RU2471861C2 - Cosmetic soap and method for production thereof - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: cosmetic soap contains a soap base which is based on baby soap, water and plant additives which are powder of fruits and berries obtained using a microwave vacuum technique. Powder of extraction cake of seeds of fruits and/or berries and/or pine nut shells after extraction can also be used. All components are taken in the following ratio, wt %: powder of fruits and berries 2.5-8.0, powder of extraction cake of seeds of fruits and/or berries and/or pine nut shells 4.0-10.0, water 9.0-12.0, base 9.0-12.0. The method of making the cosmetic soap with plant additives involves obtaining soap chips from baby soap, melting in a microwave field, adding the additives, moulding by pouring into moulds and cooling.

EFFECT: invention increases the scrubbing and massaging effect, prolongs the shelf life of the soap and improves its quality.

4 cl, 1 tbl

Description

The invention relates to the manufacture of soaps, in particular to the manufacture of soaps with herbal additives that enhance its cosmetic properties.

The known composition of toilet soap containing soap shavings, plasticizer, dye, perfume, antioxidant, useful additive (RU 2291191 C1, IPC 51 C11D 9/00, C11D 13/00, published January 10, 2007 Bull. No. 1). A useful additive is a fat-and-oil phospholipid product obtained by quadrupling mixing preheated plant phospholipids with an organic solvent, adding to the solvent before the third mixing a 0.5-1.0% solution of citric acid in flooded acetone taken in an amount of 1.0 -2.5% by weight of phospholipids, phase separation to obtain oil-phospholipid product and its subsequent drying, in the following ratio, wt.%:

Soap shavings 72.00-75.00 Antioxidant 0.20-0.50 Plasticizer 0.20-0.50 Dye 0.01-0.03 Perfume 0.10-0.15 Fat and Oil Phospholipid Product 0.50-3.00 Water Rest

Despite the fact that the resulting soap has high cosmetic properties, which are expressed in the presence of a softening effect, giving the skin velvet and elasticity, the known solution does not indicate which plant phospholipids are used. It is not clear which drying method is used to obtain the oil-and-fat phospholipid product and how the drying method affects the preservation of the beneficial components of the oil-and-fat phospholipid product.

It is known toilet soap with both exfoliating and moisturizing properties (RU 2311450 C2, IPC 51 C11D 3/14, C11D 17/00, A61K 8/18, A61Q 19/10, published 11/27/2007. Bull. No. 33). Toilet soap contains 20-60 wt.% One or more synthetic surfactants, 10-50% moisturizer and exfoliating particles, of which at least 25% of the particles have a main axis length of from 100 to 600 microns.

The well-known soap provides beneficial effects perceived by the consumer, such as exfoliation, softness, moisturizing and cleansing. Moreover, as exfoliating particles, polyethylene, microcrystalline wax, jojoba esters, amorphous silicon dioxide, talc, tricalcium orthophosphate or mixtures thereof and the like are used. It is preferable to use natural plant components as a scrub particles that act as a scrub and nourish the skin.

Known massage lump soap (RU 2376346 C2, IPC 51 C11D 13/14, C11D 17/00, published December 20, 2009. Bull. No. 35), comprising two different fractions - fraction A and fraction B. Fractions have a solubility that varies at least by at least 1.0%, when used, a ribbed structure of the surface of the soap is formed.

Despite the massaging and exfoliating effect achieved by the well-known soap, it does not use herbal supplements, which are a promising component in the cosmetic and soap industries.

Known toilet soap, including sodium salts of fatty acids, fragrance, dye, whitewash, antioxidant, plasticizer and water (RU 2329299 C1, IPC 51 C11D 13/00 published July 20, 2008 Bull. No. 20). As a plasticizer, the soap contains a mixture of cedar nut meal and protein-lipid emulsion of cedar oil in a ratio of 1: 1, in the following ratio, wt.%:

Fatty Acid Sodium Salts 74.4-75.5 Perfume 1.0-1.5 Dye 0.002 White 0.3 A mixture of pine nuts meal and 0.2-0.4 protein-lipid emulsion of cedar oil Antioxidant 0.3 Water Rest

The known solution allows to improve the physico-chemical characteristics and cosmetic value of the soap. The introduction of a mixture of cedar nut meal and protein-lipid emulsion allows the use of soap not only as a detergent, but also nourish the skin with biologically active substances according to the principle of a light cream. However, the known solution does not describe under what conditions and by what method a mixture of cedar nut meal and protein-lipid emulsion was obtained. No data on the quantitative content of a mixture of biologically active substances.

Cosmetic soap and a method for its manufacture (variants) are known, selected by the applicant as a prototype (RU 2370522 C2, IPC 51 C11D 13/00, C11D 17/08, published October 20, 2009, Bull. No. 29). Known soap on the prototype includes a soap base, flavor, color and natural component. The base is based on palm and / or coconut oil, including conventional preservatives. Natural components are crushed fruit pulp that has not undergone preliminary heat treatment (particle size less than 1 cm); or particles of fruit seeds (particle size less than 3 mm.); or particles of plants; or a natural sponge in the following ratio of components, wt.%:

Flavoring 1.0-1.5 Dye 0.001-0.005 Natural ingredient 3.0-10.0 The basis Rest

A method of manufacturing a cosmetic soap according to the prototype consists in placing the above components in a container at a melting point of the base, stirring, keeping in a water bath at a temperature of 50-60 ° C for 5-60 minutes, molding by molding in molds, cooling to room temperature.

Despite the fact that the known technical solution allows you to expand the range of soaps and preserve the beneficial properties of natural plant components, it has several disadvantages: the quantitative ratio of useful components in the soap is not indicated, the shelf life of the resulting soap is not indicated. It can be assumed that the resulting product has a shorter shelf life than conventional soap, since using fresh raw materials and processing them for 5-40 minutes at a temperature of 50-60 ° C cannot completely destroy the microflora of raw materials (it is known that in plant materials there are yeasts, molds, and other microorganisms, the suppression of reproduction of which is possible only with pasteurization or sterilization, carried out at 90-120 ° C), which suggests microbiological spoilage of products. In addition, at a temperature of 50-60 ° C, a part of biologically active substances, vitamins, is lost in the natural component.

The problem to which the invention is directed is to create a recipe and a method for producing soap, which includes herbal supplements - powders from fruits and berries, obtained using microwave vacuum technology, which allows to preserve the native properties and biological value of the feedstock; powders from seeds of fruits, berries, pine nutshells after extraction.

The technical result of the invention is to enhance the effect of exfoliation and massage, lengthening the shelf life of soap, improving its quality.

The specified technical result is achieved by the fact that in a cosmetic soap comprising a soap base, herbal additives and water, in accordance with the invention, baby soaps are used as the basis, and powders from fruits and berries obtained by microwave vacuum processing and / or powders from meal of seeds of fruits and / or berries, and / or shells of pine nuts in the following ratio of components, wt.%:

Fruit and berry powder 2.5-8.0 Powder from meal of seeds of fruits and / or berries, and / or shells of pine nuts 4.0-10.0 Water 9.0-12.0 The basis Rest

The specified technical result is also achieved by the fact that in the method of producing cosmetic soap, providing for the melting and mixing of the recipe components, including the base, water and herbal additives, molding and cooling, according to the invention, as a basis, use baby soap, which is ground, add water, mix, melted at a temperature of 50-55 ° C in a microwave field with a capacity of 200-250 W / kg for 20-25 minutes, plant additives are introduced, which are used as powders from fruits and berries obtained by put m of microwave vacuum treatment, and / or powders from a meal after extraction of seeds of fruits and / or berries, and / or shells of pine nuts, mix the mixture, place in the microwave field for 3-5 minutes, while the prescription components are introduced in the following ratios, wt.%:

Fruit and berry powder 2.5-8.0 Powder from meal of seeds of fruits and / or berries, and / or shells of pine nuts 4.0-10.0 Water 9.0-12.0 The basis Rest

Distinctive features of the claimed soap and the proposed method are the use of baby soap as a basis, as vegetable additives - powders from fruits and berries obtained by microwave vacuum technology and / or powders after extraction of seeds of fruits and / or berries, and / or pine nutshell , as well as their quantitative composition.

In addition, the difference of the proposed method is the new conditions for the melting of the soap base, namely in the microwave field and empirically established its modes.

Powders from fruits and berries were obtained using microwave vacuum technology according to RU No. 2403791, A23B 7/02, 7/045, 11/20/2010, which allows maximum preservation of the native properties, organoleptic characteristics and biological value of the feedstock; reduce microbiological contamination of plant materials to the level permitted by SanPiN.

Powders of seeds of fruits and / or berries, and / or shells of pine nuts are waste products in the form of meal, obtained after extraction of valuable substances from the above plant materials.

Powders from fruits and berries contain a significant amount of macro- and microelements, vitamins, proteins, fats, carbohydrates, biologically active substances with antioxidant properties, which helps to preserve the native properties of plant materials and extend the shelf life of soap.

Powders from seeds of fruits, berries, and pine nutshells subjected to extraction are industrial waste, and their use in soap formulations is one of the ways to solve the problem of complex processing of plant materials.

The base on the basis of children's soap includes a minimum amount of additives and is recommended for the care of very sensitive skin (children), therefore, the claimed invention can be used by any population groups. In addition, the use of a soap base on the basis of baby soap is economically justified - the price of baby soap is 2.5-3 times lower than the glycerin base or a base based on palm and coconut oils.

The use of herbal additives in the composition of the soap in combination with a base based on children's soap provides an increase in the cosmetic properties of the soap through the use of powders from fruits and berries that nourish the skin with biologically active substances, and powders from meal of seeds of fruits, berries and pine nutshells exfoliate dead skin particles skin (act as a scrub) and micromassage that improves blood circulation.

It should be noted that the soap does not use additional dyes and flavors, thereby ensuring its "naturalness", which allows us to recommend the invention for use by people with sensitive skin. This helps to improve the quality of the product.

The quantitative composition of herbal supplements was selected empirically. The content of the components depends on the type and characteristics of the herbal additives used to obtain the specific type of soap. So, when using herbal supplements, in particular powders from fruits and berries that have natural pronounced dark colors (blueberries, blueberries, chokeberries, black currants), their number is minimal, and when using fruits and berries in lighter tones as a herbal supplement (sea buckthorn, red-fruited mountain ash, red currant, golden currant) their number increases. However, it should be noted that the introduction of the amount of powders from fruits and berries more than 8.0 wt.% Contributes to the deterioration of the washing properties of soap and reduce foam, and with the introduction of the number of powders from fruits and berries less than 2.5 wt.% , the color of the soap worsens (becomes pale).

The quantitative content of powders from meal seeds of fruits, berries and pine nutshells depends on the purpose of the invention. For example, a soap with a maximum particle size of up to 1000 microns and a powder content of meal seeds of fruits, berries and pine nutshells can be used for skin areas with rougher skin (feet, elbow folds) to remove dead skin particles, and soap with a minimum particle size from 50 to 500 microns and a content of powders from meal seeds of fruits, berries and pine nutshell can be used on sensitive areas of the skin (face, neck). It should be noted that the introduction of the amount of powders from the meal of seeds of fruits, berries and pine nuts shells of more than 10.0 wt.% Contributes to a sharp decrease in foam and has a damaging (scratching) effect on the skin, which is accompanied by its redness and microcracks, and when the quantity is introduced powders from meal seeds of fruits, berries and pine nutshells of less than 4.0 wt.%, a decrease in the exfoliating and massaging abilities of soap is observed. In addition to exfoliating and massage effects, powders from seed meal of fruits, berries and pine nutshell contain a residual amount of biologically active substances of the feedstock, which together with biologically active substances of powders from fruits and berries provides a synergistic effect.

The claimed method of making soap with the claimed formulation enhances the exfoliating and massaging effects, while supplying and nourishing the skin with biologically active substances of the feedstock.

The power of the microwave field, the time and duration of processing, the particle size of the soap base was established experimentally. When the power of the microwave field is 900-1000 W, the base melts within 5-9 minutes with the formation of solid white lumps that precipitate and do not subsequently dissolve. When the power of the microwave field is in the range of 500-800 W, an uneven melting of the base is observed. The microwave processing time is 10-14 minutes. When the power of the microwave field is 150-190 W, the melting time of the base is 26-35 minutes, which requires additional energy costs and, accordingly, is economically less profitable. The power range of the microwave field in the range of 260-490 watts requires 15-19 minutes of melting the base. We have selected a microwave power range of 200-250 W, the processing time at which is 20-25 minutes, since under these processing conditions the temperature of the molten base is 50-55 ° C, which corresponds to the recommended melting temperature of the soap base. With a microwave power of more than 250 W, the melting temperature of the base is above 55 ° C, which can adversely affect the quality of the soap base. With a microwave power of less than 200 W, the processing temperature is below 50 ° C, so for the melting of the base it will take a long time, which is not economically viable.

In addition, during experimental studies it was found that the size of its particles affects the melting time of the soap base: the smaller the base particles, the shorter the processing time of the soap base. However, grinding the soap base to the state of fine grains is fraught with technical difficulties - the auger of the Mulineks food processor is clogged with soap crumbs, which complicates further grinding. The crushed base with a size of soap chips (20-25) × (5-7) mm melts unevenly and requires a longer heating time, so we chose the optimal particle size of soap chips, which was (2-19) × (2-4) mm .

Thus, the distinctive features of the claimed invention provide enhanced effects of exfoliation and massage due to the use of meal from plant materials, lengthening the shelf life and improving the quality of cosmetic soaps due to the content in plant additives of mineral substances, vitamins, biologically active substances with antioxidant activity, reduction the duration of the process due to the use of microwave energy.

The essence of the invention is described below.

To implement the method, a pre-ground base is placed in the container - baby soap (the base is ground on a Mulinex food processor to obtain soap chips measuring (2-19) × (2-4) mm, mixed with water, the container is placed in a microwave field with a power of 200-250 W for 20-25 minutes at a temperature of 50-55 ° C until the base is completely melted.Then a predetermined amount of plant additives is introduced, mixed, the mixture is kept in a microwave field with a capacity of 200-250 W for 3-5 minutes, poured in molds, cooled at room temperature.

The composition of the cosmetic soap includes, wt.%:

Fruit and berry powder 2.5-8.0 Powder from meal of seeds of fruits and / or berries, and / or shells of pine nuts 4.0-10.0 Water 9.0-12.0 The basis Rest

Powders from fruits and berries were obtained in accordance with RU No. 2403791, A23B 7/02, 7/045, 11/20/2010 by microwave vacuum treatment. Meal of seeds of fruits, berries, pine nutshells obtained after extraction of plant materials. The meal is dried and crushed. Baby soap consists of sodium salts of animal fatty acids and vegetable oils, water, titanium dioxide, citric acid, glycerol, mink fat, triethanolamine, diethylene glycol, PEG-9, disodium salt of EDTA, sodium carboxymethyl cellulose, benzoic acid, sodium chloride.

The invention is explained in more detail with examples.

Example 1. The base (baby soap, weighing 79.5 g) was crushed on a Mulinex food processor to obtain soap chips measuring (2-19) × (2-4) mm, placed in a container, added 12 ml of water, mixed, placed in a microwave field with a power of 200 W for 25 min at a temperature of 50 ° C. After complete melting, lingonberry powder (3.5 g) was added to the base, pine pine shell powder (5.0 g) was added, mixed, the mixture was kept in a microwave field with a power of 200 W for 5 min, poured into molds, cooled at room temperature. The particle size of the herbal supplement, the appearance of the soap and the cosmetic effect are shown in the table.

Example 2. The base (baby soap, weighing 77.0 g) was crushed on a Mulinex food processor to obtain soap chips measuring (2-19) × (2-4) mm, placed in a container, added 10 ml of water, mixed, placed in a microwave field with a power of 250 W for 20 min at a temperature of 55 ° C. After complete melting, cranberry powder (5.0 g) was added to the base, cedar nut shell powder (8.0 g) was mixed, mixed, the mixture was kept in a microwave field with a power of 250 W for 3 min, poured into molds, cooled at room temperature. The particle size of the herbal supplement, the appearance of the soap and the cosmetic effect are shown in the table.

Example 3. The base (baby soap, weighing 78.0 g) was crushed on a Mulinex food processor to obtain soap chips measuring (2-19) × (2-4) mm, placed in a container, added 13 ml of water, mixed, placed in a microwave field with a power of 220 W for 23 min at a temperature of 53 ° C. After complete melting, buckthorn powder (8.0 g) was added to the base, buckthorn seed powder (3.0 g) was mixed, the mixture was kept in a microwave field with a power of 220 W for 4 min, poured into molds, cooled at room temperature temperature. The particle size of the herbal supplement, the appearance of the soap and the cosmetic effect are shown in the table.

Example 4. The base (baby soap, weighing 75.0 g) was crushed on a Mulinex food processor to obtain soap chips measuring (2-19) × (2-4) mm, placed in a container, added 19 ml of water, mixed, placed in a microwave field with a power of 230 W for 22 min at a temperature of 52 ° C. After complete melting, the powder from red-fruited mountain ash (6.0 g) was added to the base, the powder from sea buckthorn seeds (10.0 g) was mixed, the mixture was kept in a microwave field with a power of 230 W for 3 min, poured into molds, cooled at room temperature. The particle size of the herbal supplement, the appearance of the soap and the cosmetic effect are shown in the table.

This invention allows to obtain soap with enhanced cosmetic effect, enrich the soap with macro- and microelements, vitamins, proteins, fats, carbohydrates. The resulting soap has an original appearance, has natural colors characteristic of the type of fruit and berry raw materials used.

Soap Characteristic No. Name
indicator Sample Number one 2 3 four one Plant component 1. Lingonberry (powder) - 3.5 g 1. Cranberries (powder) - 5.0 g 1. Sea buckthorn (powder) - 8.0 g 1. Red-fruited mountain ash (powder) - 6.0 g 2. Pine nut shell (powder) - 5.0 g 2. Pine nut shell (powder) - 8.0 g 2. Sea buckthorn seeds (powder) - 3.0 g 2. Sea buckthorn seeds (powder) - 10.0 g 2 Particle size mm 1. Lingonberry (powder) - 100 microns 1. Cranberries (powder) -300 microns 1. Sea buckthorn (powder) - 800 microns. 1. Red-fruited mountain ash (powder) - 500 microns. 2. Pine nut shell (powder) - 500 microns 2. Pine nut shell (powder) - 1000 microns 2. Sea buckthorn seeds (powder) - 800 microns 2. Sea buckthorn seeds (powder) - 600 microns Organoleptic indicators 3 Color Serene burgundy with violet and light brown spots Burgundy violet with burgundy and light brown spots Light yellow, with orange and brown spots Light pink with red-orange and brown blotches four Smell The pronounced smell of the base (baby soap) with a poorly perceptible aroma of herbal additives 5 Appearance Soap firm to the touch, particles of vegetable additives are felt on the surface of the piece Firm soap to the touch, particles of vegetable additives are clearly felt on the surface of the piece Soap firm to the touch, particles of vegetable additives are weakly felt on the surface of the piece Firm soap to the touch, particles of vegetable additives are clearly felt on the surface of the piece 6 Cosmetic effect (evaluated on a 5-point scale): Exfoliation four 5 5 four Massaging four 5 5 four

Claims (4)

1. Cosmetic soap, including a soap base, herbal supplements and water, characterized in that baby soap is used as the base, powders from fruits and berries obtained by microwave vacuum treatment and / or meal powder after extraction are used as herbal additives seeds of fruits and / or berries, and / or shells of pine nuts in the following ratio of components, wt.%:
Fruit and berry powder 2.5-8.0 Powder from meal of seeds of fruits and / or berries, and / or shells of pine nuts 4.0-10.0 Water 9.0-12.0 The basis Rest 2. Cosmetic soap according to claim 1, characterized in that the baby soap is used in the form of chips with a size of (2-19) × (2-4) mm. 3. A method of manufacturing a cosmetic soap, providing for the melting and mixing of prescription components, including the base, water and herbal additives, molding and cooling, characterized in that the base is used baby soap, which is ground, add water, mix, melt at a temperature of 50- 55 ° C in a microwave field with a capacity of 200-250 W / kg for 20-25 minutes, vegetable additives are introduced, which are used as powders from fruits and berries obtained by microwave vacuum treatment, and / or powders from meal after extraction of the seeds of fruits and / or berries, and / or shells of pine nuts, mix the mixture, place in the microwave field for 3-5 minutes, while the prescription components are administered in the following proportions, wt.%:
Fruit and berry powder 2.5-8.0 Powder from meal of seeds of fruits and / or berries, and / or shells of pine nuts 4.0-10.0 Water 9.0-12.0 The basis Rest 4. The method according to claim 3, characterized in that the baby soap is used in the form of chips with a size of (2-19) × (2-4) mm.