KR100815459B1 - Method for producing textiles and masterbatch contained of powdered ore - Google Patents

Abstract

A method for manufacturing a fiber and a method for manufacturing a master batch for the fiber are provided to improve the efficiency in filtration, deodorization, anion generation, cation neutralization, and far-infrared radiation, by manufacturing the fiber to contain ion ore powder. A fiber is manufactured by mixing 80-95 wt% of synthetic resin source and 5-20 wt% of functional particles and spinning the mixed matter. The synthetic resin source is one selected from polyamide, polyester, acryl, nylon, polyethylene, polyurethane, polypropylene, polyvinylchloride, and polytetrafluoroethylene. The functional particles are composed of one or more of monazite, radon ore, hot spring ore, natural ore, elvan, feldspar, rare earth ore, lava ore, olivine, pozzolana, black ore, tourmaline, silver, holrait stone, siliceous stone, inorganic antimicrobial agent, zeolite, charcoal, loess, and seaweeds.

Description

Method for producing textiles and masterbatch contained of powdered ore}

The present invention is a mixture of ionic ore powder and silver (Ag) or inorganic antimicrobial agent, zeolite, charcoal, ocher, seaweed, etc. having antibacterial, deodorant, anion generation and far infrared radiation function, melt spinning and spinning with synthetic resin fibers and fibers The present invention relates to a fiber containing an ion ore powder for producing a master batch and a method for producing a master batch, wherein the fiber prepared according to the present invention contains a large amount of components beneficial to the human body and has various functionalities. It contains environmentally friendly ion ore powder, which has filtration, deodorization, anion release, cation neutralization effect, far infrared radiation effect, air purification, water purification effect and humidity control effect.

Fiber refers to a natural or artificial linear object that can be bent very long, thin and soft. Fiber is not only a raw material for textiles, but also a raw material and paper for textile products such as knitted fabrics, ropes, nets, and felts. It is characterized by being used as a raw material, and the physical property as an industrial material is nonvolatile, insoluble or insoluble in water and other solvents, stable to heat, and stable as a compound. It should also have some strength and elongation, and it should also have properties such as moderate elasticity and plasticity.

According to the use, it can be classified into textile, steel, paper, and pulp fibers. Among them, textile fibers are the most commonly used, and the fibers used in the raw materials of textile products can be classified into natural fibers and It is divided into artificial fibers. Natural fibers include plant fibers, animal fibers, and mineral fibers. Plant fibers include seed fibers such as cotton, kapok, and coier, as well as manila and sisal. Leaf vein fibers, and bast fibers such as flax, ramie grass, jute, and hemp, and animal fibers include wool, goat wool, camel hair, cashmere, and wool. There are silk fibers such as silkworms and wild dogs. And mineral fibers include asbestos (石 綿: Asbestos).

Artificial fibers can be roughly classified into inorganic fibers and organic fibers. Inorganic fibers include metal fibers such as gold and silver, and glass fibers, rock fibers and slag fibers. Iii) silicate fibers. Organic fiber is divided into recycled fiber, semisynthetic fiber and synthetic fiber.

Regenerated fibers include fibrous fibers such as viscose rayon and cupra rayon and protein fibers. Semisynthetic fibers include acetate and triacetate. Synthetic fibers include polyamide-based nylon fibers and polyester-based polyester fibers and poly- Urethane, polyurea, polyethylene, polyvinyl chloride, polyvinylidene, polytetrafluoroethylene, polyvinyl alcohol, polyacrylonitrile, polypropylene, and the like.

These fibers are divided into long fibers, brigadiers, and short fibers. Long filament is called filament, and silk fiber is natural fiber, and it is a spun fiber which is drawn in an infinitely long state while being spun with artificial fiber, and filamentous fiber is made of bast fiber and chopi fiber among plant fibers. Short fibers are called staples and are fibers made by shortly cutting organic fibers of cotton, wool or artificial fibers.

Natural fiber has been used for the longest time in human history, and since artificial fiber has been industrialized since 1890, the quality has improved drastically year after year, so the amount of artificial fiber rapidly developed is comparable to that of natural fiber.

Synthetic fiber is composed mainly of polyamide-acrylic and polyester-based three synthetic islands. The composition ratio is 49% polyamide, 20% acrylic and 31% polyester.

Ion ore means any ore that releases ions on its own, such as monadite and natural ore such as urea, elvan, feldspar, including radioactive materials such as radon and hot ore.

When the master batch is to be mixed with each raw material in order to manufacture the fiber containing the ion ore powder according to the present invention, it is provided to make a uniform distribution and production of the raw material more easily, it is provided to manufacture the fiber Each raw material is mixed in a predetermined ratio so that the raw material is evenly distributed, and then solidified and provided in the form of a chip, and the master batch and another to manufacture the fiber containing the ion ore powder according to the present invention. This is to produce a fiber by mixing the fiber raw material in a predetermined amount or spinning only in the master batch.

Conventionally, a method for producing functional fibers having various functions in fibers has been made by applying or coating mineral powders having various functions to synthetic resins or fabrics based on the general manufacturing process of the fibers, and also having various functions. After adding a certain amount to the chemical resin, it has been manufactured by spinning, stretching, flamming, cutting or spinning, weaving process.

However, the conventional functional fibers, such as the functional minerals added to the chemical resin in the manufacturing process of the crystal form is variously provided in the form of columnar, pyramidal, rhombohedral, hexahedral, octahedral, dodecahedral, etc. As a result of the fiber manufacturing process, the parts of equipment, such as healds, rollers, guide bodies, etc., were frequently worn, and the surface layer of the yarns produced according to the inherent shape of the minerals was not uniform. This was not smooth, and defects such as broken yarns frequently occurred during the production of yarns.

That is, the functional fiber is manufactured by adding mineral powder, and the yarn manufactured due to the irregular crystal structure of the mineral and the high hardness cause the mineral particles to protrude from the surface layer, so that expensive spinning, stretching, The wear of flammable and spinning process equipment made normal mass production impossible, and there was a problem in that it is difficult to manufacture functional fibers due to economic losses. The conventional functional fibers as described above are deodorant, antibacterial, and human-friendly. The effects such as Mars, moisture absorption, and far infrared emission could not be expected.

Therefore, there is an urgent need to provide a functional fiber and a method of manufacturing the same having deodorant, antimicrobial, human friendliness and moisture absorption, and anion generating functions including a far infrared ray emitting function, which can be expected to have a necessary effect on the human body.

The present invention for solving the conventional problems as described above is an ion ore powder and silver (Ag), inorganic antibacterial agent, rare earth ore, lava stone, olivine, pozzolanic, black stone, tourmaline, stone, silver, castle After adding a mixture of ore, silica, zeolite, charcoal, loess, and seaweed to the fiber raw material to improve the antimicrobial properties of the fiber and melt spinning by adding the mixture to chemical fibers such as polyester, nylon, polypropylene, acrylic, etc., Long fibers (filaments) to stretch and burn, or short fibers to stretch, burn, cut, blended with all the fibers, such as cotton, modal, acrylic, polyester, lyocell, and various fabrics, clothing, Cotton, yarn, bedding, health care equipment, etc. can be manufactured and used to improve the thermal insulation by far-infrared rays emitted from ion ore, sterilization, To enable the removal of various odors, including perspiration odor by phagocytic and deodorization, anion emission, and the ion ore powder production method of providing the containing fibers to be a smooth function of the body for that purpose.

The present invention for achieving the above object is a synthetic resin provided by selecting and mixing any one of polyamide, polyester, acrylic, nylon, polyethylene, polyurethane, polypropylene, polyvinyl chloride, polytetrafluoroethylene 80 to 95% by weight of raw materials, monazite, radon ore, hot ore, Uiwang, ganbanite, feldspar, rare earth ore, lava, olivine, pozzolan, black stone, tourmaline, stone, silver, sorghum, silica, inorganic antibacterial agent, Provided is a method for producing a fiber containing ion ore powder which is mixed with 5 to 20% by weight of functional particles made by selecting any one or two or more of zeolite, charcoal, ocher, and seaweed.

In addition, 80 to 90% by weight of ionic ore powder, rare earth ore, lava, olivine, pozzolane, ore, which are prepared by mixing any one or two or more of monazite, radon ore, spa ore, Uiwang, elvan, and feldspar Particle A, monazite, radon ore, which is provided by mixing 10 to 20% by weight of tourmaline, stone, silver, ore, silica, inorganic antimicrobial agent, zeolite, charcoal, ocher, seaweed, or mixed powder Particle B, polyester, acrylic, rayon, nylon, acetate, polypropylene, which is provided with 100% by weight of ion ore powder provided by mixing any one kind or two or more kinds of hot ore, Uwangwang, elvan, and feldspar Material preparation step for preparing the synthetic resin to be mixed by selecting the species, 10 ~ 25% by weight of the particles A and 75 ~ 90% by weight of the synthetic resin prepared in the material preparation step or 10 ~ 25% by weight of particles B and 75 ~ 90% by weight of the synthetic resin % Mixing to form a master batch (MB) comprising two types of master batch (MB), the master batch (MB) formed in the master batch (MB) forming step 85 ~ 99.5% by weight and particles A containing a master batch 0.5 ~ Provided is a method for producing a fiber containing ion ore powder consisting of a fiber forming step of spinning by mixing 15% by weight, or 85 ~ 99.5% by weight of synthetic resin and 0.5 to 15% by weight of the master batch (MB) containing particles B. .

Fiber production method containing the ion ore powder of the present invention is selected from polyamide, polyester, acrylic, nylon, polyethylene, polyurethane, polypropylene, polyvinyl chloride, polytetrafluoroethylene, synthetic water support material 80 ~ 95% by weight, monazite, radon ore, spa ore, udonite, ganbanite, feldspar, rare earth ore, lava, olivine, pozzolanic, black stone, tourmaline, angelite, silver, sterling ore, quartzite, inorganic antibacterial agent, zeolite, charcoal , 5 to 20% by weight of functional particles formed by selecting any one or two or more from ocher, and seaweed is a composition formed by spinning.

When the mixing ratio of the synthetic water support material is less than 80% by weight, the tension of the fiber is weakened frequently, and the breakage occurs frequently. When the mixing ratio exceeds 95% by weight, the function of the desired fiber cannot be obtained. It is preferable to set it as%-95 weight%.

The functional particles are provided to impart functionality to the synthetic resin yarn, including radioactive materials such as radon and hot ore, natural ore such as Uwangwang, elvan, feldspar and all ores that emit their own ions such as monazite. And ionic ore substances, and these functional particles have anion release, far-infrared radiation, hygroscopic effect, deodorizing action, gas adsorption, deodorizing action, humidity control, electromagnetic wave shielding, antibacterial action, water purification, rare earth Ore, lava, olivine, pozzolan, black stone, tourmaline, sky stone, silver, sorghum, silica, inorganic antimicrobial agent, zeolite, charcoal, ocher, seaweed can also be applied as functional particles, and functional particles including ionic ore powder The reason why the mixing ratio is 5% by weight to 20% by weight is that if the composition is less than 5% by weight, the desired function cannot be obtained from the fiber and 20% by weight is obtained. If excessive, the tension of the fiber is weakened during the production of the fiber, so the breakage occurs, it is preferable to set it to 5% by weight to 20% by weight.

In addition, the method for producing a fiber containing the ion ore powder of the present invention is 80 to 90% by weight of the ion ore powder provided by mixing any one or two or more of monazite, radon ore, hot ore, Uwangwang, elvan, feldspar; Rare earth ore, lava, olivine, pozzolanic, black stone, tourmaline, sky stone, silver, sex ore, silica, inorganic antibacterial agent, zeolite, charcoal, ocher, seaweed, 10-20 wt% Particles A, Monazite, Radon ore, Hot ore, Uiwang, Elvan, or feldspar provided with 100% by weight of particle B, polyester and acryl , Rayon, nylon, acetate, polypropylene selected from any one of the materials to prepare a synthetic resin to be mixed, 10 to 25% by weight of the particles A prepared in the material preparation step and 75 ~ 9 0 wt%, or mixing the particles B 10 to 25% by weight of the synthetic resin 75 ~ 90% by weight of the master batch (MB) forming step having a master batch (MB), and the master batch (MB) forming step Spinning by mixing 85 ~ 99.5% by weight of synthetic resin and 0.5 ~ 15% by weight of master batch (MB) containing particle A, or mixing 0.5 ~ 15% by weight of 85 ~ 99.5% by weight of synthetic resin and master batch (MB) containing particle B It consists of a fiber forming step.

The material preparation step is 80 to 90% by weight of ionic ore powder and rare earth ore, lava stone, olivine, pozzolanic, monadite, radon ore, hot ore, Uwangwang, elvan, feldspar Particles A, Monazite, which are provided by mixing 10 to 20% by weight of any one or two or more kinds of powders of black stone, tourmaline, stone, silver, ore, silica, inorganic antibacterial agent, zeolite, charcoal, loess, and seaweed Particles B, polyester, acrylic, rayon, nylon, acetate, polypropylene, which are prepared by 100% by weight of ion ore powder provided by mixing any one or two or more of radon ore, spa ore, uwangwang, elvan, feldspar Preparing a synthetic resin to be mixed by selecting any one of the particles, Particle A is provided by mixing any one or two or more of monazite, radon ore, hot ore, Uwangwang, elvan, feldspar 80 to 90% by weight of ionic ore powder, rare earth ore, lava, olivine, pozzolan, black stone, tourmaline, sky stone, silver, ore, silica, inorganic antibacterial agent, zeolite, charcoal, ocher, seaweed It is provided by mixing 10 to 20% by weight of the above mixed powder, the particle B is 100% by weight of ion ore powder provided by mixing any one or two or more of monazite, radon ore, hot ore, Uwangwang, elvan, feldspar It is provided with.

The crushing method of the ion ore may be made in various ways, in the present invention, the following method is recommended.

 After crushing the ion ore to the size of sand grain through the first grinding, fine grinding is performed by air jet milling to the second average particle size of 3㎛ ~ 5㎛, and ultrafine grinding to the average particle 1.5㎛ or less by the third wet milling Dry at a temperature of 180 ℃ ~ 200 ℃ to remove 80% ~ 90% of the moisture contained in the wet milling, remove it, and grind it again by air jet milling to grind to a particle size of 1㎛ or less. After 98% or more, in order to completely remove the residual water, it is dried again at a temperature of 180 ° C to 200 ° C to obtain an ion ore powder having a residual water content of about 1%.

The wet milling is a method for ultra-fine grinding of ion ore to 1.5 μm or less. The impeller blade is rotated at a high speed and finely pulverized by continuously introducing a mixture of ion ore and water in a wet milling barrel having 3 μm to 5 μm zirconia balls. In the general method, since the micronized grinding of 1.5 µm or less is impossible, the wet milled micronized by the vortex of the water and the milling caused by the friction between the balls is selected.

For reference, olivine has a chemical composition of 2SiO₄. It forms columnar crystals, but the crystals are not clear. They are olive or grayish red, transparent or translucent, and streaks are white. Hardness 6.5-7, specific gravity 3.2-3.4, one of the minerals that are easy to deteriorate, and often turns into serpentine along its periphery or cracks, and is usually produced as half peak of volcanic rocks such as andesite and basalt. It is also produced as a nodule in the form of (i). It is often contained in plutonic rocks such as olive rocks, and the fine one is used as jade, and the transparent green olivine is widely known as a peridot gem.

The master batch (MB) forming step comprises 10 to 25% by weight of particles A prepared in the material preparation step and 75 to 90% by weight of synthetic resin of any one of polyester, acrylic, rayon, nylon, acetate, and polypropylene or particles B 10. ~ 25% by weight of 75% to 90% by weight of any one of synthetic resins of polyester, acrylic, rayon, nylon, acetate, polypropylene and a mixture of the raw material was stirred by the master batch of rice grain size through the extruder for chip production ( MB).

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That is, the master batch (MB) forming step is selected by mixing the particle A powder or particle B powder and one kind of synthetic resin of polyester, acrylic, rayon, nylon, acetate, polypropylene, and then into the inlet of the chip production extruder When it is added, the synthetic resin heated and heated to the temperature of 220 ℃ ~ 290 ℃ is melted while being transferred by the conveying screw, extruded through the nozzle, extracted into strands, and cooled and cut to produce ion ore and functional master batches. It is.

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At this time, if the content of the particle A or particle B exceeds 25% by weight, the clogging phenomenon of the filter may increase the pack pressure and inhibit the tensile strength, toughness, and durability during the production of the ion ore yarn, and less than 10% by weight of the ion ore When the powder is mixed, the effect is not shown because it is fine, attention must be paid to the content control to mix 10 to 25% by weight of the ion ore powder. In addition, the ion ore master batch (MB) made by mixing the 10% to 25% by weight of the ion ore and 75% to 90% by weight of the synthetic resin is 150 ℃ ~ to remove the water impregnated during production of the master batch (MB) It is preferable to carry out drying for 7 hours to 9 hours at a temperature of 180 ° C. If the drying temperature is lower than 150 ° C, drying is not performed. If the resin is dried at a temperature higher than 180 ° C, the synthetic resin component may be melted. It is desirable to dry at a temperature of ~ 180 ℃, if the drying time is less than 7 hours, the drying is not sure, if the drying time is more than 9 hours, the drying time is exceeded to melt the synthetic resin components and fuel consumption increases Since economic losses occur, it is preferable to dry for 7 hours to 9 hours at a temperature of 150 ℃ to 180 ℃.

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Fiber forming step is the master batch (MB) 0.5 ~ 15% by weight and the synthetic resin 85 ~ 99.5% by weight or the master batch containing the particle B (MB) 0.5 ~ in the master batch (MB) forming step Mixing and spinning 15% by weight and synthetic resin 85 ~ 99.5% by weight, a variety of known techniques can be applied to the spinning method, of course.

At this time, the ratio of the synthetic resin is 85 ~ 99.5% by weight is composed of less than 85% by weight of the fiber tension is weakened often occurs, and if it exceeds 99.5% by weight can not obtain the function of the desired fiber 85 to 99.5% by weight of the mixing, and the reason for mixing 0.5 to 15% by weight of the master batch (MB) each containing particles A or B is less than 0.5% by weight can achieve the desired function If it exceeds 15% by weight, the tension of the fiber is weakened, so as to mix 0.5% by weight to 99.5% by weight, and the mixture is molded to form a fiber state by extruding the mixed mixture at 900 to 1000kg / ㎠. The functional fiber containing the ion ore component of the present invention is produced.

The reason for extruding the mixture at 900 ~ 1000kg / ㎠ is that the extrusion is not made when extruded at a pressure of less than 900kg / ㎠, because the pressure rises when extruded at a pressure exceeding 1000kg / ㎠, there is a risk of bursting the extrusion nozzle, Extrusion at a pressure of 900 to 1000 kg / cm 2 is preferred.

In addition, when the spinning fibers are 2 denier or more and 5 denier or less, Baigo recommends mixing 10% by weight of the masterbatch (MB) containing 20% by weight of the particles A or B and 90% by weight of the polyester. It is recommended to mix 15% by weight of the masterbatch (MB) containing 20% by weight of A or B with 85% by weight of polyester. Acrylic, nylon, polyamide, polyethylene, polyurethane, polypropylene, polyvinyl chloride fiber Also in the production of the mixing ratio is preferably made the same as the polyester.

The fiber containing the ion ore powder prepared by the fiber manufacturing method containing the ion ore powder according to the present invention may be provided as long fibers or short fibers.

Applicant in one embodiment of the present invention, to prepare a long fiber (filament) melt spinning by mixing 10% by weight of the master batch (MB) mixed with 15% by weight of the particles A or B and 90% by weight of polyester In order to prepare short fibers, 12.5% by weight of the masterbatch (MB) mixed with 20% by weight of the particles A or B and 87.5% by weight of polyester were melt-spun.

In another embodiment of the method for producing fibers containing the ion ore powder according to the present invention, 95% by weight of the molten synthetic resin, 4.5% by weight of the ion ore powder and silver (Ag) as a mixing step in the mixing step of the raw materials, respectively. 0.5 wt% of the inorganic antimicrobial agent was evenly stirred, and after stirring as described above, the stirred molten mixture was extruded at 900 to 1000kg / cm 2 as an extrusion and winding process to form a fibrous state to form an ion ore of the present invention. Functional fibers containing the components were prepared.

In addition, when the final fiber thickness is 2 denier or less, the average maximum particle size of the ion ore powder and other materials to be mixed is 1 μm or less, and the reason is that the fiber produced when the particle size of the ion ore powder is 1 μm or more. Breakage occurs and the tensile strength and processability of the fiber are inferior. If the fiber thickness is 3 to 5 denier, the average maximum particle size of the ion ore powder and other substances to be mixed is 1.5 μm or less. The reason is that when the particles of the ion ore powder is 1.5 μm or more, the fiber produced as described above is broken and the tensile strength and workability of the fiber are inferior, and when the fiber thickness is 5 to 15 denier or less, For the same reason as above, the average maximum particle size of the ion ore powder and other substances to be mixed should be 2 µm or less.

When used without adjusting the particle size of the functional particles, including the ion ore powder as described above, the flexibility of the spun fiber is difficult to process due to the lack of flexibility, melt mixing is not very good, the elongation is sharply lowered, the cutting phenomenon and pack during fiber spinning The increase in pressure, or clogging occurs, so that the particle size of the functional particles, including the ion ore powder to be provided fluidly according to the thickness of the fiber to be spun, it will be apparent that the present invention is not limited to the above embodiment.

For the fibers produced by the present invention, the results of measuring the antimicrobial activity using Escherichia coli, the deodorant using ammonia gas, the far-infrared radiation amount and the anion emission amount were summarized in the following examples.

division Far Infrared Emissivity (%) Antimicrobiality (%) NH3 removal rate (%) Fiber type and thickness Powder content (wt%) Negative ion release (cc) Example 1 92% 99% 84% Polyester 2 denier 3% 954 cc Example 2 90% 97% 83% Acrylic 2 denier 2% 930cc Example 3 91% 97% 82% Polypropylene 2 Denier 3% 850 cc Example 4 90% 98% 83% Nylon 2 denier 2% 925cc Example 5 91% 99% 84% Molyester 7 Denier 7% 967cc Example 6 92% 98% 82% Polyester 3 denier 5% 975 cc

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The fiber containing the ion ore powder according to the present invention as described above not only improves antibacterial properties, but also melt-spun after adding the mixture to synthetic fibers such as polyester, nylon, polypropylene, acrylic, etc. It has long fibers (filament) or short fibers for drawing, flamming, and cutting, and blends the yarn with all fibers such as cotton, modal, acrylic, polyester, lyocell, and various fabrics, clothing, cotton and yarn, and bedding. When manufactured with or applied to various health aids, these products can improve the thermal insulation by far-infrared rays emitted from ion ore, and remove various smells including sweat odor by disinfectant, antibacterial and deodorant, and anion release. It can be, and has a very useful effect to make the function of the human body smoothly.

Claims (4)

80 to 95% by weight of synthetic water support material provided by selecting and mixing any one of polyamide, polyester, acrylic, nylon, polyethylene, polyurethane, polypropylene, polyvinyl chloride, and polytetrafluoroethylene, and monazite and radon Ore, Hot Spring Ore, Uiwang Stone, Elvanite, Feldspar, Rare Earth Ore, Lava Stone, Olivine, Pozolan, Black Stone, Tourmaline, Angelite, Silver, Sediment Ore, Quartzite, Inorganic Antibacterial Agent, Zeolite, Charcoal, Ocher, Seaweed Or 5 to 20% by weight of the functional particles consisting of two or more of the method for producing a fiber containing the ion ore powder, characterized in that for spinning. 80 to 90% by weight of ionic ore powder and rare earth ore, lava, olivine, pozzolane, black stone, tourmaline, monazite, radon ore, spa ore, uiwang, elvan, or feldspar Particle A, monazite, radon ore, hot spring ore, prepared by mixing 10 to 20% by weight of any one or two or more kinds of powders of angelite, silver, ore, silica, inorganic antibacterial agent, zeolite, charcoal, loess, and seaweed Particles B, polyester, acrylic, rayon, nylon, acetate, polypropylene, which is provided by 100% by weight of the ion ore powder provided by mixing any one or two or more of Uwangwang, Elvan, and feldspar Selecting a material preparing step of preparing a synthetic resin; Master batch (MB) having a master batch (MB) by mixing 10 to 25% by weight of particles A prepared in the material preparation step and 75 to 90% by weight of synthetic resin or 75 to 90% by weight of particles B and synthetic resin ) Forming step; 0.5 to 15% by weight of the master batch (MB) containing the particle A provided in the master batch (MB) forming step and 85 to 99.5% by weight of synthetic resin, or 0.5 to 15% by weight of the master batch (MB) containing the particle B Fiber forming step of spinning with a synthetic resin and 85 ~ 99.5% by weight; Method for producing a fiber containing an ion ore powder, characterized in that consisting of. The method of claim 1 or 2, wherein the fiber is a method of producing a fiber containing a natural ion ore powder, characterized in that formed of long fibers or short fibers. 80 to 90% by weight of ionic ore powder and rare earth ore, lava, olivine, pozzolane, black stone, tourmaline, monazite, radon ore, spa ore, uiwang, elvan, or feldspar 10 to 20% by weight of any one or two or more mixed powders of stone, silver, holy ore, silica, inorganic antibacterial agent, zeolite, charcoal, loess, and seaweed are prepared to have particle A, and the monazite, radon ore, hot spring One or more of polyester, acrylic, rayon, nylon, acetate, and polypropylene is provided with particle B in 100% by weight of an ore powder prepared by mixing any one or two or more of ore, Uranite, elvan, and feldspar. Selecting and mixing the species to provide a synthetic resin, characterized in that made by mixing 10 to 25% by weight of the particles A and 75 to 90% by weight of synthetic resin or 10 to 25% by weight of particles B and 75 to 90% by weight of synthetic resin Method of making a batch (MB).