SU1708827A1 - Toilet soap - Google Patents

Abstract

The invention relates to the soap industry and can be used in the manufacture of toilet soap. The aim of the invention is to prevent unpleasant odor during storage and to increase the cosmetic value of the soap. This is achieved by those. what soap contains,%: sodium salts of fatty acids 76.0-77.5%; additives, including plasticizer, white, perfume, dye. 1.6-2.1; as well as an antioxidant 0.5-1.06 and the rest of the water, as an antioxidant, it includes purified vitamin concentrate from aspen bark. 3 tab.

Description

The invention relates to the soap industry and can be used in the manufacture of toilet soap.

The composition of toilet salts based on fatty acid salts is known, where oxidation-reduction enzymes (oxidoreductases) are present in sufficient quantities as antioxidants in quantities sufficient to prevent the occurrence of an unpleasant odor when soap is stored.

Closest to the proposed toilet soap containing sodium salts of natural and synthetic fatty acids with the addition of fragrance, white, plasticizer, dye, water and antioxidant.

As an antioxidant in a known composition, Antal P-2 composition is used. taken in the amount of 0.3 may. %

However, the specified antioxidant Antal P-2 synthetic production has

peculiar smell. Toilet soap causes dry skin and requires the introduction of additional perezhirayuschie substances or bioactive additives and by visual assessment on a 5-point system is estimated at 3 points when determining the degree of cracking and delamination during use. With an atom after 6 months. The organoleptic characteristic of the soap storage shows that it acquires a foreign unpleasant smell, unlike the original smell of the perfume, and after 12 months. has a peculiar smell of rancid soap with separate dark spots on the surface.

In addition, the Antal P-2 liquid is scarce, since some of the components in this mixture are not produced, the possibility of replacing this antioxidant with another substance Plastibol-9. It is not possible, as it is not produced at present, and besides this, it has an unpleasant odor.

The aim of the invention is to prevent the unpleasant odor from storing toilet and soap and increasing its cosmetic value.

The goal is achieved by the fact that toilet soap containing sodium soybean fatty acids, additives - plasticizer, whitewash, fragrance, dye, as well as thioxidant and water, includes purified vitamin concentrate from aspen bark in the following ratio of components, wt.%: Sodium salt

fatty kislot76,0-77,5

Said additives 1.6-2.1 Antioxidant refined vitamin concentrate from aspen bark 0.5-1.0

WaterEverything

The introduction of toilet soap as an antioxidant - purified vitamin concentrate (HVA) from aspen bark improves consumer properties, its quality, cosmetic value, as well as physical and mechanical properties that increase the performance of the soap production line.

At the same time, the occurrence of an unpleasant odor is prevented during the storage of soap, the original smell of the perfume is preserved, i.e. oxidation and boiling of soap are delayed; B with TeM ,, 4to, there is practically no soap making technology in which soap chips could be obtained with 100% saponification of fatty components, at the base of the soap, as well as in a piece of finished soap, there are free fatty Acids that under the influence of oxygen in the air cause rancid soap. The run of soap is a complex chemical process, characterized by the fact that soap acquires a smell, the color of the soap changes, dark spots appear. The external scientific research institute loses the soap, its consumer properties are deteriorating. The introduction of HVAC does not prevent the occurrence of the unpleasant smell of soap during its storage during the year, i.e. prevents the rancid soap, but also contributes to the enhancement of its cosmetic value, since the new antioxidant is a biologically active product that can benefit; It can affect the skin when using toilet soap. The effect of HVA on the skin appears in good

a feeling of freshness and smoothness of the skin, while the soap does not exfoliate or crack when consumed, and firmly retains the smell of fragrance for 12 months.

The properties of HVAC are determined by the entire composition of the components included in this product. It is made on the basis of ethyl alcohol (70-80%) with a content of the lipid fraction (20-30%), incl. phosphatides, sterols, provitamin E, carotene (provitamin A), fatty acids (oleic, linolene), vitamin F, chlorophyll. HVA has a characteristic pleasant aspen and alcohol odor. The amount entered in the toilet

5 antioxidant soaps were chosen optimally from 0.5 to 1.0 wt.%, Since with the introduction of less than 0.5 wt.%, The required quality of soap is not achieved as a cosmetic value due to the insufficient amount of the bioactive product to obtain pleasant sensations when on the skin, and to prevent the soap from boiling over during prolonged storage. The introduction of aHfoxidant more than 1.0% by weight contributes to an increase in the cosmetic value and reliable stability of fats against oxidation in soap, however, an excess of purified vitamin concentrate from aspen bark worsens the behavior of the soap composition during its mechanical processing and when visually observed the soap in the piece has a dull, moist and a sticky surface, and during machining, the high plasticity of the soap chips makes processing difficult, which affects the performance degradation of the soap production line.

HVAC, in contrast to the known ones, not only stops the oxidation processes, but also stabilizes the processes of preventing spoilage of soap, which eliminates the appearance of an unpleasant odor when the soap is stored for a set shelf life of 12 months.

5 HVAC leads to the creation of a more homogeneous, homogeneous structure, a better distribution of additives in the whole mass of soap, which in turn improves the consumer properties of the soap, as well as the presence of

The composition of bio-active components of HVA improves its cosmetic value.

The technology for making toilet soap is as follows.

The production of soap and the introduction of additives are carried out in accordance with current technological instructions.

A mixture of standard conventional additives is added to a soap shavings mixer based on sodium salts of fatty acids in the amount of 76.0-77.5% by weight.

in the amount of 1.6-2.1 wt.%. consisting of perfume, white, plasticizer, dye. HVAC is introduced together with these additives in an amount of 0.5-1.0 wt.%.

A control sample of soap Alyonushka prototype manufactured using the same technology.

The finished toilet soap is further polished on pellets, cutting, stamping and packaging.

The quality of the toilet soap obtained is evaluated both by its behavior during mechanical processing, and by its organoleptic and physicochemical parameters. The cosmetic value and consumer properties of the soap are estimated by the effect on the skin during use and visually by a 5-point system, cracking and delamination upon use. The organoleptic characteristic during storage of the soap is given after 3, 6, 9 and 12 months.

Example 1. According to the technology described above, toilet soap is produced with the content of sodium salts of fatty acids taken in an amount of 77.5 wt.% With the addition of a perfume called Toddler in an amount of 1.5 wt.%, Titanium dioxide white pigment in an amount of 0, 3 wt.%, Dye - rhodolina 0.003 May. % and plasticizer (Alaplast-3) in the amount of 0.3 wt.%, total additives 2.1 wt.%. Together with the additives, bioactive antioxidant grade A is introduced in the amount of 0.5 wt.%. Add water to 100%. Get toilet soap, the indicators of which are given in table. 1 (example 2).

Example 2. Analogously to example 1, samples of soap were produced with the content of sodium salts of fatty acids of 77.0 wt.% With the addition of the following listed in example 1 white, plasticizer, perfume, dye, taken in a total amount of 2.1 wt.%. Antioxidant UWC is introduced in the amount of 0.7 wt.%, Water is adjusted to 100%.

Example 3. Analogously to example 1, soap is produced with the content of sodium salts of fatty acids of 76.0 wt.% With the addition of perfume in the amount of 1.0 wt.%, 0.3 wt.% White, 0.003 wt.% Dye and 0.3 wt. .% plasticizer, total additives introduced 1.6 wt.%. At the same time, an antioxidant OVK grade A is introduced in the amount of 1.0 wt.%, The water is adjusted to 100%. ,

Example 4. According to the described technology, soap with a content of sodium salts of fatty acids of 78.0 wt.%, And additives taken in an amount of 2.1 wt.%, OVC grade A is introduced in an amount of 0.3 wt.%, Water is brought up to 100%.

Example 5. Samples of toilet mat according to the described technology are made with the content of sodium salts of fatty acids of 75.6 wt.% With the addition of these

above the components taken in the amount of 1.9 wt.% (1.3 wt.% of the perfume, 0.3 wt.% of white, 0.3 wt.% of the plasticizer, 0.003 wt.% of the dye). Together with additives, bioactive antioxidant grade A is introduced into

0 the amount of 1.2 wt.%. Water is adjusted to 100

%

 In tab. 1 for comparison, the characteristic of the famous Alenushka soap (prototype) is presented.

5 In table. 2 shows the organoleptic characteristics of the toilet soap during its storage for 3, 6, 9, 12 months in comparison with the prototype.

From the data table. 1 and 2, it follows that samples of toilet soap, made according to the proposed composition with HVA antioxidant from aspen bark, taken in an amount of 0.5-1.0 wt.%, Exceed the quality of the Alyonushka soap (prototype). In the process of using the proposed soap, a pleasant feeling of freshness and smoothness of the skin remains in contrast to the prototype, where dry skin is observed. At the same time, cracking and delamination when using the Scientific Research Institute of Soap is less than that of Alenushka soap: according to a visual assessment in a 5-point system, the prototype has 3 points, the proposed soap has 3.5-4; 0 points. The behavior during the machining process is evaluated by visual observation of the consistency of the soap and the more rapid and uniform distribution of the dye in the soap chips than in the prototype. The surface of the soap bar is shiny and smooth. On the basis of the characteristic of the process of storing the soap, the proposed composition with an HVA antioxidant, taken in an amount of 0.5-1.0 wt.%, Makes it possible to manufacture the soap and store it for a year without changing color, smell,

5 without values, i.e. spoilage of soap does not occur, in contrast to the soap Alenushka, which after 6 months. acquires a weak foreign odor along with the smell of fragrance, and the color scheme starts

0 change, acquiring a dirty shade. After 12 months The prototype soap loses its usefulness due to the sensation of the unpleasant smell of a non-soapy character with the appearance of individual dark spots on the surface of the soap, the soap of the proposed composition and through

5 12 months has a perfume smell and a smooth, even surface without color changes. The introduction of an antioxidant less than 0.5 wt.% (Example 1 in Table 1) is clearly not enough, which suggests its usual behavior during mechanical treatment and in evaluating cosmetic value that does not differ from the usual effect of soap on the skin during its use Although according to the organoleptic characteristics, it exceeds the soap of the prototype in storage time without noticeable changes. Thus, the appearance of the Specific Odor of spoiling soap appears only after 9 months. in contrast to the prototype, where it is present in six months. The introduction of more than 1 wt.% Antioxidant grade A HVAC into the proposed soap composition (Example 5 in Tables 1 and 2) allows to obtain high quality soap by visual observation and an increase in cosmetic value when exposed to skin compared to Alenushka soap, however Not acceptable due to technological requirements due to the haze and moisture of the surface of the bar of soap.

The behavior of the purified vitamin concentrate as an antioxidant in the proposed composition of toilet soap can be observed during the storage of soap and indirectly evaluated by the main indicators characterizing the rancidity of the soap, peroxide and iodine number. Everything. which contributes to the oxidation reaction (light, air, water) of unsaturated fatty acids in the soap, contributes to the rancidity of the soap, the appearance of an unpleasant smell.

The iodine number characterizes the content of unsaturated fatty acids included in the fatty composition of soap, the peroxide value is the decomposition products of fatty acids under the influence of atmospheric oxygen.

Test data of soap samples during storage over 3,6.9 and 12 months. on iodine and peroxide numbers are presented in Table. 3

From tab. 3, it can be seen that during storage of the soap, the iodine number decreases, especially intensively during the first months, and the peroxide number first increases, but then stabilizes. This suggests TOM that the rate of fat oxidation in soap decreases over time, i.e. due to the action of the antioxidant, the oxidation processes are delayed, which stabilize after 6 months storage for a year. The absolute values of the iodine and peroxide numbers are significantly lower for the proposed compound, where the antioxidant is HVA, in an amount of 0.5-1.0 wt.%, And with an increase in the additive 08K

from 0.5 to 1.0, the rate of fatty acid oxidation decreases (Examples 3-5). At the same time, examples 2 and b confirm the insufficiency of HVAC (0.3 wt.%) And the inexpediency of introducing HVA in an amount of 1.2 wt.% As compared with the prototype, since the absolute values of the iodine and peroxide numbers remain almost unchanged in time (example 6). When considering numbers by

vertical table. 3 that the decrease in the oxidation depth, i.e. a decrease in the content of unsaturated fatty acids capable of oxidation indicates a decrease in the boiling of soap. Compared with the prototype, the largest decrease in iodine and peroxide numbers is observed under the action of the antioxidant OVC, taken in an amount of 0.5-1.0% (examples 3-5).

Thus, the data table. 3 confirms the antioxidant function of HVAC, which actively delays the oxidation of unsaturated fatty acids in soap, which prevents soap spoilage due to programmed fats and. Consequently.

reliably prevents objectionable odor when storing soap.

Thus, the introduction of soap to the composition as an antioxidant HVA from aspen bark not only prevents

spoil soap, but also as a biologically active ingredient has a beneficial effect on the skin when using soap, which increases the cosmetic value of soap and improves its consumer properties.

Claims (1)

The invention claims Toilet soap containing sodium salts of fatty acids, additives, including plasticizer, whitewash, fragrance, dye, as well as antioxidant and water, differing from the fact that, in order to prevent the occurrence of an unpleasant odor during storage and increase the cosmetic value of soap, it includes purified vitamin concentrate from aspen bark as an antioxidant, in the following ratio of components, wt.% : Sodium Salts fatty acids76,0-77.5 Additives, including plasticizer, white, perfume and dye1,6-2,1 Antioxidant .0-1-1,0 WaterEverything l 1} and 1 Sodium salts of fatty acids 76.0; additives (fragrances, whitewash, plasticizer, dye) 2,1; antioxidant 0.3; water the rest Katrievu sosh fatty acids 77.5; additives (perfume, white, plasticizer, dye) 2,1; antioxidant 0.5; water the rest Sodium salts of fatty acids 77.0; additives (perfume, white, plasticizer, dye) 2,1; antioxidant 0,7; water the rest Sodium salts of fatty acids 76.0; additives (perfume, white, 1 softener, dye) 1,6; antioxidant 1.0; water the rest Sodium salts of essential acids 75,6; additives (perfume, white, plasticizer, dye) 1,9; antioxidant 1,2; water the rest at the consistency of the tversool, in the section is homogeneous (, processed, and was satisfactory 3.5 in case of the TCM, the resistance is hard, the cut in the section is homogeneous, more rapid and smooth distribution of the dye in the chips, the surface of the piece is shiny. When processing, the chips were more plastic than the controls and example 1 3.5 Consistency is hard good appearance, in the context of a uniform, more rapid and equal skin distribution paint in chips, the surface of the piece is shiny. When processing the chips were more plastic than the controls and example 1 ., 0 Consistency is hard The uniform cross section is uniform, weakness, more rapid and equal skin dye distribution in the chip, the surface of the piece is shiny. When processing, the chips were more plastic than the controls of example 1 "1.5, Consistency is hard Homogeneous in section, homogenous, the surface of the piece of the maxillary is wet, sticky, the plasticity of the chips is higher than that of the control The color has not changed; the smell did not change; n ten no The color is not changed; . zapah not changed; n ten there is no. . , .as how the surface of the piece was dull, wet, that techno.po, Soiled Alain) chk .. (Antap-P-20.3. 8.30 0.038 Suggested Soap 6lit2 The color has not changed; The color has not changed; the smell has not changed; the smell is not st no no p st no The color has not changed; The color has not changed; the smell has not changed; the smell has not changed; n ten no n ten no Table3 7.70 0.078 O.D8D 17.68 0.081