JP2006307380A - Fiber-processing agent and fiber product using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To adhere an enzyme and a coenzyme to a fiber product and then apply the treated fiber product to clothes, night cloth materials, automotive or vehicle interiors or interior products to impart functions such as skin-beautifying effects, anti-ageing effects (freshness-retaining property, effects for preventing the oxidation of the skins with active oxygen), anti-allergy, anti-atopic dermatitis, and the like. <P>SOLUTION: This fiber-processing agent is characterized by binding an enzyme, especially an enzyme called apoenzyme, to a coenzyme of low mol.wt. compound, or by carrying an additive such as lecithin on a coenzyme. The fiber-processing agent is applied to a fiber product in an form easily exhibiting the original functions and performances of the enzyme and the coenzyme to impart the skin-beautifying effects, anti-ageing effects (freshness-retaining property, effects for preventing the oxidation of the skins with active oxygen), anti-allergy, and anti-atopic dermatitis to the fiber product. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention is applied to clothing, bedding textile products, interior textile products, automobile / vehicle interior textile products, etc. for skin care applications such as skin beautifying effect, anti-aging effect, anti-rash, anti-allergy, antibacterial deodorizing, deodorizing effect, etc. For the purpose of nursing use, on the other hand, in the case of fiber webs such as paper, tissue paper and wet tissue fields that have been given anti-oxidation and freshness preservation for foods, skin beautifying effects, anti-aging effects, anti-allergic effects, etc. The purpose is to expand to.

Polyphenols such as catechin and persimmon extract, vitamin E, ferulic acid, γ-oryzanol and the like are widely known in the food, cosmetics, medical and other industries as bioactive substances that prevent oxidation and discoloration. Also in the textile industry, there is an attempt to provide a fiber product having an ultraviolet absorption effect excellent in durability by fixing ferulic acid and its derivative to a fiber material (Patent Document 1). Here, it is said that it can be used in combination with other chemicals such as shrink-proofing agents, water repellents, antibacterial insecticides, flameproofing agents, antistatic agents, and dyes. It was not something you could hope for. In addition, there is a substance that attaches ferulic acid etc. to the fiber for the purpose of anti-oxidation of the skin, but it is aimed at the antioxidant effect with a completely separate compound from human cells, in the true sense It could not be said to be a skin-friendly processing agent (Patent Document 2). Furthermore, there are those that use coenzymes related to human body cells, and it can be expected to have a skin beautifying effect and anti-aging effect due to a certain degree of antioxidant properties, but it is not in a form that can effectively demonstrate its efficacy (Patent Documents 3 to 5).

JP-A-5-125668 JP 2004-324026 A JP 2002-293731 A Japanese Patent Laid-Open No. 2002-322049 JP 2004-76188 A

The present invention uses enzymes, coenzymes, and derivatives thereof to provide functions such as skin-beautifying effects, anti-aging effects (freshness retention, antioxidant effects due to active oxygen on the skin), anti-allergy, anti-atopy, etc. It is an object of the present invention to provide a functionality-imparting agent capable of imparting the above-mentioned function more gently to the skin and a textile product to which the functionality-imparting agent is attached by mainly using a compound whose properties are close to human cells. .

In the present invention, an enzyme, particularly an apoenzyme (enzyme (A)) is combined with a low-molecular weight compound coenzyme (coenzyme (B)) to combine the function and performance of the original enzyme. And solved the problems of the present invention, such as skin beautifying effect, anti-aging effect (antioxidation effect by active oxygen of skin), anti-allergy and anti-atopy.

In the present invention, by combining an enzyme / coenzyme combination or an additive such as restin, it is possible to expect an effect of enhancing the skin elasticity and gloss rather than the antioxidant effect of human skin.

In practicing the present invention, an enzyme, a combination of coenzymes, and a combination of additives such as lecithin will be described. That is, as an enzyme (A), at least one of enzymes such as oxidoreductase, transferase, hydrolase, lyase, isomerase, ligase, and proteins and amino acids, and as a coenzyme (B), lactate dehydrogenase, adenosine triphosphate Acid, phosphoenolpyruvate, acetyl phosphate, glucose phosphate, coenzyme A, tetrahydrofolate, nicotinamide adenine dinucleotide, coenzyme Q (ubicurenone: CoQ10), lipoic acid (α-lipoic acid), coenzyme B12 The present invention is intended to accurately solve the problems of the present invention by reacting and curing at least one coenzyme such as. Among them, a carrier of an enzyme (A) related to a protein, peptide, or amino acid and a coenzyme (B) such as coenzyme Q or lipoic acid can solve the problem of the present invention more clearly. . At that time, as will be described later, when the lecithins (C) are blended and cured, the problem achievement effect of the present invention is further enhanced.
By the way, the amino acid referred to in the present invention means glutamic acid, aspartic acid, glycine, cystine, serine, histidine, lysine, arginine, leucine and the like, and further includes silk amino acids such as silk protein and sericin. It is not limited to.
In the present invention, the carrier of the enzyme (A) and coenzyme (B) is used as a concomitant agent (C) as vitamins, ceramides, lecithins, licorice extract glycyrrhizic acids, raspberries, lavender. , Jasmine, peppermint, rosemary, roman chamomile, eucalyptus, hinokitiol, bamboo extract, aloe extract, catechin, grapefruit, lemon, jojoba oil, olive oil, citrus oil, seaweed extract, squalane, sorbitol, glucose, collagen, etc. By using at least one of the amino acids in combination, the problem of the present invention can be solved more efficiently. Among these, when lecithins are blended and cured, the lecithins transdermally convert the enzymes and coenzymes. Increases the effect of absorption and enhances skin, skin tension and gloss, which are the subject of the present invention. That effect is promoted.
In the present invention, the treatment ratio of the enzyme (A) and the coenzyme (B) may be in a wide range from 1:99 to 99: 1. Among them, 10:90 to 50:50 Good blending ratio. The adhesion amount to the fiber may be 0.005 to 1.000% in terms of solid content, but 0.01 to 0.5% is sufficient on an industrialized basis.
In addition, as a combination ratio of the above-mentioned enzyme and coenzyme carrier or a combination agent (C) such as coenzyme and lecithin, 30:70 to 95: 5 is preferable, and 40:60 to 80:20 is particularly preferable. It is good for achieving the object of the present invention. The amount of adhesion to the fiber differs depending on the amount of enzyme and coenzyme added, but it may be substantially 0.01 to 1.00% in terms of solid content, but 0.02 to 0.70% on an industrialized basis. Is enough.
At this time, the effect of the concomitant (C) is extremely remarkable. When lecithin is used in combination with the concomitant (C), penetration of the enzyme / coenzyme carrier or coenzyme component from the skin, so-called percutaneous absorption. As a result, the effect is remarkably different from that in which the combination drug (C) is not used.
In the present invention, the above-mentioned processing agent may be in a normal state, but depending on the processing method, there is a method of using it in the form of a microcapsule, an inclusion body with cyclodextrin, or a vesicle structure.
In the present invention, there is no problem even if combined with a negative ion processing agent, a photocatalyst processing agent, an antibacterial and deodorizing processing agent, a deodorizing processing agent, etc. I can say that.
In the present invention, the negative ion processing agent is easy to adhere and process on fiber webs such as fibers and non-woven fabrics by pulverizing tourmaline, ancient seabed sediment (raised matter), natural ore that emits weak radiation, etc. However, it is not limited to these.
In addition, the photocatalytic processing agent referred to in the present invention has photocatalytic activity such as nano- or micron fine particle anatase-type titanium dioxide, titanium dioxide coated with apatite, titanium-silicon composite oxide, and the like such as fibers and non-woven fabrics. Although the thing which made it easy to adhere and process to a fiber web etc. is said, it is not limited to these.
The antibacterial and deodorizing agent referred to in the present invention is an inorganic compound in which an inorganic ion such as silver, copper or zinc is supported on apatite or zeolite, or a quaternary ammonium salt such as benzalkonium chloride or cetylpyridinum salt. , Biguanide compounds, zinc pyrithione, boron compounds, benzimidazole compounds, chitin / chitosans, etc. that are easy to adhere and process on fiber webs such as fibers and non-woven fabrics, but are limited to these It is not a thing.
In addition, the deodorant processing agent referred to in the present invention is a polycarboxylic acid compound and its substitute, such as copper, iron, and zinc, a polyphenol compound, and its copper, iron, zinc substitute, catechin, hinokitiol, fine Although porous inorganic zeolite, activated carbon, etc. are said, it is not limited to these.
The fiber material referred to in the present invention means natural fibers such as cotton, hemp, silk, and wool, semi-synthetic fibers such as rayon, tencel, and lyocell, polyester, polyamide, polyacrylonitrile-based synthetic fibers, and composites thereof. However, it is not particularly limited to these.
The form of the fiber material is a woven fabric or a knitted fabric made of staples, filament yarns and processed yarns, but may be in the form of a fiber web.
In addition, a fiber web means papers, such as a nonwoven fabric, tissue paper, wet tissue, food packaging paper, etc. The fiber web used in the present application differs depending on the application, but in mating applications, mats have a basis weight of 50 to 500 g / m ² (below 50, it is difficult to function such as tearing or urine leakage, and 500 or more is stiff and easy to handle. It is bad and lacks practicality, so even if it is given a function, the effect cannot be utilized. The diaper is preferably 10 to 100 g / m ² (If it is less than 10, the functionality such as tearing and urine leakage is bad, and it exceeds 100. Tissue paper is 5 to 30 g / m ² (less than 5 is easy to tear when used, and more than 30 is too thick to cause practical problems), 10 to 100 g of wet tissue / M ² (Similar to tissue paper, it is easy to tear if it is less than 10, and if it exceeds 100, it is too thick to be practically used), food packaging Paper is 5 to 50 g / m ² (less than 5 is easy to tear and has no practicality. If it exceeds 50, it is too thick and not only poor in workability but also low in practicality in price) .
The form of the fiber processing agent referred to in the present invention may be any form such as a normal aqueous solution form or an emulsion form, but is not limited thereto.
In the present invention, as a method of attaching the processing agent to the fiber, any method such as padding method, submerged treatment method, spray method, and coating method may be used, and after processing, air drying (natural drying), drying-heat treatment, etc. However, the method of drying and heat treatment may be effective from the viewpoint of increasing the durability of washing. In addition, as heat processing conditions, it is good for 0.5 to 3.0 minutes at 130-180 degreeC.
In addition, when processing into a fiber in this invention, in order to improve washing durability, a binder may be used together, but as the binder, acrylate ester type, urethane type, silicon type, fluorine type, epoxy type Polymers such as these, and composite binders such as acrylic / silicone and urethane / silicone may be used alone or in combination.
Next, the antioxidant function, which is the main function and performance of the fiber processing agent of the present invention, is a method developed by former Professor Nakatani of Osaka City University graduated. It measured using. If the control contrast is 2.0 or more, an antioxidant effect is observed.
In addition, the moisturizing effect and the skin beautifying effect of the present invention were actually determined visually by photographic enlargement of the skin 150 times with a microscope. At that time, the judgment was made according to the classification based on the condition of dry and rough skin, which is usually nothing. Grade 5: Moisturizing, skin beautifying effect very good. Fourth grade: good moisturizing and skin beautifying effect. 3rd class: Moisturizing, skin beautifying effect. Second grade: Moisturizing property, skin beautifying effect, somewhat poor. 1st grade: Moisturizing property and skin beautifying effect are poor.
Hereinafter, the present invention will be further described with reference to examples.

Mixing a mixture of protease (enzyme A) 20% by weight, α-lipoic acid (coenzyme B) 20% by weight, sorbit 10% by weight, citric acid 5% by weight, water 45% by weight at 40 ° C. for 2 hours, It was set as the textile processing agent. Next, a processing liquid is prepared by blending 10% by weight of the above processing agent, 3% by weight of an acrylate ester binder, and the remaining water in a circular knitting knit made of 100% cotton. Then, padding was performed, followed by drying at 100 ° C. for 3 minutes and then heat treatment at 150 ° C. for 1 minute. As a result of creating an underwear with such a processed knit and carrying out an actual wearing test, it was a product with high skin retention and moisturizing properties and skin effect (skin and gloss).
(Comparative Example 1)
As a comparison, in the fiber processing agent of Example 1, a protease (enzyme A) was omitted, and a processing agent in which the amount was replaced with water was manufactured. Thereafter, processing, sewing, and actual wearing test were performed in the same manner as in Example 1. However, the moisture retention and skin beautifying effects (skin and gloss) of the skin as in Example 1 were not obtained.
(Comparative Example 2)
In the fiber processing agent of Example 1, 40 parts by weight of water was used instead of 20 parts by weight of protease (enzyme A) and 20 parts by weight of α-lipoic acid (coenzyme B). Although it was carried out, no moisturizing properties and skin beautifying effects were obtained.

A mixture comprising 20% by weight of phosphatidylcholine-based lecithin (concomitant C), 20% by weight of coenzyme α-lipoic acid (coenzyme B), 10% by weight of polyoxyethylene emulsifier, 10% by weight of liquid stabilizer sorbit, and the balance water Was mixed at 40 ° C. for 2 hours to obtain a fiber processing agent. In the same manner as in Example 1, a processing liquid was prepared by blending 10% by weight of such a processing agent into 100% cotton plain woven fabric, 3% by weight of an acrylate-based binder, and the balance being water. Thereafter, processing was performed in the same manner as in Example 1 and an actual wearing test was performed on the futon side. As a result, extremely good moisture retention and skin beautifying effects (skin and gloss of skin) were obtained for the limbs.
(Comparative Example 3)
As a comparison, the fiber processing agent of Example 2 was manufactured by adding 20% by weight of phosphatidylcholine-based lecithin (combination agent C) and adding water instead. After using such a fiber processing agent, processing was performed in the same manner as in Example 2, sewing was performed on the futon side, and an actual wearing test was performed. As in Comparative Example 1, better moisture retention than in Example 2, No skin effect (skin / gloss) was obtained.
(Comparative Example 4)
In Example 2, 20% by weight of phosphatidylcholine-based lecithin (Concomitant C) and 20% by weight of coenzyme α-lipoic acid (Coenzyme B) were replaced with water. Thereafter, the same procedure as in Example 2 was performed. Moisturizing and skin beautifying effects were not obtained.

Peptidase (enzyme A) 15% by weight, adenosine triphosphate (coenzyme B) 15% by weight, phosphatidylnositol lecithin (combination agent C) 10% by weight, lactic acid 3% by weight, sorbite 10% by weight remaining The mixture consisting of water was mixed at 40 ° C. for 2 hours to produce a fiber processing agent. A processing liquid comprising 10% by weight of the fiber processing agent and 3% by weight of the acrylic / silicone binder, and the rest being water, was prepared, and after immersing a knit made of 55% cotton / 40% polyester / 5% spandex in the processing liquid, As a result of squeezing with a mangle and then processing, sewing and actual wearing test in the same manner as in Example 1, it was found to be extremely excellent in moisturizing properties and high skin beautifying effect (skin / gloss).

In Example 3, 10% by weight of water was added instead of the phosphatidylnositol-based lecithin (Concomitant C), and after that, processing was performed in the same manner as in Example 3 and an actual wearing test was performed. In comparison, the moisturizing property and the skin beautifying effect were small and similar to Example 1.
(Comparative Example 5)
As a comparison, 40% by weight of water was used instead of 15% by weight of peptidase (enzyme A), 15% by weight of adenosine triphosphate (coenzyme B), and 10% by weight of phosphatidylnositol lecithin (combination agent C) in Example 3. After replacement, the same procedure as in Example 3 was performed, but good moisture retention and skin beautifying effects were not obtained.

The following components were put into a pressure-resistant glass container for aerosol injection to produce an aerosol composition.
5% by weight of the processing agent obtained in Example 2
Ethanol 25% by weight
Purified water Balance dimethyl ether / LPG (mixed gas 5/5) 8% by weight
An actual wearing test was conducted on a product obtained by spraying the aerosol composition on a blanket made of 100% acrylic fiber. As a result, it was found that the skin was excellent in moisture retention and had a high skin beautifying effect.

A microcapsule in which the fiber processing agent used in Example 3 was encapsulated in a cell made of microporous silicon dioxide was obtained. A processing liquid consisting of 10% by weight of such microcapsules, 3% by weight of an acrylate ester binder, and the remainder consisting of water was prepared, and a broad dough consisting of 100% cotton was immersed in the processing liquid-mangle squeezing-100 ° C. × 5 minutes Drying-160 ° C. × 1 minute heat treatment was performed to obtain a processed product. As a result of sewing this processed product on a blouse and conducting an actual wearing test, it was a garment with high moisturizing and skin-beautifying effects.
The moisturizing property, skin beautifying effect and antioxidant data of the above-mentioned Examples, Comparative Examples and Reference Examples are shown in a list.

Claims (9)

A textile processing agent characterized by treating the enzyme (A) with the coenzyme (B), and clothing, bedding textile products, interior textile products, automobiles and vehicles formed by attaching the textile processing agent Interior textile products. The fiber processing agent and fiber product according to claim 1, wherein the enzyme (A) is a protein, peptide, or amino acid. Lecithins, vitamins, ceramides, licorice glycyrrhizic acid, raspberries, lavender, jasmine, peppermint, rosemary, roman chamomile, eucalyptus, hinokitiol, bamboo extract, aloe extract, catechin, grapefruit, lemon, jojoba oil, olive oil The citrus oil, seaweed extract, squalane, orange luffy oil, sorbitol, at least one combination agent (C) selected from the group consisting of glucose is contained in an amount of 1 to 99% by weight. Textile processing agents and textile products to which the processing agents are attached. The combination agent (C) is a lecithin and the fiber processing agent in which the coenzyme (B) is cured, and clothing, bedding fiber products, interior fiber products, automobiles to which the fiber processing agent is attached -Vehicle interior textile products. 5. The fiber according to claim 1, wherein the fiber processing agent is in the form of an aqueous dispersion, an aerosol composition, or a spray liquid, and the fiber processing agent in the form is attached to the fiber surface. Product. Compounds acting as coenzyme (B) are lactate dehydrogenase, adenosine triphosphate, phosphoenolpyruvate, acetyl phosphate, glucose phosphate, coenzyme A, tetrahydrofolate, nicotinamide adenine dinucleotide, coenzyme Q ( Ubidecalenone: CoQ10), lipoic acid (α-lipoic acid), and coenzyme B12 are at least one of the fiber processing agent according to claims 1 to 4, and a fiber product to which the processing agent is attached. The fiber processing agent according to claim 1, wherein the processing agent is microencapsulated, encapsulated with a cyclodextrin, or formed into a vesicle structure, and a fiber product to which the processing agent is attached. The textile product according to claim 1, wherein the processing agent is fixed with a binder. The fiber processing agent according to claim 1, wherein the processing agent is a composite of at least one of a negative ion processing agent, a photocatalytic processing agent, an antibacterial deodorizing processing agent, and a deodorizing processing agent. Adhered textile products.