KR100769340B1 - A manufacturing method of abdomen band with give out anion - Google Patents

Abstract

The present invention is coated with minerals such as chlorite, illite, tourmaline (tourmaline), and the like, when wearing or using a bag, the beneficial effect of negative ions on the human body to prevent and treat various diseases And it relates to a method of manufacturing a bag for releasing anion that has a health promotion and hygiene management effect.

The present invention described above, the step of collecting minerals such as sericite, chlorite, illite and the like; Crushing the collected minerals into coarse particles to remove impurities, and then drying them in a drying furnace to completely dry the moisture contained in the minerals while applying heat of 500 to 700 ° C .; Grinding the dried minerals finely to form fine powder by filtration through a sieve having a particle size of 200 mesh or more; Knitting bags in a proportion of 55-65% of fibers, 35-45% of natural rubber; Mixing to make a mixture by mixing 78 to 82% by weight of water, 6 to 10% by weight of sericite powder, 4 to 6% by weight of elite powder, 1 to 3% by weight of chromite powder, and 4 to 6% by weight of polysol as an adhesive. step; Coding the bag with a speed of 1 m per minute in a mixed solution maintaining a temperature of 80 ~ 100 ℃; Passing the coded bag through a heating roller at 250 ° C. to dry; Cutting the dried belly band to a predetermined length; It can be achieved by a method of manufacturing a bag of anion emanating an anion characterized in that it comprises a step of sewing a pair of male and female velcro tapes to correspond to both ends of the cut bag fabric.

Bags, anions, sericite, chromite, illite

Description

A manufacturing method of abdomen band with give out anion}

1 is a manufacturing process diagram illustrating an embodiment of the present invention;

2 is a schematic device diagram of a coating and drying step illustrating one embodiment of the present invention;

3 is a perspective view of a coating apparatus illustrating one embodiment of the present invention;

Figure 4 is a perspective view of a bag made according to the present invention.

Explanation of symbols on the main parts of the drawings

1: bags 1a: bags

2: container 3: heating roller

4: Velcro tape 21: Stirrer

22: tension roller 23: roller

24: guide roller 25: heater

The present invention relates to a method for manufacturing a bag for emitting anions, and more specifically, to coat the bag with mineral materials such as sericite, chlorite, illite, etc. If the present invention relates to a method of producing a bag of anion that emits anion to have a preventive effect, treatment effect, health promotion and hygiene management effect of various diseases due to the action of an anion beneficial to the human body.

In general, the abdomen (腹帶) is worn to correct the back of the spine damaged or curved spine is mainly in the form of a band having elasticity to compress the waist.

In addition, there are pregnant women's bags for protecting the fetus, and diet bags for pressing the convex belly by fat.

However, the above-mentioned bags are simply to support the spine by compressing the waist, so the benefits of negative ions and far-infrared energy, which are beneficial to the human body, are not expected to prevent diseases or promote health.

The present invention was devised in view of the above problems, and its purpose is to coat minerals such as chromite, illite, tourmarin, etc. on the bags so that the anions are diverted, the strong adsorption power of the minerals, the ability to replace anions and a large amount The purpose of the present invention is to provide a method of manufacturing a bag of anion, which emits negative ions having a prevention effect, treatment effect, health promotion, and hygiene management effect of various diseases of the human body.

A feature of the present invention for achieving the above object is, in the method for manufacturing a bag to dry and cut the coating by drying the mixed solution to radiate anion on the bag fabric, the sericite to emit the anion and far infrared rays Collecting minerals of chlorite and illite; Crushing the collected minerals into coarse particles to remove impurities, and then drying them in a drying furnace to completely dry the moisture contained in the minerals while applying heat of 500 to 700 ° C .; Grinding the dried minerals finely to form fine powder by filtration through a sieve having a particle size of 200 mesh or more; Knitting the bag fabric at a volume ratio of 55 to 65% of fiber yarn, 35 to 45% of natural rubber; 6 to 10% by weight of sericite powder, 4 to 6% by weight of elite powder, 1 to 3% by weight of chromite powder and 4 to 6% by weight of aqueous adhesive (polysol) were mixed with 78 to 82% by weight of water. Creating a mixing step; Coating the bag with a speed of 1 m per minute in a mixed solution maintaining a temperature of 80 to 100 ° C .; Passing the coated bag fabric through a heating roller at 250 ° C. to dry it; Cutting the dried belly band to a predetermined length; It can be achieved by a method of manufacturing a bag of anion emanating an anion characterized in that it comprises a step of sewing a pair of male and female velcro tapes to correspond to both ends of the cut bag fabric.

Hereinafter, described in detail by the accompanying drawings a preferred embodiment for achieving the above object is as follows.

Example

Minerals such as sericite, chlorite, and illite, which exist as natural minerals in nature, were collected.

Subsequently, the collected minerals are respectively put into a crusher and broken into particles having a size of about 30 mm or less, the particles are sorted to remove impurities, and the minerals are put into a drying furnace, followed by heat of 500 to 700 ° C. After drying, the water contained in the mineral was completely dried.

In this step, the crushed mineral particles are selected, washed with water, and then naturally dried to further remove fine foreign substances contained on the surfaces of the minerals.

The drying furnace is composed of a drying furnace in the form of a thermal kiln, and may be dried by inputting minerals, but by adding minerals to a conveyor moving through the kiln and moving it for about 10 to 20 minutes, and drying by applying heat of about 600 ° C. or more. This mass production is possible because it is preferable.

Of course, in some cases, it is possible to inject minerals into a rotary furnace that is mounted to be inclined and heated so as to dry them by heat.

Subsequently, the dried minerals were put in a grinder and finely ground, and then filtered through a sieve having a particle size of 200 mesh and stored in different containers.

The grinder used a conventional grinder in which the cutters are rotated facing each other and grind by grinding by milling when the grinding particles become smaller in stages.

In addition, the fabric of the fabric banda (1a) in the width of the bandage (1) to be produced in a ratio of 60% cotton yarn made of natural fibers and 40% natural rubber yarn.

In the present invention, the cotton fabric (1) was knitted with cotton yarn, but the same effect was obtained when synthetic fiber yarn was used.

Subsequently, the particulate powder composed of sericite, chromite and elite is placed in a container 2 provided with a stirrer 21, 8 liters of water, 800 grams of sericite powder, 500 grams of elite powder, 200 grams of chromite powder, and an aqueous adhesive (polysol). 500 g was added to the stirrer 21 and stirred evenly to make a mixed liquid.

Subsequently, the composite fabric 1a was passed through the mixed liquid contained in the container 2 at a speed of 1 m per minute to coat the mixed fabric with the mixed liquid 1a.

The coating container 2 is equipped with a tension roller 22 on the upper side of the container and a roller 23 for squeezing water on the other side, and a guide roller 24 inside the container 2, The heater 25 is provided, and the heater 25 heats the mixed liquid contained in the container 2 at a temperature of 80 to 100 ° C., and a bag fabric 1a to the mixed liquid which is being stirred by the stirrer 21. ) Is coated while being transported at a speed of 1 m per minute to the roller 23 squeezing water over the guide roller 24 through the tension roller 22.

At this time, the banding fabric 1a passing between the rollers 23 squeezing water through the tension roller 22 and the guide roller 24 is made of a spanning material and is pulled while being pulled while pulling the inside of the container. Because of the movement, the tissues constituting the abdominal fabric (1a) is relaxed so that the mixed solution can be easily penetrated.

Subsequently, the coated bag fabric 1a was passed between vertically continuous heating rollers 3 with a built-in heater, and the bag fabric 1a was dried.

In this step, the coated bag fabric 1a is dried while alternately passing through the plurality of heating rollers 3 which are squeezed and heated to 250 ° C. while continuously passing through the rollers 23.

Subsequently, the dried bag fabric 1a was cut to a certain length with a cutter and cut into an outline of a bag formed long in one direction.

Subsequently, a pair of male and female Velcro tapes 4 were sewn so as to correspond to both ends of the cut band fabric 1a, and the sewing of the circumference of the band 1 was completed to complete the band 1.

Test Example 1 Measurement of Deodorizing Effect

The deodorizing effect was measured by requesting the bags prepared by the manufacturing process of the present invention to the Korea Far Infrared Ray Evaluation Institute, and the test method is to test the deodorization rate by injecting 500 ppm of ammonia gas into the container containing the sample and the container not containing the sample. KFIA-FI-1004 test standard was used.

As a result, as shown in the deodorization rate (%) test result of Table 1, the gas concentration was measured every 30 minutes by using a gas detector tube, the deodorization rate was 87% after the first 30 minutes, 60 Deodorization rate 89% in 90 minutes, 91% deodorization rate in 90 minutes, and 92% deodorization rate in 120 minutes, gradually increasing the deodorization rate (%). After about 2 hours, most of the ammonia gas was adsorbed and removed. Appeared.

As the sample was not injected into the container, the deodorization rate (%) was not changed except for the amount of ammonia gas which naturally disappears as the sample was collected by the gas detector tube.

Test result Test Items Elapsed time (minutes) Blank concentration (ppm) Sample concentration (ppm) Deodorization rate (%)   Deodorization test Early 500 500 - 30 490 65 87 60 480 55 89 90 460 40 91 120 450 35 92

(Note) Blank: Measured without sample. End.

1) Test Method: KFIA-FI-1004

2) Test gas name: Ammonia

3) Gas concentration measurement: gas detector

Issue Number: KFIG-191 Client: Jeon Mu Jong [Ju Shin Industry]

Specimen name: Elastic band (for band) Date of receipt: March 30, 2005

Address: 503, Mangwon-dong, Hanam-si, Gyeonggi-do

Experimental Example 2 Measurement Test of Anion Release

The bag prepared by the manufacturing process of the present invention was commissioned by the Korea Far Infrared Application Evaluation Institute, and the anion emission amount was measured under conditions of room temperature of 21 ° C, humidity of 40%, and anion number of 104 / cc in the air. KFIA-FI-1042 test standard was used to measure and display the number of ions per unit volume.

The results indicate that the anion number is 382 / cc as shown in the results of Table 2, releasing anions about four times closer than the anion number 104 / cc in the atmosphere.

Test result                   Item Sample Name  Anion (ION / cc) Elastic Band (for Belt)  382

1) Test Method: KFIA-FI-1042

2) Test piece: 100 × 150mm

Issue No .: KFIM-281 Client: Jeon Mu Jong [Ju Shin Industry]

Specimen name: Elastic band (for band) Date of receipt: March 30, 2005

Address: 503, Mangwon-dong, Hanam-si, Gyeonggi-do

Test Example 3 Measurement of Sterilization Effect

The antimicrobial effect was measured by requesting the prepared bags according to the manufacturing process of the present invention by the Korea Far Infrared Ray Evaluation Institute, and the test method is to put together the Staphylococcus aureus cultured in the container and the sample prepared by the present invention, the other In the container, only the Staphylococcus aureus was injected, and after 18 hours, the percentage of Staphylococcus aureus was measured by comparing the number of bacteria in the control sample and the test sample. In addition, the reduction rate of pneumococci cultured for 18 hours by the method described above was measured together.

Test result Test Items Sample classification Initial concentration Concentration after 18 hours Bacteriostatic reduction rate (%) Antimicrobial test by S.aureus Standard gun 6.3 × 10 ⁶ 2.0 × 10 ⁸ - Elastic Band (for Bands) <2.0 × 10 ⁴ 99.9 Antibacterial test by K.pneumoniae Standard gun 5.2 × 10 ⁵ 1.8 × 10 ⁷ - Elastic Band (for Bands) <2.0 × 10 ³ 99.9

1) Test Method: KS K 0693-2001

2) Use strain

   Staphylococcus aureus ATCC 6538

   Klebsiella pneumoniae ATCC 4352

3) Nonionic surfactant: 0.05% nonionic surfactant used for inoculation bacteria (Snogen)

4) Use of standard cloth: KS K 0905 Dye fastness Attachment White cloth: Cotton

Issue Number: KFIA-181 Client: Jeon Mu Jong [Ju Shin Industry]

Specimen name: Elastic band (for band) Date of receipt: March 30, 2005

Address: 503, Mangwon-dong, Hanam-si, Gyeonggi-do

As a result of the bacterium reduction rate (%) test result of Table 3, the concentration of the bacteria was measured after 18 hours, and the bacteriostatic rate was 99.9% in the Staphylococcus aureus culture vessel into which the sample was added. In this culture vessel, the bactericidal reduction rate was 99.9%, indicating that the bactericidal and antimicrobial efficiency of the abdominal cavity was very high.

Since the bags produced through the above-described manufacturing process are a mixture of natural minerals that emit negative ions in a natural state, such as sericite, chromite, and illite, the negative ions emitted from the bags are absorbed deep into the human body, thereby circulating blood. It can be made smoothly, fatigue recovery, waste discharge, heat action, and also can kill harmful bacteria, as well as effect on the skin's moisture and health hygiene.

On the other hand, the properties of the minerals used in the manufacturing method of the present invention are as follows.

The sericite (sericite) is called the mica in the form of dense or fine scales, and belongs to the monoclinic system, and refers to the main component mineral of the schizophrenia. Refers to clay-like fine mica that is produced by 水 作用).

The sericite is widely used as a mixed material of ceramics or refractory bricks, and absorbs toxic substances by radiating anions and rotating electromagnetic waves (π-RAY) in a natural state to adsorb particulate matter or to separate particulate matter having different sizes. It can be neutralized by removing irritating odors.

The chromite is a mineral belonging to a monoclinic system, the main component of which is a hydrous silicate of aluminum, iron, and magnesium (Mg, Fe, Al) ₁₂ (Si, Al) ₈ O ₂₀ (OH ₁₆ ).

In addition, chromite is widely found in various types of sedimentary rocks, low-temperature metamorphic rocks, and igneous rocks deteriorated by hot water, and is mainly denatured iron minerals such as mica, hornblende, and fluorite. It has the property of adsorbing and decomposing, so it has strong deodorizing power and the far infrared rays emitted from chromite have the wavelength of 3 ~ 20㎛, which is the same as the wavelength of human body, and the anion has the characteristic of neutralizing acid constitution. It has antibacterial properties as well as promoting metabolism and anti-aging.

The illite is a fine mica mineral belonging to a monoclinic system, and its chemical composition is (K, H ₃ O) Al ₂ (Si, Al) ₄ O ₁₀ (H ₂ O , OH) ₂ . In terms of chemical composition, some are close to white mica, but relatively high in SiO ₂ , MgO, H ₂ O, and low in K ₂ O. Hundreds of minerals such as mica. Hardness 1-2, specific gravity 2.6-2.9. Streak color is white, earthy luster. There is a view that it is not an independent mineral in terms of chemical composition or crystal structure, but is a mixed mineral containing other components. It is produced in aluminum-rich heterogeneous or tuff sedimentary rocks and is produced as a degenerate mineral of hydrothermal deposits. Elite is a translucent plate-like flake outside the multilayer structure, so the adhesion and elasticity in the skin is good and does not lump, so it is excellent in adhesion to the skin. In addition, it absorbs and decomposes various heavy metals and organic substances on the skin, activates cells, enhances immunity, and enhances natural healing power. It is known to have excellent antibacterial and antifungal effects and is already used as a water quality improvement and treatment agent.It releases a large amount of anions and acts on iron contained in red blood cells in the blood to increase blood cell vitality and enhance circulation. .

The polysol is an adhesive related to paper adhesion and consists of EVA (Ethylene Vinyl Acetate) alone and a copolymerization product with Acryl-EVA resin, and serves to prevent mineral powders from firmly adhering to the composite fabric and prevent falling. It plays a role to increase their adhesive strength.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the spirit of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

As described above, the present invention is coated with mineral powders such as sericite, chromite, and illite on the bags, thereby eradicating harmful bacteria by the complex synergistic effect of far infrared rays, anions, and strong sterilization generated from minerals, Bactericidal action, cancer, peculiar odor, sweat smell, etc. are absorbed and removed, and by activating cells of human body, it prevents oxidation of cells, prevents aging, strengthens immunity, increases resistance and reduces action, restores objects, air purification, antiseptic, deodorization. In addition, it promotes blood circulation, promotes body metabolism, facilitates metabolism, and is effective in drying skin, skin eczema, allergy skin, menstrual cramps, relieving cold, and treating hemorrhoids. It is a useful invention.

Claims (2)

In the bag manufacturing method for manufacturing a bag by coating a mixed solution that emits anions to the bag fabric and dried and cut, Collecting minerals of sericite, chlorite, and illite that emit the anion and far infrared rays; Crushing the collected minerals into coarse particles to remove impurities, and then drying them in a drying furnace to completely dry the moisture contained in the minerals while applying heat of 500 to 700 ° C .; Grinding the dried minerals finely to form fine powder by filtration through a sieve having a particle size of 200 mesh or more; Knitting the bag fabric at a volume ratio of 55 to 65% of fiber yarn, 35 to 45% of natural rubber; 6 to 10% by weight of sericite powder, 4 to 6% by weight of elite powder, 1 to 3% by weight of chromite powder and 4 to 6% by weight of aqueous adhesive (polysol) were mixed with 78 to 82% by weight of water. Creating a mixing step; Coating the bag with a speed of 1 m per minute in a mixed solution maintaining a temperature of 80 to 100 ° C .; Passing the coated bag fabric through a heating roller at 250 ° C. to dry it; Cutting the dried belly band to a predetermined length; A method of manufacturing a bag of releasing anion, characterized in that the step of sewing a pair of male and female Velcro tapes so as to correspond to both ends of the cut bag fabric. The method of claim 1, The method of manufacturing a bag for emitting anion, characterized in that the fiber yarn is one of natural fiber yarn, synthetic fiber yarn or cotton yarn.

Images