KR100279513B1 - Clothing which has far-infrared radiation ceramic powder mixed with silver powder inside and its manufacturing method - Google Patents

Abstract

The present invention relates to a garment in which a far-infrared radiation ceramic powder in which silver powder is mixed arrives inside, and a method of manufacturing the same. The present invention relates to a blood circulation and metabolism of the human body by arriving in a garment such as a ceramic powder and silver powder. It aims to contribute to health by promoting and promoting sterilization and antimicrobial activity and cellular function.

The composition of the present invention is a fiber coated with far-infrared radiation ceramic powder, silicon dioxide (SiO ₂ ) 30%, magnesium oxide (MgO) 10%, alumina oxide (Al ₂ O ₃ ) 45%, silver oxide (Ag ₂ O purity 99.98-99.998%) 1%, Germanium (GE) 3.5%, Titanium (TiO ₂ ) 1.5% mixed at room temperature to 400-1,000 mesh powdered acrylic liquid CH-305 CAS compound and NEW DYFOAM W- It is a garment and a method of manufacturing the same, wherein the far-infrared radiation ceramic powder mixed with a silver powder characterized in that the coating composition is coated inside the garment with a binder composed of 400 is mixed.

Description

Clothing with Far Infrared Radiation Ceramic Powder Mixed with Silver Powder and Its Manufacturing Method

The present invention relates to a garment and a method of manufacturing the same, wherein the silver powder is mixed and the far-infrared radiation ceramic powder having a wavelength of 6.5-20 microns (μm) has a thermal effect to expand peripheral blood vessels to promote blood circulation and metabolism. A far-infrared radiation ceramic powder with excellent sterilization and antibacterial activity, strengthening the immune function of the cell to increase oxygen absorption ability and activating it. It aims to contribute to the promotion of health.

In general, far-infrared rays have a good effect on the activation of biological tissues because of the ionizing penetration energy effect caused by the electromagnetic waves radiated into the far-infrared rays. The use of woven fabrics, such as spun yarns as materials, is of interest in that it is a health garment having such bio-activating effect as far infrared rays have.

Conventionally, in the field of textiles and bedding, it is common to deposit ceramics emitting far-infrared rays on cotton or knit fabrics, and use them as shells of quilts, or to develop fibers with ceramics, and to use them as cotton or thread. There is also a fiber and a manufacturing method thereof (Patent Application No. 96-60246), which is a ceramic material made of dolomite or hard mica applied to the fiber, and at least one protrusion having a steeply inclined shape of the ceramic particles is irregular in an arbitrary direction. Was applied to the fiber tissue by printing a mixture of PVA aqueous solution and the active material in the printing method. The main purpose of the technical means is to prevent the ceramic particles from falling out of the fiber tissue. It relates to the textile industry. In addition, there is a method of blending far-infrared radiation ceramics with synthetic fibers, such as polyester, acrylic, and nylon, which belong to primary products such as threads and fabrics.As a method of weaving, ceramics are mixed with fibers, and ceramics are drawn out or pulled out. The coating method or the method of collecting the yarn coated with ceramics and wrapping it with natural fibers such as synthetic yarn, wool, cotton, etc. has been attempted.However, due to the difficulty in controlling the particle size and coating method of the ceramics, There was a problem of lack of practicality in the manufacturing method and effect of the fabric.

The present invention is the development of the garment industry belonging to the secondary textile products, blood adhesion due to the thermal effect of the far infrared rays by adhering the far-infrared radiation ceramic powder mixed with silver powder to the inside of the garment such as a lot of body contact with the binder to close to the skin And metabolism promoting action and silver antibacterial bactericidal action and cell immunity strengthening effect can be obtained together to contribute to health promotion.

The configuration of the present invention is as follows.

30% silicon dioxide (SiO ₂ ), 10% magnesium oxide (MgO), 45% alumina oxide (Al ₂ O ₃ ), silver oxide (Ag ₂ O) (purity) 99.98-99.998) 1%, germanium (GE) 3.5%, titanium (TiO ₂ ) 1.5% mixed at room temperature to 400-1,000 mesh powdered acrylic liquid CH-305 CAS compound and NEW DYFOAM W-400 It is a method of manufacturing a garment with a far-infrared radiation ceramic powder, characterized in that the coating composition is coated with a binder in a continuous shape having a diameter of 5-7 mm in size inside the garment.

In the present invention, the compound powder of silicon dioxide (SiO ₂ ), magnesium oxide (MgO), alumina oxide (Al ₂ O ₃ ), germanium (GE), titanium (TiO ₂ ), and the like has a wavelength of 6.5-20 microns (μm). It is a far-infrared radiator with a natural frequency of the human body, which is the organic substance of the absorber against heat, causing self-heating by internal resonance and resonance of molecules, promoting metabolism and peripheral blood circulation by the thermal effect, thereby promoting health promotion. do.

The reason why the silver (Ag ₂ O) powder is used in the present invention is that it promotes metabolism by strengthening the immune function of the cell and enhancing the oxygen respiration ability, and the bactericidal action against bacteria and viruses is strong and resistant to bacteria. Because it does not accumulate in the human body, it is effective in promoting health such as prevention and treatment of diseases.

Silver used in the present invention is easy to cause a chemical reaction if there is an impurity, the silver (Ag ₂ O) used must be at least 99.98% purity, even if it contains only 0.01% impurities such as copper, causing side effects to the human body, especially nickel Contains toxic substances such as (Ni) is fatal.

Example 1

1st process

Silicon (SiO ₂ ) 30% (weight ratio), magnesium oxide (MgO) 10% (weight ratio), alumina oxide (Al ₂ O ₃ ) 45% (weight ratio), silver oxide (Ag ₂ O) (purity 99.98% or more) 1% (Weight ratio), germanium (GE) 3.5% (weight ratio) and titanium (TiO ₂ ) (weight ratio) were mixed at room temperature and ground at 1,000 mesh to obtain far-infrared radiation ceramics having a wavelength of 6.5-20 microns (μm). .

2nd process

The powder obtained in the first step is mixed with an acrylic liquid CH-305 CAS composite and a mixture binder composed of NEW DYFOAM W-400.

3rd process

The mixed solution obtained in the second step arrived in a continuous shape of 5 mm diameter inside the garment to obtain the present invention, the radiation energy effect of the composition used in the present invention is shown in Table 1 and the antimicrobial test results in Table 2 appear.

TABLE 1

TABLE 2

The back garment of the present invention configured as described above is a disease in which bacteria, viruses, molds, etc. are caused by blood circulation and metabolism by the thermal effect of far-infrared rays emitted from ceramics, and by antibacterial, bactericidal and immune actions of silver oxide. It is effective in preventing colds, allergies, and arthritis.

Claims (2)

In the fiber coated with far-infrared radiation ceramic powder, silicon dioxide (SiO ₂ ) 30%, magnesium oxide (MgO) 10%, alumina oxide (Al ₂ O ₃ ) 45%, silver oxide (Ag ₂ O purity 99.98-99.998%) A mixture of 1%, 3.5% germanium (GE) and 1.5% titanium (TiO ₂ ) powdered at room temperature in a weight ratio of 400-1,000 mesh, consisting of acrylic liquid CH-305 CAS compound and NEW DYFOAM W-400 Clothing which has a far-infrared radiation ceramic powder mixed with a silver powder, which is mixed with a binder and coated inside the clothing, has arrived inside In the method for producing a fiber coated with far-infrared radiation ceramic powder, silicon dioxide (SiO ₂ ) 30%, magnesium oxide (MgO) 10%, alumina oxide (Al ₂ O ₃ ) 45%, silver oxide (Ag ₂ O purity 99.98- 99.998%) 1%, germanium (GE) 3.5%, titanium (TiO ₂ ) 1.5% mixed at room temperature in a weight ratio of 400-1,000 mesh to acrylic liquid CH-305 CAS compound and NEW DYFOAM W-400 Method of manufacturing a garment with a far-infrared radiation ceramic powder mixed with a silver powder, characterized in that it is mixed with the composition mixture binder and coated in a continuous shape having a diameter of 5-7 mm inside the garment.