RU2636496C1 - Antimicrobial universal soap based on hydrogen peroxide with high stability - Google Patents

Abstract

FIELD: cosmetology.SUBSTANCE: antimicrobial liquid soap includes hydrogen peroxide in an amount of 2.0-5.0 wt %, sodium and/or potassium salts of fatty C-Cacids as a surfactant in an amount of 18.0-21.0 wt %, acetophenone as a stabiliser in an amount of 0.005-0.05 wt %, sodium chloride in an amount of 0.5-1.0 wt %, essential oil in an amount of 0.05-0.3 wt % and water.EFFECT: application of the invention provides increased bactericidal activity with high stability of liquid soap based on hydrogen peroxide.3 tbl, 5 ex

Description

The invention relates to detergents that are suitable for washing hands and body, as well as for washing dishes manually.

A number of detergent compositions with various compositions are known, however, only some of them contain active active ingredients, due to which they have disinfecting properties, which makes them very useful in the fight against bacteria and microbes.

The prior art liquid soap, which is a water-alcohol solution of potassium salts of fatty acids with the addition of perfumes and water [Guidelines for the technology for obtaining and processing vegetable oils and fats, vol. IV, L., 1975].

The disadvantage of this soap is the feeling of dry skin when using it.

Known liquid hygienic soap [patent application RU 94024331 A, publ. 08/20/1996]. The composition of the soap includes potassium salts of a mixture of vegetable oils (in terms of fatty acids), alcohol, senna lipid complex or kelp extract, or kelp concentrate, saponified or copper derivatives of chlorophyll, perfume, water.

The disadvantage of this liquid soap is the high content of unsaturated fatty acids, which are capable of rapid oxidation, and therefore there is a need to introduce an increased alcohol content in the formulation, which can dry the skin. This leads to the presence of more dermatologically harsh properties of the finished product, which leaves unpleasant sensations on the skin after application.

Known liquid soap "Spack" [patent application RU 95106772 A, publ. 07/20/1996], including alkaline salts of fatty raw materials and useful additives: bile bile, turpentine and water, use the potassium salts of animal fats as alkaline salts of fatty raw materials, additionally contains ethyl alcohol, perfume, dye, waxes, glycerin, carboxymethyl cellulose.

The disadvantage of this soap is that low-quality animal fats are used, since they are secondary products of food processing. However, they have an unpleasant odor, which requires the introduction of more perfumes. Potassium salts of animal fats are high molecular weight compounds, have high activity on the surface, and it is highly degreased. They can greatly dry the skin and leave discomfort after use.

Closest to the proposed invention in terms of essential features is a liquid soap with an antibacterial effect [patent RU 2020929 C1, publ. 10/15/1994], containing, by weight. %:

Surfactants  14-20 Salicylic acid  0.01-0.8 Infusion of biomass pink radio  0.1-1.0 Fir oil  0.1-0.7 Glycerol  1.0-2.5 Perfume  0.1-2.5 Dye  0.0005-0.1 Salt  0.01-1.5 Formalin  0.01-1.5 Water  Rest

The specified soap is used as a foaming agent, but does not have sufficient antimicrobial disinfectant properties.

The objective of the present invention is to expand the arsenal of tools for antimicrobial treatment of hands, body and for washing dishes in the form of a universal liquid soap with a wide range of applications.

The technical result of the present invention is to provide high stability of an antimicrobial liquid soap based on hydrogen peroxide. Moreover, this tool has sufficient detergency and increased bactericidal activity, preventing the development of pathogens on the skin, with high organoleptic and physico-chemical characteristics, as well as disinfecting properties.

The objective of the present invention is solved and the technical result is achieved by the composition of an antimicrobial liquid soap, including hydrogen peroxide, sodium and / or potassium salts of fatty C ₁₆ -C ₁₈ acids as surface-active substances (surfactants), acetophenone as a stabilizer, sodium chloride, ethereal oil and water in the following ratio, wt. %:

hydrogen peroxide  2.0-5.0 sodium and / or potassium salts of fatty C ₁₆ -C ₁₈ acids  18.0-21.0 acetophenone  0.005-0.05 sodium chloride  0.5-1.0 essential oil  0.05-0.3 water  up to 100%

Sodium and / or potassium salts of fatty C ₁₆ -C ₁₈ acids from chicken fat have a more transparent and thicker consistency. In detergent formulations, it gives a more attractive presentation. During storage, it is less exposed to rancidity and maintains a stable consistency.

Hydrogen peroxide is a clear, colorless liquid, practically odorless. In the manufacture of cosmetic composition is used as a powerful disinfectant.

The stability of the proposed liquid soap provides the introduction of a stabilizer of hydrogen peroxide, such as acetophenone. During storage, hydrogen peroxide is prone to self-decomposition or decomposition initiated by metals of variable valency or organic impurities, elevated temperature, as well as exposure to light. To prevent this, special agents (stabilizers) are introduced into the composition of aqueous solutions, as well as various mixtures based on hydrogen peroxide, which block possible decomposition paths in the system.

Sodium chloride (table salt) is a white crystalline powder. In the production of cosmetic and hygienic detergents, it acts as a thickener.

Essential oil is a natural component obtained from an essential oil plant by steam distillation. It has a pleasant smell of the corresponding plant, has a bactericidal, antimicrobial effect, in addition, it can act as a biologically active component in a cosmetic product. As essential oils can be used any used in cosmetics (e.g. liquid soaps), i.e. well known to those skilled in the art.

Water may be potable, dimerized, or distilled.

The following are specific examples of carrying out the invention, including those demonstrating the achievement of a technical result. The examples are illustrative and in no way limit the scope of the claims.

Example 1

Preparation of an antimicrobial soap composition in an amount of 1000 g. Initially, 774.45 g of water (up to 100 wt.%) Is supplied to the reactor. The heating is turned on and when the mixer is switched on at a water temperature of 60-70 ° C, the calculated amount of a mixture of sodium and potassium salts of fatty C ₁₆ -C ₁₈ acids (surfactants) is loaded, 180.0 g (18.0 wt.%). Mixing continues until the surfactant is completely dissolved. Mixing time 30-40 minutes After complete dissolution of the surfactant, the heating is stopped, the supply of cold water is turned on to cool the solution. Cooling is carried out with stirring to a temperature of 30-40 ° C. After cooling, the remaining components are introduced into the product: 50 wt. % aqueous solution of H ₂ O ₂ in an amount of 40.0 g (which in terms of pure hydrogen peroxide is 2.0 wt.% H ₂ O ₂ of the resulting mass of the composition), pre-mixed with acetophenone, 0.05 g ( 0.005 wt.%), Sodium chloride in an amount of 5.0 g (0.5 wt.%), And most recently perfume, 0.5 g (0.05 wt.%). Stirring is continued for 10-20 minutes. Next, a sample of detergent is taken for compliance with the quality requirements of existing specifications. When the quality is consistent, the detergent is pumped through the filter to the container for standing and then to the packaging.

Example 2

The solution is prepared analogously to the method described in example 1. Example 2 differs from example 1 in the concentration of components in the composition of liquid soap (table 1).

Example 3

The preparation of the solution is carried out similarly to the method described in example 1. Example 3 differs from example 1 in the concentration of components in the composition of liquid soap (table 1).

Example 4

Laboratory tests were conducted on the target effectiveness of the proposed liquid soap. The tests were carried out as follows: a suspension of microorganisms was introduced into sterile dechlorinated tap water: Escherichia coli, Klebsiella, Salmonella typhimurium and typhoid fever, Shigella, cholera vibrio, coliphages, after which the resulting preparation was added (composition in accordance with example 1). The initial concentration of microorganisms in the test volume of water was 1 × 10 ⁶ CFU (PFU) / ml, the concentration of the agent is 0.013%. Exposure time is 20 minutes. At the end of the neutralization experiment, the studied samples were seeded on solid nutrient media to determine the number of viable microorganisms. The control served as a sample in which the proposed tool was not introduced. The results are presented in table 2.

Based on the results obtained, we can conclude that the claimed composition of liquid soap has high antimicrobial activity.

Example 5

To assess the main properties of the obtained compositions (examples 1-3), the following factors were selected: washing ability, sensations after use (dryness and tightness), storage stability.

Assessment of these properties was carried out on a five-point scale.

Washing ability:

1 - very weak; 2 - weak; 3 - medium; 4 - good; 5 is very good. Sensation on the skin after application (dryness and tightness):

1 - a strong feeling of dryness and tightness; 2 - a feeling of dryness and tightness; 3 - a weak feeling of dryness; 4 - lack of dryness and tightness; 5 - lack of dryness and tightness, a sense of comfort.

Storage stability:

1 - turbidity and precipitation; 2 - slight turbidity and precipitation; 3 - slight turbidity and lack of sediment; 4 - lack of turbidity and sediment; 5 - the transparency of the solution without turbidity and sediment.

Investigated the samples obtained on the basis of the formulations from table 1 (in accordance with the present invention). These compositions were compared with the composition according to the closest analogue (Table 3).

The table shows that the inventive liquid soap confirms the improved properties: washing ability - 4.7 points (in the prototype, this figure is 4.0 points); sensation on the skin after application - 4.7 points (prototype - 4.0); storage stability - 4.7 points (prototype - 4.0).

Thus, the present invention provides the creation of a new antimicrobial liquid soap based on hydrogen peroxide with high stability. It is important to note that, unlike traditional cleaning products, antibacterial agents, in particular soaps, can remain on surfaces, creating conditions for the emergence of resistant bacteria. To avoid this problem, the inventive composition uses an environmentally friendly hydrogen peroxide as an antimicrobial agent, which decomposes into water and oxygen after processing. In addition, the inventive tool has increased washing and fat-removing effects in unheated and slightly heated water, natural raw materials are used in the production, the product is obtained with softer dermatological characteristics and high stability during storage due to the introduction of a stabilizer.

Claims (2)

Antimicrobial liquid soap, including hydrogen peroxide, sodium and / or potassium salts of fatty C ₁₆ -C ₁₈ acids as surfactants, acetophenone as a stabilizer, sodium chloride, essential oil and water in the following ratio, wt. %: hydrogen peroxide  2.0-5.0 sodium and / or potassium salts of fatty C ₁₆ -C ₁₈ acids  18.0-21.0 acetophenone  0.005-0.05 sodium chloride  0.5-1.0 essential oil  0.05-0.3 water  up to 100%