PL240986B1 - Method of vowen fabrics finishing - Google Patents

Description

PL 240 986 B1

Description of the invention

The subject of the invention is a method of treating fabrics that gives fabrics, especially natural fibers, antibacterial and antifungal properties, suitable for washing fabrics intended, in particular, for bedding and clothing in health care facilities, nursing homes, prisons, hotels, boarding houses and workplaces, especially in industry. food.

Bacteria and fungi reproduce extremely rapidly, and there are populations that can double in less than 30 minutes. Therefore, activities leading to the controlled growth of microorganisms is a very important aspect in modern society. These types of activities are of particular importance in the case of fabrics that are associated with almost every area of human life. The specificity of textiles, especially those made of natural fibers, promotes the development and spread of microorganisms due to the tendency to absorb moisture, large size, often close contact with the body surface, and the fact that they are often stored in non-breathable and wind-proof containers or packages. Even one bacterial cell in a packed batch of assortment where there is moisture can pose a serious threat to the entire transport. The development of microorganisms on fabrics leads to a decrease in the mechanical resistance of the fibers, the appearance of stains and discoloration, the release of unpleasant odors, and the release of toxins. Even greater losses may be incurred by the end user as a result of infections and contaminants carried on the garment. Wearing clothes also increases the likelihood of infections as it is associated with exposure to pollution, the flora and body secretions on the skin.

Fabrics with antibacterial properties, modified with synthetic substances such as quaternary ammonium salts, triclosan, phenols, metal salts and oxides, are known and used today. There are also known, for example from patents PL.220012, PL.224478, or the description of the application of the invention P.417080, methods of imparting antibacterial and antifungal properties by finishing fabrics in the process of washing them with finishes containing nanoparticles of noble metals. However, despite the high effectiveness and wide range of antimicrobial activity, the chemical synthetics used in textile finishes are of concern due to the possible occurrence of side effects, effects on non-target organisms and environmental pollution, which is a significant drawback of such finishes.

Since ancient times, herbs have been known for their therapeutic and healing properties. Thyme oil obtained from the herb Thymus vulgaris has antiseptic, antibacterial, antispasmodic and calming properties, supports the immune system, respiratory, digestive, nervous and endocrine circulation. It protects the body against infections, skin diseases and inflammations. It is used in aromatherapy as an addition of mouthwash or toothpaste. Many inventions can be found in the patent literature, including the wide use of this oil. For example, patent CN107535688 discloses an antimicrobial feed additive, the main active ingredient of which is thyme oil, patent CN107594759 describes an antibacterial shoe insert, patent CN108559343 shows an antibacterial coating, patent CN108096069 plant perfumes for the body, clothes and linen to keep the house clean. Thyme oil has also been used as one of the components of antibacterial washing agents, known e.g. from patents CN109554245, CN107236629,

CN109554251. In the patent literature, however, there are few solutions for the production of materials with antibacterial properties based on natural ingredients, especially with the addition of thyme oil. These include patent CN107501693, in which thyme oil is one of the components of a biodegradable food packaging material, and patent CN108588894 showing a method of producing cellulose fiber. There is also known - from the description of the patent application P.424463 a method of antibacterial treatment of fabrics, in which aqueous and / or ethanolic extracts of at least two herbs selected from: plantain leaves (Plantago major), herbaceous herb (Alchemiila vulgaris), herbaceous herb ( Stachys officinalis (L.) Trevis.), Sage herb (Salvia officinalis), thymus herb (Thymus pulegioides), cistus herb (Cistus landaniferus), marigold flower (Calendula officinalis) and chamomile flower (Matricaria chamomilla), in a mutual weight ratio 1: 1 is subjected to laccase-catalyzed modification, secreted by the mycelium of fungi of the genus Abortiporus, Cerrena, Trametes, Pleurotus, Fomes, and modification until the absorbance of the modified extract is in the range of 1-2, then the fabric is rinsed in a rinsing bath

With the modified extract in a concentration ranging from 0.001% to 20% by weight of the weight of the modified dry fabric.

The drawback of this method is its considerable degree of complexity.

The aim of the invention is to develop a new method of antibacterial finishing of fabrics with a solution whose main active ingredient is thyme oil.

The method of finishing fabrics in the process of washing them, during which the fabrics are subject to prewash, main washing, rinsing with dehydration, softening, final spinning and drying, ironing or ironing, according to the invention consists in the fact that after the dehydration stage, during the softening stage and / or after the centrifugation step, the fabrics are treated with an antibacterial finish consisting of an aqueous solution containing from 0.1-5% by weight of thyme oil, 2-200 ppm of silver acetate and 0.05-1% by weight of hexadecyl triammonium chloride, and additionally and preferably a cationic surfactant in 0.1-1.0% by weight, preferably benzalkonium chloride, then the fabrics are spun and pressed or pressed. Preferably, in the case of the application of the finish after the centrifugation step, the fabrics are sprayed with the finish in an amount of 0.09 l / m ² 0.22 l / m ² of the fabric, the droplet size being in the range of 5-50 µm.

Thanks to the use of the invention, textiles are given antibacterial and repellant properties, and additionally, the finish of the solution on the fabric leaves a pleasant smell on it.

Example 1. 5 kg of dry cotton fabric was subjected to the following processes: • prewash: temperature 70 ° C in 15 l of a solution containing 80 g of Tenalan, • main wash with disinfection: temperature of 70 ° C in 15 l of a solution containing 20 g of the agent PENTA-ACTIV disinfectant, • double rinsing in 15 l of dehydrated water, • rinsing in 15 l of antibacterial solution, containing 1% thyme oil, 5 ppm silver acetate and 0.5% hexadecyl triammonium chloride, • final centrifugation, • mangle at 200 ° C.

As a result of the applied process, a cotton fabric was obtained with a solution based on thyme oil. The evaluation of the biological activity of the modified fabric was made on the basis of the test according to PN-EN ISO 20743 standard. Standard strains S. aureus ATCC 6538 and E. coli ATCC 8739 were used. The method consists in comparing the growth of bacteria inoculated on a finished finished product with the growth on a reference fabric sample - not subjected to finishing. It was found that subjecting the fabric to finishing results in inhibition of bacterial growth in min. 95%.

Example 2. 5 kg of dry cotton fabric was subjected to the following processes: • pre-washing: temperature 70 ° C in 15 l of a solution containing 80 g of Tenalan, • main wash with disinfection: temperature of 70 ° C in 15 l of a solution containing 20 g of the agent PENTA-ACTIV disinfectant, • double rinsing in 15 l of dehydrated water, • rinsing in 15 l of an antibacterial solution containing 2% thyme oil, 80 ppm silver acetate and 0.5% hexadecyl triammonium chloride and 0.5% w / w benzalkonium chloride, • final centrifugation, • ironing at a temperature of 200 ° C, preceded by spraying an antibacterial solution, 0.22 l / m ² of the fabric, with the droplet size being 50 μm.

As a result of the applied process, a cotton fabric was obtained with a solution based on thyme oil. Assessment of biological activity by the method indicated in Example 1 It was found that subjecting the fabric to finishing results in inhibition of bacterial growth in min. 98%.

Example 3: 10 kg of dry cotton fabric were subjected to the following processes:

• prewash: temperature 70 ° C in 30 l of a solution containing 100 g of Tenalan, • main wash with disinfection: temperature 75 ° C, in 30 l of a solution containing 40 g of PENTA-ACTIV disinfectant, • double rinsing in 30 l of dehydrated water • rinsing with 30 l of antibacterial solution containing 0.5% thyme oil, 5 ppm silver acetate and 0.3% hexadecyl triammonium chloride, • final centrifugation,

Claims (4)

Mangling at the temperature of 180 ° C preceded by spraying the finish constituting an antibacterial solution in the amount of 0.20 l of the solution per m2 of fabric, the droplet size being 17 μm. As a result of the applied process, a cotton fabric was obtained with a solution based on thyme oil. Evaluation of biological activity by the method indicated in Example 1. It was found that subjecting the fabric to finishing results in inhibition of bacterial growth in min. 98%. Example 4. 10 kg of dry fabric was subjected to a standard washing and spinning process, and then transferred to a mangle equipped with a spraying system. The fabric was sprayed with the solution in the amount of 0.1 l / m2 of the fabric, the droplet size was 20 μm. As a result of the applied process, a cotton fabric was obtained with a solution based on thyme oil. Evaluation of biological activity by the method indicated in Example 1. It was found that subjecting the fabric to finishing results in inhibition of bacterial growth in min. 95%. Patent claims 1. A method of finishing fabrics in the process of washing them, during which the fabrics are subject to pre-washing, main washing, rinsing with dehydration, softening, final spinning and drying, mangle or ironing, characterized in that after the rinse with dehydration step, and / or after in the centrifugation step, the fabrics are treated with an antibacterial finish consisting of an aqueous solution containing in its composition from 0.1-5% by weight of thyme oil, 2-200 ppm of silver acetate and 0.05-1% by weight of hexadecyl triammonium chloride. 2. The method according to p. The method of claim 1, characterized in that an additional cationic surfactant, preferably of benzalkonium chloride, is added to the antibacterial solution in an amount of 0.1-1.0% by weight. 3. The method according to p. The process of claim 1 or 2, wherein benzalkonium chloride is used as the cationic surfactant. 4. The method according to p. The method of claim 1, characterized in that in the case of the application of the finish after the centrifugation step, the fabrics are sprayed with the finish in an amount of 0.09 l / m ² - 0.22 l / m ² of the fabric, the droplet size being in the range of 5-50 µm.