KR20040043502A - Manufacturing method of porous magnetic minerals - Google Patents

Abstract

PURPOSE: Provided is a process for producing porous magnetic minerals emitting far infrared rays and anions, which can be used for a preparation of magnetic mineral water, a microorganism culturing process, and a water culture. CONSTITUTION: The process for producing the porous magnetic minerals comprises the steps of: mixing a mineral powder with 40-60 micrometer emitting far infrared rays and anions, such as phyllite, tourmaline, elvan, jade and 10-50wt% of a ferrite(MO.nFe2O3, M=Fe, Ba, Sr, etc.) magnetic material powder with 40-60 micrometer in size; adding 0.1-0.5wt% of an inorganic binder, 0.03-0.04wt% of an organic binder, and 0.1-1.0wt% of sodium silicate and mixing; adding 2-5wt% of ammonium chloride(NH4Cl) to form fine pores and mixing to prepare a dough; making the dough sphere or ring type pellets; drying, calcining, and polarizing.

Description

Manufacturing method of porous magnetic minerals

The present invention is a cheonmaeam (千 枚 岩), elvan Stone, Tourmaline, Uiwang Stone A mixture of ferrite powders and mineral powders that generate far infrared rays and anions such as wangseok, tajingstone, etc., and ferrite (MO, nFe₂O₃; M = Fe, Ba, Sr, etc.) Next, binders, bubble generators, and the like are injected into the mixture, and the mixture is stirred and mixed to form a dough. Porous minerals used in the manufacture of magnetized mineral water, microbial culture process, hydroponic filler, etc. (多孔 質 磁性 The preparation method of the article is presented.

Japanese Patent Publication In 6-9280, soft porous ancient oceanic corrosives were mixed with Si ₆ O ₈ and granulated. ), Concept ) Or illusion ) After sintering at 1000 ℃ in electric furnace 結) It is made of porous material and called bio-ceramics, and it is used as soil modifier and water purifying agent, but metabolic activity of microorganism is not active when magnetite content or low coercive force is low. There was a problem.

An object of the present invention is to provide a method for producing a porous magnetic mineral used for microbial culture process, manufacturing process of magnetized mineral water, filler for hydroponic cultivation.

In order to achieve the above object, the present invention is to inject a mixture of minerals and magnetic materials generating far-infrared rays and anions into the powder of a magnetic material, and then to inject and stir the mixture to form a dough, and then spherical or annular pellets. After processing to form and dried and sintered and magnetized to produce a magnetic magnetic porous mineral while generating far-infrared rays and anions.

In the present invention, a porous magnetic mineral having magnetic properties while generating far-infrared rays and anions used in microbial culture process, manufacturing process of magnetized mineral water, hydroponic cultivation, etc. Referring to the manufacturing method of the material in detail as follows.

1. Aphrodite, Tourmaline, Elvan 飯 石, Uiwang Stone 40 to 60 μm powder of minerals generating far-infrared rays and anions, such as Wang, Tajing Stone and Jade, and Fe, O3, and barium ferrite Ferrite (40-60 μm) powders of ferrite magnetic materials such as ferrite (BaO · 6Fe₂O₃) and strontium ferrite (SrO · 6Fe₂O₃) are injected at a ratio of about 10 to 50 wt% and stirred and mixed.

2. Add water to 1 to adjust the moisture content to 35 ~ 45wt% easily.

3. Use 0.1 to 0.5 wt% of Bentonite, Slaked Lime, Dolomite, etc. alone or a mixture of two or more kinds with an inorganic binder, and add water-soluble starch, molasses, alginic acid to the organic binder. A mixture of some types of sodium (Sodiom alginate), ammonium alginate, dextrin, and the like is infused about 0.03 to 0.04 wt%, and sodium silicate is infused by about 0.1 to 1.0 wt%, followed by stirring and mixing. do.

4. Add ammonium chloride (NH₄CI) in 2 to 5wt% to form fine pores and stir and mix to make dough.

5. Process the dough of No. 4 into spherical or annular pellet and dry it naturally for 4 ~ 5 days.

6. The naturally dried pellets of item 5 are evaporated by the hot air of 180 to 250 ° C.

7. After the evaporation of the water content in Clause 6 is completed, the temperature rises to 250 ~ 400 ℃, and the combined moisture evaporates (at temperatures around 337 ~ 338 ℃) .Ammonium chloride (NH₄CI) is used for NH3 and HCI gas As the sublimation decomposes, fine pores are formed.

8. When the defective moisture of paragraph 7 is evaporated and the micropores are completed, the temperature is preheated to 950-1,100 ℃, and then fired at 1,250-1,350 ℃ for 10-15 minutes. And then slowly cooled to form pelleted porous minerals.

9. A porous magnetic mineral is produced by magnetizing the porous mineral of paragraph 8 in a magnetizer with a magnetic flux density of more than 300 G (Gauss), producing magnetic and far-infrared rays and anions.

As is apparent from the above description, the porous magnetic minerals generating far-infrared rays and anions of the present invention include microbial culture processes such as biological treatment of sewage and wastewater, biological deodorization treatment, livestock drinking water treatment, fillers for hydroponic cultivation, and mineral water. It is expected to be widely used in these fields because of its efficiency when used in manufacturing processes.

Claims (1)

Cheonmae Rock, Tourmaline, Elvan 返 石, Uiwang Stone 4, iron trioxide (Fe₃O 하는), barium ferrite (Barium ferrite) on 40 ~ 60 μm powder of minerals that generate far infrared rays and anions such as Wang, Tajing Stone and Jade 40 to 60 μm of ferrite powder, such as ferrite (BaO · 6Fe₂O₃) and strontium ferrite (SrO · 6Fe₂O₃), was injected at a ratio of about 10 to 50 wt%, stirred and mixed 0.1-0.5 wt% of bentonite, slaked lime, dolomite, etc., alone or in a mixture of two or more types, is injected into the inorganic binder, and the organic binder is water-soluble starch, molasses, sodium alginate. , A mixture of some kinds of ammonium alginate, dextrin, and the like is injected in an amount of about 0.03 to 0.04 wt%, and about 0.1 to 1.0 wt% of sodium silicate is stirred and mixed, followed by ammonium chloride (NH₄Cl) forms fine pores In order to make a dough by injecting 2 ~ 5wt% and stirring and mixing, processed into a spherical or annular pellet (Pellet), and then naturally dried for about 4 ~ 5 days and then contained in hot air of 180 ~ 250 ℃ After evaporating the water and increasing the temperature to 250-400 ° C, the combined water evaporates. At this time, ammonium chloride (NH₄Cl) sublimates and decomposes into NH₃ and HCl gas (Gas) to form fine pores, and then the temperature is increased to 950-1,100 ° C. After preheating, fire at about 1,250 ~ 1,350 ℃ for 10 ~ 15 minutes After slowly cooling to form pellet-like porous minerals, the porous minerals are magnetized by magnetizing magnetic flux density of more than 300G (Gauss) in a magnetizer, and become far-infrared and Method for producing a porous magnetic mineral that generates anions.