KR20090005991A - A feather and a product filled with the same - Google Patents

Abstract

A feather dipping a platinum nano particle is provided to maintain a cleanness and an oxygen quotient into good level by dipping the platinum nano particle mixed at a mixing ratio of water soluble polymer and/or surfactant or citrate. A feather is manufactured by dipping the platinum nano particle protected by a water soluble polymer and a surfactant. A mixing ratio of the platinum nano particle and the water soluble polymer and/or the surfactant is 1:0.2~1:1.5. A dipping amount of the platinum nano particle is 20~9mug to the feather of 1kg. The feather dipping the platinum nano particle has a cleanness of 500mm or more and an oxygen quotient of 4.8mg or less.

Description

A FEATHER AND A PRODUCT FILLED WITH THE SAME}

The present invention relates to a feather carrying platinum nanoparticles and a feather product filled with the same.

Feathers, particularly feathers filled with duvets, generally use feathers of waterfowl such as goose (goose), duck (duck), and iider (wild duck) that inhabits coastlines in the Arctic Circle. Feathers have feathers called down and wings corresponding to breast hair, and both are used for feather products. Feathers originate in central Europe, such as Poland and Hungary, and in northern Europe and China, including the Scandinavian peninsula. The feather occupies the position of high quality material as a filler of the blanket which is excellent in bulkiness. Insufficient washing of feathers causes odors, so it is required to remove dirt causing odors in advance and maintain cleanliness and oxygen coefficient at a constant level to see the degree of cleaning of feathers.

In the colloid of platinum, the platinum nanoparticles exist as a suspension having a particle size of 1 to 100 nm (nanometer) in a state surrounded by a protective agent (hereinafter, a combination of nanoparticles and a protective agent around it is called a colloidal liquid). Is used for fuel cell catalysts and automobile exhaust gas treatment catalysts (Patent Document 1). Since this platinum nanoparticle is reducible, there is also a proposal to mix with cosmetics, paying attention to the reduction of active oxygen and the antioxidant action (Patent Documents 2 to 3). In addition, there is also a proposal in which cellulose fibers contain platinum nanoparticles as an application to fibers of platinum nanoparticles (Patent Document 4).

[Patent Document 1] Japanese Unexamined Patent Publication No. 2004-263222

[Patent Document 2] Japanese Unexamined Patent Publication No. 2005-139102

[Patent Document 3] WO2005 / 018598

[Patent Document 4] Japanese Unexamined Patent Publication No. 2005-245258

Conventionally, attempts have not been made to support platinum nanoparticles on feathers filled with duvets while maintaining cleanliness and oxygen coefficient at a constant level.

The present invention provides a feather and an feather product filled with the platinum nanoparticles while maintaining cleanliness and oxygen coefficient at a constant level, and having antioxidant properties.

Initially, the present inventors obtained the feather having antioxidant properties by supporting platinum nanoparticles on the feather, but could not obtain a satisfactory numerical value with regard to the cleanliness and the oxygen coefficient which are the criteria for the degree of washing of the feather. Therefore, as a result of diligent research, attention has been paid to the blending ratio of platinum nanoparticles and a protective agent that protects the same, and according to the blending ratio, it has been found to have antioxidant properties while maintaining cleanliness and oxygen coefficient at a constant level, and thus the present invention has been reached. . In addition, in order to maintain the cleanliness and oxygen coefficient at a constant level, it was also found that the mixing ratio of the platinum nanoparticles and the protective agent differs depending on the type of protective agent.

That is, the feather of the present invention is a feather carrying platinum nanoparticles protected by a water-soluble polymer and / or a surfactant, wherein the mixing ratio of the platinum nanoparticles and the water-soluble polymer and / or surfactant is a mass ratio of platinum nanoparticles. : It is characterized by being a water-soluble polymer and / or surfactant = 1: 0.2-1: 1.5.

Moreover, the feather of this invention is a feather which supported the platinum nanoparticle protected by the citrate, The compounding ratio of the said platinum nanoparticle and citrate is a platinum nanoparticle: Citrate = 1: 0.2-1: 1: It is characterized by 35.

The feather product of the present invention is characterized in that the feather is filled inside the product.

The feather of the present invention supports platinum nanoparticles in which the proportion of the water-soluble polymer and / or surfactant or citrate in which the platinum nanoparticles are protected is in a predetermined range, thereby providing cleanliness (a measure of cleanliness) and an oxygen coefficient ( The amount of oxygen necessary for chemically oxidizing the contaminated organic matter to an oxidizing agent) can be maintained at a good level, and the feather can be made to have antioxidant properties.

The feather product of the present invention can be expected to have an effect of decomposing free radicals and free radicals known to adversely affect the body from the air layer around the body by filling the feather inside the product. If platinum nanoparticles are also loaded into the product itself that fills the feathers, the effect can be further enhanced.

The platinum nanoparticles used in the present invention are provided by, for example, the method described in WO2005 / 018598, the average particle diameter is preferably 1 to 5 nm, more preferably 1 to 3 nm, It is especially preferable that it is 1.5-2.5 nm. Moreover, it is preferable to fall in the range whose particle diameter of 90 mass% or more of platinum nanoparticles is 0.1-10 nm, and it is more preferable to fall in the range which is 1-3 nm. Thus, when the particle size distribution of platinum nanoparticles is narrow and the average particle diameter is the range of 1-5 nm, the ratio of platinum nanoparticles is high and it has favorable antioxidant property. Moreover, when supporting on a feather, it can also carry out directly on the feather surface, without binder resin.

The feather carrying the platinum nanoparticles of the present invention has antioxidant properties. The measuring method of antioxidant property is demonstrated later. Since the feather of this invention has antioxidant property, it is estimated that it exhibits the preferable antioxidant effect to human body similar to the cosmetics proposed by the said patent documents 2-3, and it can be expected to suppress deterioration of the feather itself. have. Moreover, since platinum nanoparticles function catalytically, it becomes possible to use for a long time.

As for the feather of this invention, it is preferable that the cleanliness prescribed | regulated to JISL1903 "feather test method" is 500 mm or more and oxygen coefficient is 4.8 mg or less. To obtain such feathers, it is first necessary to wash the feathers with water to remove contaminants or contaminants. At this time, consideration such as not removing the oil from the surface of the feather completely is necessary. In addition, antibacterial agents, antistatic agents, and the like may be imparted to feather products, and in view of these considerations, it is better to increase the cleanliness and lower the oxygen coefficient as a whole.

The present inventors found that the blending ratio of platinum nanoparticles and their protective agents influences the cleanliness and oxygen coefficient. That is, the mixing ratio of the platinum nanoparticles and the water-soluble polymer and / or the surfactant when the water-soluble polymer and / or the surfactant is used as the protective agent is the platinum nanoparticles: the water-soluble polymer and / or the surfactant = 1: 0.2 to 1: 1.5 is preferable. More preferably, platinum nanoparticles are water-soluble polymers and / or surfactant = 1: 0.3-1: 1. If it is the said range, the effect of this invention can be exhibited favorably. When the blending ratio of the platinum nanoparticles and the water-soluble polymer and / or the surfactant exceeds 1.5, the cleanliness is lowered and the oxygen coefficient is increased. When the compounding ratio of the platinum nanoparticles and the water-soluble polymer and / or the surfactant is less than 0.2, the colloid is not stabilized, and aggregation and precipitation of the platinum nanoparticles easily occur.

As a protective agent of platinum nanoparticles, a water-soluble polymer and / or surfactant are used. These functions to improve the solvent solability of platinum. Examples of the water-soluble polymers include polyvinylpyrrolidone, polyvinyl alcohol, polyacrylates, cyclodextrins, aminopectins, and methyl cellulose. You may use in combination of 2 or more type. Among them, polyvinylpyrrolidone is optionally preferred for feathers. Moreover, surfactant like a thiol type protective agent can also be used.

The present inventors also found that in order to maintain the cleanliness and oxygen coefficient at a constant level, the blending ratio of the platinum nanoparticles and the protective agent differs depending on the kind of the protective agent of the platinum nanoparticles.

When citrate was used as a protective agent of a platinum nanoparticle, it turned out that the compounding ratio of a platinum nanoparticle and a citrate can be taken widely. That is, when the platinum nanoparticles using citrate as a protective agent are supported on a feather, it is preferable that the compounding ratio of platinum nanoparticles and citrate is platinum nanoparticles: citrate = 1: 0.2-1: 35 by mass ratio. . More preferably, platinum nanoparticle: citrate = 1: 20-1: 30. If it is the said range, the effect of this invention can be exhibited favorably. When the proportion of platinum nanoparticles and citrate exceeds 35, the cleanliness is low and the oxygen coefficient is high. Moreover, when the compounding ratio of platinum nanoparticles and citrate is less than 0.2, colloid will not be stabilized and aggregation and precipitation of platinum nanoparticles will arise easily.

In the present invention, as a method of supporting the platinum nanoparticles in the feather, for example, (1) a method of applying a dispersion liquid in which the platinum nanoparticles are dispersed with a feather or the like and drying the feather, and (2) dispersing the platinum nanoparticles. After immersing the feather in the dispersion liquid, it is woven by a dehydrator (mangle) or the like so as to have a desired supporting amount, and then may be dried or the like. When the average particle diameter of the platinum nanoparticles is in the range of 1 to 5 nm, the platinum nanoparticles can be directly supported on the feather surface without using a binder resin, which is preferable.

In addition, when the platinum nanoparticles are dispersed and used in the binder resin, when the feathers carrying the platinum nanoparticles are filled into the quilt dough to form a feather quilt, washing durability such as when washing the quilt whole can be improved.

As binder resin, a well-known binder resin can be used by selecting the usage-amount in the range which does not impair the cleanliness, oxygen coefficient, and bulkiness of a feather. For example, acrylic resin, urethane resin, polyester resin, polyamide resin, silicone resin, fluorine resin and the like can be used.

In the above, the supporting amount of the platinum nanoparticles is not particularly limited, but is preferably 20 to 90 µg with respect to 1 kg of feathers. More preferably, the supported amount is 20-60 micrograms. If the supported amount is in the above range, the effects of the present invention can be exhibited more favorably. If the supported amount of platinum nanoparticles is less than 20 µg, the antioxidant effect is insufficient. If the supported amount of platinum nanoparticles exceeds 90 µg, the cost is disadvantageous, or the cleanliness and oxygen coefficient tend to be deteriorated. have.

Examples of the feather product of the present invention include warm products using feathers, bedding bedding items such as duvets and pillows, and warm clothes such as down jackets and down vests.

In the case of a duvet, it is obtained by filling the inside of the duvet dough. Quilt dough is not specifically limited if feather is not ejected. If the platinum nanoparticles are also supported on the futon mat, the antioxidant performance is improved and active oxygen of the contacted body part can be decomposed, which is preferable. For example, when the said feather is filled inside the duvet dough and it is set as the single cover feather duvet, the duvet dough size is 150 cm x 210 cm, and the feather filling amount is 1.0-1.5 kg / 1 piece The duvet is about 12 to 14 cm thick.

(Example)

Hereinafter, the present invention will be described in more detail using examples. In addition, this invention is not limited to the following Example.

1. Cleanliness

It measured according to JIS L 1903 "Feather test method". Cleanliness was judged as pass if it is 500 mm or more.

2. oxygen coefficient

It measured according to JIS L 1903 "Feather test method". It was judged that the oxygen coefficient was 4.8 mg or less.

3. Antioxidant

When the antioxidant activity is analyzed in vitro (in vitro), it is known that the method of using DPPH radical reagent is highly convenient.

In the present invention, 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical scavenging method was devised and used. The measurement sequence is as follows.

(1) Preparation of DPPH radical test solution

After 5 ml of methanol and 5 ml of ethanol were collected and mixed, DPPH was added to obtain a 25 μM (micromolar) DPPH radical test solution. The obtained DPPH radical test solution shows purple color.

(2) Collect 0.1g each of processed and unprocessed feathers into a color tube (or test tube). The number of samples is n = 2.

(3) 10 ml of DPPH radical test solution is injected into the colorimetric tube.

(4) After sealing the upper part, it is sufficiently shaken and left to stand. Observe the color of the fluid while shaking occasionally. As the radicals decrease, the purple becomes cloudy and the yellow energy increases.

(5) It was judged that there was antioxidant DPPH radical scavenging ability if the color of purple was blurred, the yellow energy increased, and clear color difference could be confirmed by processed and unprocessed feathers (within 24 hours).

(Example 1)

(1) platinum nanoparticles

The brand name "DX9040" was prepared as platinum nano colloidal liquid. This is a platinum nanocolloid liquid whose average particle diameter of platinum nanoparticles is 2 nm (determination by electron microscope (SEM) photograph), and mix | blended 0.5 polyvinylpyrrolidone with respect to platinum nanoparticle 1 by mass ratio as a protective agent. Moreover, when preparing a platinum nano colloid, it refine | purifies so that a nitrate group etc. do not remain and pH is set to the state without neutral and an ionic substance. Its properties and condition are pale black liquid and are easy to dissolve in water. The concentration of this platinum nanoparticle was 10 ppm.

(2) Support to feather

95 mass% of Canadian white downs were prepared as feathers. The feathers were removed by contaminants by water washing and drying. The cleanliness of this feather itself was 1000 mm and the oxygen coefficient was 0 mg. For 1 kg of the feather, 3 g of the acrylic resin (1 kg of high resin TS-1686 made by Takamatsu Oil Co., Ltd.) as a binder so that the platinum nanoparticles were 20 µg, 60 µg, 80 µg and 90 µg, respectively, in dry mass. ) Was mixed with a spray and dried.

Table 1 shows the evaluation results of the obtained feathers.

As Table 1 shows, the feather of Example 1 of this invention passed all the cleanliness, oxygen coefficient, and antioxidant property. This feather was filled in the inside of the duvet dough, and it was set as the cover duvet. The feather filling amount was 1.2 kg / 1 sheet. The thickness of the obtained duvet was 12 cm, and was equivalent to that which did not carry platinum nanoparticles. In addition, when the wear test was actually conducted, the feeling of sleeping was equivalent to that in which the platinum nanoparticles were not supported.

(Example 2)

Only the point using the liquid which does not mix acrylic resin as a binder differs, and carrying out to the platinum nanoparticle and feather was carried out similarly to Example 1.

Table 2 shows the evaluation results of the obtained feathers.

As can be seen from Table 2, the feather of Example 2 of the present invention, all of the cleanliness, oxygen coefficient, and antioxidant properties were passed. This feather was filled in the inside of the duvet dough, and it was set as the cover duvet. The feather filling amount was 1.2 kg / 1 sheet. The thickness of the obtained duvet was 12 cm, and was equivalent to that which did not carry platinum nanoparticles. In addition, when the wear test was actually conducted, the feeling of sleep was equivalent to that in which the platinum nanoparticles were not supported.

(Example 3)

(1) platinum nanoparticles

The brand name "DX-8030S" was prepared as a platinum nano colloidal liquid. This is a platinum nanocolloid liquid whose average particle diameter of platinum nanoparticles is 2 nm (determination by electron microscope (SEM) photograph), and mix | blends 0.5 polyacrylate with respect to platinum nanoparticle 1 by mass ratio as a protective agent. The pH is in a state without neutral and ionic substances. Its properties and condition are pale black liquid and are easy to dissolve in water. The concentration of this platinum nanoparticle was 20 ppm.

(2) Support to feather

95 mass% of Canadian white downs were prepared as feathers. The feathers were removed by contaminants by water washing and drying. The cleanliness of this feather itself was 1000 mm and the oxygen coefficient was 0 mg. With respect to 1 kg of this feather, the dispersion without binder was spray-supported and dried so that the platinum nanoparticles became 20 µg and 40 µg, respectively, in dry mass.

Table 3 shows the evaluation results of the obtained feathers.

As Table 3 shows, the feather of Example 3 of this invention passed all the cleanliness, oxygen coefficient, and antioxidant property. This feather was filled in the inside of the duvet dough, and it was set as the cover duvet. The feather filling amount was 1.2 kg / 1 sheet. The thickness of the obtained duvet was 12 cm, and was equivalent to that which did not carry platinum nanoparticles. In addition, when the wear test was actually conducted, the feeling of sleeping was equivalent to that in which the platinum nanoparticles were not supported.

(Example 4)

(1) platinum nanoparticles

The brand name "DX-8030V" was prepared as platinum nano colloidal liquid. This is platinum nanocolloid liquid whose average particle diameter of platinum nanoparticles is 2 nm (determination by electron microscope (SEM) photograph), and mix | combines trisodium citrate with respect to platinum nanoparticle 1 by mass ratio as a protective agent. The pH is in a state without neutral and ionic substances. Its properties and condition are pale black liquid and are easy to dissolve in water. The concentration of this platinum nanoparticle was 10 ppm.

(2) Support to feather

95 mass% of Canadian white downs were prepared as feathers. The feathers are decontaminated by water washing and drying. The cleanliness of this feather itself was 1000 mm and the oxygen coefficient was 0 mg. For 1 kg of this feather, the dispersion without binder was spray-supported to dry the platinum nanoparticles so as to have a dry mass of 20 µg, 40 µg and 60 µg, respectively.

Table 4 shows the evaluation results of the obtained feathers.

As can be seen from Table 4, the feather of Example 4 of the present invention passed all of cleanliness, oxygen coefficient, and antioxidant activity. This feather was filled in the inside of the duvet dough, and it was set as the cover duvet. The feather filling amount was 1.2 kg / 1 sheet. The thickness of the obtained duvet was 12 cm, and was equivalent to that which did not carry platinum nanoparticles. In addition, when the wear test was actually conducted, the feeling of sleep was equivalent to that in which the platinum nanoparticles were not supported.

(Comparative Example 1)

(1) platinum nanoparticles

The brand name "DX8080T" was prepared as a platinum nano colloidal liquid. This is a platinum nanocolloid liquid whose average particle diameter of platinum nanoparticles is 2 nm (judged by an electron microscope (SEM) photograph), and mix | blended 2 with respect to platinum nanoparticle 1 by polyacrylic acid as a protective agent by mass ratio. Its properties and condition are pale black liquid and are easy to dissolve in water. The concentration of this platinum nanoparticle was 20 ppm.

(2) Support to feather

95 mass% of Canadian white downs were prepared as feathers. The feathers were removed by contaminants by water washing and drying. The cleanliness of this feather itself was 1000 mm and the oxygen coefficient was 0 mg. For 1 kg of this feather, acrylic resin (10 g for 1 kg of Takamatsu Oil High Resin TS-1686 feather) was mixed as a binder so that the platinum nanoparticles were 60 µg, 80 µg and 90 µg, respectively, in dry mass. The dispersion was sprayed and dried.

Table 5 shows the evaluation results of the obtained feathers.

As Table 5 shows, the feather of the comparative example 1 was an antioxidant, but one of cleanliness, an oxygen coefficient, or both failed.

(Comparative Example 2)

Except that the liquid which does not mix acrylic resin as a binder was used, it carried out to the platinum nanoparticles and feathers similarly to the comparative example 1.

Table 6 shows the evaluation results of the obtained feathers.

As can be seen from Table 6, the feather of Comparative Example 2 was an antioxidant, but one or both of cleanliness, oxygen coefficient, or both were rejected.

Claims (18)

A feather carrying platinum nanoparticles protected by a water-soluble polymer and / or a surfactant, wherein a blending ratio of the platinum nanoparticles and the water-soluble polymer and / or the surfactant is, in mass ratio, platinum nanoparticles: the water-soluble polymer and / or the surfactant. The feather characterized by being = 1: 0.2-1: 1.5. The feather of Claim 1 whose said water-soluble polymer is polyvinylpyrrolidone. A feather carrying platinum nanoparticles protected by citrate, wherein the mixing ratio of the platinum nanoparticles and citrate is platinum nanoparticles: citrate = 1: 0.2 to 1:35 in mass ratio. The feather according to any one of claims 1 to 3, wherein the platinum nanoparticles are directly supported on the feather surface. The feather of any one of Claims 1-3 whose carrying amount of the said platinum nanoparticle is 20-90 micrograms with respect to 1 kg of feathers. The feather of Claim 4 whose supporting amount of the said platinum nanoparticle is 20-90 micrograms with respect to 1 kg of feathers. The feather which carried the said platinum nanoparticle is a feather of any one of Claims 1-3 whose cleanliness prescribed | regulated by JISL1903 "feather test method" is 500 mm or more and oxygen coefficient is 4.8 mg or less. The feather which carried the said platinum nanoparticle is a feather of Claim 4 whose cleanliness prescribed | regulated by JISL1903 "feather test method" is 500 mm or more and oxygen coefficient is 4.8 mg or less. The feather which carried the said platinum nanoparticle is a feather of Claim 5 whose cleanliness prescribed | regulated by JISL1903 "feather test method" is 500 mm or more and oxygen coefficient is 4.8 mg or less. The feather which carried the said platinum nanoparticle is a feather of Claim 6 whose cleanliness prescribed | regulated by JISL1903 "feather test method" is 500 mm or more and oxygen coefficient is 4.8 mg or less. The feather product which filled the inside of a product with the feather of any one of Claims 1-3. The feather product which filled the feather of Claim 4 inside a product. The feather product which filled the feather of Claim 5 inside a product. The feather product which filled the inside of the product with the feather of Claim 6. The feather product which filled the feather of Claim 7 inside the product. The feather product which filled the inside of the product with the feather of Claim 8. The feather product which filled the inside of the product with the feather of Claim 9. The feather product which filled the inside of the product with the feather of Claim 10.