JP2011245264A - Anti-allergen curtain and manufacturing method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an anti-allergen curtain which reduces the amount of an allergen within a room by utilizing the unique nature which the curtain has, adsorbs the allergen in a natural air stream, and can be also employed without anxiety by an allergic subject.SOLUTION: Technique, which adheres an allergen adsorbent made of a clay mineral without affecting the feeling and color of the curtain is proposed and the curtain, which exhibits outstanding allergen reducing performance, is found out.

Description

  The present invention relates to a curtain to which an allergen reducing agent is applied, and relates to a curtain that inactivates allergens such as pollen, mite carcasses, and feces floating in a room to reduce symptoms of allergic diseases.

  Houses constructed in recent years have significantly improved heat insulation and airtightness, and high-performance energy-saving houses have been born that require several times the time for indoor air to be replaced by natural convection. However, because of its high airtightness, odors and house dust are likely to be trapped in the room, and these become allergens that cause allergies. It is said that many have developed.

  Pollen is a typical allergen that enters from outside. In particular, the number of people who develop hay fever caused by cedar pollen is increasing year by year, and pollen is brought in by attaching to clothes, etc., or it is brought in by attaching to a futon or laundry that is dried outdoors. .

  In addition, as allergens in the house, there are mites (dead bodies, shells, feces), molds, pets (hair, dandruff) and the like. These allergens, called house dust, circulate in the room or soar due to the movement of people on the air flow generated by air conditioning facilities (for example, air conditioners, fan heaters, hot carpets, floor heating, etc.). Unless the house dust was removed, the causative substances of allergic diseases could not be completely removed and solved.

  In order to cope with these, dust collection using an air conditioner, an air purifier, or the like has been performed, and a method for collecting allergens in the air using a filter or the like has been proposed. However, although these methods are effective for causative substances of allergic diseases floating in indoor air, they are not effective even for causative substances attached to carpets, curtains, sofas and the like.

  In Patent Document 1, a treatment solution comprising an aqueous solution or dispersion containing a plant extract such as polyvinyl alcohol, water-swelling clay mineral, or persimmon astringent is directly sprayed on an allergen adhering to a carpet, curtain, sofa or the like. Thus, a method for inactivating allergens is disclosed. However, this method is not a durable inactivation method, and an improvement has been demanded.

Patent Document 2 discloses a cellulosic fiber or fiber product obtained by adhering or impregnating alumina fine particles and swellable clay minerals as having excellent pollen adhesion prevention and pollen allergen adsorption effects. However, the methods disclosed in these are not durable inactivation methods.
JP 2002-128680 A JP 2005-163236 A

  The present invention uses the unique properties of curtains to reduce the amount of allergens in the room, adsorbs allergens in a natural air flow, and can be used with peace of mind for patients with allergic diseases. The object is to provide a good anti-allergen curtain.

  As a result of intensive studies to solve such problems, the present inventors have proposed a technique for fixing an allergen adsorbent composed of clay minerals without affecting the texture and color of the curtain, resulting in excellent allergen reduction. The present inventors have found a curtain capable of exhibiting performance and have reached the present invention. In order to achieve the above object, the present invention provides the following means.

[1] An anti-allergen curtain characterized in that an allergen adsorbent comprising at least a clay mineral is fixed by a binder resin.

[2] An anti-allergen curtain characterized in that an allergen adsorbent comprising at least a clay mineral is fixed by a binder resin and an inorganic crosslinking agent.

[3] The inorganic crosslinking agent according to claim 2, wherein the inorganic crosslinking agent is one or more inorganic crosslinking agents selected from metal compounds containing polyvalent metal ions such as zirconium compounds, titanium compounds, and boric acids, and silica compounds. Anti-allergen curtains.

[4] The anti-allergen curtain according to item 1 above, wherein the allergen adsorbent composed of the clay mineral is fixed to 0.05 to 3.0 g / m ² .

[5] The anti-allergen curtain according to item 1 or 2, wherein the allergen adsorbent comprising the clay mineral has an average particle diameter of 0.01 to 5.0 μm.

[6] A method for producing an anti-allergen curtain characterized in that it is immersed in a solution containing a binder resin and an allergen adsorbent made of clay mineral, and dried by heating to fix the allergen adsorbent made of clay mineral.

[7] An anti-allergen curtain characterized in that it is immersed in a solution containing a binder resin, an inorganic cross-linking agent, and an allergen adsorbent made of clay mineral, and dried by heating to fix the allergen adsorbent made of clay mineral. Production method.

The invention of [1] is a curtain to which an allergen adsorbent composed of at least a clay mineral is fixed, and the curtain is arranged along the flow of air descending along the window surface by natural convection in the room. Therefore, the allergen substance called house dust that floats by natural convection in the room moves along the flow of air descending along the window surface, and is adsorbed in contact with the allergen adsorbent fixed to the curtain. The adsorbed allergen substance is further taken into the pores in the clay mineral and inactivated. In addition, since an allergen adsorbent made of clay mineral is used in the present invention, even if it passes through a high temperature processing step during the curtain processing step, it does not discolor or denature, and exhibits stable antiallergen performance. Can be a curtain. Further, since the allergen adsorbent made of clay mineral is firmly fixed to the curtain by the binder resin, the effect can be continuously maintained even if washing is performed.

In the invention of [2], in addition to the effect of the invention of [1], the allergen adsorbent made of clay mineral is more firmly fixed to the curtain by the binder resin and the inorganic cross-linking agent. Can be reliably fixed, and even if washing is performed, the effect can be continuously maintained.

In the invention of [3], the inorganic cross-linking agent is composed of one or more inorganic cross-linking agents selected from a metal compound containing a polyvalent metal ion such as a zirconium compound, a titanium compound, and boric acids, and a silica compound. The water resistance of the film after heat drying of the binder resin can be improved, and even if washing is performed, the effect can be continued further.

In the invention of [4], since the allergen adsorbent composed of clay mineral is fixed to the curtain at least 0.05 to 3.0 g / m ² , the allergen can be sufficiently reduced against allergen substances floating in natural convection. An effect can be obtained.

In the invention of [5], since the allergen adsorbent comprising the clay mineral has an average particle size of 0.01 to 5.0 μm, a sufficient allergen reducing effect can be obtained without affecting the texture and hue of the curtain. Can be obtained.

In the invention of [6], since it is immersed in a solution containing a binder resin and an allergen adsorbent composed of a clay mineral, uniform application without uneven coating can be performed on the curtain and dried by heating. The anti-allergen curtain production method can further improve the durability of the allergen and further improve the durability of the allergen-reducing performance.

In the invention of [7], since it is immersed in a solution containing a binder resin, an inorganic cross-linking agent, and an allergen adsorbent made of clay mineral, uniform application without uneven coating can be performed on the curtain and dried by heating. As a result, the allergen adsorbent can be more firmly fixed, and the inorganic cross-linking agent can improve the water resistance of the film after heat drying of the binder resin. can do. It can be set as the manufacturing method of the anti-allergen curtain in which the durable durability of the allergen reduction performance was improved significantly.

  Next, embodiments of the anti-allergen curtain according to the present invention will be described in detail. In the anti-allergen curtain of this embodiment, an allergen adsorbent composed of at least a clay mineral is fixed by a binder resin.

  In general, the indoor air flow is such that air cooled by wall surfaces and window surfaces descends along the wall surfaces and window surfaces, and air warmed by floor surfaces, heaters, and lighting devices rises. After reaching the ceiling, it descends along the wall and window surfaces and naturally convects. Especially on the window surface, the tendency is remarkable, and since the curtain is arranged just along the flow of air descending along the window surface, as a method of naturally removing allergen substances floating in the air The method of adhering the allergen adsorbent to the curtain as in the present invention can be said to be an efficient allergen reduction method without requiring energy.

  The curtain used in the present invention is not particularly limited in its form such as woven fabric, knitted fabric, etc. Generally, curtains made of textile products have a lot of irregularities and the surface area is not comparable even when compared with wallpaper or wallboard. Since it is large and has adsorption ability and air permeability, it is preferable as an anti-allergen curtain. The material and form of the curtain fiber made of a textile product are not particularly limited. For example, natural fibers such as cotton, hemp and silk, synthetic fibers such as polyester fibers, polyamide fibers, polypropylene fibers and acrylic fibers, and fibers made of regenerated fibers such as rayon fibers can be suitably used. Or the curtain using fibers, such as a composite fiber using such a fiber and a mixed cotton, is mentioned.

  The binder resin is not particularly limited as long as the allergen adsorbent made of clay mineral can be fixed to the curtain. For example, urethane resin, self-crosslinking acrylic resin, methacrylic resin, silicone resin, glyoxal resin, polyester resin, acetic acid Vinyl resin, vinylidene chloride resin, butadiene resin, melamine resin, epoxy resin, acrylic-silicone copolymer resin, styrene-butadiene copolymer resin (SBR), ethylene-vinyl acetate copolymer resin (EVA), isobutylene anhydride malein Examples thereof include acid copolymer resins and ethylene-styrene-acrylate-methacrylate copolymer resins. In the present invention, a polyester resin or a urethane resin that can be fixed without affecting the flameproof performance and texture is desirable.

  A method for applying an allergen adsorbent made of clay mineral to a curtain fabric is to prepare a solution in which an allergen adsorbent made of clay mineral is uniformly dispersed in a binder resin solution, and apply it to the curtain fabric by dipping. After squeezing, etc., heat dry and fix. The heat treatment temperature at this time is preferably 100 to 180 ° C. although it depends on the material of the curtain fabric. By the heat treatment at this temperature, the sticking property to the curtain fabric is further increased, and the continuous durability performance of the allergen reducing performance made of clay mineral is further improved.

  Furthermore, it is preferable that a solution in which an allergen adsorbent composed of a binder resin, a penetrant, a clay mineral, and an inorganic crosslinking agent are uniformly dispersed is applied to the curtain fabric by a dipping method. Since the water resistance of the film after heat drying of the binder resin can be improved by the inorganic crosslinking agent, the effect can be further continued even if washing is performed.

  As the inorganic crosslinking agent, one or more inorganic crosslinking agents selected from a metal compound containing a polyvalent metal ion such as a zirconium compound, a titanium compound, and boric acids and a silica compound are required. Examples of the zirconium compound include zirconium oxide, zirconium oxychloride, zirconium oxychloride, zirconium carbonate, zirconyl ammonium carbonate, and the like. Examples of the titanium compound include titanium oxide and titanium tetrachloride. Examples of boric acids include tetraboric acid, orthoboric acid, and salts thereof. Examples of the silica compound include silicon dioxide. The amount of the inorganic crosslinking agent mixed is preferably 0.3 to 5 parts by weight with respect to 100 parts by weight of the binder resin. If the amount is less than 0.3 parts by weight, the binder resin is not sufficiently crosslinked, and the water resistance of the film after heat drying becomes insufficient. If it exceeds 5 parts by weight, the texture may become hard, such being undesirable.

  In addition, in any case where the allergen adsorbent and binder resin made of the clay mineral and the allergen adsorbent made of the clay mineral, the binder resin and the inorganic crosslinking agent are used, it can be used as an aqueous dispersion dispersed in water. it can. The binder resin is more preferably formed into an emulsion state with water. In order to disperse in water, the allergen adsorbent made of clay mineral is dispersed in water, and when the binder resin and inorganic crosslinker are mixed, the inorganic crosslinker is dispersed. This is preferable from the viewpoint of more uniformly dispersing the adsorbent and the binder resin. Moreover, you may mix | blend various additives, such as a dispersing agent and a thickener, with this aqueous dispersion.

  The allergen-reducing component comprising a clay mineral in the present invention is not particularly limited as long as it is a component that is inactivated by adsorbing allergen and suppressing the antigen-antibody reaction, for example, bentonite, montmorillonite, beidellite, An allergen adsorbent containing at least one selected from hectorite, saponite, nontronite, and stevensite is preferred. These clay minerals are excellent in moisture absorption performance, and adsorb allergens such as pollen and house dust as well as absorb moisture in the air and take them into the pores in the clay mineral. Proteins having allergenic properties are soluble in water and are inactivated by adsorbing to pores in clay minerals.

In the present invention, it is preferable that the allergen adsorbent composed of clay mineral fixed to the curtain is fixed at least 0.05 to 3.0 g / m ² . If allergen adsorbent consisting of clay mineral is below 0.05 g / m ² is not preferable because the allergen-reducing effect can not be exhibited, texture exceeds 3.0 g / m ² becomes hard, allergen-reducing effect economic Cannot be obtained. More preferably, 0.2 to 1.5 g / m ² is good.

  Moreover, in this invention, it is preferable that the average particle diameter of the allergen adsorbent which consists of a clay mineral fixed to a curtain is 0.01-5.0 micrometers. An allergen adsorbent composed of a clay mineral having an average particle diameter finer than 0.01 μm is difficult to obtain a uniform aqueous dispersion, and an allergen adsorbent composed of a clay mineral having an average particle diameter exceeding 5.0 μm has a texture. Hardly feels rough. More preferably, 0.1 to 3.0 μm can provide a sufficient allergen reducing effect without affecting the texture and hue of the curtain.

  Next, the material, structure, type of allergen adsorbent made of clay mineral, processing method, allergen performance measurement test and determination method used as examples of the present invention are as follows.

<Materials used>
Curtain: A curtain fabric made of polyester fiber was prepared.
Allergen reducing agent: bentonite (Kyoto Wako Pure Chemical Industries, Ltd.) average particle size 1.0 μm
Binder resin ... Urethane resin Inorganic crosslinking agent ... Zircozol AC-7 (Daiichi Rare Element Chemical Co., Ltd.)

<Allergen reduction performance test>
Measure the ELISA sandwich method, read the absorbance of the generated chromogenic substance with an absorptiometer, quantify the amount of allergen in the sample from a standard curve created using a standard product of known concentration, and reduce the allergen Was calculated and evaluated in the following four stages, and evaluations “1” and “2” were regarded as acceptable.
(Criteria)
“1” ・ ・ There is no allergen contamination. (Allergen reduction rate of 80% or more)
"2" ... Slightly contaminated with allergens. (Allergen reduction rate of 60% or more and less than 80%)
"3" ... contaminated with allergens. (Allergen reduction rate of 40% or more and less than 60%)
"4" ... Very contaminated with allergens. (Allergen reduction rate less than 40%)

<Washing durability test>
The method according to JIS 0217 103 method was performed 10 times, 20 times, and 30 times.

<Example 1>
After 0.5 parts by weight of an allergen adsorbent made of clay mineral is dispersed in 100 parts by weight of water, the curtain fabric is immersed in an aqueous solution in which 1 part by weight of a binder resin is dispersed, and squeezed with a mangle (squeezing rate 70%) , 160 ° C. for 3 minutes to obtain a curtain fabric having 0.4 g / m ^{2 of the} allergen adsorbent made of clay mineral fixed thereto.

  Next, the curtain fabric (5 cm × 5 cm) is dipped in a solution containing cedar pollen allergen, the remaining amount of allergen after 3 hours is measured, the allergen reduction performance is calculated, and a determination of “1” is made at a reduction rate of 85%. The result was obtained. Next, the allergen-reducing performance was measured in the same manner on the curtains that were washed 10 times, 20 times, and 30 times, and “1”, “4”, “ 4 "was obtained.

<Example 2>
After dispersing 3.5 parts by weight of the allergen adsorbent made of clay mineral in 100 parts by weight of water, the curtain dough is immersed in an aqueous solution in which 7 parts by weight of the binder resin is dispersed, and 2 allergen adsorbent made of clay mineral is added. An anti-allergen curtain was obtained in the same manner as in Example 1 except that a curtain fabric adhered with 0.5 g / m ² was obtained. In the measurement of the allergen reduction performance, a result of “1” was obtained at a reduction rate of 95%. Next, the allergenicity was measured in the same manner on the curtain fabric that was washed 10 times, 20 times, and 30 times, and “1”, “3”, “ 4 "was obtained.

<Example 3>
An anti-allergen curtain was obtained in the same manner as in Example 1 except that a curtain fabric having 0.1 g / m ^{2 of} an allergen adsorbent made of clay mineral was obtained. The determination of the allergen reduction performance with a reduction rate of 73% gave a result of “2”. Next, the allergenicity was measured in the same manner on the curtain fabric that was washed 10 times, 20 times, and 30 times, and “2”, “4”, “ 4 "was obtained.

<Example 4>
An anti-allergen curtain was obtained in the same manner as in Example 1 except that the allergen adsorbent made of clay mineral was bentonite (Kyoto Wako Pure Chemical Industries, Ltd.) having an average particle size of 0.1 μm. A determination result of “1” was obtained at a reduction rate of 90%. Next, the allergen-reducing performance was measured in the same manner on the curtains that were washed 10 times, 20 times, and 30 times, and “1”, “4”, “ 4 "was obtained.

<Example 5>
After 0.5 part by weight of the allergen adsorbent made of clay mineral is dispersed in 100 parts by weight of water, the curtain fabric is immersed in an aqueous solution in which 1 part by weight of binder resin and 0.025 part by weight of inorganic crosslinking agent are dispersed, An anti-allergen curtain was obtained in the same manner as in Example 1 except that a curtain fabric having 0.4 g / m ^{2 of the} allergen adsorbent made of clay mineral was obtained. In the measurement of the allergen reduction performance, a result of “1” was obtained at a reduction rate of 87%. Next, the allergenicity was measured in the same manner on the curtain fabric that was washed 10 times, 20 times, and 30 times, and “1”, “1”, “ 2 ”was obtained.

<Example 6>
After dispersing 3.5 parts by weight of the allergen adsorbent made of clay mineral in 100 parts by weight of water, the curtain fabric is immersed in an aqueous solution in which 7 parts by weight of the binder resin and 0.175 parts by weight of the inorganic crosslinking agent are dispersed, An anti-allergen curtain was obtained in the same manner as in Example 1 except that a curtain fabric having 2.5 g / m ² fixed allergen adsorbent made of clay mineral was obtained. In the measurement of the allergen reduction performance, a result of “1” was obtained at a reduction rate of 97%. Next, the allergenicity was measured in the same manner on the curtain fabric that was washed 10 times, 20 times, and 30 times, and “1”, “1”, “ The determination result of “1” was obtained.

<Comparative Example 1>
When the allergen reducing performance was measured in the same manner as in Example 1 except that a curtain fabric having no allergen adsorbent made of clay mineral was fixed, a result of “4” was obtained.

<Comparative example 2>
An anti-allergen curtain was obtained in the same manner as in Example 1 except that a curtain on which 0.4 g / m ^{2 of} an organic allergen reducing agent (Kyoto Wako Pure Chemical Industries, Ltd.) was fixed was used. The determination of allergen reduction performance gave a result of “2”. Next, the allergenicity was measured in the same manner on the curtain fabric that was washed 10 times, 20 times, and 30 times, and “3”, “4”, “ 4 "was obtained.

<Comparative Example 3>
An anti-allergen curtain was obtained in the same manner as in Example 1 except that bentonite (Kyoto Wako Pure Chemical Industries, Ltd.) having an average particle size of 6.0 μm was used as the allergen reducing agent in Example 1. In the determination of the allergen reduction performance, a result of “1” was obtained, but there was a feeling of roughness and the texture was determined to be unacceptable. In the determination of the allergenicity measured in the same manner on the curtain fabric that had been washed 10 times, 20 times, and 30 times, "1", "4", " 4 "was obtained.

<Comparative example 4>
An anti-allergen curtain fabric was obtained in the same manner as in Example 1 except that the aqueous solution containing no binder resin was used in Example 1. In the allergen reduction performance, a determination result of “1” was obtained at a reduction rate of 85%. When the allergen reduction performance was measured in the same manner for the curtains that had been washed 10, 20, and 30 times, The determination results of “4”, “4”, and “4” were obtained in the order of 10 times, 20 times, and 30 times.

As described above, the allergen adsorbent made of clay mineral is fixed at 0.1 to 2.5 g / m ² , and the allergen-reducing performance is better than the unprocessed one and the one not containing the binder resin in the aqueous solution. Gave good results. In Comparative Example 2 using an organic allergen reducing agent, the allergen reducing performance was inferior. Furthermore, since the water resistance of the film after heat drying of the binder resin can be improved by the inorganic cross-linking agent, the effect can be further continued continuously even when washing is performed.

Claims (7)

  An anti-allergen curtain characterized in that an allergen adsorbent comprising at least a clay mineral is fixed by a binder resin.   An anti-allergen curtain characterized in that an allergen adsorbent comprising at least a clay mineral is fixed by a binder resin and an inorganic crosslinking agent.   The anti-allergen according to claim 2, wherein the inorganic crosslinking agent is one or more inorganic crosslinking agents selected from metal compounds containing polyvalent metal ions such as zirconium compounds, titanium compounds, and boric acids, and silica compounds. curtain. Anti-allergen curtain according to any one of claims 1 to 3 allergen adsorbent consisting of the clay mineral is characterized by that it is fixed 0.05~3.0g / ^{m 2.}   The antiallergen curtain according to any one of claims 1 to 4, wherein the allergen adsorbent comprising the clay mineral has an average particle diameter of 0.01 to 5.0 µm.   A method for producing an anti-allergen curtain, characterized in that it is immersed in a solution containing a binder resin and an allergen adsorbent made of clay mineral, and dried by heating to fix the allergen adsorbent made of clay mineral.   A method for producing an anti-allergen curtain, characterized in that it is immersed in a solution containing a binder resin, an inorganic cross-linking agent, and an allergen adsorbent made of clay mineral, and dried by heating to fix the allergen adsorbent made of clay mineral.