RU2752998C1 - Method for obtaining textile material with protective acaricid-repellent finish - Google Patents

Abstract

FIELD: textile industry.

SUBSTANCE: invention relates to the textile industry, in particular to methods for acaricide-repellent finishing of textile materials, and can be used to protect home textiles and furniture upholstery from pile fabrics from dust mites that cause allergic reactions and bronchial asthma, moths and other insects. The method includes impregnating the material with a composition containing, g/l: a mixture of a quaternary ammonium compound and a pyrethroid in a mass ratio of 40:60 respectively 15.0-20.0, a softener 20.0-30.0, a copolymer of N-vinylpyrrolidone, dibutyl maleate and n-butyl acrylate in a mass ratio of 60:20:20, respectively 10.0-30.0, antistatic agent 5.0-7.0, table salt 5.0-7.0, water up to 1 liter and acetic acid up to pH 4.5-5.0; spinning and drying.

EFFECT: invention allows increasing the acaricide-repellent properties of textile materials, preserving the obtained properties after repeated washings and expanding the range of textile materials with an acaricide-repellent finish.

1 cl, 2 tbl

Description

The invention relates to the textile industry, in particular to methods of acaricide-repellent finishing of textile materials, and can be used to protect home textiles and furniture upholstery from pile fabrics from dust mites that cause allergic reactions and bronchial asthma, moths and other insects.

A known method of obtaining a textile material with a protective acaricide-repellent finish, which consists in the fact that the material is sequentially impregnated with solutions of anionic surfactant with a concentration of 2-5 g / l; a repellent emulsion in ethoxylated rapeseed oil in a ratio of 1:10, mixed with a nonionic surfactant 0.1-1.0 g / l; then impregnated with a solution of cationic polyelectrolyte 3-7 g / l and a solution of anionic polyelectrolyte 1-5 g / l, after which they are dried until completely dry.

An acaricidal composition based on highly active isomers of cypermethrin in the form of alpha-cypermethrin or zete-cypermethrin, or a mixture of these isomers, is used as a repellent. Carboxylates of oxyethylated alkyl phenols (Carboxypav AF 6.90 or Carboxypav AF 6.35) are used as anionic surfactants, and oxyethylated alkyl phenols (Neanol AF 9/10, Neanol AF 9/4, Neanol AF 9/12, Phenoxol BV Syntanol BV). As a cationic polyelectrolyte, a water-soluble polymer of a linear-cyclic structure polydiallyldimethylammonium chloride (VPK-402) is used, as an anionic polyelectrolyte, polycarboxylic acids, their salts and esters (Acremon B1, Acremon LK-2 or Manutex), and cotton and cotton-polyester fabrics for technical purposes with a surface density of 120-250 g / m ² (RU 2669457 C1, IPC: A41D 13/00, publ. 11.10.2018).

The method makes it possible to obtain textile materials intended for sewing clothes and suits for individual protection of people from tick bites or crawling onto the skin, in particular, protection from the attack of ixodid ticks that carry the pathogens of tick-borne encephalitis, as well as to protect against the bites of gnats, midges and mosquitoes that spread viral diseases.

The disadvantage of this method is that it is not intended to protect home textiles and furniture upholstery made of pile fabrics from dust mites (house dust mites).

The closest analogue of the proposed technical solution, selected as a prototype, is a method of obtaining a textile material with a protective antibacterial and acaricide-repellent finish, including bleaching, dyeing, impregnation of the material with a composition containing an antibacterial acaricide-repellent preparation based on halogenated phenoxy compounds and organic ester compounds 30-80 g / l, catalyst 30-80 g / l, non-ionic or cationic softener 2 g / l and water; spinning, drying at 80-100 ° C and heat treatment at 155-165 ° C (CN 108660746 A, IPC: D06M 13/00, D06M 15/227, publ. 16.10.2018).

The method is intended for antibacterial treatment and acaricide-repellent protection against house dust mites of bedding, clothes, towels, textiles, etc.

The disadvantage of this method is a significant decrease in the acaricide-repellent properties of the textile material during repeated washings. In addition, the method is intended for a protective finish of predominantly cotton textile materials.

The technical result of the invention is an increase in the acaricide-repellent properties of textile materials, the preservation of the obtained properties after repeated washings and an expansion of the range of textile materials with an acaricide-repellent finish.

This result is achieved by the fact that in the method of obtaining a textile material with a protective acaricide-repellent finish, including impregnating the material with a composition containing an acaricide-repellent preparation, a softener and water, squeezing and drying, a copolymer of N-vinylpyrrolidone, dibutyl maleate and n- butyl acrylate in a mass ratio of 60:20:20, respectively, table salt, antistatic agent and acetic acid, and a mixture of a quaternary ammonium compound and pyrethroid in a mass ratio of 40:60 is used as an acaricide-repellent preparation in a mass ratio of 40:60, respectively, with the following content of components, g / l:

Quaternary Ammonium Blend

compounds and pyrethroid in bulk ratio 40:60 respectively 15.0-20.0 Softener 20.0-30.0 Copolymer of N-vinylpyrrolidone, dibutyl maleate and n-butyl acrylate in mass ratio 60:20:20 respectively 10.0-3 0.0 Antistatic 5.0-7.0 Salt 5.0-7.0 Water up to 1 l Acetic acid to pH solution 4.5-5.0

A distinctive feature of the proposed method is that when introducing into the impregnating composition a mixture of a cationic surfactant (surfactant) - a quaternary ammonium compound (QAC) and a pyrethroid in a mass ratio of 40:60, respectively, a copolymer of N-vinylpyrrolidone, dibutyl maleate and n-butyl acrylate ( VPDBMBA) in a mass ratio of 60:20:20, respectively, in the presence of sodium chloride, there is a synergistic effect of increasing the acaricide-repellent properties of the textile material and preserving them during repeated washings.

It has been experimentally established that the VPDBMBA copolymer, together with QAC and pyrethroid, form a crosslinked structure, interacting with functional groups of fibers of textile materials (hydroxyl, ester, and others), which makes it possible to fix the acaricide-repellent compound in the structure of the material and keep it for a long time in the process of wet heat treatments ... Table salt increases the sorption of QAC, pyrethroid and copolymer by textile material, increasing their efficiency.

The introduction of an antistatic agent allows you to remove static electricity that occurs when using polyester threads. Acetic acid is added to the composition to create a pH of the medium of 4.5-5.0.

The introduction of a mixture of QAC and pyrethroid into the impregnating composition with a concentration of less than 15 g / l, a softener less than 20 g / l, a VPDBMBA copolymer less than 10 g / l, an antistatic agent and sodium chloride less than 5 g / l does not allow obtaining textile materials with high performance and protective acaricidal properties. - repellent properties, as well as keep them after repeated washings.

The introduction of the components of the composition at concentrations above the stated ranges is impractical, since a further increase in these properties does not occur.

RUCO-BAC HSA CONC from Rudolf Chemie (Germany) is used as a mixture of QAC and pyrethroid in a mass ratio of 40:60, respectively. The drug is a light yellow liquid with a pH of 6.5-6.9 and a density of 1.1 g / cm ³ at 20 ° C, easily dispersed in water.

As a softener, silicone-containing preparations RUCOFIN NIM (Germany), Tratskan KS (Russia) are used according to TU 2484-078-1796829-02 with rev. 1, Adazil HS (Germany) and Persoftal NANO-S2G (Netherlands); Belfazin SI (Germany) based on a mixture of fatty acids and silicones and others.

The VPDBMBA copolymer is obtained by radical polymerization in an aqueous medium in the presence of an initiator potassium persulfate. The loading of monomers: N-vinylpyrrolidone, dibutyl maleate and n-butyl acrylate in a mass ratio of 60:20:20, respectively, is carried out sequentially. Copolymerization is carried out at a temperature of 70-80 ° C until the conversion of monomers is not less than 90%. The resulting polymer has a density of 1.15-1.18 g / cm ³ , a melting point of 190-195 ° C.

As an antistatic agent, cationic drugs RUCO-STAT AZY NEW (Germany), Tratskan AKS (Russia) are used according to TU 2484-039-17965829-03 with rev. 12; nonionic drugs TANASTAT XA (Netherlands), AVISTAT G 100 (Sweden) and others.

The composition is prepared by successive mixing with water of the RUCO-BAC HSA CONC preparation, a softener, VPDBMBA copolymer, antistatic agent and sodium chloride at the stated content of the components. The pH of the composition is adjusted to 4.5-5.0 with acetic acid.

The method is carried out as follows.

During final finishing, knitted or woven pile material is impregnated with a composition containing, g / l: RUCO-BAC HSA CONC 15.0-20.0, softener 20.0-30.0, copolymer VPDBMBA 10.0-30.0, antistatic agent 5.0-7.0, sodium chloride 5.0-7.0, water up to 1 liter and acetic acid to pH 4.5-5.0.

After pressing up to 70-75%, the textile material is dried at 160-170 ° C.

Specific compositions for impregnation are presented in table 1, the test results of the obtained textile materials and the material according to the prototype - in table 2. Examples 4 and 5 are comparative.

In Example 1, a knitted fleece made from 100% polyester yarns was treated with an acaricide repellent finish; example 2 - velor from a blended yarn based on cotton and polyester in a weight ratio of 50:50; example 3 - plush from a blended yarn based on viscose and polyester in a mass ratio of 70:30; example 4 - velor from a blended yarn based on cotton and polyester in a weight ratio of 50:50; example 5 - knitted fleece made of 100% polyester threads.

For comparative tests, a cotton terry textile was finished using the prototype method. After bleaching and dyeing, it was impregnated with a composition containing, g / l: 60.0 antibacterial acaricide-repellent preparation JLsun®SCJ-2012 (China), 60.0 catalyst SCJ-A (China), 2.0 cationic softener S-666 (China) and water up to 1 liter. After wringing and drying at 100 ° C, the textile material was heat treated at 165 ° C for 40 seconds.

Samples of textile materials according to the examples with an area of 100.00 cm ^{2 were} extracted with 15 ml of carbon tetrachloride at room temperature during the day. The mass fraction of pyrethroid was determined by gas-liquid chromatography on a Kristall-Lux 4000M chromatograph. The calculation of the pyrethroid mass was carried out by the method of absolute calibration.

The textile samples were washed 1 and 5 times. Washing was carried out using 1 tablespoon of washing powder per 0.5 L of water at 40 ° C for 1 h. After drying, the pyrethroid content was determined according to the above method.

The acaricidal activity of textile materials obtained by the proposed method and prototype was determined according to MU 3.5.2.1759-03 "Methods for determining the effectiveness of insecticides, acaricides, developmental regulators and repellents used in medical disinsection", p. 4.20.

Using the proposed method will make it possible to obtain pile textile materials with high acaricide-repellent properties that are resistant to repeated washing.

Claims (2)

A method of obtaining a textile material with a protective acaricide-repellent finish, including impregnating the material with a composition containing an acaricide-repellent preparation, a softener and water, squeezing and drying, characterized in that a copolymer of N-vinylpyrrolidone, dibutylmaleate and n-butyl acrylate in mass is added to the composition a ratio of 60:20:20, respectively, table salt, antistatic agent and acetic acid, and a mixture of a quaternary ammonium compound and a pyrethroid in a mass ratio of 40:60, respectively, with the following content of components, g / l, is used as an acaricide-repellent preparation: Quaternary Ammonium Blend compounds and pyrethroid in bulk ratio 40:60 respectively 15.0-20.0 Softener 20.0-30.0 Copolymer of N-vinylpyrrolidone, dibutyl maleate and n-butyl acrylate in mass ratio 60:20:20 respectively 10.0-30.0 Antistatic 5.0-7.0 Salt 5.0-7.0 Water up to 1 l Acetic acid to pH solution 4.5-5.0