KR20220019900A - Antibacterial mask containing a Bipa-Eenergy transfered fabric - Google Patents

Abstract

The present invention relates to an antibacterial mask having an antibacterial function to provide an antibacterial effect against external bacteria when a wearer breathes therethrough. According to the present invention, the antibacterial mask comprises a mask body made of a breathable cloth or a nonwoven fabric and left and right ear straps for hanging the mask body on the left and right ears. The mask body includes at least one layer of Bipa energy-transferred fabric. The Bipa energy-transferred fabric is manufactured by mixing water and fine powder of Bipa mineral, which is a rare earth mineral, including, in a mass ratio, 46.4% of silicon dioxide (SiO_2), 39.5% of aluminum oxide (Al_2O_3), 3.46% of potassium dioxide (K_2O), 1.25% of ferric trioxide (Fe_2O_3), 0.88% of calcium oxide (CaO), 1.33% of magnesium oxide (MgO), 1.36% of titanium dioxide (TiO_2), 0.43% of sodium oxide (Na_2O), 0.19% of phosphorus pentoxide (P_2O_5), 0.12% of manganese oxide (MnO), 0.02% of zinc oxide (ZnO), 5.06% of and loss (lg-Loss), to make Bipa-mixed water, heating the Bipa-mixed water to evaporate the water, condensing the evaporated Bipa mixed water to produce Bipa water, spraying the Bipa water on fabric made of cloth or non-woven fabric in a high-temperature and high-pressure state, and drying the fabric to transfer Bipa energy to the fabric.

Description

Antibacterial mask containing a Bipa-Eenergy transfered fabric

The present invention relates to an antibacterial mask comprising a non-wave energy transfer fabric.

The technical field to which the present invention pertains may be a disposable mask or a medical mask. Disposable masks or dental masks mainly used by dentists mainly use non-woven fabrics. Non-woven fabric is not made by weaving yarn, but by treating fibers mechanically, chemically or thermally to bind the fiber aggregate to form a direct fabric, also called bonded fabric.

These masks are inexpensive, can be used for one-time use, and can block droplets. These masks block the transmission of droplets (droplets) from the mask user to others, thereby preventing infectious diseases, while being lightweight and breathable.

These masks have a particle blocking ability of 55 to 80%, which means that they filter out about 55 to 80% of particles with a diameter of 0.4 to 0.6 μm. The droplet blocking mask uses a thin non-woven fabric to make breathing easier. These non-woven masks also have a waterproof function.

The most basic function of disposable masks using non-woven fabrics is to not only protect the user from the external polluted environment, but also to prevent the user's saliva from leaking out.

The mask of the present invention aims to produce a functional mask that, in addition to the basic function of preventing splashes, also provides a function of activating the user's metabolism and promoting the user's blood circulation by emitting negative ions and far-infrared rays with antibacterial action.

The antibacterial mask of the present invention is composed of a mask body made of a breathable cloth or non-woven fabric, and left and right earrings that allow the mask body to be hung on the left and right ears. The body of the antibacterial mask of the present invention emits negative ions and far-infrared rays with antibacterial action to activate the user's metabolism and to provide the function of accelerating the user's blood circulation. characterized.

Bi-wave energy used in the present invention provides a beneficial function to the human body. In the invention used in the present invention, anions and far-infrared rays generated by rare earths are utilized. The mask of the present invention transfers the energy of the loquat mineral, which has a special function beneficial to the human body, to the mask of the present invention, thereby providing a special effect to the user using the mask of the present invention. The fabric to which the non-wave energy is transferred has an antibacterial function and emits far-infrared rays and negative ions. The present invention transfers the beneficial loquat energy possessed by loquat minerals to a fabric in the form of colorless and odorless, and manufactures a mask containing the fabric in the inside of a mask composed of several layers, so that the mask itself has antibacterial and cellular functions It is an object of the present invention to provide a mask having an activation action, a blood purification action, an autonomic nerve control action, and a far-infrared emitting function.

In the present invention, non-wave energy transfer fabric is used so that the mask has antibacterial action, cell function activation action, blood purification action, autonomic nerve control action, and far-infrared emission function.

In the present invention, the mask body includes at least one layer of non-wave energy transfer fabric. In the present invention, in order to make loquat energy, fine particle powder of loquat mineral is used. In the present invention, loquat minerals are silicon dioxide (SiO2) 46.4%, aluminum oxide (Al2O3) 39.5%, potassium dioxide (K2O) 3.46%, ferric trioxide (Fe2O3) 1.25%, calcium oxide (CaO) 0.88%, magnesium oxide (MgO) ) 1.33%, titanium dioxide (TiO2) 1.36%, sodium oxide (Na2O) 0.43%, phosphorus pentoxide (P2O5) 0.19%, manganese oxide (MnO) 0.12%, zinc oxide (ZnO) 0.02%, loss (lg-Loss) It means a rare earth mineral with a mass ratio of 5.06%.

The loquat energy transfer fabric used as the fabric of the mask of the present invention mixes water with the fine particle powder of loquat minerals to make loquat mixed water, heat is applied to the loquat mixed water to evaporate the loquat mixed water, and the evaporated loquat mixed It is characterized in that the water is condensed to produce pipa water, and the pipa water is sprayed on a fabric made of cloth or non-woven fabric in a high temperature and high pressure state, and then dried to transfer pi wave energy to the fabric.

When a person breathes through the mask of the present invention, it is possible to enjoy an antibacterial effect against external bacteria. In addition, when the mask of the present invention is used at the same time, the user will obtain great help in activating cell functions, purifying blood, and regulating autonomic nerves. In addition, when the mask of the present invention is used, the effect of far-infrared rays can be obtained at the same time, so it is possible to obtain the advantage of activating human cells by far-infrared rays from the skin to the body fluids of the body.

1 is an explanatory diagram for a yellow dust mask.
2 is an explanatory view of a dental mask.
It is explanatory drawing for the cross section of a triple structure mask.
It is explanatory drawing explaining the loquat mineral crushing process.
Fig. 5 is an explanatory view for explaining the loquat mixed water and the loquat water manufacturing process.
6 is an explanatory diagram for explaining a transfer process of transferring a non-wave number to a fabric.
7 is an explanatory view for explaining the thermal infrared test result of the mask of the present invention.

The present invention relates to an antibacterial mask comprising a non-wave energy transfer fabric.

The antibacterial mask of the present invention is composed of a mask body made of a breathable cloth or non-woven fabric, and left and right earrings that allow the mask body to be hung on the left and right ears.

The body of the antibacterial mask of the present invention is characterized in that it comprises at least one layer of non-wave energy transfer fabric.

The present invention is characterized in that the antibacterial mask is a multi-layered mask, wherein at least one layer includes a non-wave energy transfer fabric.

In the present invention, the non-wave energy transfer fabric is completed by going through a loquat mineral crushing process, a loquat mixed water manufacturing process, a loquat manufacturing process, a non-wave water treatment process of treating the fabric with loquat water, and a drying process of the fabric.

In the present invention, silicon dioxide (SiO2) 46.4%, aluminum oxide (Al2O3) 39.5%, potassium dioxide (K2O) 3.46%, ferric trioxide (Fe2O3) 1.25%, calcium oxide (CaO) 0.88%, magnesium oxide (MgO) 1.33% , titanium dioxide (TiO2) 1.36%, sodium oxide (Na2O) 0.43%, phosphorus pentoxide (P2O5) 0.19%, manganese oxide (MnO) 0.12%, zinc oxide (ZnO) 0.02%, loss (lg-Loss) 5.06% Rare earth minerals composed of mass ratio are defined as loquat minerals.

The main roles of each component in the non-wave mineral of the present invention are as follows.

Silicon dioxide (SiO2) 46.4%: Removes pore waste and excess sebum, improves skin elasticity. Aluminum oxide (Al2O3) 39.5%: Promotes blood circulation. Potassium dioxide (K2O) 3.46%: promotes salt excretion and lowers blood pressure. Ferric trioxide (Fe2O3) 1.25%: Collagen binding action. Calcium Oxide (CaO) 0.88%: Detoxification and systemic stabilizing effect (stress suppression). Magnesium Oxide (MgO) 1.33%: Promotes excretion of wastes. Titanium dioxide (TiO2) 1.36%: Removes antibacterial odors such as viruses, sterilizes UV rays. Sodium oxide (Na2O) 0.43%: osmotic pressure control (waste clearance). Phosphorus pentoxide (P2O5) 0.19%: metabolism activation, anti-aging and healing of cell tissues. Manganese oxide (MnO) 0.12%: Reproductive function, regulation of enzyme production, regulation of body detoxification and excretion. Zinc Oxide (ZnO) 0.02%: nutritional fortifying agent, growth hormone control. Loss (lg-Loss) 5.06%: It has functions such as high heat loss.

In order to make the loquat energy transfer fabric of the present invention, first, the loquat mineral is finely pulverized to make a fine particle powder, and water is mixed with the fine particle powder to make loquat mixed water. In the present invention, loquat mixed water is defined as loquat mixed water by applying heat to the loquat mixed water to evaporate the loquat mixed water and condensing the evaporated loquat mixed water.

When the non-wave water is sprayed or immersed in the fabric made of cloth or non-woven fabric under high temperature and high pressure and then the fabric is dried through a heating and drying process, all the moisture constituting the non-wave water is evaporated in the fabric and only the non-wave energy is applied to the fabric. are transcribed

In the present invention, the fabric to which the non-wave energy is transferred is defined as the fabric to which the non-wave energy is transferred in the present invention. The physical components of the original loquat mineral do not remain in the fabric for transferring pipa energy, and the special energy of the loquat mineral is transferred to the fabric and remains.

The non-wave energy transfer fabric of the present invention has a unique function. The colorless and odorless fabric to which the pipa energy is transferred has an antibacterial function. In addition, there are cell function activation action, blood purification action, and autonomic nerve regulation action. The transfer fabric creates a negative potential (negative ion) effect. Negative potential has a good effect on the human body. Human cells are covered with 100 trillion permeable membranes called plasma membranes. The negative potential of the transcriptional end activates cell functions by helping intake of nutrients and excretion of wastes through the membrane. Human blood is expressed as weakly alkaline with a pH of 7.4 as a reference value. The human body progresses to acidification due to dietary habits, and the negative potential acts as a blood purifier that controls acidification.

The internal organs, hormones, blood vessels, etc. of the human body are governed by the autonomic nervous system regardless of the human will. The negative potential of the transcriptional fabric of the present invention performs an autonomic regulation action in the internal organs, hormones, blood vessels, etc. of the human body.

In addition, far-infrared rays are generated in the fabric of the invention. These far-infrared rays act on body fluids from the skin to activate human cells. Far-infrared rays are electromagnetic waves with a long wavelength between 5.6 - 1,000 microns of red heat, a visible ray of sunlight. Among them, far-infrared rays in the wavelength range of 5.6 - 14 microns are beneficial to the human body with strong heat action that is injected up to 40 - 50 mm subcutaneously. Hereinafter, the present invention will be described with reference to the drawings.

1 is an explanatory diagram for a yellow dust mask. The yellow dust mask should be able to block 80% or more of fine particles with an average size of 0.6 μm. A licensed yellow dust mask can block even the smallest dust.

Since yellow dust exacerbates various respiratory diseases such as asthma and allergic rhinitis, it is helpful for patients or the elderly to use a yellow dust mask when going out to prevent disease.

The reason why the yellow dust mask has a high blocking effect is that the gap is smaller than that of a general health mask, so it filters fine dust and microorganisms adsorbed to the dust well.

A yellow dust mask blocks more than 98% of microorganisms, and a general health mask blocks 80% of the effect.

After examining whether yellow dust masks are effective in blocking yellow dust and fine dust, only those with proven effectiveness are recognized as yellow dust masks.

When a yellow sand mask is washed, the filter inside the mask is physically damaged or its function is damaged. Do not use after washing as it may not be able to properly block the yellow sand component. It is recommended not to touch the mask after wearing it, as touching the surface of the mask with your hands can damage the filter on the mask.

2 is an explanatory view of a dental mask. A dental mask was used as a surgical mask. It is designed to prevent the patient's blood and body fluids. It has an MB filter and is waterproof. A dental mask has the advantage that it can be used for a long time because it is easy to breathe because it is well ventilated.

A normal dental mask is a triple-structured filter mask that has a waterproof layer on the surface to block splashes, but the blocking power against small particles such as fine dust from outside is not high. Dental masks have weak adhesion to the face due to the mask structure.

It is explanatory drawing for the cross section of a triple structure mask. The triple structure mask belongs to the most basic form of the mask. In general, the front and back surfaces of the mask are mostly composed of non-woven fabric, and a filter is formed in the middle layer.

Of course, one or more plurality of filter layers may be configured in the intermediate layer.

The present invention relates to an antibacterial mask having an antibacterial function. The mask of the present invention is composed of a mask body made of a breathable cloth or non-woven fabric, and left and right earrings that allow the mask body to be hung on the left and right ears.

The mask body includes at least one layer of non-wave energy transfer fabric.

The non-wave energy transfer fabric is manufactured by transferring the non-wave energy to the fabric. Loquat water is produced by evaporating and condensing loquat mixed water in which a large amount of water is mixed with fine powder of loquat minerals. In the present invention, the loquat mineral is silicon dioxide (SiO2) 46.4%, aluminum oxide (Al2O3) 39.5%, potassium dioxide (K2O) 3.46%, ferric trioxide (Fe2O3) 1.25%, calcium oxide (CaO) 0.88%, magnesium oxide (MgO) ) 1.33%, titanium dioxide (TiO2) 1.36%, sodium oxide (Na2O) 0.43%, phosphorus pentoxide (P2O5) 0.19%, manganese oxide (MnO) 0.12%, zinc oxide (ZnO) 0.02%, loss (lg-Loss) It is defined as a rare earth mineral composed of a mass ratio of 5.06%.

Water is mixed with the fine powder of loquat mineral, a rare earth mineral used in the present invention, to make loquat mixed water, heat is applied to the loquat mixed water to evaporate loquat mixed water, and the evaporated loquat mixed water is condensed to produce loquat water. , and spraying the non-wave water on the fabric made of cloth or non-woven fabric in a high-temperature and high-pressure state, and then transferring the bi-wave energy to the fabric through a heating and drying process on the fabric.

The fabric to which the non-wave energy is transferred is referred to as a non-wave energy transfer fabric in the present invention.

A feature of the present invention is that the filter layer in the middle part of the mask body is made of non-wave energy transfer fabric. Of course, the non-woven fabric constituting the front and back sides of the mask can also be made of non-wave energy transfer fabric.

The mask body of the present invention is characterized in that it includes at least one or more non-wave energy transfer fabrics.

It is explanatory drawing explaining the loquat mineral crushing process. In the present invention, loquat minerals are used. In the present invention, loquat minerals are silicon dioxide (SiO2) 46.4%, aluminum oxide (Al2O3) 39.5%, potassium dioxide (K2O) 3.46%, ferric trioxide (Fe2O3) 1.25%, calcium oxide (CaO) 0.88%, magnesium oxide (MgO) ) 1.33%, titanium dioxide (TiO2) 1.36%, sodium oxide (Na2O) 0.43%, phosphorus pentoxide (P2O5) 0.19%, manganese oxide (MnO) 0.12%, zinc oxide (ZnO) 0.02%, loss (lg-Loss) It is defined as a rare earth mineral composed of a mass ratio of 5.06%.

It can be made into fine particles by crushing loquat minerals. In the present invention, first, the loquat mineral is pulverized and made into a fine particle powder with a size of 1,000 mesh.

Fig. 5 is an explanatory view for explaining the loquat mixed water and the loquat water manufacturing process.

Loquat mixed water is defined as a liquid made by pouring a large amount of water into the loquat mineral particle powder with a size of about 1,000 mesh. The mixed water of loquat mixed well with sufficient stirring is heated to make steam, and the steam is condensed to produce loquat.

Loquat mixed water is silicon dioxide (SiO2), aluminum oxide (Al2O3), potassium dioxide (K2O), ferric trioxide (Fe2O3), calcium oxide (CaO), magnesium oxide (MgO), titanium dioxide (TiO2), sodium oxide (Na2O) ), phosphorus pentoxide (P2O5), manganese oxide (MnO), and zinc oxide (ZnO).

However, since the non-wave water is made by condensing water vapor, Titanium dioxide (TiO2), sodium oxide (Na2O), phosphorus pentoxide (P2O5), manganese oxide (MnO) and zinc oxide (ZnO) are not found.

Bipasu is a material made through evaporation and condensation of pipa mixed water, and the various components described above are not included in pipasu.

6 is an explanatory diagram for explaining a transfer process of transferring a non-wave number to a fabric.

After sufficiently stirring the loquat mixed water, the loquat mixed water is heated to generate steam. A substance made into a liquid phase by condensing the evaporated water vapor is defined as non-wave water.

The non-wave water is heated to a high temperature and pressurized under high pressure to spray onto fabric or non-woven fabric.

When the non-wave water is sprayed onto the fabric or non-woven fabric under high heat and high pressure, the intrinsic energy contained in the non-wave water is transferred to the cloth or non-woven fabric.

In order to pursue high efficiency, non-wave water is sprayed at high temperature and high pressure, but in some cases, it is of course also possible to transfer energy by immersing a fabric or non-woven fabric in the non-wave water. At this time, if an appropriate heat is applied to the non-wave number, the transfer is made more effectively.

As a method of transferring the energy contained in non-wave water to a fabric made of cloth or non-woven fabric, it is to spray the non-wave water on the fabric made of cloth or non-woven fabric at high temperature and high pressure, or to immerse the fabric made of cloth or non-woven fabric in the non-wave water. There is a way.

After transferring the energy contained in the non-wave water to the fabric made of cloth or non-woven fabric, the fabric is dried. Drying is mainly accomplished by heating heat.

If the non-wave water is sprayed under high temperature and high pressure, drying is performed quickly.

When the colorless and odorless energy contained in Bipasu is transferred to a fabric made of cloth or nonwoven fabric, the fabric has an antibacterial function and unique advantages.

That is, the fabric contains energy that enables cell function activation, blood purification, and autonomic nerve control.

In addition, the transfer fabric generates a negative potential (negative ion) effect. Negative potential has a good effect on the human body. Human cells are covered with 100 trillion permeable membranes called plasma membranes. The negative potential of the transcriptional end activates cell functions by helping intake of nutrients and excretion of wastes through the membrane. Human blood is expressed as weakly alkaline with a pH of 7.4 as a reference value. The human body progresses to acidification due to dietary habits, and the negative potential acts as a blood purifier that controls acidification.

The internal organs, hormones, blood vessels, etc. of the human body are governed by the autonomic nerve regardless of the will of the human being.

In addition, far-infrared rays are generated in the fabric of the invention. These far-infrared rays act on body fluids from the skin to activate human cells. Far-infrared rays are electromagnetic waves with a long wavelength between 5.6 - 1,000 microns of red heat, a visible ray of sunlight. Among them, far-infrared rays in the wavelength range of 5.6 - 14 microns are beneficial to the human body with strong heat action that is injected up to 40 - 50 mm subcutaneously.

The present invention is an antibacterial mask having an antibacterial function, and the mask body is a mask including at least one layer of non-wave energy transfer fabric.

When a person breathes through the mask of the present invention, it is possible to enjoy an antibacterial effect against external bacteria. In addition, when the mask of the present invention is used at the same time, the user will obtain great help in activating cell functions, purifying blood, and regulating autonomic nerves. In addition, when the mask of the present invention is used, the effect of far-infrared rays can be obtained at the same time, so it is possible to obtain the advantage of activating human cells by far-infrared rays from the skin to the body fluids of the body.

The mask of the present invention can be modified in various forms. Of course, the antibacterial mask may be processed with a single piece of fabric or a plurality of fabrics for the mask body. In addition, the mask of the present invention can perform non-wave energy transfer to the entire mask body after the mask main agent is first manufactured. This embodiment is one of various embodiments constituting the present invention.

In the present invention, the fabric in which the non-wave energy is transferred to the fabric is another object of the present invention.

7 is a photograph showing the thermal infrared test results of the antibacterial mask including the non-wave energy transfer fabric according to the present invention.

Photo 1 is an ordinary general mask, and Photo 2 is an antibacterial mask according to the present invention.

This test was conducted using an infrared thermal imager at an indoor temperature of 26℃ and a humidity of 40%, and it is the result of processing the infrared radiation energy emitted from the measurement object as image and temperature data.

As can be seen in the drawing, it can be confirmed that far-infrared rays are generated in the antibacterial mask according to the present invention than in a typical general mask.

Such far-infrared rays are electromagnetic waves with a long wavelength between 5.6 and 1,000 microns of red heat, which is visible light among sunlight, and act on body fluids from the skin to activate human cells.

Among them, far-infrared rays in the wavelength range of 5.6 - 14 microns are beneficial to the human body with strong heat action that is injected up to 40 - 50 mm subcutaneously.

Accordingly, when the antibacterial mask of the present invention is worn, it is possible to obtain the advantage of activating human cells by far-infrared rays from the skin to the body fluids in the body.

Meanwhile, the following <Table 1> shows the radiation energy test results for the mask of the present invention.

As described above, it can be seen that the antibacterial mask according to the present invention has an emissivity of 0.883 microns, and a radiant energy of 3.40×10 ² (W/m 2 ·㎛, 37°C) is measured.

And, <Table 2> shows the antibacterial test results for the mask of the present invention.

As described above, the antibacterial mask according to the present invention can confirm a significant bacteriostatic reduction rate compared to a mask using a standard fabric after the setting time has elapsed.

Those of ordinary skill in the art to which the present invention pertains, within the scope of not departing from the technical spirit of the present invention, various substitutions and modifications are possible, so that the present invention is limited only to the above-described embodiments and the accompanying drawings not.

1: Yellow dust mask
2: Dental Mask
3: Non-woven fabric
4: filter
5: Non-woven fabric

Claims (4)

An antibacterial mask having an antibacterial function, wherein the antibacterial mask is composed of a mask body made of a breathable cloth or non-woven fabric, and left and right earrings that allow the mask body to be hung on left and right ears;
the mask body includes at least one non-wave energy transfer fabric;
The non-wave energy transfer fabric is silicon dioxide (SiO2) 46.4%, aluminum oxide (Al2O3) 39.5%, potassium dioxide (K2O) 3.46%, ferric trioxide (Fe2O3) 1.25%, calcium oxide (CaO) 0.88%, magnesium oxide (MgO) ) 1.33%, titanium dioxide (TiO2) 1.36%, sodium oxide (Na2O) 0.43%, phosphorus pentoxide (P2O5) 0.19%, manganese oxide (MnO) 0.12%, zinc oxide (ZnO) 0.02%, loss (lg-Loss) Mixing water with fine particles of loquat mineral, a rare earth mineral composed of a mass ratio of 5.06%, with water to make loquat mixed water, applying heat to the loquat mixed water to evaporate loquat mixed water, and condensing the evaporated loquat mixed water to make loquat mixed water. An antibacterial mask, characterized in that water is produced, and the non-wave water is sprayed on a fabric made of cloth or non-woven fabric in a high temperature and high pressure state, and then dried to transfer the bi-wave energy to the fabric. The antibacterial mask according to claim 1, wherein the mask body is made of one layer. An antibacterial mask having an antibacterial function, wherein the antibacterial mask is composed of a mask body made of a breathable cloth or non-woven fabric, and left and right earrings that allow the mask body to be hung on left and right ears;
The mask body is dried after spraying non-wave water in a high-temperature and high-pressure state;
The specific wave number is silicon dioxide (SiO2) 46.4%, aluminum oxide (Al2O3) 39.5%, potassium dioxide (K2O) 3.46%, ferric trioxide (Fe2O3) 1.25%, calcium oxide (CaO) 0.88%, magnesium oxide (MgO) 1.33 %, titanium dioxide (TiO2) 1.36%, sodium oxide (Na2O) 0.43%, phosphorus pentoxide (P2O5) 0.19%, manganese oxide (MnO) 0.12%, zinc oxide (ZnO) 0.02%, loss (lg-Loss) 5.06% It is characterized in that water is mixed with fine particle powder of loquat mineral, a rare earth mineral composed of a mass ratio of antibacterial mask. Silicon dioxide (SiO2) 46.4%, aluminum oxide (Al2O3) 39.5%, potassium dioxide (K2O) 3.46%, ferric trioxide (Fe2O3) 1.25%, calcium oxide (CaO) 0.88%, magnesium oxide (MgO) 1.33%, titanium dioxide (TiO2) 1.36%, sodium oxide (Na2O) 0.43%, phosphorus pentoxide (P2O5) 0.19%, manganese oxide (MnO) 0.12%, zinc oxide (ZnO) 0.02%, loss (lg-Loss) 5.06% Mixing water with the fine powder of loquat mineral, a rare earth mineral, to make loquat mixed water, applying heat to the loquat mixed water to evaporate loquat mixed water, and condensing the evaporated loquat mixed water to produce loquat water, A fabric in which bi-wave energy is transferred to the fabric, characterized in that the non-wave water is sprayed on a fabric made of cloth or non-woven fabric in a high-temperature and high-pressure state, and then dried.

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