KR100769852B1 - Mothproof and antifungal treatment composition for textile and textile treatment method using said composition - Google Patents

Abstract

A composition for mothproof and antifungal treatment of textile is provided to promote the washing resistance by comprising a harmless natural extract and increasing the affinity to the textile and to process the textile with a safe and convenient method. A mothproof and antifungal treatment composition for textile comprises 50-85 wt.% of glycol ether as a solvent, 2-10 wt.% of pyrethrin or cinerin, an extract of Chrysanthemum cinerariaefolium, as an anti-insecticide, 0.8-2 wt.% of an esterification catalyst, 5-20 wt.% of isothiazoline as an antibiotic agent, and 2-8 wt.% of a surfactant. A method for processing textile comprises a step of esterifying the composition and the textile in a mixture weight ratio of 0.1:0-10:1 at a temperature of 150-200 deg.C for 0.1-2 minutes.

Description

Insect repellent and antimicrobial agent composition for textiles and fiber processing method using the composition {MOTHPROOF AND ANTIFUNGAL TREATMENT COMPOSITION FOR TEXTILE AND TEXTILE TREATMENT METHOD USING SAID COMPOSITION}

The present invention relates to a fiber insect repellent and antimicrobial agent composition and a fiber processing method using the composition, more specifically, 50 to 85% by weight of a glycol ether as a solvent, pyrethrin or pyrethrin as a pesticide extract as a repellent cinerin) a fiber insect repellent and antimicrobial agent composition comprising 2 to 10% by weight, an esterification catalyst of 0.8 to 2% by weight, 5 to 20% by weight of isothiazoline as an antibacterial agent and 2 to 8% by weight of a surfactant, and the composition It relates to a fiber processing method using.

Fiber is currently used as a base material for various items including clothing, and the variety and processing methods thereof are quite diverse. In particular, as in the present invention, the development of functional fibers such as those that impart insect repellent and antibacterial function is also considerable. Recently, interest in evasion and antibacterial treatment against pests such as house dust mites and mosquitoes, which is one of the causes of atopy, has been increasing. In general, a conventional method for treating insect repellent fiber is known to treat the fiber by a spray method using a permethrin (synthetic pesticide raw material). Korean Patent Publication No. 426175 discloses a step of passing a fabric through a bath containing polyvinyl acetate; And (b) passing the fabric through a bath containing permethrin, a method of adding permethrin to a fabric to be made into a washable final product. Samson et al., US Pat. No. 5,198,287, for 'Pest Control Tent Fabrics,' describes a tent fabric coated with a pesticidal permethrin having a shelf life of at least six months. A factor that extends the life of permethrin in tents made according to this patent is that the permethrin is coated on the inside of the tent. Samson's U.S. Pat. It is described. Another problem with using permethrin as a pest control agent in washable finished products is that the permethrin must be preserved in the fabric even after the product has been washed several times. McNally's US Pat. No. 5,089,298 on the synergistic effect of amylopectin-permethrin combinations on fabrics provides a solution to the problem of preserving permethrins in finished products even after multiple washings. The patent indicates that infiltrating permethrin, amylopectin, and water-soluble starch into clothing preserves permethrin in the garment after much more washing than permethrin-only clothing.

On the other hand, the development of insect repellents, antimicrobial processing agents using low-toxic natural materials are also actively made. Korean Patent Publication No. 2005-100587 discloses triclosan (2,4,4`-trichloro-2`-hydroxydiphenyl ether) as an antibacterial agent in an amount of 0.1 to 10% by weight, and an insect repellent agent as an insect repellent agent. 1, 2 or more selected from anetol, citronella, diremonol, geraniol, citral, nerol, eucalyptus, and a fiber coating agent composition that incorporates microencapsulation technology having 0.1 to 40% by weight. Is disclosed.

However, the existing method including the above-mentioned literature has a strong toxicity when it has an effect on the human body, there is a problem using petroleum-based solvents in combination with the antibacterial effect, permethrin is limited because of the relatively short life of pesticides Only has been used. This is because in the presence of oxygen and ultraviolet light, permethrins decompose into inert and non-pestifying substances. In addition, the processing method of the fiber using the insect repellent or antimicrobial processing agent is only spraying, simple impregnation or micro-encapsulation method, due to the low bonding strength with the fiber tissue sharply lowers the insect repellent and antibacterial effect after washing and severe change over time There is a problem.

Therefore, the technical problem of the present invention is harmless to the human body based on the natural extracts to increase the affinity with the fibers to improve the washing resistance and the fiber insect repellent can be processed in a safe and simple way with little change over time And it provides an antimicrobial agent composition.

Another technical problem of the present invention is to provide a fiber processing method using the composition.

In order to achieve the above technical problem, the present invention is 50 to 85% by weight of a glycol ether as a solvent, 2 to 10% by weight of pyrethrin or cinerin as a insect repellent extract as an insect repellent, 0.8 to 2 esterification catalyst It provides a fiber insect repellent and antimicrobial agent composition comprising a weight percent, 5 to 20% by weight of isothiazoline as an antibacterial agent and 2 to 8% by weight surfactant.

In the present invention, the glycol ether is butyl glycol (BG), butyl diglycol (BDG), butyl triglycol (BTG), butylpropyl diglycol (BFDG), methyl glycol (MG), methyl diglycol (MDG), Provides a fiber insect repellent and antimicrobial agent composition, characterized in that at least one selected from the group consisting of methyl triglycol (MTG), methyl polyglycol (MPG), methyl propylene glycol (MFG), methyl propylene diglycol (MFDG). .

The present invention also provides a fiber insect repellent and antimicrobial agent composition, characterized in that the esterification catalyst is at least one selected from the group consisting of hypophosphorous acid, paratoluene sulfate and linear alkyl sulfate.

In addition, the present invention, the surfactant is castor oil ethoxylated (Castor oil ethoxylated) system, polyoxyethylene lauryl ester (Polyoxyethylene Lauryl ester), polyoxyethylene Oleyl ester (polyoxyethylene Oleyl ester), polyoxyethylene ste It provides a fiber insect repellent and antimicrobial agent composition, characterized in that at least one member selected from the group consisting of an aryl ester (Polyoxyethylene Stearyl ester) and a polyoxyethylene Fatty ester-based surfactant.

In order to achieve another technical problem of the present invention, another aspect of the present invention provides a fiber processing method comprising the step of esterifying the fiber insect repellent and antimicrobial agent composition for the fiber.

In addition, the present invention provides a fiber processing method, characterized in that the esterification reaction is carried out for 0.1 to 2 minutes in the temperature range of 150 to 200 ℃.

In addition, the present invention provides a fiber processing method, characterized in that the fiber insect repellent and antimicrobial agent composition and the fiber is mixed in a weight ratio of 0.1: 1 to 10: 1.

Hereinafter, the present invention will be described in more detail.

Fiber insect repellent and antimicrobial agent composition of the present invention is 50 to 85% by weight of glycol ether as a solvent, 2 to 10% by weight of pyrethrin or cinerin as a pesticide extract as insect repellent, 0.8 to 2 esterification catalyst Wt%, 5-20 wt% of isothiazoline as antibacterial agent and 2-8 wt% of surfactant. Pyrethrin and cinerine, the extracts of Pyrethrum, have a control effect, but have little toxicity to the human body, and many control agents have been developed using the same. In addition, as described above, the insect repellent agent containing the above-mentioned finnetrin has also been developed for the insect repellent processing of fibers. However, when the above-mentioned insect repellent treatment agent is treated to the fiber by the conventional method, it is toxic to human body by using petroleum-based solvents, and the bond between the fiber tissue and the insect repellent agent is only a physical bond. There has been a problem that the effect is rapidly reduced with progress. The insect repellent and antimicrobial agent composition for the fiber of the present invention does not use a petroleum-based solvent, significantly reducing human toxicity, and esterification reaction between the -OH group of the fibrous tissue and the -COOR (R is an alkyl group) of the fibrin and cinerine. Induces chemical bonds to enhance laundry resistance and reduce changes over time. The fiber to which the insect repellent and antimicrobial agent composition for fibers of the present invention is applied is intended to include -OH group in its molecular structure.

Fiber insect repellent and antimicrobial agent composition of the present invention comprises 50 to 85% by weight of the glycol ether as a solvent. The glycol ether is used as a solvent of the fiber processing agent composition of the present invention because of its excellent organic solvent properties and high compatibility with water. Therefore, the fiber processing using the fiber insect repellent and antimicrobial processing agent composition of the present invention is very economical and simple because it can be performed in parallel with the tenter operation performed under high temperature and high humidity conditions without requiring a separate machine or process. Preferred examples of the glycol ethers include butyl glycol (BG), butyl diglycol (BDG), butyl triglycol (BTG), butylpropyl diglycol (BFDG), methyl glycol (MG), methyl diglycol (MDG) and methyl tree It is preferable that it is at least 1 type selected from the group consisting of glycol (MTG), methyl polyglycol (MPG), methyl propylene glycol (MFG), and methyl propylene diglycol (MFDG).

In addition, the insect repellent and antimicrobial agent composition for fibers of the present invention contains 2 to 10% by weight of pyrethrin or cinerin, which is an insect repellent extract as a repellent. The insect repellent effect of the pyrethrin and cinerine is already known and thus will not be described in detail herein.

In addition, the insect repellent and antimicrobial agent composition for fibers of the present invention contains 0.8 to 2% by weight of an esterification catalyst. As described above, the insect repellent and antimicrobial agent composition for textiles of the present invention reacts the pyrethrin or cinerine with -OH groups of the fibrous tissue to prepare an ester compound in the form of an esterification catalyst. The esterification catalyst is not particularly limited and may be used as long as it is harmless to the human body and suitable for the processing method and processing conditions of the present invention. Preferred examples of the esterification catalyst are at least one selected from the group consisting of hypophosphorous acid, paratoluene sulfate and linear alkyl sulfate.

Fiber insect repellent and antimicrobial agent composition of the present invention comprises a surfactant 2 to 8% by weight. The surfactant assists in dissolving the insecticide and antimicrobial agents, such as pinhrine / cinerine and isothiazoline, in a solvent and serves to prevent precipitation of the organic component in an aqueous solution environment. The surfactant is not particularly limited and may be suitable for the use environment of the present invention and have little or no human hazard. Preferred examples of the surfactant include castor oil ethoxylated, polyoxyethylene lauryl ester, polyoxyethylene oleyl ester, polyoxyethylene stearyl ester (Polyoxyethylene Stearyl ester) and polyoxyethylene Fatty ester (Polyoxyethylene Fatty ester) is preferably at least one member selected from the group consisting of.

The insect repellent and antimicrobial agent composition for fibers of the present invention contains 5 to 20% by weight of isothiazoline as an antibacterial agent. Isothiazoline is a substance already known as an antimicrobial agent and will be well understood by those skilled in the art to which the present invention pertains.

The insect repellent and antimicrobial agent composition for textiles of the present invention may be used as a fiber processing agent in the manufacturing and processing of fibers and fabrics, as described below. It can also be used as a raw material for spraying and applying creams.

Another aspect of the present invention provides a fiber processing method comprising the step of esterifying the fiber with the insect repellent and antimicrobial agent composition for the fiber. The esterification reaction is preferably carried out for 0.1 to 2 minutes at a temperature range of 150 to 200 ℃, the insect repellent and antimicrobial composition for the fiber and the fiber is preferably mixed in a weight ratio of 0.1: 1 to 10: 1 range. Do. As described above, the conventional fiber processing method is to physically adsorb the antimicrobial agent to the fiber, the effect is sharply lowered after washing, there is a problem with a severe change over time. The fiber processing method of the present invention is to chemically bond the insecticide and the antibacterial component to the -OH group of the fiber through an ester bond, and has the advantage of excellent washing resistance and less change with time than the conventional processing method. In addition, the fiber insect repellent and antimicrobial agent composition of the present invention can be processed even in a humid environment, the fiber processing method does not require a separate equipment or process to be processed using existing equipment and processes. Can be. However, in the fiber processing method of the present invention, it is preferable that the processing process is performed at a high temperature process as some high temperature treatment is required, and in the preferred embodiment of the present invention, insect repellent and antibacterial in a tenter process performed under a high temperature and high humidity environment. Treatment was performed in parallel.

Hereinafter, the present invention will be described in more detail with reference to preferred embodiments of the present invention. However, the following examples are merely to help the understanding of the present invention, the scope of the present invention is not limited only to the following examples.

Example 1 (Preparation of Insect Repellent and Antimicrobial Composition)

In a 2L four-necked reaction vessel equipped with a mechanical stirrer, thermometer, distillation and dropping funnel, 5 g of pyrethrin & cinerin, a pyrethrin and cinerin extract, and 2 g of paratoluene sulfate as a catalyst, solvent 80 g of butyldiglycol (BDG), 10 g of isothiazoline as an antimicrobial agent, and 3 g of castor oil ethoxylated were added as a surfactant. Then, the stirring temperature was raised to 60 ℃ and stirred for 1 hour to prepare a fiber insect repellent and antimicrobial agent composition.

Example 2 (Fiber Processing Using Composition of Example 1)

Fiber processing was performed using the insect repellent and antimicrobial agent compositions for fibers prepared in Example 1. The composition prepared in Example 1 was added at a weight ratio of 2 to 3 based on the weight of the fiber, and the pick up rate of the tenta machine mangle was maintained at 75% of moisture, dried at 110 ° C, and then at 180 ° C for 12 seconds. Heat treatment was performed for insect repellent and antibacterial treatment.

Example 3 (verification of insect repellent and antibacterial effect)

The antibacterial and antimicrobial agent compositions for the fibers prepared in Examples 1 and 2 and the antimicrobial, insect repellent effect and human toxicity test of the fiber fabric treated with the composition were performed.

The antibacterial test was inoculated with 3 grams of treated cotton fabric 0.4g and 0.4g untreated cotton fabric (control) as in Example 2, respectively, inoculated with Staphylococcus aureus Straphyloccus aureus ATCC 6538 and Klebsiella pneumoniae ATCC 4352. Afterwards, this was performed by measuring the average number of living organisms over time. Table 1 shows the results. As can be seen in Table 1, in the case of the fabric treated with the fiber insect repellent and antimicrobial agent composition of the present invention showed an excellent antibacterial effect.

In the above table, Ma: viable count immediately after inoculation of the control, Mb: viable count after 18 hours of the control, and Mc: viable count after 18 hours of the test, the increase rate is Mb / Ma, and the bacteriostatic reduction rate is [(Mb- Mc) / Mb] X100.

In addition, the insect repellent test is placed on a plastic dish of 3.5 cm in diameter, 1 cm in height and the fabric and the untreated fabric treated with the fiber insect repellent and antimicrobial processing agent composition of the present invention prepared in Example 1, the medium is attracted thereon Except for three test samples placed 0.05g and not treated with the fiber insect repellent and antimicrobial agent composition, all the same control samples were prepared. The insect repellent effect was measured by uniformly spreading two kinds of house dust mite medium having a concentration of about 30,000 grains / g around the plastic dish, leaving it for 24 hours, and measuring the number of surviving ticks invading the plastic dish. Was tested. Table 2 summarizes the results.

In addition, the human harmfulness of the fiber insect repellent and antimicrobial agent composition of the present invention was tested. The test was carried out by direct contact with 20 skins of gauze moistened with the diluent (0.5%) of the fiber insect repellent and antimicrobial agent composition prepared in Example 1 and removed from the skin after 48 hours and irritated by visual and microscopic examination. Was determined. Table 3 summarizes the results. In Table 3, A-stage is circular dodge, B-stage is deep furrow, C-stage is shallow furrow, vanishing furrow, irregular rigdes and furrows, created ridge and lamellar scale, D-stage is edema, erythema, papule It is judged whether or not.

  As can be seen from the test results, the fiber insect repellent and antimicrobial agent composition of the present invention and the fiber fabric processed using the composition is excellent in the repellent of pests such as mites and antibacterial against harmful pathogens and directly used on the skin Even though it was not toxic, it could be confirmed that it is suitable for use as a processing agent for fibers.

As described above, the fiber insect repellent and antimicrobial processing agent composition and fiber processing method of the present invention combines insect repellent and antibacterial function by combining pyrethrin and cinerine with antibacterial isothiazoline, which is a low-toxic natural substance It has low toxicity to human body and gives excellent insect repellent and antibacterial property, and improves adhesion performance through fiber and ester bond, improving washing resistance and little change of effect over time, and compatibility with other textile processing agents. Because of this superiority, there is no need for a separate secondary process, so it is economical because it shortens the processing time and does not require a separate facility.

The embodiments of the present invention described above should not be construed as limiting the technical idea of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention, as will be apparent to those skilled in the art.

Claims (7)

 50 to 85% by weight of glycol ether as a solvent, 2 to 10% by weight of pyrethrin or cinerin as a insect repellent as an insect repellent, 0.8 to 2% by weight of an esterification catalyst, and 5 to isothiazoline as an antibacterial agent Insect repellent and antimicrobial agent composition for the fiber comprising 20% by weight and 2 to 8% by weight of the surfactant. The method of claim 1, The glycol ether is butyl glycol (BG), butyl diglycol (BDG), butyl triglycol (BTG), butylpropyl diglycol (BFDG), methyl glycol (MG), methyl diglycol (MDG), methyl triglycol (MTG ), Methyl polyglycol (MPG), methyl propylene glycol (MFG), methyl propylene diglycol (MFDG) at least one selected from the group consisting of insect repellent and antimicrobial agent composition for fibers. The method of claim 1, The esterification catalyst is a fiber insect repellent and antimicrobial agent composition, characterized in that at least one selected from the group consisting of hypophosphorous acid, paratoluene sulfate and linear alkyl sulfate. The method of claim 1, The surfactant is castor oil ethoxylated, polyoxyethylene lauryl ester, polyoxyethylene oleyl ester, polyoxyethylene stearyl ester, polyoxyethylene stearyl ester Insect repellent and antimicrobial agent composition for fibers, characterized in that at least one member selected from the group consisting of esters) and polyoxyethylene Fatty ester-based surfactants. The fiber processing method comprising the step of esterifying the fiber with the insect repellent and antimicrobial agent composition of any one of claims 1 to 4. The method of claim 5, The esterification reaction is a fiber processing method, characterized in that carried out for 0.1 to 2 minutes in the temperature range of 150 to 200 ℃ The method of claim 5, The fiber insect repellent and antimicrobial agent composition and the fiber is a fiber processing method, characterized in that mixed in a weight ratio of 0.1: 1 to 10: 1 range.