JP2011214204A - Micronekton-containing multifunctional fiber and fiber product thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide micronekton (flexible porous ancient time sea humus)-containing multifunctional fiber at a relatively low cost which has useful various functions on human bodies such as antibacterial (antimicrobial, bactericidal) nature, antistatic (static elimination, static prevention) nature, heat insulation (far infrared radiation) performance, deodorization, air permeability, and negative ion generation with the use of fine powder of micronekton which can be easily made into fine powder due to its elasticity and porosity, and can be easily used with any binder, and to provide its fiber product.SOLUTION: The micronekton-containing multifunctional fiber (1, 1A, 1B, 1C) includes a base fiber (3), made of natural fiber, chemical fiber or functional fiber, on one side, or a part or all of both sides to which a coating or print (2) containing the fine powder of micronekton is applied, or additionally, on one side, or all or a part of both sides, cover fibers (3A, 3B) consisting of another natural fiber, chemical fiber or functional fiber are superimposed.

Description

  The present invention has a coating or print containing a fine powder of mironecton (soft porous ancient marine humus) on a fibrous body such as natural fiber, chemical fiber or functional fiber, and has antibacterial (antibacterial and antibacterial) properties, antistatic properties. The present invention relates to a multifunctional fiber containing mironekton having a multifunctional beneficial to the human body such as (static elimination, antistatic) property, heat retention (far-infrared radiation) property, deodorization property, air permeability, generation of negative ions, and the like and a fiber product thereof.

  In recent years, antibacterial (antibacterial, bactericidal), antistatic (static elimination, antistatic), thermal insulation (far-infrared radiation), deodorant, breathability, negative ion generation, etc. on fibers such as natural fibers and chemical fibers The development of various functional fibers that have beneficial functions for the human body has been made and some of them have been commercialized.

  In particular, along with an increase in people's health consciousness, there is a demand for textile products such as various clothes and wearable items having functions beneficial to the human body.

  In this situation, several proposals have been made to meet some of the above functional requirements by incorporating powders such as tourmaline, lava, volcanic ash, other natural mineral ores, and tungsten oxide into the fiber. The following 6 examples are representative.

  A first example is a fabric in which a paint in which a tourmaline powder having a particle size of 0.5 to 50 μ and a dispersant is blended with a synthetic resin paint is applied to the surface, a cloth made of a yarn in which the paint is applied to the surface, This is a fabric made of yarn obtained by spraying and adhering tourmaline powder having a particle size of 0.5 to 50 μm to the surface (for example, Patent Document 1).

  The fabric according to Patent Document 1 generates negative ions that have a positive effect on the mental health of the human body by tourmaline powder around the fabric.

  The second example is a sheet of a mixture or kneaded mixture of tourmaline fine powder, rare earth ore fine powder and binder on one side of either a nonwoven fabric or a woven fabric, a cloth or paper or a sheet-like synthetic resin sheet. It is the composite mineral coating sheet formed in the shape (for example, patent document 2).

  The rental clothing recycling system according to Patent Document 2 uses the above-described composite mineral coating sheet, and maintains the potential of tourmaline ore, piezoelectric effect, generation of far-infrared rays and negative ions, various kinds of trace radiation of rare earth ore, far-infrared rays, It has a positive effect on the human body directly or indirectly by the combined action of magnetic field lines and negative ion generation.

  In the third example, a natural mineral component fiber layer, a far-infrared tick-proof / anti-bacterial / deodorant fiber layer, and a waterproof fiber layer are sequentially provided on the back side of the front fabric, and these layers are joined by ultrasonic fusion. It is the multifunctional fiber sheet made (for example, patent document 3).

  More specifically, the multifunctional fiber sheet according to Patent Document 3 is a mineral mineral ore refined from a natural mineral component fiber layer obtained by blending with rayon, cotton, and polyester fibers, thereby providing a health promotion effect due to negative ions. A tick-proof, anti-bacterial and deodorant fiber layer made of charcoal fiber refined from Bincho charcoal, etc., non-woven fabric with anti-tick, anti-bacterial and deodorant treatment (for example, methacrylic acid graft), tetron (polyethylene terephthalate), polyester batting Provides a tick-proof, anti-bacterial, and deodorant effect, and a waterproof fiber layer made of a waterproof laminate made of chemical fibers such as polyester and urethane provides a waterproof effect. It contributes to the creation of space.

In the fourth example, the tungsten oxide fine particles and / or the composite tungsten oxide (Cs _0.33 WO ₃ ) fine particles (hereinafter referred to as “Both or either of A and B”) are converted into “A and / or B ")) on the surface and / or inside, and the content of the fine particles is 0.001 wt% to 80 wt% with respect to the solid content of the fibers. Fiber. (For example, patent document 4).

The near-infrared absorbing fiber according to Patent Document 4 efficiently absorbs heat rays from sunlight or the like even with a small amount of Cs _0.33 WO ₃ fine particles, and has heat retaining properties.

  The fifth example is a lava powder and / or a fiber containing volcanic ash obtained by adding a large number of lava powder obtained by crushing lava and / or volcanic ash to a base of natural fiber or chemical fiber (for example, Patent Document 5). ).

  The lava powder and / or fibers containing volcanic ash according to Patent Document 5 are chemically bonded (ionized) to 30 kinds of minerals contained in lava or volcanic ash and minerals held by the human body by direct contact or proximity to the human body. (Coupling, covalent bond, coordination bond, hydrogen bond) to increase minerals in a well-balanced manner to correct mineral deficiency or excess, thermal effect, anti-aging effect, skin cleansing effect, bactericidal effect and deodorizing effect, etc. It is to have.

  A sixth example is a lava dyed fiber in which a base of natural fiber or chemical fiber is dyed with a dye blended with a large number of lava powder obtained by crushing lava and / or volcanic ash (for example, Patent Document 5).

  The lava dyed fiber according to Patent Document 6 has a chemical bond (ionic bond, covalent bond, and 30 kinds of minerals contained in lava or volcanic ash by direct contact or proximity to the human body and minerals held by the human body. It has the effect of correcting the mineral deficiency or excess by coordinating bond, hydrogen bond) and improving mineral deficiency or hypertrophy, thermal effect, aging prevention, skin cleansing effect, bactericidal effect and deodorizing effect, etc. is there.

JP-A-11-350342 Utility Model Registration No. 3078076 Utility Model Registration No. 3110047 JP 2006-132042 A JP 2007-2384 A JP 2009-191417 A

However, the fabrics, composite mineral coating sheets, multifunctional fiber sheets, near-infrared absorbing fibers, lava powder and / or volcanic ash-containing fibers, and lava dyed fibers according to each of the above Patent Documents 1 to 6, Hardness such as tourmaline, rare earth ore, mineral ore, tungsten oxide and lava included in the fiber is high.
Therefore, in order to mix these effective ore components well with paints, binders, etc., for example, a fine pulverization treatment with a particle size of 0.5 μ to 50 μ using a ball mill or a tower grinder, or adhesion to fibers Processing takes time and cost.
In addition, since these effective ore components are difficult to be combined with a binder or the like, the amount of mixing is limited, and the original function of these ores cannot be fully exhibited.
In particular, in the fabric or fiber containing any one or two of tourmaline, rare earth ore, and tungsten oxide according to Patent Documents 1, 2, and 4, there is a problem that the function is limited.

  The present invention has been made in order to solve the above-mentioned conventional problems. Since it is soft porous, it is easy to make fine powder and is easy to be familiar with binders, etc. (soft porous ancient marine humus). Can be contained in a larger amount than conventional ores used for functional fibers, and it is relatively low-cost, antibacterial (antibacterial, bactericidal), antistatic (static elimination) , Anti-static), heat insulation (far-infrared radiation), deodorant, air permeability, negative ion generation, etc. And

  In order to achieve the above-mentioned object, the milonecton-containing multi-functional fiber of the invention of claim 1 includes a mironecton fine powder on all or part of one side or both sides of a base fiber body made of natural fiber, chemical fiber or functional fiber. It is characterized by being coated.

  The multifunctional fiber containing mironekton according to the invention of claim 2 has an arbitrary shape using ink in which fine powder of mironekton is mixed in all or part of one side or both sides of a base fiber body made of natural fiber, chemical fiber or functional fiber. It is characterized by having been printed.

  The invention according to claim 3 is the multifunctional fiber containing mironekton according to claim 1 or claim 2, wherein an appropriate amount of foaming material is mixed in the coating or print containing the microneton fine powder. Features.

  The invention according to claim 4 is the mironexone-containing multifunctional fiber according to any one of claims 1 to 3, wherein all or part of one side or both sides of the base fiber body on which the coating or printing is applied. Furthermore, a cover fiber body made of another natural fiber, chemical fiber or functional fiber is superimposed.

  The invention according to claim 5 is the multifunctional fiber containing mironekton according to any one of claims 1 to 4, wherein the base fiber body is a copper fiber stretched extremely finely on all or part of the constituent yarns It consists of a functional fiber composed of a woven fabric or a knitted fabric using yarn.

  The multi-functional fiber product containing mironectone of the invention of claim 6 is obtained by applying a coating or printing containing fine powder of mironecton on one or both sides of a base fiber body made of natural fibers, chemical fibers or functional fibers. It is characterized in that the contained multifunctional fiber is processed.

  The invention of claim 7 is the multifunctional fiber product containing mironekton according to claim 6, wherein an appropriate amount of foaming material is mixed in the coating or printing applied to the base fiber body. To do.

  The invention according to claim 8 is the multifunctional fiber product containing mironekton according to claim 6 or claim 7, wherein it is further divided into all or part of one side or both sides of the base fiber body to which the coating or printing is applied. A cover fiber body made of natural fibers, chemical fibers or functional fibers is superimposed.

  The invention according to claim 9 is the multifunctional fiber product containing mironekton according to any one of claims 6 to 8, wherein the base fibrous body is copper that is stretched extremely finely on all or part of the constituent yarns. It consists of a functional fiber comprised with the textile fabric or knitted fabric which used the fiber yarn.

  According to the first aspect of the present invention, milonecton (soft porous ancient marine humus) in which a coating containing fine powder is applied to all or part of one or both sides of a base fiber body made of natural fibers, chemical fibers or functional fibers. Quality) is soft and porous, so it can be easily made into fine powder and easily blended with binders. Therefore, it can be contained in a larger amount than the ores used in conventional functional fibers, and it is relatively low cost. It has many functions that are beneficial to the human body such as antibacterial (antibacterial, bactericidal), antistatic (static elimination, antistatic), thermal insulation (far infrared radiation), deodorant, breathability, and negative ion generation. There exists an effect which can provide a multifunctional fiber containing mironekton.

  According to the invention of claim 2, a print having an arbitrary shape using ink in which fine powder of mironekton is mixed in all or part of one or both sides of a base fiber body made of natural fiber, chemical fiber or functional fiber. However, since it can be easily performed by a general-purpose printing method such as screen printing, silk printing or roll printing, it contains low-cost and similar mironecton that has multiple functions beneficial to the human body. There is an effect that can provide a multifunctional fiber.

  According to the invention of claim 3, in addition to having the same effect as that of the invention of claim 1 or 2, in addition to the base fiber body by the foaming material mixed in the coating or print containing the mironecton fine powder It is protected by covering the thin fibers, and has a non-slip effect because the surface is formed in an uneven shape.

  According to the invention according to claim 4, in addition to having the same effect as the invention according to any one of claims 1 to 3, the coating or printing containing the mironecton fine powder of the base fibrous body is performed. Durable without wear or damage because the coating or print containing the mironekton fine powder is protected from direct contact with the human body or the outside by the cover fiber body superimposed on all or part of the one or both sides The effect is ensured and the touch is well maintained.

  According to the invention according to claim 5, in addition to having the same effect as the invention according to any one of claims 1 to 4, a functional fiber made of a woven fabric or a knitted fabric using a copper fiber yarn is used. Since all or a part of one side or both sides of the base fiber body is coated or printed with mironecton fine powder, antibacterial (antibacterial, bactericidal) properties, antistatic (static elimination, antistatic) of copper fiber in particular ), Synergistic effect to further improve functions such as heat retention (far-infrared radiation) and deodorization.

  According to the invention of claim 6, the mironecton-containing multifunctional fiber product is a coating or print containing a fine powder of mironekton on all or part of one or both sides of a base fiber body made of natural fiber, chemical fiber or functional fiber Since the mironecton-containing multifunctional fiber subjected to the above process is processed, the same effect as that of the invention according to claim 1 or 2 is obtained.

According to the invention according to claim 7, in addition to having the same effect as the invention according to claim 6, the invention according to claim 3 by the foaming material mixed in the coating or print containing the mironekton fine powder Has the same effect.

  According to the invention of claim 8, in addition to having the same effect as that of the invention of claim 6 or 7, the multi-function fiber product containing mironekton comprises a base fiber body containing mironekton fine powder. Since the cover fiber body which consists of another natural fiber, a chemical fiber, or a functional fiber is superimposed on all or a part of one side or both sides subjected to the above, the same effect as that of the invention according to claim 4 is obtained.

  According to the invention according to claim 9, in addition to having the same effect as the invention according to any one of claims 6 to 8, the base fibrous body is formed on all or part of the constituent yarns. Since it consists of a functional fiber composed of a woven fabric or a knitted fabric using copper fiber yarns stretched extremely finely, it has the same effect as the invention according to claim 5.

BRIEF DESCRIPTION OF THE DRAWINGS It is a top view which shows notionally the mironekton containing multifunctional fiber of the 1st Example of this invention. It is the mironekton used for the mironekton containing multifunctional fiber of this invention, Comprising: (a) is a photograph of a rough block, (b) is an enlarged photograph of a fine powder. It is an expanded sectional view of the multifunctional fiber containing mironekton of FIG. It is a partial expanded sectional view which shows notionally the mironecton containing multifunctional fiber of the 2nd example of the present invention. It is a partial expanded sectional view which shows notionally the mironekton containing multifunctional fiber of the 3rd Example of this invention. It is a partial expanded sectional view which shows notionally the mironekton containing multifunctional fiber of the 4th example of the present invention. A functional fiber made of a woven fabric or a knitted fabric containing a copper fiber thread, used as a base fiber body of the present invention, (a) is a partially enlarged sectional view conceptually showing its configuration, and (b) is a partially enlarged photograph showing its overview. It is. It is an expansion perspective view which shows the specific example of the copper fiber yarn shown to Fig.7 (a), (a) is a covering yarn, (b) is a multifilament yarn, (c) is a spun yarn, (d) is a spun yarn It is. It is a graph which shows the measurement result of the deodorizing effect of the multifunctional fiber containing mironectin of this product example of the present invention, (a) is hydrogen sulfide (H ₂ S), (b) is ammonia (NH ₃ ), (c) is The time course of each concentration of acetic acid (C ₂ H ₄ O ₂ ) is shown. (A) is the measurement result of the time course (deodorizing effect) of the concentration of isovaleric acid (C ₅ H ₁₀ O ₂ ) in various functional tests of the multifunctional fiber containing mironekton of this product example of the present invention, (b) Is a graph of a sensitivity test result showing the far-infrared effect (warmth). It is a graph which shows the measurement result of the antibacterial (antibacterial, bactericidal) effect of the functional fiber (capron fiber) using the copper fiber thread | yarn in this invention, (a) is antibiotic-resistant Staphylococcus aureus (MRSA), (b) is Staphylococcus aureus, (c) shows the time course of each number of Klebsiella pneumoniae. In various functional tests of the capron fiber in the present invention, (a) is the time lapse of friction band voltage decay (antistatic or static elimination effect), (b) is the time lapse of hydrogen sulfide (H ₂ S) concentration (deodorizing effect) ), (C) are graphs showing the measurement results of the time course (deodorizing effect) of methyl mercaptan (CH ₄ S). It is an overview photograph of the 1st product example manufactured using the multifunctional fiber containing mironekton of the present invention, high-function socks. It is the 2nd product example manufactured using the multifunctional fiber containing mironectone of the present invention, a high-performance waist belt, (a) is a composition conceptual diagram, (b) is a photograph of the state where it was put on the waist of a human body. It is. The 3rd product example manufactured using the multifunctional fiber containing mironekton of this invention, it is a high functional insole (insole), (a) is a composition conceptual diagram, (b) is a photograph of the surface, (c) It is a photograph of the back side. It is an outline photograph of the 4th example of a product manufactured using the multifunctional fiber containing mironekton of the present invention, and a high performance vest. FIG. 5 is a fifth product example, a high-performance dual arm shaper manufactured using the milonecton-containing multifunctional fiber of the present invention, wherein (a) is a photograph of the unfolded state, and (b) is a state of being worn on the two arms of the human body. It is a photograph of. FIG. 6 is a high-performance neck warmer of a sixth product manufactured using the multifunctional fiber containing mironekton of the present invention, where (a) is an overview photograph, and (b) is a photograph of a state attached to the neck of a human body. It is.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the mironectin-containing multifunctional fiber and the fiber product of the present invention will be described with reference to the accompanying drawings of the embodiments.

  First, according to Toru Asakura (Doctor of Medicine) Professor at Miyagi Gakuin Women's University and a part-time lecturer at the Graduate School of Gastroenterology, Tohoku University, the scientific name “Mironecton” M is “ It is said to be `` porous ancient marine humus '', and the remains of nekton, plankton, seaweed, algae and other marine animals and plants such as seafood from tens of millions of years old are buried and deposited on the sea floor, and are decomposed and metabolized by microorganisms for a long time. It is thought that the re-synthesis was repeated to reach a unique porous structure (see FIGS. 2A and 2B). In FIG. 2 (b), a large number of black spots H appear in each of the porous pores H.

Milonecton M has the impression of a soft rock at the time of collection, but if it is broken finely, each fine particle has countless pores H (average pore radius is 500 mm) as shown in FIG. The surface area is said to be as much as 250 m ² per gram. For this reason, it is more than twice as much as adsorbents, such as zeolite and cristobalite, and the action effect is brought about by the outstanding adsorption capacity. These innumerable pores H not only adsorb various impurities and harmful substances, but also decompose them by the action of bacteria living inside and ion exchange, and further, minerals contained as components are eluted. These properties show tremendous efficacy in various fields, and there is a far-infrared effect in a form close to ideal.

Mironecton contains 66 or more kinds of minerals, and is characterized by being mainly composed of silicic acid (SiO ₂ , Si ₃ O ₉ , Si ₆ O ₁₈ ). That is, the components are: anhydrous silica (SiO ₂ ) 55.00%, aluminum (Al) 13.00%, iron oxide (FeO) 4.10%, calcium (Ca) 3.60%, magnesium (Mg) 1 .60%, sulfur (S) 1.10%, potassium (K) 0.173%, titanium (Ti) 0.160%, phosphorus (P) 0.070%, cobalt (Co) 0.060%, sodium (Na) 0.050%, manganese (Mn) 0.040%, strontium (Sr) 0.007%, barium (Ba) 0.007%, tin (Sn) 0.006%, zinc (Zn) 0. 006%, vanadium (V) 0.003%, polonium (Po) 0.003%, nickel (Ni) 0.002%, copper (Cu) 0.001%, etc. Viscosity with lattice Montmorillonite is a kind of mineral _{(R 0.33 Al 4 (Si 7.33} Al 0.67) O 20 (OH) 4 · nH 2 O), (R = Na +, K +, Mg 2+, Ca 2+) Is configured.

  The effects and efficacy of mironekton extend to various fields as follows, for example.

[Soil improvement, effects on crops and plants]
Milonecton is effective in improving the water quality and soil quality of organic nurseries that aim for stable, high-yielding cultivation. Improve soil and eliminate continuous cropping problems through neutralization of acidic soil and supplementation of nutrients. It also has the effect of fully absorbing the fertilizer component and preventing its loss. The component itself also has the function of enhancing the fertilizing effect of crops and improving the quality. In addition, acid rain and pesticide damage are eliminated.

[Water purification and activation effect]
For example, in the case of a reservoir, conventional filter media adsorption has a fast saturation point and can only provide a temporary effect, but milonecton is a synergistic effect of the removal of harmful substances by beneficial bacteria and the bactericidal action of various minerals. The water quality is improved so that it does not easily rot (obtains water quality standards conformity certificate (approval numbers: Togiken No. 1086-A, B)).

  In addition, the 47.4 Hz cluster in which mironekton is dissolved in water is one-third the size of tap water and can reach cells behind the hair root, which helps to improve the hair environment. The size of the cluster, which is the size of the molecular group of water, is expressed in Hz (Hertz). The smaller this value, the smaller the cluster, and the easier it is to be absorbed into the body, so it has a good effect on health. It is said that there is. The average of the Lourdes fountain in France, where patients with intractable diseases gather from all over the world, and the drinking water clusters in the world's longevity villages are in the 70-80 Hz range. There are a number of world-class water sources that can be enjoyed by Japanese hot springs in the 50-60 Hz range, but there are no reports that fall below 50 Hz. According to one theory, the cluster value of Mihoizumi is 47.4 Hz. Like the world's smallest.

[Effect on livestock]
The adsorbing action of milonecton makes it easy to absorb and excrete toxins in the livestock body, and since minerals are added by ion exchange, it is effective in promoting the growth of livestock and maintaining health. Mixing with food has been reported to improve gastrointestinal function in livestock, improve meat and milk quality, promote growth, and excrement deodorant. In a mouse experiment, it was observed that the occurrence of drug-induced enteritis was suppressed when a small amount of mironecton was mixed with the food.

[Effect on human body]
Milonecton is not only effective for the formation of collagen, but also for the metabolism of cholesterol, activation of the adrenal cortex, enhancement of leukocytes and interferons, as well as antibacterial, antibacterial, There are effects such as odor. In addition, mixing mironecton fine powder with the powder of a pack or face-washing foam is effective in removing dirt from sebum and pores, and has an effect of suppressing skin irritation, especially for people suffering from atopic constitution. Furthermore, far-infrared rays emitted by mironecton have the effect of stimulating the scalp, promoting the division of hair matrix cells, and removing pore dirt. It is also noted that mironecton has a surface pH of 7.4, which is approximately equal to human blood.

These effects are very good for maintaining the aquarium environment even in the aquarium area. Si ₃ O ₉ and Si ₆ O ₁₈ constituting mironekton release a large amount of oxygen in water, promote photosynthesis and promote the growth of aquatic plants. In addition, by absorbing and removing impurities in the water tank, water decay is prevented and bacteria are activated. It is said that it has the effect of preventing bee-shrimp and crustacean molting failure, brightening effect, and promoting growth. Milonecton, which is said to be a “miracle mud”, is not limited to these benefits, and is expected to spread to various areas in the future.

  In addition, milonecton is soft, porous and easy to make into fine powder, and when the aggregate of crushed particles contains water, it becomes a so-called soil state, and it is familiar with binders used in various paints and printing inks, etc. It also has easy characteristics.

  The present inventor has paid attention to such a wide range of excellent effects, efficacy and properties, and has succeeded in developing the mironektone-containing multifunctional fiber of the present invention described below.

  As shown in FIGS. 1 and 3, the multi-functional fiber 1 containing mironectin of one embodiment of the present invention has a coating 2 containing a fine powder of mironecton on one side of a base fiber body 3 made of natural fibers, chemical fibers or functional fibers. It is given. The average particle size of the fine powder is usually around 10 μm, but can be finely pulverized as necessary.

  Natural fibers include seed fibers such as cotton and kabok, bast fibers such as flax and lakhee, leaf fibers such as Manila Asa, fruit fibers such as palm, and animal fibers such as wool and silk fibers. Fiber can be applied.

  Chemical fibers include artificially produced organic fibers and inorganic fibers. Organic fibers include recycled fibers, semi-synthetic fibers, and synthetic fibers.

  Recycled fiber dissolves natural high-molecular substances such as cellulose and protein in a solvent and draws them from a nozzle into a filament and coagulates them, and dissolves as a molecule that easily changes by chemically changing cellulose and protein. It is a fiber that has been changed to its original material by chemical change after spinning.

  Semi-synthetic fibers are fibers obtained after melt spinning by changing naturally occurring thread-like polymers into molecules that are easily dissolved, and have a chemical composition different from that of natural thread-like polymers.

  Synthetic fiber is a chemical fiber obtained by artificially creating a high molecular weight polymer compound from a low molecular weight compound, dissolving or melting it, and spinning from a nozzle. Nylon, polyester fiber, polypropylene, polyacrylonitrile fiber, that is, acrylic fiber , Vinylon, and high-performance fibers such as rose polyamide fiber and polyacetal fiber.

  Inorganic fibers include glass fibers, carbon fibers, metal fibers such as stainless fibers, and the like.

  Here, as the base fiber body, in particular, all of the constituent yarns, which are the inventions described in Japanese Patent Application No. 2002-3109090 (Patent No. 4307817) by the inventor and the applicant of the present application (both are the same person) or A functional fiber (trade name “Kapron Fiber”) made of a woven fabric or a knitted fabric using copper fiber yarns that are extremely finely stretched in part can be suitably used.

  As shown in FIGS. 7A and 7B, the capron fiber 3 which is a functional fiber constituting the base fiber body is a woven fabric formed by entanglement of the warp 3a and the weft 3b, and the weft 3b appearing on the surface thereof. A copper fiber thread 4 is used for the. The copper fiber yarn 4 includes copper fibers 6 obtained by extremely stretching “pure copper” having excellent conductivity. The copper fibers 6 are brought into contact with the human body, for example, to remove static electricity charged on the human body, and at the same time. Since the antibacterial and deodorizing functions can be obtained by the copper ions generated from itself, the cleanliness can be maintained.

  Specifically, as shown in FIG. 8 (a), the copper fiber yarn 4 is a covering yarn 4a formed by winding a very finely drawn copper fiber 6 around a core yarn 5 made of a stretchable plastic fiber yarn or the like. Even so, as shown in FIG. 8 (b), even in the multifilament yarn 4b obtained by concentrating a plurality of ultrafinely drawn copper fibers 6, as shown in FIG. 8 (c), Even in the spun yarn 4c formed by twisting the copper fiber bundle 6 ′ and the other fiber bundle 7, as shown in FIG. 8D, the short fiber 6 ″ obtained by cutting the copper fiber 6 and other fibers The spun yarn 4d with the short fiber 7 'may be in the form of other fiber yarns.

  Since the covering fiber 4a is a thread on the covering side of the copper fiber 6, even though the thickness is 10 μ to 30 μ, the elongation is 1.26%, and the tensile strength is only 0.3 N (gf), Not only does it cause problems when used as a constituent yarn of woven fabrics and knitted fabrics, but the yarn on the covering side due to contact with the human body is made of copper fibers 6, so the neutralization (antistatic) effect functions effectively. In addition, the ion effect due to the generation of copper ions can be maximized.

  The multifilament yarn 4b and the spun yarn 4c are made up by converging the elongation and tensile strength of the single copper fiber 6 to obtain excellent dimensional stability. Moreover, since the short fiber 6 "which consists of copper fibers protrudes around the thread | yarn 4d of the woolen yarn 4d, it has the appearance as if an infinite number of antennas were stood, and can improve the contact with a human body efficiently. .

Here, the antibacterial function of the capron fiber 3 will be described. For example, a small piece of 100 cm × 50 cm size of a capron fiber 3 in which a covering yarn 4 a made by winding a copper fiber 6 made of pure copper stretched extremely finely around a core yarn is woven into a weft, and a copper fiber yarn of the same size FIG. 11 (a) shows the results of measuring the time course of the number of bacteria using a small piece of 100% polyester Y without using the same, and adjusting the amount of bacterial contamination at the start point. MRSA), (b) S. aureus, (c) Klebsiella pneumoniae.
In any case, in the case of polyester Y, the number of bacteria rapidly increases, whereas in the case of capron fiber 3, it rapidly decreases and reaches the measurement limit (20 pieces) after 18 hours.

Next, the static elimination (antistatic, antistatic) effect of the capron fiber 3 will be described. Although not shown, when the capron fiber 3 is brought close to a human body charged (+) by electrostatic induction or the like, the capron fiber 3 is charged with a charge (-) opposite to that of the human body and a strong electric field is generated, and the air is ionized (corona). Discharge), each moves in the direction of the opposite charge and is neutralized. In this way, by covering the capron fiber 3 on the human body and holding it for at least 5 to 10 minutes or more, the static electricity stored in the human body or the like can be sufficiently discharged to obtain a static elimination (or antistatic) effect. is there.
For example, a small piece of 100 cm × 50 cm size of a capron fiber 3 in which a covering yarn 4 a made by winding a copper fiber 6 made of pure copper stretched extremely finely around a core yarn is woven into a weft, and a copper fiber yarn of the same size Using a small piece of 100% polyester Y that does not use a material, and frictionally charged with a friction cloth (cotton) in an atmosphere of a temperature of 20 ° C. and a humidity of 33%, respectively, and a standard method for measuring voltage decay (JIS L-1094). -1997), the result of measuring the time course of the voltage decay is the graph shown in FIG.

  According to FIG. 12A, in the case of the capron fiber 3, the charged voltage is 1,100 V immediately after the measurement. It can be seen that this value is significantly lower than the electrostatic level (about 4,000 V) that the human body can feel. On the other hand, in the case of polyester Y, it is found that the charged voltage is almost 20,000 V immediately after the measurement, and that the value after 60 seconds after decaying is significantly higher than the electrostatic level at which the human body can feel pain (15,000 V or more). .

  Therefore, when the capron fiber 3 is covered with a human body or the like as described above, the capron fiber 3 has a neutralization effect due to corona discharge (self-discharge) and direct leakage due to contact with a charged body such as the human body. The combination can provide an effect of static elimination (antistatic, antistatic) that reliably eliminates static electricity.

Next, as a part of the evaluation of the catalytic activity of the capron fiber 3, the measurement results obtained by measuring the removal effect (deodorizing effect) after long-term treatment with hydrogen sulfide (H ₂ S) and methyl mercabtan (CH ₄ S) will be described. To do.

[Measuring method]
A sample of 0.5 g of capron fiber 3 was placed in a 1 L Tedlar bag, and hydrogen sulfide (H ₂ S) and methyl mercaptan (CH ₄ S) were introduced by a permeator (manufactured by Gastec: PD-1B). The concentration of introduction was 3.132 ppm of hydrogen sulfide and 2.254 ppm of methyl mercabtan, and an attempt was made to adsorb and saturate over 24 hours. Blank X was an empty Tedlar bag and similarly introduced hydrogen sulfide (H ₂ S) and methyl mercabtan (CH ₄ S). Thereafter, the introduction of hydrogen sulfide (H ₂ S) and methyl mercaptan (CH ₄ S) was stopped, and each concentration in the Tedlar bag was measured. The gas concentration was analyzed by gas chromatography FPD (manufactured by Hitachi, Ltd .: GC-3000). The column used was a glass column (φ3 mm × 3 m), and the packing was ODPN 25% UNIPORT HP.

[Measurement result]
As is apparent from FIGS. 12B and 12C showing the measurement results of hydrogen sulfide and methyl mercaptan, it was found that both hydrogen sulfide and methyl mercaptan decreased due to the presence of the capron fiber 3 even after adsorption saturation. Thereby, it became clear that the copper fiber 6 (FIG. 7A) in the capron fiber 3 was used as a catalyst to remove hydrogen sulfide and methyl mercabtan.

Now, details of the case where the capron fiber having such an effect is used as the base fiber body will be described.
Returning to FIG. 3, the coating 2 can be applied by printing or applying any of the known methods using ink or paint in which an appropriate amount of mironecton fine powder is mixed on one side of the capron fiber (base fiber body) 3. .

  The coating 2 by application is any known, for example, nitrocellulose lacquer, phthalic acid resin paint, aminoalkyd resin paint, epoxy resin paint, vinyl resin paint, polyurethane resin paint, acrylic resin paint, fluororesin paint, phenol resin paint, etc. For example, several tens of times are suitably applied to one side of the base fibrous body 3 by using a paint in which a fine powder of mironectone, for example, a particle size μ order, and a modifier such as a plasticizer for improving coating properties are appropriately blended with a synthetic resin paint. It can be applied with a film thickness of μ order. The kind of the synthetic resin paint, the mixing amount of the mironecton fine powder, the coating film thickness, and the like are appropriately and selectively set according to the application.

  The coating 2 by printing is mixed with a known solvent such as an acrylic ester resin, a polyurethane resin, a methacrylic resin, a melamine resin, a vinyl chloride resin, and a silicone resin in an appropriate solvent, and if necessary, a thickener, The base fibrous body 3 is added by a known printing method such as screen printing, silk printing or roll printing using an ink in which a coloring agent, a volatilizing agent, etc. are added, and an appropriate amount of, for example, 30% by weight or less of milonectin powder is mixed. It can be applied by printing on one side and heating or air drying.

  Moreover, the coating 2 by printing is desired, for example, a polka dot pattern composed of a large number of small circles as shown in FIG. 1 by using a printing technique such as screen, offset, ink jet, and color copy on a peelable paper or film. Can be easily formed.

  Furthermore, in order to prevent stickiness after applying the coating 2 by printing, the binder mixed with the fine powder of mironecton is adjusted with an appropriate compounding material.

  As shown in FIG. 4, the multi-functional fiber 1A containing mironecton according to another embodiment of the present invention is the same as in the first embodiment except that the coating 2 containing the fine powder of mironekton is applied to both surfaces of the base fibrous body 3. It is the same.

  In other words, the mironectone-containing multifunctional fiber 1A of this example is in a form in which the coating 2 is also applied to the back surface of the surface of the mironectone-containing multifunctional fiber 1 of Example 1 on which the coating 2 is applied. Therefore, the same constituent members are given the same reference numerals as those in FIG. 1 even if they are partially different in shape such as thickness, and detailed description thereof is omitted.

  In FIG. 4, for example, the polka dot coating 2 is applied to the both sides of the base fiber body 3 at positions shifted from each other, but they can be matched so as to overlap each other.

  As shown in FIG. 5, the mironectone-containing multi-functional fiber 1B of another embodiment of the present invention is a base fiber provided with a coating 2 containing the mironekton fine powder of the miro-nektone-containing multi-functional fiber 1 of the first embodiment. The cover fiber body 3A made of another natural fiber, chemical fiber or functional fiber is superimposed on one surface of the body 3.

  The cover fiber body 3A may be the same as or different from the base fiber body 3 of the first embodiment in both the configuration and thickness, or one of them, depending on the application. Therefore, even if the same components are partially different in thickness and the like, the same reference numerals as those in FIG. 3 are given, and detailed description thereof is omitted.

  As shown in FIG. 6, the milonecton-containing multifunctional fiber 1 </ b> C of still another example of the present invention is a base fiber provided with a coating 2 containing the mironekton fine powder of the milonecton-containing multifunctional fiber 1 </ b> A of Example 2 described above. It is a form in which cover fiber bodies 3A and 3B made of another natural fiber, chemical fiber or functional fiber are superimposed on both surfaces of the body 3, respectively.

  The cover fiber bodies 3A and 3B may be the same as or different from each other in both the configuration and the thickness and the base fiber body 3 of the second embodiment. Therefore, the same constituent members are given the same reference numerals as those in FIG.

  In Examples 3 and 4, the coating 2 is protected from contact with the human body or the outside by the cover fiber bodies 3A and 3B superimposed on one or both sides of the base fiber body 3 on which the coating 2 containing the milonecton fine powder is applied. Therefore, the durability is ensured without being worn or damaged, and the touch is well maintained.

  As described above, the milonecton-containing multifunctional fibers 1, 1A, 1B, and 1C of the present invention in which the coating 2 containing the fine powder of mironecton is applied to one side or both sides of the base fiber body 3 are excellent in various aspects of the mironecton itself. In addition to the efficacy and characteristics, when capron fiber is used for the base fiber body 3, the copper fiber 6 has antibacterial (antibacterial and bactericidal) properties, antistatic (static elimination, antistatic) properties, and heat retention (far infrared rays). It has a synergistic effect to further improve functions such as radiation) and deodorizing properties.

  Here, the measurement results of the deodorizing effect and the far-infrared (heat retaining) effect of the mironectin-containing multifunctional fiber 1 of the present invention will be described with reference to FIGS.

[Measuring method]
The provided sample was prepared by taking 0.5 g of the mironexone-containing multifunctional fiber 1 coated with the coating 2 containing the fine powder of mironecton on one side of the base fiber body 3 made of capron fiber, and placing it in a glass bottle. The gas concentration change after the minute was measured with a detector tube (Gastech). The odor gas used is four kinds of hydrogen sulfide (H ₂ S), ammonia (NH ₃ ), acetic acid (C ₂ H ₄ O ₂ ), and isovaleric acid (C ₅ H ₁₀ O ₂ ). In addition, the blank X is a case where the said odor gas is similarly introduced with respect to the empty glass bottle which has not put the fiber body.

Hydrogen sulfide (H ₂ S) is a toxic gas that has an odor of rotten eggs. In particular, it is generated from excrement, tobacco, and garbage. For the measurement, a detection tube (Gastech: 4LL) was used, and the initial concentration was 206 ppm.

Ammonia (NH ₃ ) has a characteristic strong pungent odor. It is contained in sweat odor, aging odor, reference odor, tobacco odor and garbage odor. For the measurement, a detector tube (Gastech: 3LA) was used, and the initial concentration was 205 ppm.

Acetic acid (C ₂ H ₄ O ₂ ) has an odor of vinegar and an irritating odor. It is contained in sweat odor, aging odor, excretion odor and tobacco odor. For the measurement, a detection tube (Gastech: 8 L) was used, and the initial concentration was 100 ppm.

Isovaleric acid (C ₅ H ₁₀ O ₂ ) is a causative agent of the sole odor. Included in sweat odor and aging odor. For the measurement, a detection tube (Gastech: 8L) was used. Since isovaleric acid is not highly volatile, the initial gas concentration could not be controlled. Therefore, 5 μL of an isovaleric acid stock solution was dropped into a glass bottle for an experiment. With an empty bottle of Blank X, it became 90 ppm after 1 hour.

[Measurement result]
The measurement result in the case of hydrogen sulfide (H ₂ S) is shown in FIG. The initial concentration of hydrogen sulfide was 206 ppm, and after 30 minutes, the mironectone-containing multifunctional fiber 1 was below the detection limit (0 ppm). It has been found that the removal of hydrogen sulfide is hardly observed in milonecton itself, and it has been revealed that hydrogen sulfide can be removed by the copper fiber 6 of the base fiber body 3 made of capron fiber.

The measurement result in the case of ammonia (NH ₃ ) is shown in FIG. The initial concentration of ammonia was 205 ppm, and the mironekton-containing multifunctional fiber 1 with sufficiently increased content of the mironekton fine powder was 10 ppm after 30 minutes and 5 ppm after 60 minutes, and it was found that the ammonia removal effect was high. From this, it seems that the removal of ammonia is greatly influenced by the adsorption of milonecton fine powder. In addition, it has been found that the copper fiber itself has almost no ammonia removal effect, and ammonia can be adsorbed and removed with ordinary fabric itself. Even with the base fiber body 3 (FIG. 7) made of capron fiber alone, the ammonia removal effect is Since it has been recognized, there is a synergistic effect of ammonia removal in the milonecton-containing multifunctional fiber 1.

The measurement result in the case of acetic acid (C ₂ H ₄ O ₂ ) is shown in FIG. The initial concentration of acetic acid was 100 ppm, and the mironekton-containing multifunctional fiber 1 with an increased content of milonecton fine powder was 18 ppm after 30 minutes and 7 ppm after 60 minutes, indicating that the effect of removing acetic acid is high. In addition, since the acetic acid removal effect is recognized also in copper fiber itself, there exists a synergistic effect of the acetic acid removal in the mironecton containing multifunctional fiber 1.

In the case of isovaleric acid (C ₅ H ₁₀ O ₂ ), unlike the above-described test methods for hydrogen sulfide, ammonia and acetic acid, the results of evaluating the suppression of the increase in isovaleric acid concentration are shown in FIG. Show. With blank X (empty bottle), the isovaleric acid concentration reached 90 ppm after 60 minutes. It was found that the milonecton-containing multifunctional fiber 1 in which the content of the milonecton fine powder was sufficiently increased can be significantly suppressed to 7 ppm even after 60 minutes.

[Measurement result of infrared radiation (heat insulation) effect]
FIG. 10B shows the result of a sensitivity test (an evaluation method based on human senses) by the Nishimatsu Institute of Textile Science, Shinshu University. As a result, the multi-functional fiber 1 containing mironecton in which the base fiber body 3 made of capron fiber is coated with the coating 2 containing the fine powder of mironecton is about 11 compared with the case where the conventional polyester 100% fabric Y is attached. It was found that the degree of feeling warm was about 27% to 27%. The infrared radiation (heat-retaining) effect of the milonecton-containing multifunctional fiber 1 is further improved by the synergistic effect of the capron fiber copper fiber and mironekton.

  In addition, the mironectin-containing multifunctional fiber of the present invention has been confirmed to be safe for the skin by a patch test (skin attachment test of the Japan Industrial Skin Hygiene Association). There is a possibility that patina may occur because the copper fiber in Kapron fiber is used, but there is no harm to the human body (certified as green and green harmless by the Ministry of Health and Welfare in 1984), and the Ministry of Health, Labor and Welfare added copper to the essential minerals of the human body. ing.

Next, the base fiber body 3 made of capron fiber is coated with a coating 2 containing a fine powder of mironecton, antibacterial (antibacterial, bactericidal), antistatic (static elimination, antistatic), heat insulation (far infrared radiation) Examples of some product examples of the multifunctional fiber product containing mironekton produced by processing the multifunctional fiber containing mironekton of the present invention having multifunctional functions beneficial to the human body, such as properties, deodorant properties, breathability, and negative ion generation. Description will be made with reference to 13 to 15.
[Product Example 1]

  As shown in FIG. 13, the high-performance sock 10 of this product example is composed of a base fiber body 3 made entirely of capron fiber. In this embodiment, at least the inner surface of the foot bottom contacting the human skin is made of microneton. The mironecton-containing multifunctional fiber 1B (the above-mentioned Example 3, FIG. 5) on which the coating 2 containing the powder is applied and the cover fiber body 3A made of another capron fiber is superimposed is used.

  In this embodiment, an appropriate amount of foaming material is mixed in the binder as the printing ink. This foam material is a resin or rubber containing countless bubbles inside, and can be produced by adding a foaming agent to the original resin or rubber to generate carbon dioxide gas or ammonia gas.

  The foamed material protects the thin and weak copper fibers 6 (see FIGS. 7 and 8) in the capron fibers 3 by covering them, and has a non-slip effect by forming the surface uneven.

For this reason, the high-performance socks 10 has a coating 2 containing a fine powder of mironekton that is antibacterial (antibacterial), antistatic (static elimination, antistatic), thermal insulation (far infrared radiation), deodorant, and breathability. It has become a comfortable high sock with beneficial multi-functionality such as generation of negative ions and anti-slip.
[Product example 2]

  Further, as shown in FIG. 14 (a), the high-performance waist belt 11 of the present product example used by being wound around the waist part of the human body includes a back part 11a, side side parts 11b and 11b ', a front turning part 11c, 11c ′ and auxiliary belts 11d and 11d ′ using a stretchable fabric, and the front portion 11c and 11c extending from the side arm portions 11b and 11b ′ with the back portion 11a applied to the back side of the human waist. 'Is overlapped on the front side and fixed with a fastener (not shown) such as a velvet fastener, and can be strongly tightened to the waist by using the expansion and contraction force of the auxiliary belts 11d and 11d'. Of the back portion 11a, the side side portions 11b and 11b ′ and the forward rotation portions 11c and 11c ′ of the high-performance waist belt 11, in this embodiment, the coating 2 containing the fine powder of mironekton on the inner surface that the human body contacts is formed with the capron fiber. Containing mironekton formed on one side of the base fiber body 3 (including the copper fiber thread 4) and having a cover fiber body 3A composed of another capron fiber (including the copper fiber thread 4) superimposed on that surface Multifunctional fiber 1B (the above-mentioned Example 3, FIG. 5) is used.

  For this reason, the high-performance waist belt 11 of this product example has antibacterial (antibacterial) properties, antistatic (static elimination, antistatic) properties, heat retention (far-infrared radiation) properties, deodorizing properties, breathability, and negative ion generation. Multifunctionality that is beneficial and comfortable for the human body.

As such a high-performance waist belt, in addition to countermeasures for low back pain, although not shown in the figure, the print 2 having a far-infrared radiation function having an emissivity of 90% or more by tightening the lower abdomen where fat is accumulated A compression spat belt that supports compression of fat by stimulating far-infrared radiation and also has a hip-up function, and tightens and holds the lower abdomen to lift and improve the balance of the human body posture, such as drooping the internal organs or tilting the pelvis forward It can also be applied to deformation forms such as stomach shakers.
[Product Example 3]

  Further, the high-function insole (insole) 12 of the shoe of this product example is composed of a base layer 12a and a surface layer as shown in a structural conceptual diagram (a) in FIG. 13, a photograph (b) on the front surface, and a photograph (c) on the back surface. 12b, and is used by being loaded into shoes. At least the surface layer 12b of the high-function insole 12 includes a base fiber body 3 made of capron fibers (including copper fiber threads 4) that are in close contact with the soles of the feet wearing shoes, and a mironecton fine powder on the back surface. The mironecton-containing multifunctional fiber 1B (the above-mentioned Example 3, FIG. 5) in which the coating 2 is applied and the cover fiber body (including the copper fiber yarn 4) 3A made of another capron fiber is superimposed is used. .

  In particular, the cover fiber body 3A shown in FIG. 15 (c) is configured in a mesh shape to improve air permeability.

Therefore, the high-performance insole 12 of this product example has antibacterial (antibacterial) properties, antistatic (static elimination, antistatic) properties, heat retention (far-infrared radiation) properties, deodorizing properties, air permeability, negative ion generation, etc. Has a useful and comfortable multi-functionality.
[Product Example 4]

  Further, as shown in FIG. 16, the high-performance vest 13 of this product example is composed of a base fiber body 3 made entirely of capron fibers, and in this embodiment, a coating 2 containing mironekton fine powder on the inner surface of the human body side. A mironectone-containing multifunctional fiber 1B (Example 3) is used which is applied and on which a cover fiber body 3A made of another capron fiber is superimposed.

For this reason, the high-performance vest 13 of this product example has antibacterial (antibacterial) properties, antistatic (static elimination, antistatic) properties, heat retention (far-infrared radiation) properties, deodorizing properties, air permeability, negative ion generation, etc. By using a material that is useful and comfortable for the human body and that has a good fit, it can be worn comfortably without being stuffy in the summer and warm in the winter.
[Product Example 5]

  In addition, as shown in FIG. 17, the high-function dual arm shaper 14 of this product example is composed of a base fiber body 3 made entirely of capron fiber. In this embodiment, at least the inner surface of the human body on the side in contact with the two arm portions is mironecton. The mironectone-containing multifunctional fiber 1B (the above-mentioned Example 3, FIG. 5) on which the coating 2 containing the above fine powder is applied and the cover fiber body 3A made of another capron fiber is superimposed is used.

For this reason, the highly functional second arm shaper 14 of this product example has antibacterial (antibacterial) properties, antistatic (static elimination, antistatic) properties, heat retention (far infrared radiation) properties, deodorizing properties, breathability, and negative ions. Multifunctional beneficial and comfortable for the human body, such as outbreak, the muscles work actively when tightening both ends of the muscle between the shoulder and the second arm and between the second arm and the elbow, especially with an emissivity of 90% or more There is a function to support the burning of fat by the compression by the print 2 having the far infrared radiation function and stimulation of the far infrared radiation.
[Product Example 6]

  Further, as shown in FIG. 18, the high-performance neck warmer 15 of this product example is composed of a base fiber body 3 made entirely of capron fiber, and in this embodiment, a coating 2 containing mironekton fine powder on the inner surface of the human body side. Is used, and the mironecton-containing multifunctional fiber 1B (the above Example 3, FIG. 5) on which the cover fiber body 3A made of another capron fiber is superimposed is used.

  For this reason, the high-performance neck warmer 15 of this product example has antibacterial (antibacterial) properties, antistatic (static elimination, antistatic) properties, heat retention (far-infrared radiation) properties, deodorizing properties, breathability, and negative ion generation. Multifunctionality that is beneficial to the human body and the like, and can warm the neck healthy.

  The base fiber body to which the coating 2 containing the mironecton fine powder is applied in the multi-functional fiber product containing mironekton such as the high socks 10, the waist belt 11, the insole 12, the vest 13, the upper arm shaper 14 and the neck warmer 15 of the above-described embodiment. Since the coating 2 is protected from contact with the human body or the outside by the cover fibrous body 3A superimposed on one side of the sheet 3, durability is ensured without being worn or damaged, and the touch is also well maintained. Whether the cover fibrous body 3A is arranged outside or inside the human body is usually the former, but any arrangement method may be used.

  In the above embodiment, the high socks 10, the waist belt 11, the insole 12, the vest 13, the upper arm shaper 14 and the neck warmer 15 are illustrated as examples of the mironectin-containing multifunctional fiber product of the present invention. Of course, it can be used for functional innerwear and various other woven (or knitted) products.

  In addition, the technology of the multifunctional fiber containing mironectone of the present invention is a method of laminating a fiber layer obtained by blending a short fiber obtained by cutting the multifunctional fiber containing mironecton and another fiber, and entangled with a needle punch or the like. It can be applied to an integrated felt or the like, and can be variously modified.

  For example, the cost is higher than the method of coating or printing on one side or both sides of the base fiber body containing the fine powder of mironecton. However, the deformation is made by kneading and spinning the microneton fine powder in a fiber matrix such as rayon fiber. It can also be in the form.

  The multi-functional fiber containing mironectone of the present invention is a soft porous porous mironecton in which a base fiber body made of natural fibers, chemical fibers or functional fibers including special metal fibers such as copper is coated or printed with fine powder. Therefore, it is easy to pulverize and is easy to be familiar with binders, so it can be contained in a larger amount than conventional ores used for functional fibers, and it is relatively low cost and has antibacterial (antibacterial) properties. Various textile-related industries due to various effects such as antistatic (static elimination, antistatic) property, heat retention (far infrared radiation) property, deodorant property, air permeability, and negative ion generation. It can be applied to a wide range of applications.

1, 1A, 1B, 1C (Examples 1, 2, 3, and 4) milonecton-containing multifunctional fiber 2 coating or print (including fine powder of mironekton) 3 base fiber body (constituting base fiber body) Functional fiber or capron fiber 3A, 3B Cover fiber body 3a Warp yarn 3b Weft yarn 4 Copper fiber yarn 4a Covering yarn 4b Multifilament yarn 4c Spun yarn 4d Spinning yarn 5 Core yarn 6 Copper fiber 6 'Copper fiber bundle 6 "Short fiber 7 Other fiber bundles 7 'Other short fibers 10 High-function socks or high socks 11 High-performance waist belt 11a Back 11b, 11b' Side side 11c, 11c 'Front part 11d, 11d' Auxiliary belt 12 High function of shoes Insole
12a Base layer 12b Surface layer 13 High-performance vest 14 High-performance dual arm shaper 15 High-performance neck warmer H Pore M Milonekton X Blank Y Polyester

Claims (9)

  A mironectone-containing multifunctional fiber, characterized in that a coating containing a fine powder of mironecton is applied to all or part of one or both sides of a base fiber body made of natural fiber, chemical fiber or functional fiber.   A multifunctional fiber containing mironectin, which is printed on all or part of one or both sides of a base fiber body made of natural fiber, chemical fiber or functional fiber, using ink mixed with fine powder of mironecton .   3. The milonecton-containing multifunctional fiber according to claim 1, wherein a foaming material is mixed in the coating or printing applied to the base fibrous body.   The cover fiber body which consists of another natural fiber, a chemical fiber, or a functional fiber is superimposed on all or a part of one side or both sides of the base fiber body on which the coating or printing is performed. The milonecton containing multifunctional fiber of any one of thru | or 3 thru | or 3.   The said base fiber body consists of the functional fiber comprised by the textile fabric or knitted fabric which used the copper fiber yarn extended | stretched very finely for all or one part of a component yarn, The any one of Claim 1 thru | or 4 characterized by the above-mentioned. The multifunctional fiber containing mironekton according to item 1.   One or both surfaces of a base fiber body made of natural fiber, chemical fiber, or functional fiber are processed or coated with a coating or print containing mironecton fine powder. A multifunctional fiber product containing mironekton.   The multifunctional fiber containing mironekton according to claim 6, wherein a foaming material is mixed in the coating or printing applied to the base fibrous body.   The cover fiber body which consists of another natural fiber, a chemical fiber, or a functional fiber is superimposed on the whole or a part of one side or both surfaces of the base fiber body on which the coating or printing is performed. Or the mironekton containing multifunctional fiber product of Claim 7.   The said base fiber body consists of a functional fiber comprised by the woven fabric or the knitted fabric which used the copper fiber yarn extended | stretched to all or one part of a component yarn, The any one of Claim 6 thru | or 8 characterized by the above-mentioned. The multifunctional fiber product containing mironecton as described.

Images