RU2113844C1 - Salt-base color agent exhibiting odor and a method of its preparing - Google Patents

Abstract

FIELD: medicine, living conditions. SUBSTANCE: salt-base agent has perfume involving essential oil of natural biologically active substances and acid coloring addition. Rock salt (granule size is 1-4 mm) is used as a base and dye from indigo and monoazo-dyes group that are soluble sodium salts of sulfo- and carboxylic acids containing compensating sodium cation are used as an addition taken at the definite ratio of components. Agent is obtained by mixing the parent components using different combinations of dyes and perfumes. EFFECT: high strength of staining, high stability of odor, broadened using. 3 cl, 4 tbl

Description

 The invention relates to the production of colored odoriferous crystalline agents based on natural salt, used in household and medicine in dry form and in the form of solutions, for example, as bath products, inhalations, deodorizers and air fragrances, insecticides, etc.

 A known means for baths based on salt, containing perfume and an acid coloring additive - fluorescein [1]. A known method of obtaining a colored odoriferous means for baths based on salt, comprising mixing its crystals with perfume and an acid dye additive - fluorescein [1].

 Obtained in this way, the product is a finely divided pink powder with a high dust content due to insufficient color strength. When dissolved in water, he gives it another, different from the original - turquoise color. In addition, the therapeutic effect of this product is small, since it uses salts of non-natural origin, in which there are no trace elements and gases contained in sea water. The dye fluorescein present in the product in aqueous solutions of salt (sodium chloride) hydrolyzes, changes color, coagulates and forms color prints on bodies immersed in this solution. The odor stability of the fragrance during storage of the product remains for a short period due to the fact that it does not adsorb on the surface of salt crystals.

 The closest in technical essence and the achieved result to the proposed tool is a colored, odorless bath product based on salt (sodium chloride), containing fragrance from essential oils of natural biologically active substances - fir and chlorophyll-carotene paste, acid coloring additive - dye fluorescein, as well as direct dye turquoise lightfast K and soda ash [2] prototype.

 The closest in technical essence and the achieved result to the proposed method is a method for producing a colored, odorless means for baths based on salt (sodium chloride), including mixing its crystals with fragrance from essential oil of natural biologically active substances - fir and chlorophyll-carotene paste and with acid coloring additive. This coloring additive consists of a dye fluorescein and a dye of direct turquoise, lightfast K [2] prototype.

 The disadvantage of this tool is the lack of trace elements and gases inherent in seawater, due to the use of non-natural salt. To obtain this product, salt crystals are stained with two dyes. The direct dye turquoise light-resistant K forms a stable coloration only in an alkaline environment, so it is used with soda ash. The acid dye fluorescein in aqueous salt solutions changes color and forms color prints. The presence of chlorophyll-carotene paste in the product prevents the volatilization of aromatic substances, but leads to its heterogeneity in composition, as a result of which this product is caked. In addition, the possibility of using medicinal or any other properties of fragrance when using the product in a dry form, for example, as a flavoring, is excluded.

 The invention allows, when dissolved, to bring the agent closer to the composition of trace elements and gases to sea water and thereby increase its healing ability, increase the strength of the color of the crystals and maintain the odor stability of the fragrance for a long period due to the formation of an adsorption layer of dye and perfume on the surface of the crystals, as well as expand the scope of the product by providing the possibility of using it in a dry form as a deodorizer, air fragrance, inhalants, insect issuing funds, etc.

 The technical result is achieved in a color, odor-based, salt-based product containing fragrance from the essential oil of natural biologically active substances and an acid coloring additive. The content of a granular composition of 1-5 mm as a base of crystals of rock salt in crystals, and as a coloring additive, a dye from the group of indigo and monoazo dyes, which are soluble sodium salts of sulfo- and carboxylic acids with a compensating sodium cation, in the following ratio of components, is new wt. %: rock salt 97.90-99.69; dye 0.10-0.01; essential oil 2.00-0.30.

 The product may contain as a perfume essential oil of natural insecticidal substances, for example, anise, cloves, lavender.

 The composition of the product may include various coloring additives and perfumes. Indigo carmine dye in combination with lavender essential oil, green S dye and pine or fir essential oil, tartrazine dye and bergamot essential oil, karmazin dye and ylang - ylang or neroli essential oil, sun dye and tangerine essential oil.

 The technical result is achieved in a method for producing a color, odor-based, salt-based product, comprising mixing its crystals with fragrance from essential oils of natural biologically active substances and with an acid coloring additive. New is that crystals of rock salt with a grain size of 1-5 mm are used as the base of the agent, a dye selected from the group of indigo and monoazo dyes, which are soluble sodium salts of sulfo and carboxylic acids with a compensating sodium cation in the form of aqueous or water-alcohol solution, while perfume and additive are taken, respectively, 3-20 and 0.1-1.0 per 1 kg of salt, and the resulting product is dried.

 Perhaps the use of perfumes in the form of an alcoholic solution with a concentration of 25-70%. To obtain funds in this way, various combinations of dyes and fragrances are used. In this case, perfume is introduced both in the form of oil, and in the form of its alcohol solution. Indigo carmine can be used as an additive, lavender essential oil as a flavoring agent, or green S as an additive, and pine or fir essential oil as a flavoring agent. Such combinations are also possible when tartrazine is used as an additive, and bergamot essential oil is used as a flavoring agent, karmazin is used as an additive, and ylang - ylang essential oil is used as an odorant, or sunset sunset is used as an additive, and perfumes Tangerine essential oil. Essential oils of insecticidal substances, such as anise, cloves, lavender, are also used as fragrances.

 The invention solves the problem of obtaining a tool based on rock salt, which is similar in composition of trace elements and main gases to sea water, in the form of firmly colored colored crystals with a persistent odor of fragrance from essential oils of natural biologically active substances, which allows the use of this tool not only in solution but also in solid state.

 Known means and methods for their preparation do not solve this problem, since there is no interaction of coloring additives with the surface of the crystals at the intermolecular level. The layer of dye and perfume is easily erased from the crystal faces with a little friction, and crumbles during long-term storage, and the product loses its odor resistance due to evaporation and natural decomposition of essential oil. This prevents the prolonged use of the therapeutic properties of natural fragrances in combination with rock salt, for example, when the product is used in solid form as a flavoring.

 Rock salt is a natural crystalline mineral, an environmentally friendly product of the early stage of drying of the ancient seas. In addition to sodium chloride, it contains a natural complex of biologically active macro- and microcomponents in a balanced ratio. In addition to macroimpurities - potassium, calcium, magnesium, lithium, it contains bromine, boron, as well as a large number of types of gases formed as a result of a thousand-year decomposition of microorganisms of the ocean. Rock salt can be of two types: primary texture and secondary recrystallized texture [3].

 The trace elements contained in them differ insignificantly in composition and quantity and are close to sea water (see table. 1). For comparison, the content of trace elements in 100 g of rock salt and in 100 g of dry salts of sea water are taken.

 The use of rock salt as a basis of a granular composition of 1-5 mm allows you to get a tool with a gas composition similar to the composition of sea water (see table. 2). For comparison, the compositions and gas contents in 1 liter of a solution containing 35 g of rock salt and 1 l of sea water were taken. With such a content of rock salt in distilled water, a solution is obtained that is identical in content of trace elements and gases to sea water. The samples of rock salt of fractions 1, 3, 5 mm were dissolved.

 The content of methane, its homologues and halogenated hydrocarbons in 1 liter of solution obtained by dissolving 35 g of rock salt samples of fractions 1, 3, 5 mm in distilled water, and 1 liter of sea water.

Information about the gas composition of rock salt is taken from the research results. Samples of the rock of 100-150 g, representing crystals from 1 to 5 mm, were investigated. Qualitative gas chromatography - mass spectrometric analysis of volatile organic compounds in rock salt samples was carried out using an LKB-2091 instrument (Sweden). Quantitative analysis of light hydrocarbons C ₁ -C ₆ and halogenated hydrocarbons C _{1 was} performed by gas chromatography on a Tsvet-570 chromatograph with an ion-flame detector (DIP) and a constant recombination rate (DPR) detector. The analysis of the content of sulfur-containing compounds was carried out on a Tsvet-570 chromatograph with a flame photometric detector.

 Thus, as can be seen from the table. 1 and 2, rock salt of granular composition of 1-5 mm does not differ from sea water in elemental composition.

 Rock salt with a grain size of less than 1 mm contains almost no natural gases, since after crushing, deep cracks form in the crystals and the gases escape through them. In addition, crystals of rock salt with a granular composition of 1-5 mm have a developed surface of cracks, and therefore there is a strong fixation of the dye and perfume on it.

 Mixing salt crystals with an acid coloring additive in the form of an aqueous or aqueous-alcoholic solution selected from the group of indigo and monoazo dyes, which are soluble sodium salts of sulfo- and carboxylic acids with a compensating sodium cation and fragrance from natural biologically active substances from essential oil in an amount of 3 -20 g and 0.1-1.0 g per 1 kg of salt allows you to color its crystals evenly and firmly and fix the fragrance. As a fragrance, a mixture of various essential oils of natural biologically active substances can be used.

 The dyes used in the invention contain up to 15% sodium chloride, and as a result of their dissolution in water or in alcohol, a sodium chloride dye solution is obtained, which penetrates into the microcracks of rock salt crystals and fixes as a result of affinity with the sodium chloride contained in it, remaining on the surface of the crystals by ionic bonds. Since solid sorbents during fractional extraction of essential oil are both a cracked surface of rock salt crystals and a porous surface of a dye, a multilayer is formed. It consists of a fragrance layer and a coloring additive fixed in microcracks of crystals and their layer fixed on this monolayer due to the evaporation of water or alcohol contained in the coloring additive. In addition, these dyes do not create chemical compounds with essential oils of perfumes of biologically active substances and are compatible with it.

 During the mixing process, the starting components may be supplied simultaneously. Mixing salt crystals can also be done first with perfume, and then with dye. In the case of simultaneous contact with the rock salt, the dye and perfume in the form of oil, they penetrate into the microcracks of the crystals, where they are fixed due to the chemical affinity of the sodium salt of the dye with rock salt. In this case, the adsorption of essential oil occurs both on the surface of rock salt in microcracks and in the micropores of the dye monolayer formed by the evaporation of alcohol and water. The dye (sorbent) and essential oil interact on the surface of the pores throughout the structure of the solid phase. Essential oil is most strongly sorbed in the monomolecular dye layer located on the surface of rock salt. In the case of the application of salt of essential oil to the crystals before the dyeing additive, their fixing process proceeds similarly, and the quality of the obtained product does not change.

 Mixing crystals of rock salt with essential oil of natural biologically active substances in the form of an alcohol solution with a concentration of 25-75% increases the strength of the multilayer forming from it and the coloring additive and can also be done before or simultaneously with the dye.

 In this case, experiments have shown that the dye is salted out with alcohol contained in the alcohol solution of the perfume, as a result of which the essential oil is sorbed by the surface of the crystallized dye and fixed on the surface of rock salt due to the chemical affinity of the dye and salt. Subsequent crystallization of the dye due to the evaporation of alcohol and water additionally increases the strength of the layer and thereby increases the strength of fixing the essential oil to salt by an order of magnitude.

 The mixing of crystals of rock salt, perfume and dye is carried out in any known manner, for example, in mixing drums, screws, in fluidized bed apparatuses.

 After the mixing step, the resulting product is dried. This is necessary in order to remove the alcohol and water contained in the fragrance and dye. Drying is carried out in any known manner, for example, the resulting wet product is poured into cuvettes and exposed to open air or forced ventilation is used.

 Obtained in a new way the tool contains, by weight. %: rock salt 97.90-99.69; dye 0.10-0.01; essential oil 2.00-0.30. This ratio of the constituent components of the tool determines its low dust content.

 The values of the concentrations and the quantitative ratio of the dye and perfume in the tool and method for its preparation were found empirically and are optimal. An increase in the thickness of the dye layer on rock salt reduces the strength of the essential oil, since the surface becomes looser, it wears away when the crystals rub against each other and a dusty product is obtained. A decrease in this layer leads to weak fixation of the dye. All this does not allow the use of the product in a dry form.

 Thus, when using a dye, perfume and rock salt with concentrations and quantitative ratios within the limits specified in the invention, a strongly colored film at the multilayer level consisting of a dye, sodium chloride and perfume is formed on the rock salt crystals. In the case of using the product in a dry form, for example, as a flavoring, the odor resistance of a fragrance from a natural biologically active substance will have a long prophylactic or therapeutic effect.

 The combination of various dyes and perfumes allows you to get a range of colored salt products with an additional variety of medicinal properties.

 For example, when using indigo carmine as a dye as an additive, and as a fragrance for lavender essential oil, a blue salt is obtained with additional properties - antiseptic, antispasmodic, sedative, etc., inherent to lavender.

 If dye green S is used as an additive, and pine or fir essential oil is used as a fragrance, then a green salt is obtained, which additionally has antimicrobial, antiviral, tonic, and so on properties characteristic of perfume. Such combinations are also possible when tartrazine is used as an additive, and bergamot essential oil is used as a flavoring agent, karmazin is used as an additive, and ylang-ylang essential oil is used as an odorant, or sunset sunset is used as an additive, and as an additive perfumes Tangerine essential oil. All these combinations of components allow you to get a salt of a certain color and with additional properties inherent in perfume.

 Thus, the product is obtained in the form of solidly colored colored crystals of rock salt with a persistent smell of essential oils, which allows you to store it for a long period without loss of quality and makes it possible to use it in dry form. In other words, it can be said that rock salt acts as a base on which the fragrance and dye are fixed together, if the product is used in a dry form, for example, as a deodorizer. At the same time, it is one of the main components that make it possible to obtain water that is close in composition of trace elements and gases to sea water, if the product is used in solution.

Example 1. Crystals of rock salt with a granular composition of 1 mm in an amount of 1000 g were mixed with 3 g of pine essential oil and 10 cm ^{3 of a} 4% aqueous-alcoholic solution of Green S dye with a density of 0.966 g / cm ³ obtained by dissolving 0.4 g of this dye . Mixing was carried out in a drum mixer for 5 minutes. The product was then dried to remove 4.1 g of alcohol and 5.5 g of water contained in the dye. The product was poured into a cuvette with a layer thickness of 1 cm and exposed to open air at a temperature of 25 ^o C. The product was dried after 15 minutes. The resulting product in the form of green crystals with the smell of pine contained components, wt.%: Rock salt 99.66; Dye Green S 0.04; pine essential oil 0.3.

Example 2. Crystals of rock salt with a granular composition of 3 mm in an amount of 1000 g were mixed with 3 g of essential oil of fir in the form of a 60% alcohol solution with a density of 0.966 g / cm ³ and a volume of 5 cm ³ . Mixing was carried out in a drum mixer for 2 minutes. Then, 10 cm ^{3 of an} aqueous solution of green S dye with a density of 0.966 obtained by dissolving 0.4 g of this dye was added thereto, and mixing was carried out for 5 minutes. After that, the product was dried to remove 4.1 g of alcohol and 5.5 g of water contained in the dye. The product was poured into a cuvette with a layer thickness of 1 cm and exposed to open air at a temperature of 20 ^o C. The product was dried after 10 minutes. The resulting product in the form of green crystals with the smell of fir contained components, wt.%: Rock salt 99.66; Dye Green S 0.04; essential oil of fir 0.3.

Example 3. Crystals of rock salt with a granular composition of 3 mm in an amount of 1000 g were mixed with 3 g of lavender essential oil in the form of a 60% alcohol solution with a volume of 5 cm ³ in a screw mixer for 2 minutes. Then, 10 cm ^{3 of a} 2% aqueous solution of indigo carmine dye with a density of 1.013 g / cm ³ obtained by dissolving 0.2 g of this dye is added thereto, and all components are mixed for 10 minutes. After that, the product was dried to remove 2 g of alcohol and 9.8 g of water contained in the fragrance and dye. The product was poured into a cuvette with a layer thickness of 1 cm and exposed to open air at a temperature of 23 ^o C. The product was dried in 15 minutes. The resulting tool is blue-blue with the smell of lavender contains components, wt.%: Rock salt 99.68; indigo carmine dye 0.02; Lavender essential oil 0.3.

Example 4. Crystals of rock salt with a granular composition of 5 mm in an amount of 1000 g were mixed with 12 g of anise essential oil, which has an insecticidal property, with a volume of 20 cm ³ , a density of 0.990 g / cm ³ and a coloring additive in the form of a 2% aqueous solution of indigo carmine obtained by dissolving 0.2 g of this dye in a drum mixer for 5 minutes Then the product was poured into a cuvette with a layer of 1 cm and dried using forced ventilation in a fume hood. The air temperature was 20 ^° C. The product was dried after 5 minutes. The resulting tool in the form of blue crystals with the smell of anise contains components, wt.%: Rock salt 98.78; indigo carmine dye 0.02; Anise essential oil 1.2.

Example 5. Crystals of rock salt of granular composition 1 mm in an amount of 1000 g were mixed with 3 g of essential oil of neroli and 10 cm of a 4% aqueous-alcoholic solution of the dye karmazin with a density of 0.966 g / cm ³ obtained by dissolving 0.4 g of this dye. Mixing was carried out in a drum mixer for 5 minutes. The product was then dried to remove 4.1 g of alcohol and 5.5 g of water contained in the dye. The product was poured into a cuvette with a layer thickness of 1 cm and exposed to open air at a temperature of 25 ^o C. The product was dried after 15 minutes. The resulting tool in the form of red crystals with the smell of neroli contains components, wt.%: Rock salt 99.66; karmazin 0.04; Neroli essential oil 0.3.

Example 6. Crystals of rock salt of granular composition 3 mm in the amount of 1000 g were mixed with 6 g of essential oil ylang-ylang in the form of a 60% alcohol solution with a volume of 10 cm ³ and a density of 0.888 g / cm ³ in a screw mixer for 2 minutes. Then, 10 cm ^{3 of a} 4% aqueous-alcoholic solution of karmazin dye with a density of 0.966 g / cm ³ obtained by dissolving 0.4 g of this dye was added thereto, and all the components were mixed for 4 minutes. After that, the product was dried to remove 8.1 g of alcohol and 5.5 g of water contained in the fragrance and dye. The product was poured into a cuvette with a layer thickness of 1 cm and exposed to open air at a temperature of 20 ^o C. The product was dried in 10 minutes. The resulting tool is red, with the smell of ylang-ylang contains components, wt. %: rock salt 99.36; Karmazin dye 0.04; ylang-ylang essential oil 0.6.

Example 7. Crystals of rock salt with a granular composition of 5 mm in an amount of 1000 g were mixed with 3 g of bergamot essential oil in the form of a 50% alcohol solution with a volume of 10 cm ³ , a density of 0.830 g / cm ³ and a coloring additive in the form of 4% aqueous alcohol solution of tartrazine dye with a density of 0.966 g / cm ³ obtained by dissolving 0.4 g of this dye in a drum mixer for 5 minutes Then the product was poured into the cuvette with a layer of 1 cm and dried using forced ventilation in a fume hood. The air temperature was 22 ^° C. The product was dried after 10 minutes. The resulting product in the form of crystals of lemon color, with the smell of bergamot contains components, wt.%: Rock salt 99.66; dye tertrazine 0.04; Bergamot essential oil 0.3.

Example 8. Crystals of rock salt of granular composition 3 mm in the amount of 1000 g were mixed with 12 g of essential oil Tangerine in the form of a 70% alcohol solution with a volume of 15 cm ³ in a screw mixer for 2 minutes Then, 10 cm ^{3 of a} 4% aqueous dye solution of sun dye with a density of 1.015 g / cm ³ obtained by dissolving 0.4 g of this dye is added thereto, and all components are mixed for 4 minutes. After that, the product was dried to remove 4.5 g of alcohol and 9.8 g of water contained in the fragrance and dye. The product was poured into a cuvette with a layer thickness of 1 cm and exposed to open air at a temperature of 25 ^o C. The product was dried in 15 minutes. The resulting tool is orange in color, with the smell of tangerine contains components, wt.%: Rock salt 98.76; dye sunny sunset 0.04; Tangerine essential oil 1.2.

The properties of the fragrance odor preserving agent have been studied over a long period by the evaporation rate of volatile substances contained in the agent. The experiments were carried out in a fume hood. An air flow was fed into it at a speed of 0.25 m / s and a temperature of 20 ^o C. We studied samples weighing 1000 g of colored odor-containing products obtained by the proposed method. The compositions of these agents are indicated in Examples 1, 2, 3 and 5. For comparison, the evaporation rates of the essential oils contained in the agent obtained by the proposed method, in the agent obtained by the analogous method, [1] and the essential oils in pure form were determined. In their pure form, the evaporation rates of essential oils of various biologically active natural substances are close to each other; therefore, pine essential oil was taken for comparison as having an average evaporation value [6]. The tool obtained by the method [1], contained sodium chloride, dye fluorescein and perfume from pine essential oil. The surface of the rock salt from which the evaporation was measured was 0.01 m ² . The measurement of evaporation was carried out by weighing samples of the products before and after the specified periods of time of evaporation of 15, 30, 60 minutes and 16 hours on an analytical balance ADV-200. The test results are shown in table. 3.

 Thus, from the table. 3 shows that the amount of essential oil evaporated from the funds obtained by the method similar to [1], is significantly greater (30-50%) than from the funds obtained in accordance with the method of the invention. From which it follows that in the tool obtained by the method of the invention, the fragrance retains odor for a longer time.

The color strength of salt crystals was studied using a device for determining the dynamic strength of granules of mineral fertilizers PKPG-1. The measurements were carried out in accordance with GOST 21560. 3-82 "Methodology for the determination of dynamic strength and abrasion". To compare the strength, samples of colored odor-containing products obtained by the proposed method, the analogue method, and pure rock salt were alternately loaded into the drum. The tool obtained by the method [1], contained sodium chloride, dye fluorescein and perfume from pine essential oil. Each sample with a mass of 1000 g and a grain size of 2 mm was loaded into the drum of the apparatus, and its crystals were subjected to abrasion at a drum rotation speed of 20 rpm for 120 s. Then, to remove dust, it was purged in the installation with air at a temperature of 16 ^o С, a flow rate of 20 l / s, and a relative humidity of 55%. Atmospheric pressure was 735 mm Hg. The results of measurements of the amount of dust obtained by abrasion of the crystals of the samples are presented in table. 4.

 From the table. Figure 4 shows that the crystals of the agents obtained by the method of the invention have high color strength, since the percentage of dust relative to the dye in each of these samples is not more than 1% compared to 23% in the agent obtained by the analogue method.

Sources of information
1. USSR author's certificate N 727196, cl. A 61 K 7/50, 1978.

 2. USSR author's certificate N 1001936, cl. A 61 K 7/50, 1980.

 3. Mountain Encyclopedia, vol. 2. - M .: Soviet Encyclopedia, 1986, p. 570.

 4. Popov N.I., Fedorov K.N., Orlov V.M. Sea water. - M .: Nauka, 1979, p. 19.

 5. Popov N.I., Fedorov K.N., Orlov V.M. Sea water. - M .: Nauka, 1979, p. 3.

 6. Tkachenko K.G., Ivanov A.S. Natural essential oils, domestic use. - S.-P.: MNVP, Microwave systems, 1995, p. 27.

Claims (13)

1. A colored, odor-based, salt-based product containing fragrance from an essential oil of natural biologically active substances and an acid coloring additive, characterized in that it contains rock salt of granular composition 1-5 mm as a base, and an indigo dye as an additive and monoazo dyes, which are soluble sodium salts of sulfo and carboxylic acids with a compensating sodium cation, in the following ratio of components, wt.%:
Rock salt - 97.90 - 99.69
Dye - 0.10 - 0.01
Essential oil - 2.00 - 0.30
2. The tool according to p. 1, characterized in that as a perfume it contains an essential oil of natural insecticidal substances.  3. The tool according to claim 1, characterized in that it contains indigo carmine as an additive, and lavender essential oil as a perfume.  4. The tool according to p. 1, characterized in that as an additive it contains the dye green S, and as a perfume - essential oil of pine or fir.  5. The tool according to p. 1, characterized in that as an additive it contains dye tartrazine, and as a perfume - essential oil of bergamot.  7. The tool according to p. 1, characterized in that as an additive it contains the dye "sun sunset", and as a perfume - essential oil "tangerine".  8. A method of obtaining a colored, odoriferous salt-based product, comprising mixing its crystals with fragrance from an essential oil of natural biologically active substances and an acid dye additive, characterized in that crystals of rock salt of granular composition 1-5 mm are used as a base, as dyeing additive - a dye selected from the group of indigo and monoazo dyes, which are soluble sodium salts of sulfo and carboxylic acids with a compensating sodium cation in the form of an aqueous or aqueous-alcoholic solution while flavoring and the additive take respectively 3 to 20 g and 0.1 to 1.0 g per 1 kg of salt, and the product obtained by mixing is dried.  9. The method according to p. 8, characterized in that the fragrance is used in the form of an alcohol solution with a concentration of 25-70%.  10. The method according to p. 8 or 9, characterized in that as a perfume they take the essential oil of natural insecticidal substances.  11. The method according to p. 8 or 9, characterized in that indigo carmine is taken as an additive, and lavender essential oil is used as a perfume.  12. The method according to p. 8 or 9, characterized in that as an additive take the dye green S, and as a perfume - essential oil of pine or fir.  13. The method according to p. 8 or 9, characterized in that the dye "tartrazine" is taken as an additive, and bergamot essential oil is used as a perfume.  14. The method according to p. 8 or 9, characterized in that the additive takes the dye "karmazin", and as a perfume - essential oil ylang-ylang.  15. The method according to p. 8 or 9, characterized in that as an additive take the dye "sunny sunset", and as a perfume - essential oil "tangerine".

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