RU2669457C1 - Method for producing textile material with protective acaricidal-repellent finishing - Google Patents

Abstract

FIELD: chemistry.SUBSTANCE: textile material is impregnated sequentially with solutions of an anionic surfactant, repellent emulsion in ethoxylated rapeseed oil mixed with nonionic surfactants, then impregnated with a solution of cationic polyelectrolyte and anionic polyelectrolyte solution, drying is carried out until complete drying.EFFECT: invention is aimed at increasing the strong fixation of the repellent substance on the material and its resistance to external influences during operation.4 cl

Description

The invention relates to technology of textile materials, and in particular to methods of finishing textile materials to obtain textile material intended for tailoring clothes and suits for the individual protection of people from bites or crawling on the skin of ticks, in particular to means of protection against attack by ixodid ticks - forest (Ixodes ricinus L.) and taiga (Ixodes persulcatus P.Sch.), which carry the causative agents of tick-borne encephalitis, Crimean hemorrhagic fever, tick-borne borreliosis and other diseases, as well as to protect against bites of whiskers, midges and mosquitoes, which also spread viral diseases.

The so-called "Pavlovsky nets" are known, designed to protect a person’s face and neck from bites of flying insects. These nets were made from fishing nets impregnated with volatile repellent synthetic means [Koksharov S.A. Finishing textiles for long-term protection against bloodsucking insects // Textiles, 2003, 1 (3), S. 34-42].

A variety of repellents are known for applying to clothing designed to protect against ticks, mosquitoes, midges, midges, etc. [Guidelines for the organization of individual protection of the population from the attack of ixodid ticks - carriers of infectious agents, approved. Ministry of Health of the Russian Federation, MU-33-113 from 04/27/97. - M., 1997; List No. 0057-01 of domestic and foreign disinfectants approved for use on the territory of the Russian Federation, approved. Ministry of Health of the Russian Federation 12.24.01; List No. 0061-02 of domestic and foreign disinfectants approved for use on the territory of the Russian Federation, approved. MOH RF 12/27/02; Handbook of pesticides and agrochemicals approved for use on the territory of the Russian Federation in 2003. - M., Agrorus, 2003]. One of the most famous means is diethyltoluolamide spray, under the trade name DETA for application to clothing [N. Melnikov. Pesticides Chemistry, technology and application - M .: 1987.]. Known for special tourist equipment of the American company Palsa Outdoor Products, which goes on sale in sealed packaging with an inserted cartridge, which contains a volatile repellent substance that retains its properties after opening for 30 ... 45 days [A. Razuvaev. Biocidal finishing of textile materials // Light Industry Market, 2009, No. 64, p. 22-25.].

The main disadvantage of these methods of producing protective materials is the short duration of the protection effect, since the insectoacaricides used for processing are volatile substances that evaporate quite quickly during the operation of products from treated fabrics and are unstable to water.

A known method of obtaining funds for applying to textile material, which is a stable emulsion of the type oil-in-water based on N, N-diethyl-m-toluamide (DETA) or a mixture thereof with dimethyl phthalate (DMF). [Pat. 2167648 Russian Federation, IPC A61K 7/40, A01N 37/18. Means for protection against bites of blood-sucking insects (options) and method for its preparation / Pereguda T.A., Koksharov S.A., Borovkov N.Yu., Sibrina G.V., Moryganov A.P., Pushkin S.A. ; Applicant and patent holder of Invent Trade House CJSC. - No. 99125167/14, decl. December 6, 1999 published on May 27, 2001, Bull. No. 15].

A known method of applying to a textile material means representing a stable emulsion of the type oil-in-water based on N, N-diethyl-m-toluamide (DETA) or a mixture thereof with dimethyl phthalate (DMF). by two-stage processing [Moryganov A.P., Kolomeytseva E.A., Koksharov S.A. Resource-saving technologies for multifunctional finishing of technical textiles // Neftegazpromyshlennost, 2004, 2 (7), P. 67-71]. In this case, the first stage is implemented by impregnating the fabric with a solution of repellent and drying, when combined with traditional types of dressing: finishing with pre-condensates of thermosetting resins. The second stage of processing is carried out after sewing the finished product. Applying repellents is carried out by the aerosol method, followed by drying without heating and followed by hermetic packaging of the product. A guarantee is declared for maintaining the repellent properties of the material in an airtight plastic bag for 3 months.

The main disadvantage of these methods is the use of DETA (N, N-diethyl-m-toluamide), which is highly toxic to humans, as an insecticaricide; in addition, it is known that this repellent does not kill, but repels insects, therefore it is ineffective for protection against ticks, as well as the “inconvenient” stage-by-stage application, when the first stage takes place in textile and finishing production, and the second at a sewing enterprise.

The well-known drug Sanitized®AM 23-24 based on permethrin (Switzerland), designed to create textile materials with acaricidal-repellent finishes. However, the manufacturer does not disclose the technology for processing tissue with this drug [Sanitized®AM 23-24 effective against Zika virus-transmitting mosquitopres-sreleasefinder.com].

Closest to the invention in technical essence is a method for producing clothing for protecting a person from blood-sucking ticks and flying blood-sucking insects [Pat. 2625432 Russian Federation Clothing for the protection of humans from blood-sucking ticks and flying blood-sucking insects / Korolev D.S., Korolev S.V., Kozlova O.V., Krutskikh E.V., Muratova N.N., Odintsova O.I., Petrova L.S., Prokhorova A.A. Applicant and patent holder Smart Materials Limited Liability Company (Smart Materials LLC). - 2016129496, declared. 07/19/2016, publ. 07/13/2017 Bull. No. 20]

As an active acaricidal composition, an insectoacaricide in the form of nano-, micro-encapsulated highly active isomers of cypermethrin in the form of either alpha-cypermethrin or zeta-cypermethrin or a mixture of these isomers with neuroparalytic action, both against ticks and against other insects and capable of penetrating even through the chitin covers of insects. An acaricidal composition is applied to the tissue, made in the form of nano- or microcapsules containing an encapsulated acaricidal substance, which provides not only a long-term paralytic effect on arthropods, but also protects a person from the chemical effect of the substance on the body, since the substance itself is placed in nano- or microcapsules that protect the human body from direct exposure to a chemical substance.

The disadvantage of this method is the application to the material of a ready-made composition, which does not provide a sufficiently strong fixation of it on a textile material.

Achievable when using the present invention, the technical result is the production (production) of textile material with a protective acaricidal-repellent finish by forming nano- and microcapsules containing an acaricidal-repellent substance directly on the fabric to ensure strong fixation of the repellent substance on the material and its resistance to external influences during operation.

The technical result is achieved in that in a method for producing a textile material with a protective acaricidal-repellent finish using highly active cypermethrin isomers in the form of either alpha-cypermethrin or zete-cypermethrin or a mixture of these isomers as an active acaricidal composition, the textile material is impregnated sequentially with solutions of anionic surface active substance 2-5 g / l, repellent emulsion in ethoxylated rapeseed oil (ORM) in a ratio of 1:10 (1-10 g / l), mixed with a nonionic surface the active substance (surfactant) 0.1-1 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, while as the anionic surfactant, carboxylates of hydroxyethylated alkyl phenols are used, for example, such as Carboxypaw AF 6.90 or Carboxypaw AF 6.35, and non-ionic surfactants are used ethoxylated alkyl phenols such as Neanol AF 9/10, Neanol AF 9 / 4, Neanol AF 9/12, Phenoxol BV 9/10, Sintanol BV; as a cationic polyelectrolyte, a water-soluble polymer with a linear cyclic structure of polydiallyldimethylammonium chloride (PDADMAH) is used, and polycarboxylic acids, their salts and esters, for example, Ak-repair B1, Akremon LK-2, manutex, as textile, are used as an anionic polyelectrolyte The material used is cotton and cotton polyester fabrics of a technical purpose with a surface density of 120-250 g / m ² .

Achieving the claimed technical result in the proposed technical solution is caused by the creation of a shell around the particles of acaricidal-repellent substances emulsified in ethoxylated rapeseed oil (ORM), directly on a textile material that will protect it from the action of the environment (air oxygen), but will not be an obstacle to the defeat of ticks and bloodsucking insects.

This phenomenon is called encapsulation [Krovelets, A.A. The use of nano- and microencapsulation in pharmaceuticals and food industry / A.A. Krovelets, Yu.A. Tyrsin, E.E. Bykovskaya // Bulletin of the Russian Academy of Natural Sciences. - 2013, No. 1. S. 79-84; Mauua, S. Preparation and organization of nanoscale polyelectrolyte-coated gold nanoparticles / S. Mauua, B. Schoeler, F. Caruso // Adv. Funct. Mater. - 2003. - v. 13 (3). - p. 183-188].

In the proposed method, microcapsules are formed directly on a textile material upon contact of anionic and nonionic surfactants with a repellent emulsified in oxyethylated rapeseed oil (ORM). Subsequent addition of a cationic polyelectrolyte causes an electrostatic interaction between anti-charged surface-active substances (surfactants) and the polyelectrolyte, which leads to the formation of “soft” nano- and microcapsules attached to a textile material. Impregnation with anionic polyelectrolyte leads to the formation of an interpolyelectrolyte complex due to the forces of electrostatic interaction and strong fixation of the repellent on the material.

The following substances were used to carry out the invention:

For the implementation of the invention, the following textile materials were used: cotton fabric "Premier Cotton" art.10407 (250 g / m ² ); cotton polyester fabric "Premier Comfort 250" art.18422X (250 g / m ² ); calico cotton art. 4747 (120 g / m); cotton calico art.4347 (140 g / m ² ); cotton fabric "Master Universal" art. С38-ЮД (250 g / m ² ).

The invention is as follows:

Example 1

Cotton fabric “Premier Cotton” art.10407 (250 g / m ² ), impregnated sequentially with solutions of Carboxypav AF 6.90 (2 g / l), repellent emulsion in ethoxylated rapeseed oil (ORM) in a ratio of 1:10 (1 g / l) mixed with a solution of Neanol AF 9/10 (0.1 g / l); impregnated with a solution of PDADMAC (3 g / l), impregnated with a solution of anionic polyelectrolyte Acremon B1 (1 g / l), and then dried to dry completely. Example 2

Fabric polyester "Premier Comfort 250" art. 18422X (250 g / m ² ) is impregnated sequentially with solutions of Carboxypav AF 6.35 (5 g / l), repellent emulsion in ethoxylated rapeseed oil (ORM) in a ratio of 1:10 (1-10 g / l) mixed with a solution of Neanol AF 9 / 4 (1 g / l); impregnated with a solution of cationic PDADMACH (7 g / l), impregnated with a solution of Acremon B1 (3 g / l) and then dried to dry completely.

Example 3

Fabric coarse calico cotton art. 4747 (120 g / m ² ) is impregnated sequentially with solutions of Carboxypav AF 6.90 (3 g / l), repellent emulsion in ethoxylated rapeseed oil (ORM) in a ratio of 1:10 (1-10 g / l) mixed with a solution of Phenoxol BV 9 / 10 (0.3 g / l); impregnated with a solution of PDADMAC (5 g / l), impregnated with a solution of Akremon LK-2 (2 g / l), and then dried to dry completely.

Example 4

Fabric coarse calico cotton art. 4347 (140 g / m ² ) is impregnated sequentially with solutions of Carboxypav AF 6.35 (2 g / l), repellent emulsion in ethoxylated rapeseed oil (ORM) in a ratio of 1:10 (1-10 g / l) mixed with a solution of Neanol AF 9 / 12 (0.5 g / l); they are impregnated with a PDADMAC solution (4 g / l), impregnated with a Manutex solution (1 g / l), after which they are dried until completely dry.

Example 5

Cotton fabric “Master Universal” art.C38-UD (250 g / m ² ) is impregnated sequentially with Carboxypav AF 6.90 solutions (4 g / l) ;, repellent emulsion in ethoxylated rapeseed oil (ORM) in the ratio 1:10 (1- 10 g / l) mixed with a solution of Synthol BV (0.7 g / l); impregnated with a solution of PDADMAC (6 g / l), impregnated with a solution of Acremon B1 (1 g / l), and then dried to dry completely.

When implementing the method in each of the above examples, nano- and microcapsules with acridic-repellent substance are formed and fixed on a textile surface on a textile material.

Thus, the processing of the fabric of the proposed method ensures the achievement of the claimed technical result.

Claims (4)

1. A method of producing a textile material with a protective acaricidal-repellent finish using highly active cypermethrin isomers in the form of either alpha-cypermethrin or zete-cypermethrin or a mixture of these isomers as the active acaricidal composition, characterized in that the textile material is impregnated sequentially with anionic surfactant solutions substances 2-5 g / l, repellent emulsion in ethoxylated rapeseed oil in a ratio of 1:10, mixed with nonionic surfactants 0.1-1 g / l, per thereby impregnated with a solution of cationic polyelectrolyte 3-7 g / l and a solution of anionic polyelectrolyte 1-5 g / l, then they are dried until completely dry, while the carboxylates of ethoxylated alkyl phenols are used as anionic surfactant, as a nonionic surfactant substances that use hydroxyethylated alkyl phenols, as a cationic polyelectrolyte, a water-soluble polymer of linear cyclic structure polydiallyldimethylammonium chloride is used, as an nnogo polyelectrolyte use polycarboxylic acids, their salts and esters, as well as a textile material is cotton and technical purpose hlopkopoliefirnye fabric with a surface density of 120-250 g / m ^2. 2. The method according to p. 1, characterized in that at least Carboxypav AF 6.90 or Carboxypav AF 6.35 can be used as carboxylates of hydroxyethylated alkyl phenols. 3. The method according to claim 1, characterized in that at least either Neanol AF 9/10, or Neanol AF 9/4, or Neanol AF 9/12, or Phenoxol BV 9 / can be used as ethoxylated alkyl phenols. 10, or Sintanol BV. 4. The method according to p. 1, characterized in that as polycarboxylic acids, their salts and esters, at least either Akremon B1, or Akremon LK-2, or manutex can be used.