-killing perfumed soap - Google Patents

Abstract

The invention discloses an antibacterial acarus killing perfumed soap which comprises a perfumed soap formula, and the antibacterial acarus killing perfumed soap comprises the following raw materials in parts by weight: 40 parts of soap base, 4 parts of lauroyl glutamic acid, 3 parts of sodium lauroyl glycinate, 4 parts of sodium myristoyl glutamate, 4 parts of sodium cocoyl glutamate, 3 parts of sodium cocoyl glycinate, 4 parts of glycerol, 13 parts of ozone oil and 25 parts of sodium percarbonate.

Description

Antibacterial mite-killing perfumed soap

Technical Field

The invention relates to soap, in particular to antibacterial and mite-killing soap.

Background

The mites are miniature pests which are not easy to see by naked eyes, and the body sizes of the mites are generally about 0.5 mm. Mites are parasitic in sebaceous glands of the face of a human body, and can be found under a microscope that a small number of mites are often parasitic in a skin hair follicle, the mites live, old, sick and dead in the skin hair follicle of the human body, the mites are slightly blocked, the skin is dark and dark, and skin problems such as large pores, rough and oily skin, acne, comedo, small red pimples and the like are caused; the severe cases may develop into chronic skin diseases, which may cause secondary infection, abscess, folliculitis or furuncle. As is known well, cleaning is helpful for clearing away mites, harm of the mites to human health is reduced, and a proper antibacterial mite-killing daily chemical washing product is selected, so that parasitic reproduction of the mites in the skin is comprehensively inhibited and killed, various skin problems such as acne, pimple, small red pimple, pruritus and the like caused by the mites can be easily solved, the skin is obviously smooth and tender, and the original body building state is recovered.

The toilet soap is a cleaning product indispensable to daily life of people, but the toilet soap with the antibacterial effect is usually added with chemical antibacterial raw materials, the safety of the toilet soap needs to be researched, and the chemical antibacterial raw materials similar to the toilet soap contacted for a long time are easy to cause the drug resistance of microorganisms. The conventional toilet soap has relatively high pH value, strong degreasing force ratio and low mildness, has certain stimulation to skin, and can feel dry after being used, and simultaneously can generate insoluble calcium soap scale in hard water to reduce the use feeling. Therefore, the development of the perfumed soap which can remove stains, bacteria and mites, is smooth, tasty, white, non-irritant, easy to wash and free of dirt is very important.

Most of the commercially available toilet soaps are manufactured by a thermal method, and manufacturers extract glycerin generated in the soap manufacturing process for economic benefit and sell the glycerin, wherein the glycerin is a natural moisturizing humectant, and the glycerin reserved in the toilet soaps is beneficial to improving the moisturizing effect of the toilet soaps.

Disclosure of Invention

The invention aims to provide an antibacterial acarus killing soap, which solves the problems that the conventional soap proposed in the background technology has relatively high pH value, strong degreasing force ratio, low mildness, certain stimulation to skin, dry skin after use, insoluble calcium soap scale in hard water and reduced use feeling.

In order to achieve the purpose, the invention provides the following technical scheme: the antibacterial acarus killing perfumed soap comprises a perfumed soap formula, and comprises the following raw materials in parts by weight: 35-46 parts of soap base, 14-28 parts of amino acid type surfactant, 3-5 parts of glycerol, 10-20 parts of ozone oil and 20-30 parts of peroxide.

The antibacterial acarus killing perfumed soap preferably comprises the following raw materials in parts by weight: 40 parts of soap base, 4 parts of lauroyl glutamic acid, 3 parts of sodium lauroyl glycinate, 4 parts of sodium myristoyl glutamate, 4 parts of sodium cocoyl glutamate, 3 parts of sodium cocoyl glycinate, 4 parts of glycerol, 13 parts of ozone oil and 25 parts of sodium percarbonate.

In a preferred embodiment of the present invention, the amino acid type surfactant is at least one of acyl glutamic acid and salts thereof, acyl glyceric acid and salts thereof, acyl sarcosine and salts thereof, acyl methyltaurine and salts thereof, and acyl alanine and salts thereof.

In a preferred embodiment of the present invention, the peroxide is at least one of peroxides such as sodium percarbonate, sodium perborate, urea peroxide, and sodium peroxide.

As a preferable technical scheme of the invention, the ozone oil is wrapped with peroxide in advance.

As a preferred technical scheme of the invention, the preparation method of the antibacterial acarus-killing perfumed soap comprises the following steps of:

s1: weighing ozone oil and sodium percarbonate according to parts by weight, and uniformly mixing the ozone oil and the sodium percarbonate for later use;

s2: weighing soap base, lauroyl glutamic acid, sodium lauroyl glycinate, sodium myristoyl glutamate, sodium cocoyl glycinate and glycerol in parts by weight;

s3: putting the raw materials into a reaction kettle, heating the materials in the reaction kettle to slowly raise the temperature to 60-70 ℃, starting stirring when heating the materials, and uniformly stirring the materials in the kettle;

s4: stopping heating, when the temperature of materials in the kettle is reduced to 25-30 ℃, adding the mixed ozone oil and sodium percarbonate into the reaction kettle, uniformly stirring the materials in the kettle, discharging the materials into a soap mould, cooling, solidifying and demoulding to obtain the antibacterial acarus killing soap.

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

(1) the antibacterial and mite-killing perfumed soap disclosed by the invention contains enough multiple amino acid surfactants, is mild in product performance, has extremely low irritation to skin, and is suitable for cleaning skin under the conditions of bathing, washing face, removing makeup and the like;

(2) the antibacterial and mite-killing perfumed soap disclosed by the invention contains the ozone oil and the sodium percarbonate, and has the effects of continuously sterilizing and killing mites;

(3) the antibacterial acarus-killing perfumed soap contains the glycerin, is soft in hand feeling when in use, can generate comfortable sensation after use, has good lubricating and moisturizing effects, can moisten and luster skin, is very suitable for dry skin and winter, and has a certain skin beautifying effect;

(4) according to the antibacterial acarus killing perfumed soap, no additional preservative is needed, the ozone oil can inhibit bacteria and sterilize, and the antibacterial acarus killing perfumed soap has the efficacy of the preservative.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides an antibacterial acarus killing perfumed soap which comprises a perfumed soap formula, and the antibacterial acarus killing perfumed soap comprises the following raw materials in parts by weight: 35-46 parts of soap base, 14-28 parts of amino acid type surfactant, 3-5 parts of glycerol, 10-20 parts of ozone oil and 20-30 parts of peroxide.

The antibacterial acarus killing perfumed soap preferably comprises the following raw materials in parts by weight: the cosmetic is characterized by comprising 40 parts of soap base, 4 parts of lauroyl glutamic acid, 3 parts of sodium lauroyl glycinate, 4 parts of sodium myristoyl glutamate, 4 parts of sodium cocoyl glutamate, 3 parts of sodium cocoyl glycinate, 4 parts of glycerol, 13 parts of ozone oil and 25 parts of sodium percarbonate, and the glycerol is added, so that the glycerol can provide very high moisturizing effect, can also deeply clean skin, balance oil secretion, moisten and moisturize the skin and is suitable for all skins, and is particularly suitable for being used for dry and deficient skin, sensitive inflammation and mature skin.

Preferably, the amino acid type surfactant is at least one of acyl glutamic acid and salts thereof, acyl glyceric acid and salts thereof, acyl sarcosine and salts thereof, acyl methyltaurine and salts thereof, and acyl alanine and salts thereof, the added amino acid type surfactant (with weak acidity and pH value between 5 and 6) has better performances of emulsification, washing, foaming, permeation, solubilization and dissolution, low irritation and excellent biodegradability and skin affinity, and the amino acid type surfactants with different structures are used in combination to generate fine and soft foam, thereby improving the washing decontamination, mild cleaning and moisturizing performances of the toilet soap.

Preferably, the peroxide is at least one of sodium percarbonate, sodium perborate, urea peroxide, sodium peroxide and the like, preferably sodium percarbonate, which is a strong oxidizing agent and releases oxygen when exposed to moisture. The sodium percarbonate is an addition compound of hydrogen peroxide and sodium carbonate, and can be used as detergent, cleaning agent and bactericide in the fields of food, medicine and health. The sodium carbonate peroxide absorbs moisture and decomposes immediately, and the invention uses ozone oil to wrap the peroxide in advance to prevent the peroxide from decomposing before use. The invention utilizes the decontamination, cleaning and sterilization performance of the sodium percarbonate and the synergy of the sodium percarbonate and the ozone oil to remove the concealed insects.

Preferably, the ozone oil is wrapped with peroxide in advance, ozone oil is added, the ozone is also called as triatomic oxygen and is a natural oxidant, the ozone is a broad-spectrum, high-efficiency, quick, safe and secondary-pollution-free sterilization gas which is known at present and can kill various pathogens and pathogenic microorganisms such as bacterial spores, viruses, fungi and the like, the ozone oil is a pure natural mixture generated by reacting pure ozone gas with edible vegetable oil by using an ozone curing technology, and the ozone oil comprises the following components: ozone, edible vegetable oil and ozone addition compound, wherein the ozone oil can be applied to the aspects of antibiosis, antiphlogosis, itching relieving, detoxification and the like of skin and mucous membrane; the ozone oil has broad-spectrum sterilization, rapidness, safety, penetrability and no drug resistance; the present invention uses ozone oil to kill the hidden insects parasitizing in the sebaceous glands of human face.

When the antibacterial acarus killing perfumed soap is used, firstly, the antibacterial acarus killing perfumed soap is prepared, ozone oil and sodium percarbonate are weighed according to parts by weight, the ozone oil and the sodium percarbonate are uniformly mixed for later use, soap base, lauroyl glutamic acid, sodium lauroyl glycinate, sodium myristoyl glutamate, sodium cocoyl glycinate and glycerol are weighed according to parts by weight, the raw materials are put into a reaction kettle, materials in the reaction kettle are heated to be slowly heated to 60-70 ℃, stirring is carried out when the materials are heated, the materials in the kettle are uniformly stirred, heating is stopped, the mixed ozone oil and the sodium percarbonate for later use are put into the reaction kettle when the materials in the kettle are cooled to 25-30 ℃, the discharged materials are transferred into a perfumed soap mold after being uniformly stirred, and demolding is carried out after cooling and solidifying to obtain the antibacterial acarus killing perfumed soap, the prepared antibacterial acarus killing perfumed soap is used for smearing the part to be used after being wetted by warm water.

The specific preparation examples are shown as follows:

example 1

S1: weighing 13KG of ozone oil and 25KG of sodium carbonate peroxide, and uniformly mixing the ozone oil and the sodium carbonate peroxide for later use;

s2: weighing 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 glycerol;

s3: putting the raw materials into a reaction kettle, heating the materials in the reaction kettle to slowly raise the temperature to 60-70 ℃, starting stirring when heating the materials, and uniformly stirring the materials in the kettle;

s4: stopping heating, when the temperature of materials in the kettle is reduced to 25-30 ℃, putting the mixture of the ozone oil and the sodium percarbonate into the reaction kettle, discharging the materials after the materials in the kettle are uniformly stirred, transferring the discharged materials into a soap mold, cooling, solidifying and demolding to obtain the antibacterial and acarid-removing soap.

Example 2

S1: weighing 14KG of ozone oil and 28KG of urea peroxide, and uniformly mixing the ozone oil and the urea peroxide for later use;

s2: weighing 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 glycerol;

s3: putting the raw materials into a reaction kettle, heating the materials in the reaction kettle to slowly raise the temperature to 60-70 ℃, starting stirring when heating the materials, and uniformly stirring the materials in the kettle;

s4: stopping heating, when the temperature of materials in the kettle is reduced to 25-30 ℃, putting the mixture of the ozone oil and the sodium percarbonate into the reaction kettle, discharging the materials after the materials in the kettle are uniformly stirred, transferring the discharged materials into a soap mold, cooling, solidifying and demolding to obtain the antibacterial and acarid-removing soap.

Example 3

S1: weighing 12KG of ozone oil and 23KG of sodium percarbonate, and uniformly mixing the ozone oil and the sodium percarbonate for later use;

s2: weighing 38KG of soap base, 3.6KG of lauroyl glutamic acid, 2.8KG of sodium lauroyl glycinate, 3.6KG of sodium myristoyl glutamate, 3.6KG of sodium cocoyl glutamate, 2.8KG of sodium cocoyl glycinate and 3.6KG of glycerol;

s3: putting the raw materials into a reaction kettle, heating the materials in the reaction kettle to slowly raise the temperature to 60-70 ℃, starting stirring when heating the materials, and uniformly stirring the materials in the kettle;

s4: stopping heating, when the temperature of materials in the kettle is reduced to 25-30 ℃, putting the mixture of the ozone oil and the sodium percarbonate into the reaction kettle, discharging the materials after the materials in the kettle are uniformly stirred, transferring the discharged materials into a soap mold, cooling, solidifying and demolding to obtain the antibacterial and acarid-removing soap.

The foregoing is a preferred embodiment of the present invention, and it should be noted that modifications and embellishments could be made by those skilled in the art without departing from the principle of the present invention, and these modifications and embellishments are also considered to be within the scope of the present invention.

Claims (5)

1. The antibacterial acarus killing perfumed soap is characterized by comprising the following raw materials in parts by weight: 35-46 parts of soap base, 14-28 parts of amino acid type surfactant, 3-5 parts of glycerol, 10-20 parts of ozone oil and 20-30 parts of peroxide.

The antibacterial acarus killing perfumed soap preferably comprises the following raw materials in parts by weight: 40 parts of soap base, 4 parts of lauroyl glutamic acid, 3 parts of sodium lauroyl glycinate, 4 parts of sodium myristoyl glutamate, 4 parts of sodium cocoyl glutamate, 3 parts of sodium cocoyl glycinate, 4 parts of glycerol, 13 parts of ozone oil and 25 parts of sodium percarbonate.

2. The antibacterial acarus killing toilet soap as claimed in claim 1, which is characterized in that: the amino acid type surfactant is at least one of acyl glutamic acid and salts thereof, acyl glyceric acid and salts thereof, acyl sarcosine and salts thereof, acyl methyltaurine and salts thereof, and acyl alanine and salts thereof.

3. The antibacterial acarus killing toilet soap as claimed in claim 1, which is characterized in that: the peroxide is at least one of peroxide such as sodium percarbonate, sodium perborate, carbamide peroxide and sodium peroxide.

4. The antibacterial acarus killing toilet soap as claimed in claim 1, which is characterized in that: the ozone oil is pre-coated with peroxide.

5. The preparation method of the antibacterial acarus killing toilet soap according to claim 1, which comprises the following steps:

s1: weighing ozone oil and sodium percarbonate according to parts by weight, and uniformly mixing the ozone oil and the sodium percarbonate for later use;

s2: weighing soap base, lauroyl glutamic acid, sodium lauroyl glycinate, sodium myristoyl glutamate, sodium cocoyl glycinate and glycerol in parts by weight;

s3: putting the raw materials into a reaction kettle, heating the materials in the reaction kettle to slowly raise the temperature to 60-70 ℃, starting stirring when heating the materials, and uniformly stirring the materials in the kettle;

s4: stopping heating, when the temperature of materials in the kettle is reduced to 25-30 ℃, adding the mixed ozone oil and sodium percarbonate into the reaction kettle, uniformly stirring the materials in the kettle, discharging the materials into a soap mould, cooling, solidifying and demoulding to obtain the antibacterial acarus killing soap.