RU2008897C1 - Method of producing detergent for personal hygiene - Google Patents

Abstract

FIELD: perfumery and cosmetic industry. SUBSTANCE: soap base is prepared by mixing vegetable oil with alkali ethyl alcohol and with water at 60-90 C. The process is followed by cooling, filtration and packing. 40-50% solution of potassium hydroxide is fed by portions diluted by water. Ethyl alcohol is fed at 85-90 C and cooled to 20-25 C. Alcohol-glycerin vegetable extracts and odorant are added after filtration at 38-42 C. Then alcohol extract of viburnum, carrot, mountain-ash, beet or spruce extract are added as dye. EFFECT: improves efficiency of the method.

Description

 The invention relates to medicine, namely to cosmetology, in particular to methods for hygienic detergents for body and hair care.

 Known methods for producing detergents for personal hygiene based on surfactants and various plant-based biologically active additives. These funds have a mild effect, biologically active.

 However, due to the large number of surfactants, these products have a drying effect, as a result of which the hair becomes brittle, and skin with frequent use of such detergents is prone to peeling. In addition, the bulk of imported surfactants and their use dramatically increase the cost of products.

 Known methods for producing hygienic detergents using less surfactants with the addition of fatty acids, vegetable oils, that is, using fatty oils as the basis. For example, there is a known method for producing a hygienic detergent based on liquid soap and oil extracts prepared on a low melting fraction of mink fat.

 There is also known a method of obtaining a liquid hygienic detergent based on soap with the addition of alizarin oil.

A method is known in which oleic acid and triethanolamine are charged into a soap boiler. The mass is heated with hot steam to a boil, the saponification process is carried out with stirring with hot steam for 1 hour 30 minutes to obtain a thick transparent mass. Alizarin oil is loaded into the obtained triethanol soap and the mass is mixed for 10 minutes with hot steam until smooth. Then gradually the boiler at boiling steaming charged with water at a temperature not lower than 40 ^{° C,} leaving a small amount of water for adjusting the fatty acid content. Dissolution in water is carried out until a homogeneous liquid mass is obtained. The mass in the pot was cooled to 45-50 ^{° C,} air-cooled and charged with a pre-filtered infusion nettle and hops. Then, perfume and alcohol are charged. The mass is stirred with compressed air for 15 minutes.

 The specified method allows to obtain a detergent with a biologically active effect, but in the soap base there are still surfactants - triethanolamine. In this regard, the method is expensive, obtaining a detergent is time-consuming.

The closest in technical essence and the technical result, chosen as the prototype, is taken a method for producing hygienic cleanser consists in the fact that coconut oil is saponified with a solution of potassium hydroxide in water and alcohol at a temperature of 40-50 ^{° C,} after which the mixture was cooled, settled , filtered and served on packaging.

The proposed method differs from the known fact that the preparation of the soap base is carried out at 60-90 ^{° C} using 40-50% potassium hydroxide, and alkali supply portions produce a mixture of water and ethyl alcohol is introduced to the end of the saponification and then the resulting concentrate is again diluted with water to the content of fatty acids in a concentrate of 16-21%. After cooling the mixture to 40 ^{° C} it is administered sequentially hydroalcoholic extracts of medicinal plants and perfume, and then the dye in the form of alcoholic extracts viburnum, carrots, rowan, beet or coniferous concentrate.

EXAMPLES EXAMPLE 1 100 g of safflower or grape amaranth oil heated on the steam bath to 60-70 ^{° C,} then added in portions 44 g of 50% potassium hydroxide with constant stirring. With the introduction of subsequent portions of alkali, water is added to reduce the concentration of caustic potassium. After the last portion of alkali has been added, 8 ml of 96 ^about alcohol are added to the homogeneous mixture. Saponification still with constant stirring and at 85-90 ^{° C} to give a thick opaque concentrate. The resulting concentrate is cooled to 20-25 ^about C and diluted with water to a fatty acid content in the range of 16-21%. The resulting soap base contains a mass basis of fatty acids 16-21%, free alkali not more than 0.03% unsaponifiable organic substances and unsaponifiable fat not more than 0.5-1.5%. The resulting concentrate at a temperature not higher than 40 ^{° C} is introduced hydroalcoholic extracts of herbs, flavor, and dye is then in a prescription amount. To color the detergent, 0.5% concentration solutions of aniline dyes (rhodamine, methanine) or alcoholic extracts of viburnum, table carrot, common mountain ash, table beet, and hop concentrate can be used.

The detergent obtained by the proposed method was tested on mice of the C ₅₇ line (20 goals) and August rats (20 goals) for 20 days. Changes in the condition and behavior of animals were not observed. With daily external use for 30 days by people (10 people, volunteers), redness and swelling of the skin was not observed.

 The agent obtained by the proposed method is not toxic. Thus, the proposed method is simpler in technology, cheaper, and the tool obtained by the proposed method meets the standards. (56) Copyright certificate of the USSR N 946544, cl. A 61 K 7/08, 1980.

Claims (1)

METHOD FOR PREPARING PERSONAL HYGIENE Detergents by preparing a soap base by mixing vegetable oil with caustic alkali, ethyl alcohol and water, followed by cooling, filtering and packing the mass, characterized in that the mixing of the components of the soap base is carried out at a temperature of 60 - 90 ^o C, while using A 40 - 50% solution of caustic potassium, which is served portionwise, diluted with water, is introduced into the resulting mixture 96 ^o ethyl alcohol at a temperature of 85 - 90 ^o C, then the base is cooled to 20 - 25 ^o C, and after filtering to it at pace At a temperature of 38 - 42 ^o With add alcohol-glycerin extracts of plants and perfume, and then a dye, which is an alcoholic extract of viburnum, carrot, mountain ash, beetroot or coniferous concentrate.