RU2757252C1 - Method for surface disinfection and disinfectant for its implementation - Google Patents

Abstract

FIELD: disinfection.

SUBSTANCE: invention relates to methods for disinfecting surfaces using disinfectants. Proposed is a method for disinfecting surfaces, according to which a solution of a disinfectant is applied to the initial surface for disinfection, while immediately before applying a solution of a disinfectant to the original surface, a colored pigment additive is introduced into it and evenly mixed in, contrasting with the color of the initial surface for disinfection, on which the solution is then applied a disinfectant with a color pigment additive, and as a color pigment additive, an additive is used, which is configured to act on time, sufficient to ensure visual control of the completeness of the application on the initial surface for disinfection of a disinfectant solution with a colored pigment additive, with the subsequent termination of its action. In this case, a mixture of sodium lauryl sulfate AS 95, acoustic soda and phenolphthalein is used as a color pigment additive.

EFFECT: invention improves efficiency of surface disinfection.

4 cl, 4 dwg, 2 ex

Description

The invention relates to methods and means for disinfecting surfaces using disinfectants.

There is a known method of cleaning air and surfaces in rooms from pathogenic microorganisms [RU 247148, C2, A61L 2/18, 03/10/2013], including the stages at which an ion scattering device is used, containing an ion generator for generating positive and negative ions, as well as a blower for delivering positive ions and negative ions generated by the ion generator from the blowing orifice, the ion diffusing device comprising a channel connected between the blowing orifice and the blower, the ion generator comprising a positive ion generating section for generating positive ions and a negative ion generating section for generating negative ions, and the channel is provided with a direction-flow section for directing air passing through the channel upstream from the ion generator, and the section for generating positive ions and the section for generating negative ions are located so that they are assigned to from each other in a direction intersecting the direction of flow, and wherein the amount of positive ion generation from the positive ion generation portion and the amount of negative ion generation from the negative ion generation portion are each 1.5 million per cm ³ or more at a location spaced 50 cm from the positive ion generating section and the negative ion generating section, so that the positive ions and negative ions are widely distributed at a high concentration in the room or workspace, whereby the pathogenic effect of airborne microorganisms and / or adhering microorganisms is removed.

The disadvantage of this method is the relatively high complexity due to the need to create a flow of ions, as well as the relatively low efficiency due to the lack of operational control of the completeness of surface treatment.

There is also known a method Method for prolonged disinfection of premises, equipment, conservation and disinfection of water [RU 2329286, C1, A01N 47/44, 20.07.2008], including:

a) obtaining a derivative of polyhexamethylene guanidine in the form of a base or an organic-soluble salt in the form of oleate, pellargonate, undecylenate from polyhexamethylene guanidine chloride;

b) preparing a solution of the polyhexamethylene guanidine derivative specified in (a) in water or an organic solvent;

c) preparing a solution of a hydrophobic film-forming polymer selected from the group consisting of chlorosulfonated polyethylene, polytrichlorobutadiene, in an organic solvent;

d) the formation of an interpolymer disinfectant composition by combining under stirring conditions 0.3-2.9 parts by weight. 3.6-9.0% solution of polyhexamethylene guanidine derivative and 2.3-3.7 wt.h. 3.2-5.0% solution of the specified hydrophobic polymer;

e) applying to a previously prepared surface of a coating of an interpolymer disinfectant composition from stage d), if necessary, in the form of a composition containing targeted additives,

the thickness of the unpigmented coating is 5-20 microns, possibly in several layers;

f) drying each layer of the coating first at ambient temperature and its subsequent final curing is possible at a temperature of 50-80 ° C and the ratio between the polyhexamethylene guanidine derivative and the hydrophobic polymer in the cured interpolymer (coating) is 7.5-45.0 and 92.5-55.0 parts by weight

The disadvantage of this method is the relatively low efficiency of disinfection, as well as relatively low efficiency due to the lack of operational control of the completeness of surface treatment.

The closest in essence to the proposed one is a method for disinfecting surfaces [RU 2404814, C1, A61L 2/10, 11/27/2010], including irradiation of the surface with ultraviolet radiation in the presence of titanium dioxide nanoparticles, moreover, the original surface is pre-sprayed with ultrasound for 15 min an aqueous suspension of nanoparticles with an average diameter of 23.3 nm at a concentration of 0.5 g / l, and the irradiation is carried out with narrow-band bactericidal ultraviolet radiation.

The disadvantage of this method is the relatively high complexity, due to the need to obtain nanoparticles of titanium dioxide, as well as relatively low efficiency due to the lack of operational control of the completeness of surface treatment when spraying an aqueous suspension of nanoparticles on them.

The objective of the invention in relation to the method is to develop a method for disinfecting surfaces, which has increased efficiency due to the possibility of operational control of the completeness of surface treatment with a disinfectant solution.

The required technical result in relation to the claimed method is to increase the efficiency of surface disinfection due to the possibility of operational control of the completeness of surface treatment with a disinfectant solution.

There are also known disinfecting solutions designed to be applied to the surface of objects and objects in order to disinfect them.

In particular, known technical detergent and disinfectant [RU 2196816, C2, C11D 3/48, 20.01.2003], containing, by weight. %:

synthanol - 32-36;

soda ash - 10-12;

sodium tripolyphosphate - 20-24;

sodium silicate - 10-12;

bactericidal and anticorrosive additive, which is N-methylene phosphonium carbamide chloride neutralized with caustic soda - the rest.

The disadvantage of this solution is the relatively low efficiency of its use, due to the lack of the possibility of operational control of the completeness of surface treatment when it is applied to the disinfected surfaces of objects and objects.

It is also known a tool used as a disinfecting and washing solution in medical institutions for disinfecting the surfaces of various objects [RU 2337715, C1, A61L 2/18, 10.11.2008], containing alkyldimethylbenzylammonium chloride (QAC), glyoxal, glutaraldehyde, propanol 2 (isopropyl alcohol), synthanol ALM-10 (nonionic surfactant), Trilon B, an anticorrosive agent in the form of hydroxyethyligine diphosphonic acid (HEDPA) and an oxidizing agent in the form of hydrogen peroxide, which is used. in concentrations of 0.1-2.0%.

The disadvantage of this solution is also the relatively low efficiency of its use, due to the lack of the possibility of operational control of the completeness of surface treatment when it is applied to the disinfected surfaces of objects and objects.

The closest in technical essence to the proposed is a disinfectant for disinfecting air and surfaces in rooms [RU 2646816, C1, A61L 2/6, 03/07/2016], consisting of a quaternary ammonium compound, triamine and propyl alcohol, as well as polyhexamethylene guanidine hydrochloride, polyhexamethylenebiguanidine hydrochloride, Triton Χ-100, EDTA and sodium chloride with the corresponding content of components, wt. %.

The disadvantage of this tool is the relatively low efficiency of its use, due to the lack of the possibility of operational control of the completeness of processing when it is sprayed onto disinfected surfaces.

The object of the invention with respect to the means for implementing the method is to develop a means for disinfecting surfaces, having increased efficiency due to the possibility of operational control of the completeness of surface treatment using such a means.

The required technical result with respect to the claimed means is to increase the efficiency of surface disinfection due to the provision of the possibility of operational control of the completeness of the surface treatment of objects and objects using such a means.

The problem is solved, and the required technical result is achieved by the fact that, in the method according to which a solution of a disinfectant is applied to the initial surface for disinfection, according to the invention, a colored pigment additive is introduced into it and evenly mixed in just before the disinfectant solution is applied to the initial surface of the solution, contrasting with respect to the color of the initial surface for disinfection, on which a solution of a disinfectant with a colored pigment additive is then applied, moreover, an additive is used as a colored pigment additive, which is configured to act for a time sufficient to ensure visual control of the completeness of application on the initial surface for disinfection a solution of a disinfectant with a colored pigment additive, with the subsequent termination of its action.

In addition, the required technical result is achieved by the fact that a mixture of sodium lauryl sulfate AS 95, acoustic soda and phenolphthalein in the following mass% ratio is used as a color pigment additive:

sodium lauryl sulfate AS 95 - 84.7;

acoustic soda - 10.5;

phenolphthalein - 4.8,

which in the amount of 94.5 g is introduced into 10 liters. disinfectant solution.

In addition, the required technical result is achieved by the fact that a mixture of sodium lauryl sulfate AS 95, acoustic soda and erythrosine in the following mass% ratio is used as a color pigment additive:

sodium lauryl sulfate AS 95 - 89.3;

acoustic soda - 8.9;

erythrosine - 1.8.

which is introduced in a ratio of 112 g per 10 liters. disinfectant solution.

In addition, the required technical result is achieved by the fact that the disinfectant contains 3.4 g of active substance dissolved in 10 liters of water in the composition of wt% sodium salt of dichloroisocyanuric acid - 84.0, as well as functional additives (adipic acid, sodium bicarbonate, sulfonol) no more than 16.

In addition, the required technical result is achieved by the fact that the time providing visual control of the completeness of the application of the disinfectant solution to the surface is set from 10 s to 1 min by varying the mass of the color pigment introduced into the disinfectant solution at a given temperature and ambient humidity.

The images show:

in fig. 1 - a fragment of the surface before applying a disinfectant solution with a colored pigment additive;

in photo 2 - a fragment of the surface 2-3 seconds after the application of a disinfectant solution with a colored pigment additive (an example of a complete application of a disinfectant solution without gaps over the entire surface of disinfection);

in photo 3 - a fragment of the surface 2-3 seconds after applying a disinfectant solution with a colored pigment additive (an example of applying a disinfectant solution in the presence of a zone in which the disinfectant solution is not applied);

in photo 4 - a fragment of the surface 20 s after the application of a disinfectant solution with a colored pigment additive, both with a pass to its application, and without a pass over the entire area of disinfection.

The proposed technical solution is implemented as follows.

A solution of a disinfectant is preliminarily prepared, which can be used as various options for its manufacture, for example, 3.4 g of active substance dissolved in 10 liters of water in the composition of wt% sodium salt of dichloroisocyanuric acid - 84.0, as well as functional additives (adipic acid , sodium bicarbonate, sulfonol) not more than 16%.

Before the direct application of the disinfectant solution to the initial surface for disinfection, a colored pigment additive is introduced into it and evenly mixed in, contrasting with the color of the initial surface for disinfection.

With respect to light-colored surfaces, the following compositions of color pigment additives showed themselves well in the studies.

Example 1. Colored pigment additive - a mixture of sodium lauryl sulfate AS 95, acoustic soda and phenolphthalein in the following ratio, wt%:

sodium lauryl sulfate AS 95 - 84.7;

acoustic soda - 10.5;

phenolphthalein - 4.8,

which in a volume of 94.5 g is introduced into 10 liters of disinfectant solution.

Example 2. Color pigment additive - a mixture of sodium lauryl sulfate AS 95, acoustic soda and erythrosine in the following ratio. wt%:

sodium lauryl sulfate AS 95 - 89.3;

acoustic soda - 8.9;

erythrosine - 1.8,

which is introduced in a ratio of 112 g per 10 l of disinfectant solution.

A solution of a disinfectant with a colored pigment additive is applied to the surface of an object or object, which is the starting point for disinfection. It is important to achieve the required technical result that, as color pigment additives, such additives are used that are configured to act for a time sufficient to provide visual control of the completeness of application on the initial surface for disinfection of a disinfectant solution with a colored pigment additive, and with subsequent termination its action to paint the surface.

The above examples of pigment additives are just that. With the above examples of their use, a contrasting color of the surface is provided for a time from 10 s to 20 s, which can be changed by varying the mass of a color pigment introduced into a disinfectant solution at a given temperature and ambient humidity.

The visualization itself can be carried out by the performer of the disinfection procedure or with the help of technical visualization means, when the image of the surface of an object or object is analyzed for the continuity of the color of the pigment additive over the area of the treated surface.

Thus, thanks to the introduced improvements, the required technical result is achieved, which consists in increasing the efficiency of surface disinfection due to the possibility of operational control of the completeness of surface treatment of objects and objects using such a tool.

Claims (8)

1. A method for disinfecting surfaces, according to which a solution of a disinfectant is applied to the initial surface for disinfection, characterized in that immediately before applying a solution of a disinfectant to the initial surface, a colored pigment additive is introduced into it and evenly mixed in, contrasting with the color of the initial surface for disinfection, on which is then applied a solution of a disinfectant with a color pigment additive, and as a color pigment additive, an additive is used, which is configured to act for a time sufficient to ensure visual control of the completeness of application on the initial surface for disinfection of a disinfectant solution with a color pigment additive, with subsequent termination of its action, while a mixture of sodium lauryl sulfate AS 95, acoustic soda and phenolphthalein is used as a color pigment additive. 2. The method according to claim 1, characterized in that a mixture of sodium lauryl sulfate AS 95, acoustic soda and phenolphthalein is used as a color pigment additive in the following ratio, wt%: sodium lauryl sulfate AS 95 84.7 acoustic soda 10.5 phenolphthalein 4.8, which in a volume of 94.5 g is introduced into 10 liters of disinfectant solution. 3. The method according to claim 1, characterized in that a mixture of sodium lauryl sulfate AS 95, acoustic soda and erythrosine is used as a pigment in the following ratio, wt%: sodium lauryl sulfate AS 95 89.3 acoustic soda 8.9 erythrosine 1.8, which is introduced in a ratio of 112 g per 10 l of disinfectant solution. 4. The method according to claim 1, characterized in that the time providing visual control of the completeness of the application of the disinfectant solution to the surface is set from 10 s to 1 min by varying the mass of the color pigment introduced into the disinfectant solution at a given temperature and ambient humidity ...

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