JP3743377B2 - Regenerated cellulose fiber containing coral fine powder - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a regenerated cellulose fiber kneaded with fine powder of weathered reef coral that generates natural negative ions.
[0002]
[Prior art]
In recent years, medical and physiological studies have been actively conducted on the effects of negative ions on health, and negative ions in the natural air activate the cells and autonomic nerves of the body, increasing the body's immunity, It is recognized that it has an effect of increasing healing power.
[0003]
On the other hand, it has been discovered that a large amount of negative ions is generated from corals, and negative ion generators, beddings, textile products, etc. for indoor or car use using corals have been developed (Japanese Patent Laid-Open No. 2001-123374). Kai 2001-81020, JP 2000-336573, etc.).
[0004]
[Problems to be solved by the invention]
However, conventional fiber products using corals are made by adhering or applying coral powder or mineral components extracted from coral powder to fibers using a binder resin, or adsorbing or impregnating coral powder to fibers using an adsorbent. Therefore, there is a problem in that the texture of the fiber is impaired, a satisfactory feeling of use cannot be obtained, and the amount of negative ions is rapidly reduced by washing or the like.
[0005]
Moreover, what filled the bag with coral powder is also known, However, In this case, there existed a problem that a use aspect was restrict | limited significantly.
[0006]
Furthermore, when synthetic fibers such as polyester and acrylic are used as the fibers to which the corals are attached, the synthetic fibers generate positive ions, so that there is a problem that negative ions generated by the coral powder are offset.
[0007]
On the other hand, in the present invention, in a fiber in which coral powder that generates negative ions is firmly held in a natural fiber material that does not generate positive ions, the excellent negative ion generation effect of the coral powder is impaired by the characteristics of the fibers. The purpose is to maintain the effect on washing and the like, and not to impair the original texture of the fiber.
[0008]
[Means for Solving the Problems]
When the present inventor uses a specific coral powder and the fiber holding the coral powder is a regenerated cellulose fiber, the negative ion generation effect of the coral powder is not impaired by the characteristics of the fiber. It has been found that when coral powder is dispersed in viscose during the production process, the coral powder is kneaded into the fiber and held firmly, and in this case, the original texture of the regenerated cellulose fiber is not impaired.
[0009]
That is, the present invention is a regenerated cellulose fiber containing coral fine powder that is kneaded with heat-treated weathered reef coral fine powder having a particle size of 1 μm or less, and the coral fine powder protrudes from the fiber surface. And a fiber product formed from the regenerated cellulose fiber containing coral fine powder.
[0010]
The present invention also provides the above-mentioned method for producing a regenerated cellulose fiber containing coral fine powder, wherein the heat treated weathered reef coral fine powder having a particle size of 1 μm or less is dispersed in viscose to form a staple. To do.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail.
[0012]
In the present invention, heat-treated weathered reef coral fine powder is used as a source of negative ions. Weathered reef-building coral is a deposit of coral reefs that have become fragmented or finely divided by weathering. Weathered reef-building corals have a very porous microstructure, in which seaweeds, microorganisms, and other various organic substances are retained. Therefore, in order to remove these and use them safely for hygiene, and to promote the elution of minerals due to the action of moisture and the generation of negative ions associated therewith, those obtained by heating the fine powder are used.
[0013]
Here, the heat treatment refers to a heat treatment at 900 ° C. or higher in which the calcium component contained in the weathered reef coral exists as CaO after the heat treatment, or a heat treatment in which the calcium component remains as CaCO ₃ after the heat treatment at a lower temperature. The treatment can be carried out, but is preferably roasted at 100-750 ° C. as described in WO 99/19259. More specifically, the weathered reef coral is immersed in an alkaline aqueous solution under reduced pressure to perform alkaline washing that allows the alkaline aqueous solution to penetrate to the fine structure inside the porous tissue, and then inside the porous tissue. The solution is washed with water until it becomes neutral, dried, and then baked at 100 to 750 ° C. and pulverized to adjust the particle size to a predetermined particle size range.
[0014]
If necessary, in order to enhance the sterilizing ability of fine powder of weathered reef-building coral, the aqueous silver solution is infiltrated to the fine structure inside the porous tissue by immersing in the aqueous silver solution under reduced pressure after roasting. Then, the fine powder of weathered reef-building coral may be coated with silver until it reaches the fine structure inside the porous tissue by silver reduction with a reducing agent.
[0015]
The regenerated cellulose fiber containing coral fine powder of the present invention is obtained by kneading such a fine powder of weathered reef coral into regenerated cellulose fiber. At the time of kneading, the particle size of the weathered reef coral fine powder is preferably 1 μm or less. When the particle size is larger than this, it becomes difficult to disperse well in the viscose and knead into the regenerated cellulose fiber. In addition, the smaller the particle size, the larger the specific surface area, and the amount of negative ions generated based on the surface properties of weathered reef coral increases.
[0016]
In addition, natural fibers such as cotton, silk, wool, and hemp are considered as fibers that retain fine powder of weathered reef-building coral in terms of preventing the generation of positive ions. We cannot knead fine powder of reef-building coral. On the other hand, in the regenerated cellulose fiber, it is only necessary to disperse the coral fine powder in the viscose in the production process, and therefore the coral fine powder can be easily kneaded into the fiber.
[0017]
As viscose, a viscous liquid containing cellulose prepared by a normal viscose manufacturing process can be used.
[0018]
The time when the weathered reef coral fine powder is dispersed in the viscose may be at any stage of the viscose production process, but the stage immediately before spinning after the sulfidation process, aging process and the like is preferred.
[0019]
Viscose in which fine powder of weathered reef coral is dispersed is stapled according to the normal process consisting of cellulose regeneration process and coagulation process, and further contains coral fine powder by cutting to a predetermined length if necessary Spinning fibers, nonwoven fabric fibers, batting fibers, and the like made of the regenerated cellulose fibers.
[0020]
The coral fine powder-containing regenerated cellulose fiber thus obtained is kneaded with weathered reef coral fine powder, and the coral fine powder is held in a state where it is difficult to fall off. Therefore, a textile product such as clothing formed using this fiber maintains the negative ion generation effect of coral well even after washing.
[0021]
Also, the coral fine powder-containing regenerated cellulose fiber thus obtained is different from the case where the coral fine powder is first kneaded into the synthetic fiber resin composition, because the coral porous microstructure is not embedded with the resin component. The fine structure can retain a lot of moisture, and secondly, the regenerated cellulose fiber contracts and the coral fine powder protrudes from the fiber surface. Moisture is easily retained in the fine structure, and thirdly, since the regenerated cellulose fiber itself contains more moisture than the synthetic fiber, it tends to generate negative ions.
[0022]
Therefore, for example, when clothing such as underwear is manufactured and worn from this fiber, moisture that is emitted from the air or from the body is always retained in the fiber, and stimulation by the body temperature and movement of the body is added to the fiber. The coral existing therein dissociates water molecules continuously to generate negative ions OH ⁻ (H ₂ O) _n , and negative ions CO ₄ ⁻ due to the interaction between the calcium carbonate constituting the coral and water. (H ₂ O) _n and HCO ₃ ⁻ are generated. Such a negative ion is a small particle negative ion that is physiologically effective in the same manner as a negative ion generated in a natural waterfall phenomenon or a forest. Therefore, these negative ions are taken into the body by breathing or through the skin, and a health promotion effect can be obtained.
[0023]
The coral fine powder-containing regenerated cellulose fiber of the present invention can be made into a material such as woven fabric, non-woven fabric, and batting by a conventional method, but if necessary, natural fibers such as cotton and wool, polyester, etc. It may be blended or used with synthetic fibers. Further, the fiber of the present invention can be used for any fiber product, for example, shirts, underwear, socks, nightclothes, supporters, towels, curtains, sheets, pillow covers, woven fabrics that form cushions, diapers, and masks. It can be used for non-woven fabrics, etc., quilts, mattresses, cushions, jackets, stuffed animals, etc. The present invention also includes these various textile products.
[0024]
【Example】
Example 1: Production of rayon staple containing coral fine powder for spinning and blended fabric of this rayon staple and cotton Raw pulp was soaked in caustic soda of about 18%, and alkali cellulose was produced by pressing and grinding. This is aged, reacted with carbon disulfide to obtain cellulose xanthate, dissolved with diluted caustic soda, viscose (cellulose content: 9.0%, alkali content: 5.9%, viscosity: 50 seconds (falling ball type)) The viscosity of viscose is the time (seconds) that an iron ball (diameter 0.31 cm (1/8 inch) falls 20 cm in a viscose (20 ° C) placed in a viscosity tube (diameter 20 mm). Is measured.
[0025]
On the other hand, a dispersion of coral fine particles having a particle size of less than 1.0 μm (average particle size of 0.6 to 0.8 μm) is obtained by subjecting the roasted weathered reef coral powder (coral 100%) to normal wet pulverization. (Coral fine powder concentration: 25% by weight) was obtained.
[0026]
The dispersion was added quantitatively and continuously by an injection pump to the viscose just before spinning at a ratio of 10% by weight, and mixed uniformly to obtain a coral fine powder-containing viscose.
[0027]
Coral fine powder-containing viscose from a spinneret with a nozzle diameter of 0.06 mm and a hole number of 13,000 H, spinning speed: 50 m / min, sulfuric acid: 120 g / liter, zinc sulfate: 15 g / liter, sodium sulfate: 320 g / Spin in a coagulation / regeneration bath with a temperature of 50 ° C and draw, cut, crimp, scour, oil, and dry using the usual two-bath tension spinning method, fineness 1.7 decitex (T), cut length 3.8mm A rayon staple containing coral fine powder for spinning was obtained.
[0028]
This rayon staple and cotton fiber were blended by a conventional method (rayon: cotton = 3: 7) to produce a knitted fabric (weight per unit: 30 g / m ² ). The amount of negative ions (temperature: 24 ° C, humidity: 54%) measured while holding this knitted cloth with an ion measuring instrument (Kobe Denki, KST-900) was 2000-2600 / cc. It was.
[0029]
Further, the above-described rayon staple and cotton fiber were blended by a conventional method (rayon: cotton = 3: 7) to produce a plain woven fabric (weight per unit: 15 g / m ² ). When the amount of negative ions generated (temperature 26 ° C., humidity 74%) of this plain woven fabric was measured in the same manner, it was 1020 to 1430 / cc. For comparison, a similar plain woven fabric made of 100% cotton was produced, and the amount of negative ions generated was measured to be 600 to 630 / cc.
[0030]
Example 2: Manufacture of rayon staples containing coral fine powder for non-woven fabric or batting The viscose was prepared in the same manner as in Example 1, and the coral fine particles were prepared by wet grinding of the roasted weathered reef coral powder. Coral fine powder is obtained by obtaining a dispersion and adding the dispersion of coral fine powder to the viscose just before spinning quantitatively continuously by an injection pump at a ratio of 30% by weight with respect to the fiber and mixing uniformly. Body-containing viscose was obtained.
[0031]
Coral fine powder-containing viscose from a spinneret with a nozzle diameter of 0.12 mm and a hole number of 7,500 H, spinning speed: 45 m / min, sulfuric acid: 110 g / liter, zinc sulfate: 15 g / liter, sodium sulfate: 320 g / Liter, temperature: spinning in a coagulation / regeneration bath at 50 ° C, stretching, cutting, crimping, scouring, oiling, drying by the usual two-bath tension spinning method, for non-woven fabric with fineness 5.6T and cut length 64mm or A rayon staple containing coral fine powder for batting was obtained.
[0032]
The amount of negative ions generated (temperature 23 ° C., humidity 51%) of this rayon staple was measured in the same manner as described above, and it was 1300 to 1380 / cc.
[0033]
【The invention's effect】
According to the present invention, it is possible to obtain coral fine powder-containing fibers that do not impair the excellent negative ion generation effect of coral powder, are maintained for washing, etc., and that the original texture of the fibers is not impaired. Can do.

Claims (3)

Coral fine powder, which is a regenerated cellulose fiber containing coral fine powder obtained by kneading a heat-treated fine particle of weathered reef coral having a particle size of 1 μm or less, wherein the coral fine powder protrudes from the fiber surface. Body-containing regenerated cellulose fiber. 2. The method for producing regenerated cellulose fibers containing coral fine powder according to claim 1, wherein the heat-treated fine powder of weathered reef coral having a particle size of 1 μm or less is dispersed in viscose to form a staple.   A fiber product formed from the regenerated cellulose fiber containing coral fine powder according to claim 1.