KR100825126B1 - Medical ion terminal manufacturing method that emits magnetic force, negative ion and far infrared ray - Google Patents

Abstract

The present invention relates to a method for manufacturing a medical terminal for emitting magnetic force and negative ions and far-infrared rays so as to attach to the skin of the human body to treat muscle pain neuralgia, various diseases, the present invention comprises a magnetic body attached to the adhesive band; Crushed helguson, tourmaline and ganbanite with 1400-1,500 mesh, respectively, crushed helgonone powder 30% by weight, crushed tourmaline powder 25% by weight, crushed ganthene powder 33% by weight and charcoal powder 9% by weight, adhesive (trade name) DEVCON) 3% by weight of the mixture is kneaded and then the dough is formed into a hemispherical body of a constant diameter and put into a sintering furnace for sintering at 900 ~ 1100 ℃ for 25-30 minutes to produce an ion terminal 30 and the ion The terminal 30 is attached to the surface of the magnetic body 20, and a release paper 11 is attached thereon to manufacture.

The present invention according to the present invention is not only safe because it is harmless to the human body by using natural raw materials, but also the weight can be reduced when the ion terminals are manufactured, such as the size of the existing ion terminals, so that the raw materials can be reduced and the existing materials can be saved. Anion is generated and far infrared is emitted.

Description

Medical ion terminal manufacturing method which emits magnetic force, anion and far infrared rays {Ion Bead Manufacturing Method}

1 is a perspective view illustrating an adhesive band to which an ion terminal is attached according to the present invention;

2 is a cross-sectional view of an ion terminal according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: Adhesive band 11: Release paper

20: Magnetic body piece 30: Ion terminal

The present invention relates to a method for manufacturing a medical terminal that is attached to the skin of the human body to release the magnetic force and negative ions and far infrared to treat muscle pain neuralgia, various diseases.

If the disease occurs in the human body when treated with natural materials is almost harmless to the human body has the advantage of minimizing side effects. Natural treatments have been used in a wide variety of ways. Treatments using natural products such as hot or cold or wormwood, shiatsu, massage, etc. in the home have been used innumerablely, and folk remedies that can be easily treated in each home have been widely developed and applied.

With the recent development of science, therapies and folk remedies using natural products have been theoretically established and systematically developed to develop more effective medicines and medical devices.

Disease prevention and treatment using anions as described above, using a mineral material that emits negative ions are crushed and mixed with fibers or various household goods to produce clothing or household goods that release negative ions, which directly or indirectly It is a therapy that controls the balance of ions in the body by making contact with the body. An anion air purifier is an example of an application device using an anion.

As the material for generating anions, there are minerals called Hellguson and tourmaline (also called "tourmalines"). Helguzone is a natural anion ore, and the amount of negative ions emitted is 30 times that of charcoal and three times the amount of negative ions released from forests such as arboretum.

Far-infrared therapy refers to the longest of the infrared rays. Infrared radiation is a type of electromagnetic waves with a large thermal effect because the wavelength is longer than the red region of the visible rays. It is invisible and absorbs well into the material, and it is characterized by strong resonance and sympathetic effects on organic compound molecules. In addition, since light is generally reflected well when the wavelength is short, and absorbed when reaching the object when the wavelength is long, the penetration is strong and the human body is also warmed by infrared rays.

For example, you can hardly feel the warm feeling in the water of 30 ℃, but when you sunshine at the same temperature, you can feel the warm feeling easily because the far-infrared rays contained in the sunlight penetrate into the skin to make heat.

As a material that emits far infrared rays, it is typically emitted from alum or jade. Elvan is a name given because it looks like barley rice, and it has been found in ancient times in China and has been widely used as a medicine because it has good medicinal effects. The stone ganban stone, similar to barley rice lumps, was written by Lee Si-jin, the master of Korea, and has been used as an anti-inflammatory agent for wounds, boils, skin diseases, etc. in Korea. Consent can also be found in Elvan Stone.

Products using far infrared rays, that is, ganban stone, are widely applied to cosmetics containing ganban stone, roasted alum stone, fertilizer containing ganban stone powder, ganban stone steamer or jjimjilbang, deodorizer, interior and exterior materials of buildings, and the like. Jade application products include jade mat and jade bed.

In the magnetic treatment method, when magnetic force is applied to the human body, a new magnetic induction is generated, an induced current is generated in the blood, and a physical catalyst acts to exchange kinetic energy. Ion) increases and changes in autonomic nerve activity. In addition, the supply of oxygen nutrients to the tissues is activated by the blood, and at the same time, carbon dioxide and waste products are excreted outside the body, and peripheral nerve circulation is improved. It has been clinically proven to relieve pain, shoulder stiffness, and back pain in each part of the human body, but the magnetic force is harmless to the human body and relieves pain.

Medical products that applied magnetic force are manufactured by Daeil Chemical brand name "Papi magnetic room".

As described above, various medical terminal manufacturing methods have been proposed for applying the effects of magnetic force and negative ions and far-end radiation that are beneficial to the human body. For example, Published Utility Model No. 97-8166, "Ion Magnetic Room," patent Publication No. 99-78507, "Human body stimulant for health supplements and a method of manufacturing the same".

Medical ion terminal as described above is enough size to stimulate the acupuncture points of the human body, so it does not need to be manufactured larger than necessary, the diameter is about 7 ~ 15㎜ size, the bottom surface is flat and the other side It is common for the center of silver to be convex.

After all, the medical terminal is to be released the maximum magnetic force, anion and far infrared rays in the size of 7 ~ 15mm, the magnetic force of the magnetic body can increase or decrease the magnetic force even if the size of the magnetic body is small, but heguson, tourmaline to emit anion and far infrared rays And because of the difference in the discharge amount in proportion to the volume of the elvan has a problem that the effect is reduced when the size of the terminal is small.

The present invention was devised to solve the problems as described above, and an object of the present invention is to maintain an emission amount of negative ions and far-infrared rays even if the volume and weight of the ion terminal is reduced, and to reduce the manufacturing cost and The present invention provides a method for manufacturing a medical ion terminal emitting far infrared rays.

Medical terminal manufacturing method in which anion and far infrared rays are emitted according to the present invention:

In the magnetic body attached to the surface of the adhesive band, and the method for producing a medical ion terminal for generating anion or far infrared rays on the surface of the magnetic body,

A magnetic body attached to the adhesive band;

Crushed helguson, tourmaline and ganbanite with 1400-1,500 mesh, respectively, crushed helgonone powder 30% by weight, crushed tourmaline powder 25% by weight, crushed ganthene powder 33% by weight and charcoal powder 9% by weight, adhesive 3% After mixing and kneading the mixture, the dough was formed into a hemispherical body having a constant diameter, put into a sintering furnace, and sintered at 900 to 1100 ° C. for 25 to 30 minutes to prepare an ion terminal, and attach the prepared ion terminal to the magnetic surface. And a release paper attached thereto to produce the same.

In the ion terminal manufactured according to the present invention, fine pores are formed while charcoal is burned during the sintering process so that the size is maintained in the state before the sintering and the liver, but the weight is reduced. However, it is possible to maintain the emission amount of the existing negative ions or far infrared rays can achieve a similar effect as the size of the medical terminal, there is an effect that can reduce the manufacturing cost.

Hereinafter, a method of manufacturing a medical terminal for emitting anion, magnetic force and far infrared rays according to the present invention will be described in more detail.

1 to 2, FIG. 1 is a perspective view illustrating an adhesive band to which an ion terminal is attached according to the present invention, and FIG. 2 is a cross-sectional view of the ion terminal according to the present invention.

In the present invention, the term "ion terminal" refers to a solid mass produced by sintering Helgson, tourmaline, ganban stone powder, charcoal powder, and an adhesive and sintering it. The diameter of the sintered ion terminal is 7 to 15 mm in a circle. , The weight is about 20g.

In addition, the magnetic plate is a plate-like magnetic strength of 1,000 ~ 1,500 Gaussian magnetic force, was produced in the same size as the diameter of the ion terminal.

The components of the ion terminals (helguson, tourmaline, ganban stone, charcoal powder) are pulverized with 1,500 mesh and the pulverized powder is glued (trade name: DEVCON, 2Ton Epoxy S-33 / 33345 country of manufacture: United States of America, for more information, visit our homepage: (see http://www.itwconsumer.com)) The ion terminal specimen prepared by molding into a hemisphere with a weight of 20 g and a 7 mm diameter as described above and sintering at 900 to 1100 ° C. for 20 to 30 minutes Manufacture. However, as shown in the table below, the component ratios of the ion terminals were prepared specimens having different ratios.

Component Mixing Ratio (wt%) and Measurement Value of Ion Terminal by Example of the Present Invention

First 2nd The third 4th 5th 6th 7th 8th 9th 10th Article 11 Hellson 92 0 0 11 14 22 16 25 30 35 30 Tourmaline 0 92 0 10 12 16 22 20 30 30 40 Elvan 0 0 92 70 65 50 50 43 30 25 20 glue 3 3 3 3 3 3 3 3 3 3 3 Charcoal powder 5 5 5 6 6 9 9 9 7 7 7 Weight of terminal (g) 19.5 19.6 19.4 19.6 19.5 19.4 19.4 19.4 19.6 19.5 19.5 Far infrared ray emission rate (%) 0.3 0.4 40 32 30 29 28 27 23 20 21 Anion generation amount (Iom / cc) 72 56 4 18 21 23 13 22 24 28 25

The above table measures the amount of negative ions emitted from the specimens by KFIA-FI-1042 test method at room temperature 22 ℃ and humidity 47 for each of the first to eleventh specimens. It is the result of measuring the weight.

Referring to the first embodiment, as shown in Figures 1 and 2 by mixing in a ratio of 92% by weight of the Hellsonson and 3% by weight of the adhesive to produce a rectangle with a diameter of 7mm, thickness 3mm, weight 20g size at 900 ~ 1100 ℃ After sintering for about 20 to 30 minutes, the weight of the terminal 30 (excluding the weight of the magnetic body) was 19.5 g, the far-infrared emissivity (%) was 0.3, and the anion generation amount (Ion / cc) was 72. The far-infrared emissivity of 0.3% shown in the first embodiment is judged to be far-infrared ray which exists naturally in the mineral.

The second embodiment was produced in the same manner as in the first embodiment. However, the test piece was prepared by inserting the adhesive into the tourmaline powder. The weight was 19.6 g, the far-infrared emissivity (%) was 0.4, and the anion generation amount (Ion / cc) was 56. As can be seen from the far-infrared emissivity 0.4 and the anion-generating amount 56 shown in the second embodiment, it can be seen that the anion is generated in tourmaline and the radiation of the far infrared is hardly generated. However, 0.4% of far-infrared emissivity could not be clearly confirmed whether it is far-infrared generated from tourmaline or far-infrared in the atmosphere. And, by 5% by weight of charcoal powder it can be seen that the weight was reduced by 19.6g, that is, 0.4g to 20g before sintering the terminal.

The third embodiment was produced in the same manner as in the first embodiment. However, it was confirmed that the specimen was prepared by putting the adhesive in the elvan powder, the weight of the specimen (terminal, 30) was 19.4 g, the far-infrared emissivity (%) was 40, and the anion generation amount (Ion / cc) was found to be 4. It can be seen that there is no element other than far-infrared emissivity shown in the third embodiment, the emissivity is far infrared rays emitted from elvan. In light of the anion generation amount 4, it is not clear whether the anion generation amount is generated in the elvan or is naturally recognized in the atmosphere. In addition, it can be seen that the weight was reduced by 0.6g from 20g before sintering the terminal by 19.4g by the charcoal powder 5% by weight.

As a result, it can be seen that the third embodiment does not contain any other elements except elvan, and thus far infrared rays are emitted from the elvan.

Therefore, what is confirmed in the first to third embodiments is the most ideal combination of heguson, elvan and far-infrared elvan generated in the production of the ion terminals that emit magnetic force and anion and far infrared rays, which are desired in the present invention. Through the manufacture of an ion terminal that emits magnetic force and anion and far infrared rays.

In each of the fourth to eleventh embodiments, the content ratio of helguson and tourmaline was gradually increased, ganbanite was gradually lowered, and the charcoal content did not exceed 9% by weight (hardness To avoid falling off).

As shown in the above table, the fourth embodiment shows the maximum amount of far-infrared emission, and the far-infrared emissivity is 32, which shows the highest far-infrared emissivity than the other embodiments. This is due to the fact that the emissivity of far-infrared rays emitted from elvan is more added in other examples.

However, in the fourth embodiment, it can be seen that the anion generation amount 18 is lower than the anion generation amount 28 of the tenth embodiment, and the weight of the ion terminal is lightest in the charcoal mixture mixing ratio of 9% by weight in the sixth to eighth embodiments. there was.

As a result, the far-infrared emissivity was the highest in the ganbanite mixing ratio of the fourth embodiment, the anion generation amount was the mixing ratio of the heguson and tourmaline in the tenth embodiment, and the weight reduction was the best in the charcoal mixing ratio of the sixth to eighth embodiments. I can see it. Based on the above results, a specimen was prepared in the component ratio of the ion terminal as in Example 12 below.

[Twelfth Example]

Crushed helguson, tourmaline and ganbanite with 1400-1,500 mesh, respectively, crushed helgonone powder 30% by weight, crushed tourmaline powder 25% by weight, crushed ganthene powder 33% by weight and charcoal powder 9% by weight, adhesive (DEVCON ) 3 wt% of the mixture was kneaded, and then sintered to make a specimen as described above. The weight of the ion terminal was 19.4 g, the emission of far infrared rays was 23, and the amount of negative ions was found to be 24.

It can be seen from the test results of the twelfth embodiment that the anion releasing ability according to the increase in heguson and tourmaline in the component ratio according to the twelfth embodiment was not high, but the anion and far infrared rays 20-40 parts by weight of the hegusonone powder, pulverized 20 to 30 parts by weight of tourmaline powder, 30 to 50 parts by weight of pulverized bar stone, 9 parts by weight of charcoal powder and 3 parts by weight of adhesive (DEVCON) were found to be in a useful range.

However, in view of the fact that the terminal, which is a mixture of far infrared rays, magnetic force and anion, is usually attached to the skin for about 24 hours, the component ratio according to the twelfth embodiment is most preferable.

As a result, the present invention is 20 to 40 parts by weight of the hegusonone powder, 20 to 30 parts by weight of pulverized tourmaline powder, 30 to 50 parts by weight of pulverized ganban stone, 9 weights of charcoal powder as shown in FIGS. 3 parts by weight of the adhesive part (DEVCON) and then kneading the dough into a hemispherical body of a constant diameter and put in a sintering furnace for sintering at 900 ~ 1100 ℃ for 25-30 minutes to prepare an ion terminal (30) The terminal is attached to the surface of the magnetic body 20, and the magnetic body 20 attaches the release paper 11 to the adhesive band 10 thereon, thereby removing the release paper 11 and using the ion terminal 30 to the affected part (skin). Attach and use.

 Reference numeral 31 is an adhesive (epoxy) for attaching the ion terminal 30 to the magnetic body 20.

As described above, the present invention is not only harmless to the human body by using natural raw materials, but is also safe and can reduce the weight of raw materials because the weight can be reduced when the ion terminals are manufactured, such as the size of the existing ion terminals. Can maintain the emission of negative ions and far infrared rays.

Claims (1)

In the magnetic body attached to the surface of the adhesive band, and the method for producing a medical ion terminal for generating anion or far infrared rays on the surface of the magnetic body, A magnetic body attached to the adhesive band; Crushed helguson, tourmaline and ganbanite with 1400-1,500 mesh, respectively, crushed helgonone powder 30% by weight, crushed tourmaline powder 25% by weight, crushed ganthene powder 33% by weight and charcoal powder 9% by weight, adhesive (DEVCON ) After mixing and mixing 3% by weight, the dough was formed into a hemisphere having a constant diameter and put into a sintering furnace to sinter for 25 to 30 minutes at 900 to 1100 ° C. to manufacture the ion terminal 30 and A method of manufacturing a medical ion terminal for emitting magnetic force, anion and far infrared rays, characterized in that the magnetic material is attached to the surface of the magnetic body and attached to the release paper.

Images