JP2011245265A - Anti-allergic carpet and method of manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inexpensive carpet capable of efficiently reducing the amount of an allergen produced from the carpet, demonstrating an allergen reducing performance more excellently than before, and being used safely even by an allergic disease patient.SOLUTION: In the carpet composed of pile thread, a foundation and a backing layer, a solution containing a binder resin, a penetrant and an allergen adsorbent composed of a clay mineral is applied at least to the pile thread side surface of the foundation, it is heated and dried to fix the allergen adsorbent composed of the clay mineral, the pile thread is tufted to the foundation, and the pile thread and the foundation are fixed by the backing layer.

Description

  The present invention relates to a carpet coated with an allergen-reducing agent, and relates to a carpet that inactivates allergens such as pollen and mites adhering to the carpet and reduces 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.

  There are various types of allergens, including mites (parasites, carcasses, shells, feces), molds, pets (hair, dandruff), pollen, and the like, which are considered as the main causative agents of allergic diseases. In particular, dust mite allergens, even if the dust mites are exterminated with high heat or chemicals, the dead bodies remain in the tatami mats and carpets, and the dead bodies become more allergenic substances, and people move on the tatami mats and carpets As a result, allergens were released from the interior of tatami mats and carpets into the indoor space. Therefore, unless allergens such as mite carcasses, shells, and feces were removed from the tatami mats and carpets, the allergic disease could not be completely solved.

  In order to cope with this, deodorization, deodorization, and dust collection using an air conditioner, an air purifier, and the like are performed, and a method for collecting allergens in the air using a filter or the like has been proposed. However, these methods are effective for causative substances of allergic diseases floating in indoor air, but they are not effective even for causative substances inside carpets and the like. In carpets, it is said that it is effective to remove mites by sucking the surface layer of pile yarn of the carpet with a vacuum cleaner or the like while sucking it. However, although this method can remove the surface layer of the carpet, it cannot completely remove ticks and dead mites that have entered the carpet.

  In Patent Documents 1 to 3, a technique for fixing an allergen-reducing component to a fiber and reducing the allergen has been proposed. All of these techniques apply the allergen-reducing component to a fiber or the like by dipping, spraying, printing, or the like. However, it is not a technique for efficiently supporting an allergen-reducing component on a special fiber assembly called carpet.

In addition, in the patent document 4, the applicant discloses a carpet in which an allergen-reducing component is applied to a surface of the base fabric on the pile yarn side and dried. However, the allergen-reducing substances disclosed in these are organic materials, and may be exposed to high temperatures in the process of carpet processing, reducing their performance or discoloring, further reducing allergens. There was a need for carpets with improved performance.
JP2003-10089 JP2003-96670A JP 2003-313778 A JP2008-54898

  The present invention has been made in view of such technical background, and can efficiently reduce the amount of allergens generated from carpets, and can exhibit an allergen-reducing performance superior to conventional ones. The purpose is to provide an inexpensive carpet that can be used with confidence.

  As a result of intensive studies to solve such problems, the present inventors have proposed a technique capable of fixing an allergen adsorbent made of clay mineral without impairing the texture of the carpet, and the allergen reduction is efficiently performed. Therefore, the present inventors have found that an allergen-reducing performance superior to that of the prior art can be realized, and have reached the present invention. In order to achieve the above object, the present invention provides the following means.

[1] A carpet having a pile yarn, a base fabric, and a backing layer is characterized in that an allergen adsorbent made of clay mineral is fixed to a pile yarn side surface of the base fabric by a binder resin. Anti-allergen carpet.

[2] An anti-allergen carpet characterized in that in the carpet having pile yarn, an allergen adsorbent made of clay mineral is fixed with a binder resin at least on the carpet surface side of the pile yarn.

[3] In a carpet having a pile yarn, a base fabric, and a backing layer, an allergen adsorbent made of clay mineral is fixed by a binder resin and an inorganic crosslinking agent at least on the pile yarn side surface of the base fabric. Anti-allergen carpet with particular characteristics.

[4] An anti-allergen carpet characterized in that in the carpet having pile yarn, an allergen adsorbent made of clay mineral is fixed at least on the carpet surface side of the pile yarn by a binder resin and an inorganic crosslinking agent. .

[5] 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, boric acids, and silica compounds. Anti-allergen carpet as described in.

[6] The anti-allergen carpet according to [1] or [2], wherein at least 0.1 to 5.0 g / m ^{2 of} an allergen adsorbent made of clay mineral is fixed to the carpet.

[7] In a carpet having a pile yarn, a base fabric, and a backing layer, a solution containing a binder resin, a penetrant, and an allergen adsorbent composed of a clay mineral is applied to at least the pile yarn side surface of the base fabric. An anti-allergen car characterized by fixing an allergen adsorbent made of clay mineral to a base fabric by heating and drying, tufting the pile yarn on the base fabric, and fixing the pile yarn and the base fabric by a backing layer Pet manufacturing method.

[8] In a carpet having a pile yarn, an allergen adsorbent comprising a clay mineral is applied by applying a solution containing a binder resin and an allergen adsorbent comprising a clay mineral from the carpet surface side of the pile yarn, followed by drying by heating. A method for producing an anti-allergen carpet, characterized in that is fixed to at least the surface side of a pile yarn.

[9] In a carpet having a pile yarn, a base fabric, and a backing layer, a binder resin, an inorganic crosslinking agent, a penetrating agent, and an allergen adsorbent composed of clay mineral are included on at least the pile yarn side surface of the base fabric. It is characterized in that the solution is applied, dried by heating, and the allergen adsorbent made of clay mineral is fixed to the base fabric, the pile yarn is tufted to the base fabric, and the pile yarn and the base fabric are fixed by the backing layer. Method for producing anti-allergen carpet.

[10] In a carpet having a pile yarn, a solution containing a binder resin, an inorganic cross-linking agent, and an allergen adsorbent composed of a clay mineral is applied from the carpet surface side of the pile yarn, and dried by heating. A method for producing an anti-allergen carpet characterized by adhering an allergen adsorbent to at least the surface side of a pile yarn.

In the invention of [1], since the allergen adsorbent made of clay mineral is fixed to at least the surface of the pile yarn side of the base fabric, it falls on the pile yarn side surface of the base fabric while using the carpet. However, it can effectively act on allergens that are supposed to accumulate near the roots of pile yarns. The allergen substance is taken into the pores in the clay mineral and inactivated by the adsorption action of the allergen adsorbent made of clay mineral. In the present invention, since an allergen adsorbent made of clay mineral is used, even if a high temperature processing step is passed during the processing of the carpet, the carpet does not discolor or denature, and exhibits a stable antiallergen performance. can do. Further, since the allergen adsorbent made of clay mineral is firmly fixed to the base fabric by the binder resin, the effect can be continuously maintained even if washing is performed.

In the invention of [2], since the allergen adsorbent made of clay mineral is fixed by a binder resin at least on the carpet surface side of the pile yarn, it prevents allergens called pollen and house dust entering the carpet from above the carpet. The allergen can be inactivated before entering the carpet, and the carpet can be efficiently reduced in allergen.

In the invention of [3], in addition to the effect of the invention of [1], the allergen adsorbent made of clay mineral is more firmly fixed to the base fabric by the binder resin and the inorganic cross-linking agent. However, even if washing is performed, the effect can be continuously maintained.

In the invention of [4], in addition to the effect of the invention of [2], the allergen adsorbent made of clay mineral is more firmly fixed to the surface side of the pile yarn by the binder resin and the inorganic crosslinking agent. Even if it is a small amount, it can be firmly fixed, and even if washing is performed, the effect can be continued continuously.

In the invention of [5], 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 [6], since the allergen adsorbent made of clay mineral is fixed to the carpet at least 0.1 to 5.0 g / m ² , a sufficient allergen reducing effect can be obtained.

In the invention of [7], in the carpet composed of a pile yarn, a base fabric and a backing layer, an allergen adsorbent made of clay mineral is fixed at least on the pile yarn side surface of the base fabric, so that it accumulates at the base of the pile yarn. Then, many allergens said to be able to be inactivated efficiently. Moreover, since the solution containing the binder resin, the penetrating agent, and the allergen adsorbent composed of clay mineral is applied, it is possible to firmly fix the base fabric to which the allergen reducing agent is difficult to fix with the binder resin alone. Furthermore, it can be set as the manufacturing method of the anti-allergen carpet which the adhesiveness to a base fabric improved more by carrying out heat drying, and the durable durability of the allergen reduction performance improved further. In addition, the pile yarn is tufted on the base fabric to which the allergen adsorbent is fixed, and the pile yarn and the base fabric are fixed by the backing layer. Therefore, the anti-allergen produced in the same manner as the production method of a normal tufted carpet It can be set as the manufacturing method of a carpet.

In the invention of [8], since the solution containing the binder resin and the allergen adsorbent made of clay mineral is applied from the carpet surface side of the pile yarn and dried by heating, the allergen adsorbent made of clay mineral is applied to the surface of the pile yarn. It can be firmly fixed to the side and works effectively against allergens called pollen and house dust that fall from above the carpet and enter the carpet, and inactivate the allergen before entering the carpet. it can. In addition, pollen and house dust allergens that have already entered the carpet can be inactivated by an allergen adsorbent made of clay minerals before leaving the carpet, reducing the allergen efficiency. It can be set as the manufacturing method of the anti-allergen carpet performed automatically. This manufacturing method can be said to be a method suitable for a carpet that is manufactured while making a ground structure without a base fabric, such as stepped, woven and knitted carpets.

In the invention of [9], in the carpet composed of a pile yarn, a base fabric and a backing layer, an allergen adsorbent made of clay mineral is fixed at least on the pile yarn side surface of the base fabric, so that it accumulates at the base of the pile yarn. Then, many allergens said to be able to be inactivated efficiently. In addition, since a solution containing an allergen adsorbent composed of a binder resin, a penetrating agent, a clay mineral, and an inorganic crosslinking agent is applied, even a base fabric that is difficult to fix an allergen-reducing agent with a binder resin alone can be adhered more firmly. can do. Furthermore, since the water resistance of the film after the binder resin is heat-dried can be improved by the inorganic crosslinking agent, the effect can be further continued even if washing is performed. And it can be set as the manufacturing method of the anti-allergen carpet which the adhesiveness to a base fabric improved more by carrying out heat drying, and the durable durability of the allergen reduction performance was improved significantly. In addition, the pile yarn is tufted on the base fabric to which the allergen adsorbent is fixed, and the pile yarn and the base fabric are fixed by the backing layer. Therefore, the anti-allergen produced in the same manner as the production method of a normal tufted carpet It can be set as the manufacturing method of a carpet.

In the invention of [10], since the solution containing the binder resin, the allergen adsorbent made of clay mineral and the inorganic cross-linking agent is applied from the carpet surface side of the pile yarn and dried by heating, the allergen adsorbent made of clay mineral is removed. It can be more firmly fixed to the surface side of the pile yarn. Furthermore, since the water resistance of the film after the binder resin is heat-dried can be improved by the inorganic crosslinking agent, the effect can be further continued even if washing is performed. And it acts effectively on the allergens called pollen and house dust that fall from above the carpet and enter the carpet, and can inactivate the allergen before entering the carpet. In addition, pollen and house dust allergens that have already entered the carpet can be inactivated by an allergen adsorbent made of clay minerals before leaving the carpet, reducing the allergen efficiency. It can be set as the manufacturing method of the anti-allergen carpet performed automatically. This manufacturing method can be said to be a method suitable for a carpet that is manufactured while making a ground structure without a base fabric, such as stepped, woven and knitted carpets.

  Next, an embodiment of the anti-allergen carpet according to the present invention will be described with reference to the drawings. The anti-allergen carpet 1 of this embodiment includes a pile yarn 2, a base fabric 3, and a backing layer 5, and an allergen adsorbent 7 made of clay mineral is fixed to the pile yarn side of the base fabric 3 with a binder resin. (See Figure 1)

  Further, as another embodiment of the anti-allergen carpet 1 according to the present invention, a solution containing a binder resin and an allergen adsorbent 7 made of clay mineral is applied from the carpet surface side of the carpet pile yarn 2 and dried by heating. An example of the anti-allergen carpet 1 is shown. (See Figure 2)

  In the anti-allergen carpet in FIG. 1, an allergen adsorbent made of clay mineral is applied to the base fabric 3 in advance, and then pile yarn is implanted into the base fabric by a tufting machine, and then the pile yarn 2 and the base fabric 3 are formed by the backing layer 5. Is a method suitable for tufted carpets. The anti-allergen carpet in FIG. 2 can be said to be a method suitable for carpets manufactured without using a base fabric, such as carpets other than tufted carpets, such as stepped, woven and knitted carpets. Of course, in the tufted carpet, if the allergen adsorbent made of clay mineral is added to the base fabric 3 and the allergen adsorbent made of clay mineral is also added to the pile yarn, the carpet has a further excellent allergen reducing performance. Can do.

  The base fabric 3 used in the present invention is not particularly limited, such as a woven base fabric and a non-woven fabric, but a polypropylene woven base fabric is preferably used as a base fabric used for carpets generally used at home and the like. Yes. It is considered difficult to apply a functional agent directly to a woven base fabric made of polypropylene. For this reason, the agent is applied to a web layer integrated on the base fabric, or split yarn is used for the yarn of the base fabric. Thus, a method has been considered in which a drug is physically fixed to a split yarn fold with a binder resin.

  In the present invention, it is preferable to apply a solution containing a binder resin, a penetrant, and an allergen adsorbent composed of clay minerals. In particular, a woven base fabric made of polypropylene has a penetrating agent that imparts wettability to the polypropylene tape yarn and improves the adhesion to the binder resin. It can be firmly fixed. Although it does not specifically limit as an osmotic agent, Anionic surfactant is suitable, For example, alkyl naphthalenesulfonic acid sodium salt, di (2-ethylhexyl) sulfosuccinate sodium etc. are mentioned. The amount of the penetrant mixed is preferably 0.5 to 30 parts by weight with respect to 100 parts by weight of the binder resin. If the amount is less than 0.5 parts by weight, the penetrant becomes non-uniform, and unevenness appears in the adhesion between the base fabric and the binder resin. If it exceeds 30 parts by weight, the cost will increase undesirably.

  Furthermore, it is preferable to apply a solution containing an allergen adsorbent composed of a binder resin, a penetrant, a clay mineral, and an inorganic crosslinking agent. 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.

  The binder resin is not particularly limited as long as the allergen adsorbent made of clay mineral can be fixed to the surface of the base fabric or the pile yarn. For example, urethane resin, self-crosslinking acrylic resin, methacrylic resin, silicone resin, glyoxal resin Polyester resin, vinyl acetate 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 maleic anhydride copolymer resin, ethylene-styrene-acrylate-methacrylate copolymer resin, and the like.

  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.

  The method for applying an allergen adsorbent composed of clay mineral to the base fabric 3 is performed using any of a binder resin solution and a binder resin / inorganic crosslinking agent solution. The adsorbent is uniformly dispersed, applied to the base fabric by a conventional method such as a spray method, a coating method, a dipping method, or a printing method, and dried and fixed to the base fabric. The binder resin is preferably dried by heat treatment. Although the heat processing temperature at this time is based also on the raw material of a base fabric, it is preferable to set it as 100-180 degreeC. By the heat treatment at this temperature, the adhesion to the base fabric is further increased, and the sustained durability of the allergen-reducing performance made of clay mineral is further improved.

  In addition, any of the allergen adsorbent and penetrant and binder resin made of the clay mineral, and the allergen adsorbent and penetrant, binder resin and inorganic crosslinking agent solution made of the clay mineral are dispersed in water. It can be used as a liquid. The binder resin is more preferably formed into an emulsion state with water. The order of dispersing in water is to disperse the allergen adsorbent made of clay mineral in water and then disperse the inorganic cross-linking agent when penetrating agent, binder resin and inorganic cross-linking agent are mixed. From the viewpoint of more uniformly dispersing the allergen 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 saponite, hectorite and nontronite is preferred. These clay minerals are excellent in moisture absorption performance, and adsorb allergens such as pollen into the pores in the clay mineral in the same manner as they absorb moisture in the air. 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 base fabric is fixed to the pile yarn side surface of at least 0.1 to 5.0 g / m ² base fabric. If the allergen adsorbent made of clay mineral is less than 0.1 g / m ² , the allergen reducing effect is not exhibited, and if it exceeds 5.0 g / m ² , the allergen reducing effect cannot be obtained economically. More preferably, 0.3-3.0 g / m < ² > is good.

In the present invention, the material of the pile yarn 2 is not particularly limited, and materials made of polyester fiber, polyamide fiber, polypropylene fiber, acrylic fiber, rayon fiber, etc. can be suitably used. Those made of natural fibers such as cotton and wool can also be used. The pile may be a cut pile or a loop pile. The basis weight of the pile yarn 2 is preferably set to ²⁰⁰ to 2000 g / m ² . If it is less than 200 g / m ² , the function as a carpet is inferior, which is not preferable. In addition, carpets exceeding 2000 g / m ² are less likely to drop allergens on the surface of the base fabric during use, and are less likely to accumulate at the base of the pile yarn, so that the allergen reducing effect is not sufficiently exhibited. .

Further, for example, carpets manufactured without using a base fabric, such as stepped, woven and knitted carpets, and tufted carpets with a large basis weight are made of a binder resin and clay mineral from the carpet surface side of the pile yarn. A solution containing the allergen adsorbent may be applied by a conventional method such as a spray method, a coating method, or a printing method, and dried by heating. Further, the amount of allergen adsorbent made of clay mineral is preferably fixed to at least 0.1 to 5.0 g / m ² pile yarn, and the place to carry is from the pile surface to the root of the pile yarn. It is good to carry.

  Next, the backing layer 5 is not particularly limited as long as it is a resin composition or a rubber composition that can fix the pile yarn 2 and the base fabric 3. For example, the resin component of the resin composition may be acrylic, urethane, Examples thereof include resins such as polyvinyl chloride, polyethylene, polypropylene, and ethylene-vinyl acetate copolymer (EVA). Examples of the rubber component of the rubber composition include SBR (styrene-butadiene), NBR (acrylonitrile-butadiene rubber) MBR (methyl methacrylate-butadiene rubber), and natural rubber. In general, calcium carbonate, aluminum hydroxide, magnesium hydroxide, fly ash or the like is added as a filler and used as a backing layer.

Further, as shown in FIG. 1, a non-woven fabric layer 6 may be provided as a second base fabric to provide cushioning properties and protection performance of the backing layer below the backing layer 5. The nonwoven fabric layer 6 is not particularly limited, and examples thereof include a needle punch nonwoven fabric and a spunbond nonwoven fabric. The basis weight of the nonwoven fabric layer 6 is preferably 50 to 1000 g / m ² , its thickness is set to 0.5 to 15 mm, and the fineness of the constituent fibers is preferably set to a range of 0.1 to 30 dtex. If the fabric weight of the nonwoven fabric layer 6 is less than 50 g / m ² , the function and quality of the carpet are inferior, which is not preferable. If it exceeds 1000 g / m ² , the cost will increase unnecessarily. The material is not particularly limited as in the case of pile yarn and base fabric, but it is desirable to unify polyester fiber from the viewpoint of recyclability. Further, a non-slip layer may be formed on the lowermost surface of the nonwoven fabric layer 6 with a resin composition or a rubber composition, and the deodorizing composition is fixed to the nonwoven fabric layer 6 with a binder resin, and further has a deodorizing function. A certain nonwoven fabric layer 6 may be used.

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

<Materials used>
Base fabric: Woven base fabric composed of polypropylene tape yarn (22.2 dtex) as warp and polypropylene tape yarn (60.0 dtex) as weft (warp density 18 / inch, weft density 16 / inch, basis weight 98 g / m ² )
Pile yarn: Pile yarn made of polyester fiber (2200 dtex) is planted on the base fabric using a tufting machine (pile weight per unit area 700 g / m ² )
Backing layer: SBR latex (calcium carbonate as filler)
Allergen reducing agent: Bentonite (Kyoto Wako Pure Chemical Industries, Ltd.)
Binder resin ... Urethane resin Inorganic crosslinking agent ... Zircozol AC-7 (Daiichi Rare Element Chemical Co., Ltd.)
Osmotic agent: sodium di (2-ethylhexyl) sulfosuccinate

<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, 15 times, and 20 times.

<Example 1>
After 0.3 parts by weight of the penetrant is dispersed in 100 parts by weight of water, an aqueous solution in which 1 part by weight of the allergen adsorbent made of clay mineral and 2 parts by weight of the binder resin are dispersed is applied to one side of the base fabric by spraying. The substrate was dried at 110 ° C. for 3 minutes to obtain a base fabric in which 0.5 g / m ^{2 of the} allergen adsorbent made of clay mineral was fixed to one surface of the base fabric. Next, this base fabric is put on a tufting machine, and pile yarn is implanted from the side to which the allergen reducing agent is not fixed, and a cut pile having a pile length of 7 mm is formed on the side to which the allergen reducing agent is fixed. I got a semi-finished ted carpet. Next, a backing layer was applied to the opposite side of the pile side of this semi-finished product and dried to obtain an anti-allergen carpet.

  Next, dust (5 mg) collected from a general carpet used for 3 years was placed on the anti-allergen carpet (5 cm × 5 cm) and rubbed so that dust could not be seen on the surface. H. Then, in order to confirm the allergenicity of the pile root, the allergen reducing performance of the surface of the pile thread cut was measured, and a determination result of “1” was obtained at a reduction rate of 85%. Next, allergenicity was measured in the same manner on the carpet that was washed 10 times, 15 times, and 20 times, and “1”, “2”, “4” in the order of 10 times, 15 times, and 20 times of washing. Was obtained.

<Example 2>
An aqueous solution in which 5 parts by weight of an allergen adsorbent made of clay mineral and 10 parts by weight of a binder resin are dispersed in 100 parts by weight of water is sprayed on one side of the base fabric, and 4 g / m of the allergen adsorbent made of clay mineral is applied. ² An anti-allergen carpet was obtained in the same manner as in Example 1 except that a fixed base fabric was obtained. The determination of allergenicity obtained a result of “1” at a reduction rate of 95%. Next, the allergenicity was measured in the same manner on the carpet that was washed 10 times, 15 times, and 20 times, and “1”, “2”, “3” in the order of 10 times, 15 times, and 20 times of washing. Was obtained.

<Example 3>
An anti-allergen carpet was obtained in the same manner as in Example 1 except that a base fabric having 0.3 g / m ^{2 of} allergen adsorbent made of clay mineral was obtained. The determination of allergenicity obtained a result of “2” at a reduction rate of 75%. Next, the allergenicity was measured in the same manner on the carpet that was washed 10 times, 15 times, and 20 times, and “2”, “4”, “4” in the order of 10 times, 15 times, and 20 times of washing. Was obtained.

<Example 4>
As a carpet, a step of 3000 g / m ² pile length of 15 mm is prepared with 100% wool, and an aqueous solution in which 1 part by weight of an allergen adsorbent made of clay mineral and 2 parts by weight of a binder resin is dispersed in 100 parts by weight of water. It was applied to the surface of the pile by spraying, and dried at 150 ° C. for 10 minutes to obtain a step where 2.5 g / m ^{2 of the} allergen adsorbent made of clay mineral was fixed to the carpet surface. In the same manner as in Example 1, dust dust (5 mg) was placed on the step (5 cm × 5 cm) and allowed to stand for 2 days, and then the allergenicity of the step surface was measured. The determination result was obtained. Next, allergenicity was measured in the same manner on the carpet that was washed 10 times, 15 times, and 20 times, and “1”, “2”, “4” in the order of 10 times, 15 times, and 20 times of washing. Was obtained.

<Example 5>
Further, the anti-allergen adsorbent solution used in Example 4 was thinly applied to the surface of the pile by spraying on the anti-allergen carpet obtained in Example 1, and dried at 150 ° C. for 8 minutes on the carpet surface side of the pile yarn. An anti-allergen carpet to which 1.5 g / m ^{2 of the} allergen adsorbent made of clay mineral was fixed was obtained. Next, the allergenicity of the pile root was measured in the same manner as in Example 1, and a determination result of “1” was obtained. Next, allergenicity was measured in the same manner on the carpet that was washed 10 times, 15 times, and 20 times, and a judgment result of “1” was obtained at a reduction rate of 98% when the number of times of washing was 10. Furthermore, the determination results of “2” and “3” were obtained in the order of 15 washing times and 20 washing times.

<Example 6>
An aqueous solution in which 0.3 part by weight of a penetrant is dispersed in 100 parts by weight of water, 1 part by weight of an allergen adsorbent made of clay mineral, 2 parts by weight of a binder resin, and 0.05 part by weight of an inorganic crosslinking agent is dispersed. An anti-allergen carpet was obtained in the same manner as in Example 1 except that it was applied to one side of the base fabric by spraying. The determination of allergenicity obtained a result of “1” with a reduction rate of 87%. Next, the allergenicity was measured in the same manner on the carpet that was washed 10 times, 15 times, and 20 times, and “1”, “1”, “2” in the order of 10 times, 15 times, and 20 times of washing. Was obtained.

<Example 7>
An aqueous solution in which 0.3 part by weight of a penetrant is dispersed in 100 parts by weight of water, 5 parts by weight of an allergen adsorbent made of clay mineral, 10 parts by weight of a binder resin, and 0.25 part by weight of an inorganic crosslinking agent is dispersed. An anti-allergen carpet was obtained in the same manner as in Example 1 except that the base fabric was applied to one side of the base fabric by spraying to obtain a base fabric to which 4 g / m ^{2 of the} allergen adsorbent made of clay mineral was fixed. The allergenicity was determined as “1” with a reduction rate of 96%. Next, allergenicity was measured in the same manner on the carpets that had been washed 10 times, 15 times, and 20 times, and a determination result of “1” was obtained for every 10 times, 15 times, and 20 times of washing.

<Comparative Example 1>
A carpet was obtained in the same manner as in Example 1 except that a base fabric to which an allergen adsorbent made of clay mineral was not fixed was used, and the allergenicity was measured to obtain a result of “4”.

<Comparative example 2>
An anti-allergen carpet was obtained in the same manner as in Example 1 except that a base fabric to which 0.5 g / m ² of tyrosine (manufactured by Wako Pure Chemical Industries, Ltd.) was fixed was used as the allergen reducing agent. The allergenicity was measured and the determination was “2”. Next, the allergenicity was measured in the same manner on the carpet which was washed 10, 15, and 20 times, and “3”, “4”, “4” in the order of 10 times, 15 times, and 20 times of washing. Was obtained.

  As mentioned above, the allergen adsorbent made of clay mineral is fixed to the pile yarn side of the base fabric or to the surface of the pile, than the unprocessed one or tyrosine (organic allergen adsorbent) fixed However, the determination of allergen performance was successful. 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.

It is a schematic sectional drawing which shows the anti-allergen carpet which concerns on one Embodiment of this invention. It is a schematic sectional drawing which shows the anti-allergen carpet which concerns on one Embodiment of this invention.

DESCRIPTION OF SYMBOLS 1 ... Anti-allergen carpet 2 ... Pile yarn 3 ... Base fabric 4 ... Skin layer 5 ... Backing layer 6 ... Nonwoven fabric layer 7 ... Allergen adsorbent which consists of clay minerals 8. .... Warp thread 9 ... Screw thread 10 ... Warp thread 11 ... Weft thread

Claims (10)

  In a carpet having a pile yarn, a base fabric, and a backing layer, an anti-allergen cap is characterized in that an allergen adsorbent made of clay mineral is fixed to a pile yarn side surface of the base fabric by a binder resin. -Pets.   An anti-allergen carpet characterized in that, in a carpet having pile yarn, an allergen adsorbent made of clay mineral is fixed with a binder resin at least on the carpet surface side of the pile yarn.   In a carpet having a pile yarn, a base fabric, and a backing layer, the allergen adsorbent made of clay mineral is fixed to the pile yarn side surface of the base fabric by a binder resin and an inorganic crosslinking agent. Anti-allergen carpet   An anti-allergen carpet characterized in that, in a carpet having pile yarn, an allergen adsorbent made of clay mineral is fixed at least on the carpet surface side of the pile yarn by a binder resin and an inorganic crosslinking agent.   5. The inorganic cross-linking agent according to claim 3, wherein the inorganic cross-linking agent is one or more inorganic cross-linking agents selected from metal compounds containing polyvalent metal ions such as zirconium compounds, titanium compounds, and boric acids, and silica compounds. Anti-allergen carpet. The anti-allergen carpet according to any one of claims 1 to 5, wherein at least 0.1 to 5.0 g / m ^{2 of} an allergen adsorbent made of clay mineral is fixed to the carpet.   In a carpet having a pile yarn, a base fabric, and a backing layer, a solution containing a binder resin, a penetrant, and an allergen adsorbent composed of a clay mineral is applied to at least the pile yarn side surface of the base fabric, and dried by heating. Then, the allergen adsorbent made of clay mineral is fixed to the base fabric, the pile yarn is tufted to the base fabric, and the pile yarn and the base fabric are fixed by the backing layer. Method.   In a carpet having a pile yarn, a solution containing a binder resin and an allergen adsorbent made of clay mineral is applied from the carpet surface side of the pile yarn, and heated and dried to at least pile the allergen adsorbent made of clay mineral. A method for producing an anti-allergen carpet characterized by being adhered to the surface side of a yarn.   In a carpet having a pile yarn, a base fabric, and a backing layer, a solution containing a binder resin, an inorganic crosslinking agent, a penetrating agent, and an allergen adsorbent composed of clay mineral is applied to at least the pile yarn side surface of the base fabric. The allergen adsorbent made of clay mineral is fixed to the base fabric by heating and drying, and the pile yarn is tufted to the base fabric, and the pile yarn and the base fabric are fixed by the backing layer. -A method for producing pets.   In a carpet having pile yarn, an allergen adsorption composed of clay mineral is applied from the carpet surface side of the pile yarn by applying a solution containing a binder resin, an inorganic crosslinking agent and an allergen adsorbent composed of clay mineral, and drying by heating. A method for producing an anti-allergen carpet characterized in that an agent is fixed to at least the surface side of a pile yarn.

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