RU2606983C1 - Method of tissue antimicrobial treatment - Google Patents

Abstract

FIELD: textile and paper.

SUBSTANCE: invention relates to textile industry and concerns method of tissue antimicrobial treatment. Tissue treatment is performed by antimicrobial composition spraying with subsequent heat treatment at temperature of 30–50 °C. Biocidal agents in used antimicrobial composition are compound of guanidine or guanidine compound with quaternary ammonium compound synergic mixture. Remaining components are sodium sulfo ethoxylate and polyethylene glycol are added to improve consumer properties.

EFFECT: invention provides expansion of treated tissues range and wider spectrum of antimicrobial activity.

1 cl, 3 tbl, 7 ex

Description

The invention relates to the field of textile industry, and in particular to a technology for producing tissue with antimicrobial properties.

Fabrics with antimicrobial properties can be used on the inner surface of shoes.

Such shoes may be in demand and necessary for various groups of the population: military personnel, workers of hot shops, oil workers, miners, geologists, and athletes.

For example, EMERCOM and ambulance workers wear the same shoes in cold weather at room temperature.

All-weather shoes are impossible to pick up. If shoes are used where it is warm and humid, then these are ideal conditions for the propagation of fungi and harmful bacteria.

Thanks to the antimicrobial treatment of the lining of the shoe, the spread of bacteria and the occurrence of fungal diseases of the feet is prevented.

A known method of antimicrobial treatment of the inner surface of the shoe using the device "TIMSON" (Problems of medical ecology, 2007, v. 9 No. 2 of UDC 616.992. "The effectiveness of the device for the antifungal treatment of shoes" Timson ").

This device is manufactured by Timson LLC, Russia. Article 40005720. The device is placed inside the shoe and plugged into an electrical outlet. Processing the inner surface of the shoe is carried out at elevated temperatures due to ultraviolet radiation. Thanks to ultraviolet and heat, antifungal and antimicrobial treatment occurs.

However, this method has the following disadvantages: the consumption of a significant amount of electricity, because processing takes 4-6 hours, and it is also known that ultraviolet radiation is harmful to the eyes.

The closest technical solution to the proposed one is the "Method of antimicrobial treatment of wool fabric" (Pat. RF №2491377, CL D06M 10/10, D06M 16/00, 2011).

A known method of antimicrobial finishing of wool fabric involves treating the fabric at room temperature with a composition containing in g / l: polyhexamethylene guanidine hydrochloride 15-25; copper acetate or zinc acetate 4-7; acetic acid 4-7 and water up to 1 l, then the fabric is heat treated at a temperature of 130-180 ° C for 1-10 minutes, while the semi-woolen fabric is made by interlacing the warp and weft threads from woolen and polyester fibers with a fill factor of the base fabric and duck equal to 0.9-1.3.

However, the antimicrobial composition used in the known method has a low surface activity, which is reflected in the insufficient wetting and spreading of the composition over the surface of the fabric.

In addition, heat treatment at a temperature of 130-180 ° C can be used for a limited range of fabrics.

The technical problem solved by the invention is the expansion of the spectrum of antimicrobial activity and the expansion of the range of processed tissues.

To solve the technical problem in a method of antimicrobial treatment of tissue, including treating tissue with an antimicrobial composition at room temperature followed by heat treatment, the fabric is treated by spraying the antimicrobial composition with subsequent heat treatment at a temperature of 30-50 ° C in the following ratio of the components of the antimicrobial composition in mass. %:

Polyhexamethylene guanidine chloride or synergistic mixture of polyhexamethylene guanidine chloride with dimethylbenzyl dodecylammonium sulfate in the ratio 1: (0.01-0.02) 0.5-3.0 Polyethylene glycol PEG 40 0.5-1.5 Sodium Sulfoethoxylate 0.1-1.0 Water rest

The invention is illustrated as follows. The antimicrobial solution is applied by spraying onto the surface of the fabric, then the material is dried at a temperature of 30-50 ° C, depending on the type and density of the material. If the fabric is used as a lining for special shoes, then to enhance the action, you can provide for re-application of the antimicrobial solution and re-drying.

To implement the spraying method in the present invention use a high-pressure sprayer brand INOX PLUS made in Germany. At the same time, an atomizer with a fine filter is used to spray the antimicrobial solution, the spray angle is 80 degrees and the slot hole is 0.2 mm.

In addition, unlike the prototype, which uses the soaking method, when spraying, antimicrobial agents are saved, because small amounts of antimicrobial agent are used.

After processing the fabric with an antimicrobial composition, drying is used, which is carried out in the drying chamber with hot air supplied by fans at a temperature of 30-50 ° C, depending on the type and density of the material. This operation is performed to accelerate the process of antimicrobial treatment of tissue.

The temperature regime of drying was chosen experimentally on the basis of numerous experiments. In the event that the drying temperature drops below 30 ° C, the operation time will increase. Temperature conditions above 50 ° C limit the range of processed fabrics.

In the proposed method, the number of components in the antimicrobial composition is the optimal value and is identified on the basis of numerous experiments.

Polyhexamethylene guanidine chloride (PHMG chloride) or a synthetic mixture of polyhexamethylene guanidine chloride with dimethylbenzyl dodecylammonium sulfate (DBDA sulfate) are used as antimicrobial components.

The main component of the antimicrobial composition of PHMG chloride is a chemical compound with high stability, low toxicity, antimicrobial activity against gram-negative and gram-positive bacteria, tuberculosis microbacteria, fungi, viruses, and a prolonged bactericidal effect. Hydrophobic carbohydrate fragments of the PHMG chloride chain connecting the guanidine groups promote the adsorption of PHMG chloride on the cytoplasmic cell membranes. The guanidine groups that make up the PHMG chloride penetrate the bacterial cell membrane and block respiration, nutrition, and metabolite transport through the bacterial cell wall, which ultimately leads to the death of the bacterial cell.

PHMG chloride is a well-soluble synthetic organic polymer in water, it is not volatile, it does not impart odor and color to the solution and materials. PHMG chloride is produced by the Regional Public Organization - Institute of Ecological and Technological Problems (ROO IETP) in accordance with TU 932-008-41547288-2000 with Izv. about rev. No. 1.

As a second disinfecting agent, a quaternary ammonium compound (QAC) dimethylbenzyl dodecylammonium sulfate (DBDA sulfate) is used, which has the following formula: (C ₆ H ₅ CH ₂ N (CH ₃ ) ₂ (CH ₂ ) ₁₁ (CH ₃ ) ₂ SO ₄ and molecular weight 704.

Dimethylbenzyldodecylammonium sulfate is prepared as follows.

In the first step, dimethylbenzyl dodecylammonium bromide is obtained. In a round-bottom flask under reflux, 10 ml (66.6 mmol) of N, N-dimethylbenzylamine, 16 ml (66.8 mmol) of n-bromododecane, 0.5 ml of dimethylformamide are mixed, then the solution is stirred at 45-50 ° C. As a result of the reaction, the substance crystallizes into a light yellow crystalline hygroscopic mass. The resulting substance is ground with a spatula, poured with 30 ml of diethyl ether, stirred for 1 hour, after which the ether is drained. The crystalline residue was dried in vacuo to give 25 g (98%) of dimethylbenzyl dodecylammonium bromide.

In the second stage, 2.00 g of dimethylbenzyl dodecylammonium bromide and 30 ml of water are added to a 50 ml beaker. The mixture is stirred at room temperature until the substance is completely dissolved and a clear solution forms.

Separately, silver oxide is prepared. 2, 65 g. Silver nitrate is dissolved in 20 ml of water and alkalinized with a 30% aqueous solution of sodium hydroxide. The suspension is stirred in the dark for 10 minutes, the silver oxide precipitate is filtered off and washed with 30 ml of distilled water. The silver oxide precipitate was transferred to a 50 ml flask and a solution of dimethylbenzyl dodecylammonium bromide in water was added. The suspension is stirred in the dark for 1 hour, then filtered. The base solution is neutralized with 15% sulfuric acid to a pH of 6-7, diluted with water to a volume of 50 ml, obtaining a 3, 6% aqueous solution of dimethylbenzyl dodecylammonium sulfate.

Synthesis of dimethylbenzyl dodecylammonium sulfate was carried out at YurDex-Eco LLC.

Dimethylbenzyl dodecylammonium sulfate has a wide spectrum of antimicrobial activity against bacteria, fungi and viruses, and retains its activity in a wide pH range.

The use of chloride and DBDA sulfate, as characterized by differing mechanisms of antimicrobial activity, as active substances of PHMG leads to a composition with high antimicrobial activity. When they interact with each other, a synergistic effect is observed.

The ratio of the components of the synergistic mixture is selected experimentally. If this ratio is below 1: 0.01, then this will lead to a decrease in the rheological properties of the composition.

If this ratio is more than 1: 0.02, then this will lead to a deterioration in consumer characteristics of the processed product.

Polyethylene glycol PEG-40 - hydrogenated castor oil according to TU 6-09-2434-81 was introduced into the composition as a surfactant that improves the dissolution of active components in the composition and adhesion to the surface of the tissue.

PEG-40 in the composition for the method of antimicrobial treatment of tissue enhances the antimicrobial effect, improves the stability of the composition over time, increases the wetting and regenerating ability of the composition.

The use of PEG-40 polyethylene glycol fabric in the method of antimicrobial treatment of tissue promotes uniform surface distribution of the active antimicrobial components and their penetration deep into the surface of the treated fabric.

Sodium sulfoethoxylate, introduced into the antimicrobial composition of the antimicrobial tissue treatment method, is an anionic surfactant with high surface activity.

It has a wetting effect and promotes deeper penetration of antimicrobial components on the surface of the treated tissue.

Antimicrobial composition containing sodium sulfoethokylate is easy to apply and spray on the surface of the fabric. The method of antimicrobial treatment of tissue uses Texapon S 70 brand sodium sulfoethokylate manufactured by BASF.

The percentage of ingredients in the antimicrobial composition is selected on the basis of numerous experiments.

If the composition of the synergistic mixture of antimicrobial components of PHMG chloride and DBDA sulfate is less than 0.5 wt. % deteriorates the antimicrobial effect of the composition. If the content of the mixture of antimicrobial components is higher than 3.0 wt. %, this will lead to a deterioration in the technological properties of the antimicrobial composition.

The content of PEG-40 in the antimicrobial composition in an amount of less than 0.5 wt. % helps to reduce the coating ability of the composition, and an increase in PEG-40 is above 1.5 wt. % contributes to the thickening of the composition and the deterioration of the technological characteristics of the antimicrobial composition.

The introduction of sodium sulfoethoxylate in the composition above 1.0 wt. % leads to increased foaming, which leads to inconvenience when spraying and is not economically feasible, and below 0.1 wt. % does not provide the necessary level of adhesion, ensuring retention of the composition on the surface of the fabric being treated.

The method of antimicrobial treatment of tissue is as follows.

The process of preparing the antimicrobial composition includes the preparation of raw materials and equipment, the weighing of components. Separately, a solution of the antimicrobial components of PHMG chloride and DBDA sulfate is prepared by dissolving in water.

Next, water is pumped into the reactor and sodium sulfoethoxylate and PEG-40 are added. After that, turn on the mixing mode for 10 minutes until the solution is completely homogenized at a temperature of 30-35 ° C. Mixing speed 70 rpm

When the stirrer is working, a solution of the antimicrobial components of PHMG chloride and DBDA sulfate and the missing amount of water are added through the hatch in accordance with the recipe.

The resulting mixture is stirred for 5 minutes, after which sampling is performed to check the indicators for compliance with the technical specifications.

For the manufacture of an experimental batch of tissue with antimicrobial treatment, a high-pressure sprayer of the INOX PLUS 3595 P brand made in Germany was used. At the same time, an atomizer with a fine filter was used to spray the antimicrobial solution, the spray angle was 80 degrees and the slot hole was 0.2 mm.

Depending on the type and density of the material, the amount of antimicrobial solution per 1 square. m ranged from 0.1 to 0.7 liters.

Drying of the tissue impregnated with antimicrobial composition was carried out in a drying chamber at a temperature of 30-50 ° C with hot air supplied by fans.

Drying time depends on the thickness of the processed material. If the fabric is used as a lining for special shoes, then to enhance the action, you can provide for re-application of the antimicrobial solution and re-drying. The effect of protecting shoes from microorganisms and smell will be high.

Table No. 1 presents the materials involved in the experiment.

Examples of specific applications of the method are shown in table No. 2.

When an antimicrobial composition is sprayed onto a tissue, a solution containing a biocidal polymer and functional additives diffuses into the tissue. The formation of a layer with a prolonged antimicrobial effect occurs, which is fixed on the fabric during drying.

Antimicrobial treatment of tissue according to the invention is characterized by the following features:

1. Safety and environmental friendliness

2. Long-term hygiene guarantee

3. Comfort in use

4. High antimicrobial activity against bacteria and fungi.

To confirm the antimicrobial effect, tissue samples treated with the antimicrobial composition according to the invention were tested according to the Guidelines for laboratory assessment of the antimicrobial activity of textile materials containing antimicrobial preparations of the USSR Ministry of Health (Moscow, 1984) using the agar plate method.

Müller-Hinton agar was used as a solid nutrient medium, which was contaminated with a microbial suspension of daily test cultures (in the amount of 10 ⁵ KOE in 1 ml). The main strains of microorganisms were used as test cultures: bacteria Staphylococcus epid., Esherichia Coli and Pseudomonas aeruginosa, Aspergillus niger, Candida albicans and A. Amstelodanum fungi.

In addition, to accelerate the biochemical reactions that occur during storage and wear of the products, tissue samples were exposed to high temperatures of 45 ° C-50 ° C in a heating cabinet for 15 days and were also tested for antimicrobial activity.

To obtain reliable results, tests of each investigated tissue sample were carried out in 2 series of replicates. Table 3 presents the results of the average values of the zone of growth inhibition of microorganisms of tissue samples after processing according to the proposed method, after accelerated testing (environmental impact factor - temperature) - to accelerate biochemical reactions that occur during storage and wear of products, as well as sample data on the prototype . Also, the samples according to examples of specific performance 2 and 7 were subjected to experimental wear for 15 days in the form of insoles for shoes.

The data of the microflora growth retardation zone, shown in Table 3, show that all materials processed according to the proposed method of antimicrobial tissue treatment have high antimicrobial activity, while the additional toughening of the test factors - aging in a heating cabinet and product socks slightly change the antimicrobial activity . In relation to gram-negative microflora (Pseudomonas aeruginosa), all samples processed by the proposed method, as well as samples of the prototype, had bacteriostatic activity, i.e. there was no growth of microorganisms under the samples. The prototype sample also had bacteriostatic activity, i.e. there was no growth of microorganisms under the samples, in relation to the bacteria Staphylococcus epid., while the samples processed by the proposed method had high antimicrobial activity.

Thus, the proposed method of antimicrobial tissue treatment allows the processing of a wide range of tissues by spraying the antimicrobial composition, while the treated fabrics have a high antibacterial and antifungal effect, which allows them to be used as a lining, including for special shoes.

Claims (2)

A method of antimicrobial treatment of tissue, comprising treating the tissue with an antimicrobial composition at room temperature, followed by heat treatment, characterized in that the fabric is treated by spraying the antimicrobial composition with subsequent heat treatment at a temperature of 30-50 ° C in the following ratio of the components of the antimicrobial composition, wt.%: Polyhexamethylene guanidine chloride or synergistic mixture of polyhexamethylene guanidine chloride with dimethylbenzyl dodecylammonium sulfate in the ratio 1: (0.01-0.02) 0.5-3.0 Polyethylene glycol PEG 40 0.5-1.5 Sodium Sulfoethoxylate 0.1-1.0 Water rest