RU2124885C1 - Method of preparation of composition based on crystalline, amorphous and liquid components - Google Patents

Abstract

FIELD: methods of preparation of hygienic compositions used for household needs. SUBSTANCE: preliminarily prepared from crystalline components are particles sizing from 3 to 10 mm, and finely divided powder from amorphous components which are mixed in hermetically sealed drum-type mixer with rotating body. The rotating speed of mixer chamber is set so that in inclination of surface of loaded drum through an angle is larger than an angle of repose of material it flows downward with the center of gravity of load remaining at the initial position. EFFECT: higher stability of composition and reduced caking of material. 1 tbl

Description

 The invention relates to methods for the preparation of therapeutic hygienic compositions used in everyday life.

 A known method of preparing a composition for baths based on crystalline, amorphous and liquid components, described in A.S. N 1001936, 07.03.83, A 61 K 7/50, "Means for bathtubs (its variants)." In accordance with the method, the crystalline component of NaCl is mixed with amorphous substances: soda ash, fluorescin, perfume, dye, chlorophyll-karate coniferous paste, and with liquid components: polyethylene glycol and fir oil. In this case, the crystalline component is used mycocrystalline, and amorphous in finely dispersed form. Mixing is carried out using one of the known methods for mixing solid and liquid components. Mixing of the components is achieved due to the fact that the paste, which is a viscous ointment-like product, envelops crystals of sodium chloride, while simultaneously fixing other components on their surface.

 Closest to the proposed is a method of preparing a composition for baths based on crystalline, amorphous and liquid components, described in a. with. N 727196, 04/15/80, A 61 K 7/50 "Bath agent". In accordance with the method, the mixing is carried out in four stages, namely: the crystals of sodium chloride are mixed with perfume, the liquid components are mixed (tartaric acid with polyethylene glycol), the solid components are mixed (sodium carbonate and bicarbonate), and then all the components are mixed. Mixing is carried out using one of the known methods for mixing solid and liquid components. The initial components of the composition, which are in crystalline and solid state, are preliminarily crushed to a finely dispersed state. When mixing all the components of the composition, sodium chloride crystals are surrounded by an oily film of essential oils dissolved in polyethylene glycol, while simultaneously fixing other components of the composition on their surface.

 A drawback of the revealed methods for preparing a composition based on crystalline, amorphous and liquid components is that the components in them are mixed by adsorption of amorphous and liquid components to the surface of crystalline components, i.e. as a result of mixing, amorphous and liquid components of the composition are coated with a thin adsorption layer on the surface of crystalline components. Since the adsorption forces of adhesion of the adsorbent to the surface of the adsorbent are directly dependent on environmental conditions, in particular, desorption is observed with increasing ambient temperature, this reduces the stability of the composition.

 In addition, since the known methods for preparing the bath composition are based on the adsorption of amorphous and liquid components to the surfaces of crystalline components, the latter are crushed to increase the total surface of the crystalline components, which contributes to caking of the final product during storage.

 Thus, the revealed methods of preparation of the composition based on crystalline, amorphous and liquid components during their implementation do not allow to achieve a technical result consisting in increasing the stability of the composition, as well as in reducing the caking of the final product.

 The present invention "A method of preparing a composition based on crystalline, amorphous and liquid components" solves the problem of creating an appropriate method, which, when implemented, ensures the achievement of a technical result, which consists in increasing the stability of the composition, as well as in reducing the caking of the final product.

 The essence of the invention lies in the fact that in the method of preparing a composition based on crystalline, amorphous and liquid components, in which the components of the composition are loaded into a mixer, particles from 3 to 10 mm in size are formed from crystalline components, fine powder is formed from amorphous components, and mixing the components are carried out in a mixer for mixing bulk materials of a drum type with a rotating body, which, after loading the components, is hermetically closed, then the mixer body is driven into rotation, the speed of which is set corresponding to the motion mode of bulk material "roll."

 The technical result is achieved as follows. When the mixer body rotates, the components of the composition mix. Moreover, the use of a mixer for mixing bulk materials of a drum type with a rotating chamber allows the mixing of the components when the particles of the starting materials slip on the surface of the rotating body of the mixer. To do this, the rotation speed of the mixer is set to the “roll” mode of movement of the granular material, in which when the surface of the loaded drum tilts more than the angle of repose, excess material is poured down, trying to restore the original angle of repose. In this case, the center of gravity of the load remains in one place, and material moves around it: it rises up near the drum wall, and is poured down along the free surface. Thus, in the mode of movement of bulk material "roll" the particles of the material all the time slide on the inclined surface of the drum, while doing its axial movement. When sliding, the crystals rub against the surface of the mixer, as a result of which the surface of the crystals heats up. This leads to an increase in intercrystalline gaps in regions close to the crystal surface. Owing to this, as a result of mixing, finely dispersed particles of amorphous components not only precipitate on the surfaces of crystals - they adsorb, but some of them penetrate the increased intercrystalline gaps, i.e., they diffuse into the crystal. The liquid components of the composition are partially condensed into increased intercrystalline gaps of the crystals, i.e. they also diffuse into the crystal, and their remaining part envelops the surfaces of crystals and particles of free amorphous components, fixing and fixing the latter on the surface of crystals through adsorption. The condensation of the liquid components of the composition is facilitated by the tightness of the chamber of the mixer (the mixer is hermetically closed after loading the components), which excludes the interaction of the interior of the chamber with the external environment and prevents the volatilization of the liquid components of the composition.

 The choice of crystal size is due to the fact that with its decrease the number of intercrystalline gaps close to the crystal surface decreases, which, when the components are mixed, accordingly leads to a gradual predominance of the adsorption process over the diffusion process. The formation of crystal particles ranging in size from 3 to 10 mm ensures in the proposed method, when mixing the components of the composition, the prevalence of the diffusion process over the adsorption process most of the components of the composition diffuse into crystals, and the remaining part is fixed on their surface by adsorption. The components of the composition, diffusing into the crystal, retain intermolecular forces inside the crystal lattice, preventing their exit from the crystal. As a result, the stability of the resulting composition is increased. In addition, the components of the composition diffused into the crystal do not directly interact with ambient air, which prevents their destruction due to possible chemical reactions and also increases the stability of the composition prepared by the proposed method.

 Due to the fact that in the proposed method, large crystal particles are formed from 3 to 10 mm in size, the contact surface area of the crystal particles is reduced, which upon receipt of the final product reduces its caking during storage.

 Using for mixing the components of a drum-type mixer with a rotating body, the rotation speed of which is set to the “roll” mode of movement of the granular material, provides mixing of the components without breaking the crystals, i.e. without further grinding. This also helps to reduce caking during storage obtained by the proposed method of the final product.

 A further increase in the particle size of the crystals is impractical, since the dissolution time of the final product when using it also increases.

 Thus, the proposed method of preparing a composition based on crystalline, amorphous and liquid components during its implementation ensures the achievement of a technical result, which consists in increasing the stability of the composition, as well as in reducing the caking of the final product.

 The method is as follows. Preliminarily, particles ranging in size from 3 to 10 mm are formed from crystalline components of the composition, and finely dispersed powder is formed from amorphous substances. The mixing of the components is carried out in a mixer for mixing bulk materials of a drum type with a rotating body. Crystalline, amorphous and liquid components are loaded into the mixer. Then the mixer body is hermetically closed and rotated. The rotation speed of the mixer body is set corresponding to the mode of movement of the bulk material "roll".

 Examples of the method.

Example 1. It was required to prepare a composition of the following components in their ratio, wt.%:
Carnallite - 12
Potassium chloride - 4
Siberian fir extract - 0.5
Tartrazine Dye - 0.03
Ponso Dye - 0.02
Sodium chloride - 83.45
Preliminarily, particles ranging in size from 3 to 10 mm were formed from crystalline components, and fine powder was formed from amorphous components. Then the components were loaded into a mixer for mixing bulk materials of a drum type with a rotating body. After loading the components, the mixer housing was hermetically sealed and rotated. The rotation speed of the mixer body is set corresponding to the mode of movement of the bulk material "roll". The working speed of rotation and the duration of mixing were established experimentally. When weighed a single load of the starting products of 1 kg and when filling the mixer chamber by 0.5 its volume, the rotation speed of the mixer chamber was set to about 12 rpm, and the mixing time was 25-30 minutes.

 As a result of mixing, the final product was obtained in the form of crystals ranging in size from 3 to 10 mm with the corresponding color and smell.

Example 2. Analogously to example 1, a composition was prepared from the following components in their ratio, wt.%:
Carnallite - 14
Potassium chloride - 5
Eucalyptus Extract - 0.1
Tartrazine Dye - 0.04
Indigo carmine dye - 0.01
Sodium chloride - 80.85
As a result of mixing, the final product was obtained in the form of crystals ranging in size from 3 to 10 mm with the corresponding color and smell.

To test the stability of the composition, two samples were prepared:
1 - Means for baths "Karel" described in the patent of Russian Federation N 2007996, A 61 K 7/50, 02/28/94 and obtained by conventional mixing. Contains components in the ratio, wt.%:
Sodium chloride technical - 35-45
Sodium Bicarbonate - 6-8
Alkyl sulfonate or soap powder or licorice root extract - 2-7
Organic Dye - 0.015-0.02
Carnallite - Else
The product is a light gray powder.

 2 - Composition obtained in example 2.

Samples of two samples were poured into glass cups with a thin layer and left in air at room temperature (18-20 ^o C). Then weighed after 3, 4, 5, 6 and 12 days.

 The test results are summarized in table.

 The table shows that after three days, sample 1 lost 4.8% of the weight, and sample 2 did not change weight. After 12 days, sample 1 practically did not change the weight, and sample 2 lost 0.12% of the weight. Thus, the composition based on crystalline, amorphous and liquid components obtained by the claimed method is approximately 40 times more stable than the composition prepared in the usual way of mixing crystalline, amorphous and liquid components.

 In addition, due to the fact that sample 2 is coarse-grained, it practically does not coalesce, while sample 1, being finely dispersed, coalesces during storage with the formation of lumps.

Claims (1)

 A method of preparing a hygienic composition based on crystalline, amorphous and liquid components, including mixing them, characterized in that particles from 3 to 10 mm in size are formed from crystalline components first, fine powder is formed from amorphous components, and mixing is carried out in a mixer for mixing bulk materials drum type with a rotating casing, which, after loading the components, is hermetically closed, then the mixer casing is rotated, while the rotational speed of the casing and the mixer is set such that when tilted the loaded drum surface greater than the angle of repose of the material, it is poured down, the load center of gravity remains on the same place.

Images