RU2089174C1 - Method for producing liquid cosmetic creams - Google Patents

Abstract

FIELD: cosmetology. SUBSTANCE: method involves melting fatty ingredients, preparing aqueous solution of water-soluble ingredients, mixing at high temperature, cooling, perfuming and emulsifying the composition by passing through vibrocavitational homogenizer with immovable working member, stator, and movable working member, rotor, at composition consumption not more 0.5 g/sq. cm/s of rotor working surface per second and at rotational speed, not more 12 m/s. EFFECT: higher homogeneity degree.

Description

 The invention relates to the cosmetic industry and can be used in the manufacture of cosmetics.

The technological process for producing liquid creams involves the following operations:
preparation of an aqueous solution of water-soluble components;
melting of solid and highly viscous components;
emulsification;
emulsion cooling;
perfume.

The emulsion is usually prepared at a temperature of 80-90 ^o C, usually in an apparatus with a stirrer and a jacket for heating. The apparatus can be equipped with a homogenizer, which constantly mixes the mixture of components. Using stirring, the emulsion is prepared for 30-40 minutes. The mixture can be homogenized using a roller mill, i.e. in the apparatus, where the substance is passed through rotating rollers with an adjustable gap (H. Vilano. Cosmetic chemistry. Ed. Mir, 1990, p. 137).

A known method of obtaining cream (and.with. 1666112, BI N 28, 1991 A 61 K 7/00), comprising melting fatty raw materials at 80 ^o C for 10 min, dissolving non-greasy components when heated to 80 ^o C and stirring within 10 minutes A solution of non-fat components is added to the fat base, emulsified for 10 minutes at 80 ^o C. The resulting cream base is cooled to 40 ^o C.

A composition of biologically active and aromatic additives is separately prepared. Both compositions are mixed at 40 ^° C. for 20 minutes in a stirrer. The resulting cream has a stability of 60 at 6 months of storage.

A known method of obtaining a cream for aging skin, including the melting of fat components in an apparatus with a stirrer at a temperature of 70-75 ^o C. Separately, a solution of non-greasy components is prepared and added to the melt of the fat base. Emulsification of the mass is continued for 25-30 minutes. Then the cream is cooled to 40-42 ^o C and perfume by perfume. After that, the cream is rolled.

 In accordance with the above methods, creams with an insufficiently high degree of dispersion of the particles are obtained, as a result of which delamination of the emulsion and deterioration of the quality of the cream are possible.

 The objective of the invention is to obtain creams of any consistency with a high degree of homogenization, providing stable colloidal and thermal stability.

 The problem is solved as follows: they carry out the melting of fatty ingredients, prepare an aqueous solution of non-greasy components, mix and coarse mix for 10 minutes, followed by emulsification under vibrocavitation in a homogenizer with a rotating working element, a rotor with a perforated surface and a fixed working element stator.

The specific consumption of the composition when passing through the homogenizer is not more than 0.5 g / cm ^{2 of the} working surface of the rotor per second at a rotation speed of the latter of at least 12 m / s.

 The vibracavitation homogenizer is a body with a cover on which the inlet pipe is located. In the housing coaxially with the inlet pipe there is a shaft with a rotor fixed on it, which consists of concentric rings with perforation. The fixed stator is fixed in the housing.

 An increase in the consumption of the composition and a decrease in the rotor speed will lead to a decrease in the quality of the obtained composition, its homogeneity, an increase in the maximum particle size and a decrease in colloidal stability. The colloidal stability of the composition depends on the size and chemical nature of the particles, the presence of stabilizers and surfactants. Vibrocavitation effect provides optimization of mass transfer processes. The inventive step is expressed in a new approach to the process of emulsification of ingredients upon receipt of a cosmetic cream that provides a high degree of homogenization due to the disaggregation of particles and their uniform distribution in the mass.

 Due to the vibro-cavitation effect, the surface activity of the dispersed particles increases and, accordingly, the processes of forming interface surfaces with the required properties are accelerated, ensuring high homogeneity and stability of the composition.

 Thus, the invention meets the criterion of "novelty and inventive step".

Example 1. Fat components: stone oil 10 g, perfume oil 8 g, cosmetic stearin 8 g, emulsion wax 3 g, beeswax 3 g are loaded into a container and heated to 80 ^o C, the fat components melt for 20-25 minutes . In a different container, water-soluble non-greasy components are placed: propanediol 5 g, triethanolamine 1 g, alcohol-glycerin herbal extracts 5 g and dissolved in 60 g of water at 75-80 ^o C. The molten fat components are introduced into a hot aqueous solution and stirred for 10 minutes . After that, the mass is cooled to 40-45 ^o C, add 0.5 g of benzyl alcohol and 0.5 g of perfume, and then emulsify by vibro-cavitation method at a rotor speed of 12 m / s and specific passage of the composition through a vibro-cavitation homogenizer of 0.5 g / cm ^{2 the} working surface of the rotor per second. The emulsification process is carried out for 3 minutes Colloidal and thermal stability of the cream corresponds to OST 18-21-81. Particle size not more than 1 MK.

Example 2. Analogously to example 1, a mixture of fatty components and nonfat raw materials is prepared. Vibrocavitation effect is carried out at a rotor speed of 20 m / s and a specific flow rate of the composition passing through the homogenizer of 0.3 g / cm ² . Colloidal and thermal stability corresponds to OST 18-21-81. Particle size not more than 1 MK.

 As can be seen from the above examples, obtaining a cream during emulsification using vibrocavitation exposure allows for a short time to obtain a product with a high degree of homogenization (particle size up to 1 MK), which ensures its colloidal stability and, accordingly, maintaining good performance over the entire storage period.

 When implementing existing methods, the particle size in the resulting compositions is at least 5 MK, which indicates their insufficient disaggregation, leading to delamination during storage.

Claims (1)

A method of obtaining a liquid cosmetic creams, comprising mixing a melt of liquid ingredients with an aqueous solution of water-soluble ingredients and vibro-cavitation treatment of the resulting composition, characterized in that the vibro-cavitation treatment is carried out in a homogenizer having a stator and a rotor, with a specific consumption of the composition of not more than 0.5 g / cm ² / from the working surface of the rotor and the peripheral speed of rotation of not less than 12 m / s.