KR200402425Y1 - multi gown - Google Patents

Abstract

Bacteria are most lurking in contact with many people's hands and bodies, and most people don't see it with the naked eye, and most of them don't know this, and only after being infected with bacteria, fungi, and viruses can they realize their severity.

  The present invention is made of natural materials such as wool, cotton, hemp, burlap and artificial materials such as latex, microfiber, rubber, synthetic resin, silicone poly-based materials, saunas, gyms, massage parlors and lodging facilities. , Gowns (20, 80) to be worn at the time of steaming, bathing, sleeping, massage at home,

In particular, it relates to silver nano (110) that acts as an antibacterial and deodorizing agent, ginseng (20, 80) containing tornin 120 material and fragrance (140) that emits far infrared rays and anions. It relates to functional gowns (20, 80) that emits ions and far-infrared rays that are good for the body, which is effective for the health of users and the public health and hygiene.

Description

Functional gown {multi gown}

 The present invention relates to a bathrobe (20, 80) to be worn at a sauna, a gym, a massage parlor, a lodging facility or a home, for steaming, bathing, and massage, and in particular, silver nano (110), which is an antibacterial substance, and far infrared rays and anions Functional gown (20, 80) having the function of blocking and deodorizing effect of bacterial growth occurring in the body of the gown (20, 80) and anion and far-infrared ray emitting function by injecting the torn-release material 120 and the fragrance (140) The prior art discloses a gown (20, 80) registered with the applicant as a gown (20, 80) containing nano silver and fragrance, which is a medical practitioner, research institute The present invention relates to a gown worn by a person in a semiconductor manufacturing company, a cook, a pharmaceutical company, a slaughterhouse, a food manufacturer, and the like, and the present invention relates to a gown 20 and 80 worn in a sauna or a jjimjilbang.

Recently, some favorite gyms and well-being crazes are emerging, and some of the gymnasiums that are growing like bamboo shoots do not clean their rental gowns (20, 80) or blankets. There is controversy over allegations that more cases are infected.

According to recent urologists, the proportion of patients claiming to be infected with parasitic diseases classified as sexually transmitted diseases such as stool feet and scabies has been reported in recent years by gowns (20, 80) jointly used in jjimjilbang, sauna and gym. Increased significantly.

Aunt Lee, who runs a urology clinic in Myeong-dong, Seoul, said, “It is true that the number of patients who have visited due to the injuries has increased in recent 2-3 years.” “In the past, it was rare for 1-2 people at most per month. "They have increased by about."

"I don't know exactly why, but if you follow the path of infection, you haven't had any recent sexual contact, and it's often assumed that you're infected in a jjimjilbang," he said.

He also described a case in which a parasite is rapidly increasing in recent years, citing a case of a colleague's doctor who suspected a spouse's spouse's infection through a sportswear jointly used by a gym.

The grandmother, who works with the director, explains that parasitic diseases, such as stools, are spread through hairy items such as blankets, gowns (20, 80), and carpets. "If you don't do it thoroughly or if you put on a gown (20, 80) that has been removed by you, there is a risk."

Conventional gowns 20 and 80 change clothes worn by an unspecified number of people after taking off clothes in a sauna, a jjimjilbang, or a gym and exhaust sweat for a long time. The clothes worn by a patient with an infectious disease are completely washed. Unless it does, it has a high probability of being infected by someone else's wear.

 The material of the gowns 20 and 80 is made of synthetic resin, which is an artificial chemical, including cotton, which is a natural material, and is sold.

The present invention relates to a gown (20, 80) that people use in the steaming bath, sauna, gym, massage parlor, lodging facility, home steaming, bathing, massage,

 More specifically, silver nano (110) and tourmaline (120) having a compact structure to increase antibacterial power, anion, far-infrared generation, adhesion and heat retention in the body of the natural or artificial gown (20, 80) It relates to a manufacturing method of a gown (20, 80) to be worn at the time of steaming, bathing, massage at a sauna, a gym, a massage parlor, a lodging facility, a home containing a substance and the fragrance 140.

Conventionally, when looking at the gown (20, 80) is mostly made of natural cotton or synthetic resin or foam latex material and once used, sweat or secretion discharged from the human body is absorbed in large quantities in the gown (20, 80) so that it is washed and Failure to dry and sterilize can lead to bacterial infection.

Since the gown 20, 80 of the present invention has antibacterial power on the body itself, the gown 20, 80 may block the bacterial infection because of its antibacterial power even on a long term use. .

The present invention relates to the antimicrobial gowns 20 and 80 containing silver nano 110 and the tourmaline 120 as perished. The gowns 20 and 80 of the gowns 20 and 80 are manufactured. Aging of one or more antimicrobial mineral metals including silver nano, preferably gold, copper, zinc, tin, or the like, into the material of the wearable gown (20, 80) Tourmaline (120), which is a popular tourmaline mineral, is used to protect the user's body by disinfecting and deodorizing and emitting far infrared rays. (120) relates to functional gowns 20 and 80 to which a substance and fragrance 140 are added.

The antimicrobial minerals injected into the gowns 20 and 80 of the present invention are as follows, looking at the advantages of the silver nano 110 and the tourmaline 120 material and the fragrances 140 additionally added.

First, the silver nano 110 of the present invention is economical because the silver nano (110) and the tourmaline (120) material is easily added during the manufacture of the gown (20, 80) without the physical, chemical, or electrical action of the surroundings The antimicrobial and bactericidal properties and long-term release and sustainability of far infrared anions can be maintained for a long time.

Then, if you first look at the features of the representative antimicrobial mineral metal silver nano (110)

     1: Nanonized silver has better antibacterial, antiseptic, deodorant and detoxification functions than any fungicides, and gowns (20, 80) containing silver nano (110) promote blood circulation and endocrine activity when used. It can block more than 90% of the form hormone, an environmental hormone that is becoming, and can have antiviral and antiallergic effects.

        2: It reacts sensitively according to the pollution level of the surrounding environment

It strongly binds with SH, COOH, OH, etc. of bacteria and destroys the cell membrane of bacteria or disturbs the function of cells and shows continuous antiseptic action.

 Recent research has shown that 650 bacteria and viruses can be sterilized, and the reproductive and anti-bacterial functions of harmful bacteria, fungi, salmonella and allergies are excellent, preventing secondary infections from humans from problematic sources. The silver is catalyzed to convert oxygen into active oxygen, which prevents the sterilization and the proliferation of bacteria and virus parasites that are reproduced by body fluids, saliva, or secretions or foods.

        3: There is an antistatic function. Silver nano (110) has excellent electrical conductivity and prevents the generation of static electricity and harmful electromagnetic waves and prevents atopy, skin disease, itching and has the function to stabilize the mind and body.

        4: The silver nano 110 is very easy to coat 360, mix 380, or the like with a material, and is made of cloth, metal, plastic, and the gowns 20 and 80 of the present application, synthetic resin, rubber, It blends well with poly series.

        5: In addition, silver ions and far infrared rays, which are good for a person's body, generate fast color reactions that change color depending on a person's health condition. Therefore, they become a health check point.

6: It has a deodorizing effect and a fragrance diverging effect.

The gowns (20, 80) are in contact with the user's large amounts of sweat and human secretions, and the body of the gown (20, 80) has a very disgusting smell when used for a long time. During the manufacturing process, natural fragrances such as aromas, fruits, herbs, and flowers are used. (140) The liquid or powder of the raw material is added in a weight ratio of 0.01 to 10% by weight so that a gentle fragrance is always emitted from the body 20 of the gowns 20 and 80, so that the smell of the user of the gowns 20 and 80 is enjoyed. It is effective in preventing allergic diseases and rhinitis and increasing health.

Next, look at the advantages of the tornin (120) minerals injected with the silver nano (110), the far-infrared rays emitted from the torn (120) promote the flow of human blood, promote sweating (discharge of waste), neuralgia, Relieves arthritis, low back pain, sedation effect (face), deodorization, antibacterial, dehumidification, soft hydration (water), air cleaning, etc. In Europe and Japan, jewelry, underwear, bedding, cosmetics, air purifier, It is widely used in medical devices, tableware, water purifiers and the like.

Natural tourmaline minerals are silver hexagonal crystal structures with a specific gravity of 2.90-3.10 g / cm2 and chemical composition of Max 3 Al 6 B3 S 16 (OH.O) 3 O (OH.F). Branches are igneous rocks with rich ores such as diamonds, pink, light green, blue, purple, and red. Especially, positive and negative poles naturally occur at both ends of the crystal, resulting in a potential difference of about 1 million volts. It is also called a tourmaline because it has a property that a weak current of ampere flows permanently.

Due to this characteristic of tourmaline (320), weak currents stimulate the acupuncture points on the human body to improve the peripheral circulation system and promote blood flow. About acidified body fluids

It is known to give stability to the human body by improving caliber constitution, and test results of 325 mesh tourmaline (120) powder from Korea Institute of Construction Materials Research Institute showed the characteristics of far-infrared radiation as shown in the following test report. The far infrared and radiation energy improves blood circulation and promotes metabolism, promotes the discharge of skin wastes, activates the skin, and has excellent effects on the treatment of diabetes, constipation pain and arthritis. It has a very beneficial effect.

1. Far-infrared radiation effect (4-14 micrometer growth beam)

Far-infrared rays penetrate deep into the body to heat up the cells, improve blood flow, activate biological tissues, boost immunity, and maintain metabolism. The far-infrared emissivity of tourmaline 140 is close to 100% and shows higher dimensions than any other mineral.

In particular, far-infrared rays penetrate to the subcutaneous 40-50mm and radiate from the inside of the body to help not only feel the hot spring bath, but also to recover from fatigue, promote blood circulation, increase immunity, activate tissues, maintain skin elasticity, coldness, neuralgia, muscle pain, stiff shoulders, back pain, etc. Becomes

2. Generation of negative ions

Negative ions are also called "air vitamins", and the body's action to regulate the balance of ions is recognized, and negative ions relax the mind and body together, activate the cells and increase the natural healing power, thereby inhibiting the body's oxidation and aging. It is known. The modern environment has many elements that generate cations, which causes the body to become tense and the tourmaline 140 releases large amounts of negative ions.

3, deodorant effect.

Most of the odor causing substances are floating in the air, that is, the odor causing substances are charged and float in the cation.

  As the number of anions in the room increases, in some cases, the cations and negative ions of the floating odor-causing substances are neutralized electrically and become odorless. It will be lost. Tourmaline 140 not only removes the odor floating in the room, but also has an effect on the odor emitted from the body, and the anion generated by the tourmaline 140 has a function of decomposing or neutralizing the odor.

4. Warming up.

The amount of tornin 120 emitted by far infrared rays increases as heat is applied, and when the tornin 120 has a product processed into ore or powder, the body absorbs heat energy emitted from the human body.

The torrid 140 converts this heat energy back into heat energy and returns it to the body.

In addition, as the body becomes an energy source, the torrid (140) warms the body and the heat energy radiates far infrared rays from the torn (140), so the longer the torrid (120) material is retained, The effect is increased.

5. Other effects

Sleep effect, promote blood circulation, increase skin elasticity and trouble, remove odor, pain relief, growth growth, life extension, increase immunity, increase energy, change taste of food, maintain freshness of food, absorption and dispersion of harmful electromagnetic waves, insect repellent effect It is effective in changing the constitution.

The above has been described in detail the advantages of the silver nano (110) and the tourmaline (140) injected into the functional gown (20, 80) of the present invention.

The object of the present invention is to provide a functional antimicrobial gown (20, 80) containing silver nano (110), torn malin 120 material and a fragrance (140) that greatly improved the conventional gown (20, 80) .

The present invention is designed to solve the above-mentioned problems. As described above, natural resins such as wool, cotton, cotton, silk, burlap and artificial fibers are synthetic resins, sponges, and latexes. The functional gown (20, 80) is a mixture of silver nano (110), tourmaline (120) and fragrance (140) in a wear gown (20, 80) made of a material of silicone, microfiber, poly-based ,

       The present invention is made of silver and tourmaline 120, which is a technology different from general powders and ions, as nano-fine ultrafine particles, and mixed with 0.01 to 10% by weight in the whole body of the gown (20, 80), respectively, and liquid of natural fragrance-based raw materials. B. The powder is added in an amount of 0.01 to 10% by weight for the purpose of producing excellent gowns (20, 80) having antibacterial function, bactericidal function, deodorizing effect, fragrance generation and negative ion and far infrared radiation function.

The present invention is a functional gown containing silver nano (110) and tourmaline (120) material, which is an antimicrobial mineral for the purpose of elevating the user's health because the gown (20, 80) does not produce germs and smells even after long use. (20, 80).

Therefore, the problem to be achieved by the present invention is to overcome various problems as described above, while having excellent antibacterial ability, excellent antibacterial ability and far infrared ray and anion emission for a long time, functional antibacterial gown that is not harmful to human body at low cost (20, 80) To provide.

The present invention uses silver nano (110) and torn dried (120) materials, which are anti-sterilization, detoxification and far-infrared rays and negative ions, and are made of natural wool, cotton, and hemp fibers, which are the bodies of the gowns (20, 80), and artificial latexes. , Silver, nanofiber, rubber, resin, poly-based raw material of the nano (110) and tourmaline (120) material 0.01 to 10% by weight and fragrance agent, respectively, based on the total weight of 100% by weight of the gown (20, 80) material It relates to the mixing (380) or coating (360) by injecting 140 to 0.01% by weight.

Gown (20, 80) tops made of any one or more of natural, natural, wool, cotton, hemp, burlap and artificial materials such as latex, microfiber, rubber, synthetic resin, silicone poly 20 is made up of the head portion and the neck portion 40 attached to the neck and the arm portion 60 for inserting the two arms, and the lower portion of the gown (20, 80) (80) is a leg portion (90) And the elastic band is attached to the waist portion 100 and the waist tightening straps 150 to prevent the flow down is to be worn and used on the body.

  The gowns 20 and 80 are based on 100% by weight of the total weight of the material of the gowns 20 and 80 in the manufacturing process or final process of the nano 110 and the tourmaline 120 material, respectively. 0.01 to 10% by weight of the fragrance agent 140 0.01 to 10% by weight of the robe (20, 80) body 10 is mixed 380 or silver based on 100% by weight of the entire body of the gown (20, 80) Nano 110 and the tourmaline 120 material is characterized in that it further comprises 0.01 to 10% by weight coated on the body surface of the gown (20, 80).

In addition, the silver nano (110) and the tourmaline (120) fine particles introduced into the gown (20, 80) body has a particle diameter of 0.01 to 500nm and the coating of the silver nano (110) and tourmaline (120) material ( 360) the thickness is 0.0l to 50㎛ impregnating the body of the gown (20, 80) with the material to form a coating film, or

After removing the material and the silver nano (110) and the torn dried (120) material into the container (160) to remove the material, heating (180) melting (220) to soften (200) and the coating additive (500) or plasticizer In an amount of 0.01 to 5% by weight and pigments in an amount of 0.01 to 5% by weight, the body of the gowns 20 and 80 is injected (420) or extruded to give a color of the gown (20, 80) body (2). .

Alternatively, the gowns 20 and 80 may be subjected to a foaming process (580, 620) through a foaming machine after stirring the coating additive 500, the pressure-sensitive adhesive, the silver nano (110) and the tourmaline (120) material on a latex or rubber or silicone raw material. Finishing or blending the body of the gown (20, 80) in a ratio of 0.01 to 10% by weight of the entire fabric of the gown (20, 80) made of silver nano (110) and tourmaline (120) material. 20, 80) The body is woven or served.

On the other hand, the gown (20, 80) is 92 to 95% by weight of polypropylene resin, 1 to 3% by weight of poly ethylene resin, 1 to 3% by weight of polyester resin, 0.5 to 3% by weight of acrylic, 0.5 to 3% by weight of EVA % To the polymerized resin 0.5 to 5% by weight of the nano-110 (110) and the tourmaline (120) 0.01 to 10% by weight of the mixture (380) to make a chip and then in the extrusion process cylinder temperature 210 ℃ to 300 degrees ℃, After extruding at a draw die temperature of 220 to 250 ° C., the sheet is cut into a soft mystery 1: 2 to 5 and stretched to a yarn thickness of 30 to 70 deniers to manufacture the bodies of the gowns 20 and 80.

The weight ratio of the pigment to give the color of the gown (20, 80) body is added to the body of the gown (20, 80) in a weight ratio of 0.1 to 5% by weight and a plasticizer or coating additive ( 500) by weight of 0.1 to 5% by weight is added to the body of the gown (20,80) and foamed after stirring the silver nano (110), fragrance, pigment and flocculant to the latex or sponge raw material of artificial chemical fibers The functional gown (20, 80) is characterized in that the gown (20, 80) body is molded (440) completed through a foaming process through the machine.

As described above, the present invention uses the silver nano (110) and the tourmaline (120) materials, which are the antimicrobial minerals having many advantages, in the manufacturing process of the gowns 20 and 80 of the present invention. The silver nano (110) and the tourmaline (120) material was added to the raw material in a weight ratio of 0.01 to 10% by weight, and stirred (400), and the injected silver nano (110) and the tourmaline (120) of the gowns (20, 80). The particle size of the material has a particle size of 0.01 to 500 nm and the thickness of the coating 360 of the gowns 20 and 80 at the time of coating is 0.01 μm to 50 μm (micrometer). The coating film is formed.

The present invention is an antiseptic power and the antibacterial power to the material of the gown (20, 80) that people wear at the steaming bath or sauna gym, massage parlor, lodging home at the time of steaming or bathing, massage, and at rest, bedtime, exercise Among the minerals emitted by the deodorizing action and the anion and the far infrared ray, the present invention relates to gowns (20, 80) containing silver nano (110), tourmaline (120) material and fragrance agent 140, and a method of manufacturing the same. The material of the gown (20, 80) made of any one of cotton, cotton, wool, burlap or artificial fibers of synthetic fibers, latex, rubber, silicone, sponge, poly-based materials (natural fibers) It can be prepared by mixing or coating by selectively impregnating the pigment with a coating additive or a plasticizer.

The present invention relates to a gown (20, 80) to be worn at the time of steaming, bathing, or massage in the home of a valuable jjimjilbang, sauna, gym, massage parlor, and lodging home as described above. In order to aid understanding, silver and silver nano (110), which is a constituent material of the present invention, is provided for the purpose of incorporating silver nano (110), tourmaline (120) material and a natural fragrance agent 140, which are bactericidal substances. ) Is described first in detail.

 Silver, the main component of silver nano (110), has been recognized as a precious metal of high value from ancient times, and has been the object of sampling. It is not only valued as a currency but also attracted attention as an important industrial material in modern industry. Production and proportion in many ways. Silver was mined early in Europe's Mediterranean coast, where silver was produced from the Incas and Aztecs before the discovery of the Americas, and then silver from Peru and Bolivia was introduced into Europe, and the flow of silver was from 1520 to 1800.

It has grown steadily, but has declined since the discovery of large amounts of silver in the early 19th century. Currently, the world's major silver producers are Russia (13.8%), Canada (13.5%), Mexico (13%), Peru (13%), United States (11%), Australia (8%), Poland (6%). The country's silver reserves are 17 million tons, and its reserves are about 9.2 million tons. As of 2002, the amount of silver produced in our country is about 5,000 kg, which is 1.2% of the total domestic demand. It's a very small amount.

Characteristics of silver: The color of silver is gray in the case of elegant gray-white metal or powder, specific gravity is 10-12, Mohs hardness is 2.5-3, and melting (80) point is 960.5 ℃.

In particular, the melting point of silver (80) is very important for temperature compensation of high thermometers, which is the standard of scientific and industrial temperature, and silver is the best conductor of metal, and is used comprehensively for contacts and other electronics. Optically, the reflectance of visible light is 90, which is one of the most excellent metals such as platinum, and pure silver does not form rust even when left in the air or heated, but it reacts with sulfur and hydrogen to make black emulsified silver. Special attention should be paid to the film of the camera.

     In addition, the mechanical properties change according to the amount of impurities (O₂) contained in the silver, and the hardness of the high-purity silver obtained by thermal annealing is Brinell hardness HBS (10/500) 25-27, tensile strength 12-16kgf / mm2. The cast strength of the cast was up to about 29 kgf / mm 2, the combustion rate was 48 to 54%, and the recrystallization temperature was 150 ° C.

    Particularly, in the case of pure silver, the processed hardened material is softened by recrystallization at normal room temperature (400), and the malleability and flexibility are abundant next to gold.

     Silver's efficacy has been used as a tool to check the imbalance of the body that one cannot feel because the gloss or color changes depending on the condition of the body when used on the body since ancient times. This fatigue or low rhythm), Dongbobogam said that it is effective in the prevention and treatment of mental disorders and women's diseases such as epilepsy and game. The five chapters are said to be comfortable, the mind and body are stabilized, and the main body records that the body is lengthened by chasing morale and lightening the body.

      Also, when the Black Plague prevailed in the Middle Ages, nobility of the black aristocrats and royals, who had many silverware and silver utensils, did not have black plague, which released silver to the extent that it was able to sterilize the Black Plague bacteria, making it relatively safe from infectious diseases. In the place where the royal family and the state guests were served, silver products were used habitually.

In order to help the understanding of the silver nano (110) briefly described the silver nano (110) (Nano silver) extraction method and features in the present invention as follows.

The atomic weight of silver is 107.87 amu and the fact that silver (Ag) is bactericidal has been known for a long time.

Silver nano (110) was first developed by a biotechnology company, a government subsidiary of our country, and was named silver nano (110) as a compound name of brand name Na no-technology and silver. ;

  Silver nano (110) is a field of Na no-technology (nano technology) is an advanced antimicrobial agent using a mechanism of strong antibacterial and sterilization function, electromagnetic shielding excellent electrical conductivity. Silver nano (110) is unlikely to be resistant to bacteria, unlike conventional antibiotics. Silver nano (110) has been shown to kill almost all single cell germs on the ground in a short time. .

 Currently, a variety of products based on silver nano (110) consisting of powder and solution have been devised numerous times and commercialized and produced in real life.

It refers to a fine particle size of silver (Nano / nm / 10 billion / m / 10-9), that is, 0.000000001 meter. When one gram of silver is aged, ten particles can be produced. .

Therefore, silver (Ag) in the form of ultra fine particles and aged silver nano (110) (Nano silver) is a new concept produced by utilizing the excellent efficacy of the antimicrobial power, deodorizing station, extending the preservation time of food among the many characteristics of silver .

 Since ancient times, silver has been recognized as a disinfectant substance that not only prevents bacteria but also prevents germs in the East and West. Currently, silver nano (110) extraction method uses silver (Age 99.9%) in distilled water. It generates low current at low temperature, electrolyzes compounds containing silver, and conducts electrophoresis using + and-poles of each molecule to collect silver (Age 99.9%). In addition, liquid reduction and grinding It can be manufactured by a physical method such as and the like is used a lot of the above electrolysis method to obtain a stable silver nano (110).

Silver ions are also used in general sterilization concept machines and disinfectants, and all silver products currently used are silver obtained by decomposition, and the sterilization power of silver varies depending on the product, but can obtain up to 99%.

 Silver nano (110) of the present invention is ultra-fine particles of 0.01 ~ 500nm silver directly acts on harmful bacteria, directly dissolves the cell membranes of harmful bacteria, interferes with the electron transfer system of harmful bacteria, so as to kill the bacteria, it is sure and excellent antibacterial, It has a germ (99.9%) (the virus size is about 10 nm).

     The main antibacterial mechanism of silver nano (110) is to dissolve harmful bacteria cell membranes and work with enzymes in the cells to block the metabolic function of nutrients, ie, the influx and discharge of nutrients, and to stop the respiratory function and production of harmful bacteria, thus stopping the growth of harmful bacteria. And destroys regenerating ability to kill harmful bacteria.

     In addition, the silver nano (110) by controlling the harmful bacteria by releasing the antimicrobial power continuously from the fine particles, excellent antimicrobial, antimicrobial function lasting.

Therefore, silver nano (110) does not produce resistance and silver nano (110) has a surface reaction is effective and can kill all the germs 99%, especially in the common E. coli or food poisoning equality.

   The smaller the nanoparticles, the better the bactericidal and antimicrobial activity. Based on the experimental data so far, Escherichia coli, Staphylococcus aureus, Salmonella, Vibrio bacillus, Heterogeneous bacteria, Pneumococcus, Typhoid bacillus and the most resistant MRSA Resistant Staphylococcus aureus) can be 99.9% antibacterial and sterilized.

     Even if silver exists in an ionic state or a metal state, it can be referred to as colloidal silver if it exists in a colloidal state by a solvent.

Silver nano (110) (Nano silver) is also the best antibacterial silver nano (110) minimized the particles.

   In addition, unlike the general chemical antimicrobial agent or chlorine disinfectant, silver nano (110) is an ultrafine particle of pure silver, so it has excellent antibacterial and antibacterial effect (99.9%) even at high temperature, and is nontoxic and non-irritating to the human body. It has been reported that bacteria cannot live in contact with silver nano110 for more than 5 minutes.

Next, the tourmaline 120, which is a constituent mineral, is described in detail to help the present invention.

    Tor Marlin (120) is called the Sinhalese (Sri Lankan) tourmaline, meaning "mixed gemstones." In the mid-1500s, the Porto Cal expedition discovered a mineral that was painted in Brazil. Tor Marlin (120) and Tor Marlin (120) were first discovered in 1703 on the Celon Islands, the clear transparent Tor Marlin (120), which became famous as a gem after its first introduction to Europe.

In the late 1800's, it became known to the US market by the efforts of Tiffany's jeweler George Gunz. He was proud of his discovery in Maine and California, USA, and promoted his jewels, and the expansion of the market supply led to the discovery of the Tor Marin (120) mine in Brazil in the early 20th century.

Tourmaline 120 is one of the most interesting gems because it has many colors and is one of the materials that have their own energy (uranium ore, magnetite, tourmaline 120).

The largest importer of tourmaline (120) was China, but in the early 1900's, the market was closed off due to communism, but again, a high-quality tourmaline (120) was distributed, made of practical products such as small sculptures and snuff pipes, and many other countries. Preferred but the biggest market is still China.

In Europe, strange phenomena have been discovered in Europe before they were known as gemstones. Thor was heated in the heat of hot sunlight when the children were playing in the Mt. Marlin (120) Attention was drawn to the attraction and repulsion of natural ash crystals and light substances, and sometimes men used this to remove the clogged ash from tobacco pipes. It is said that crystals were used.

Tor Marlin (120) at that time was a wilderness and mountainous area thousands of kilometers away from the village. In particular, many miners who go deep into the ground and do excavation work suffered from respiratory diseases such as bronchus due to cramped, tight air, dust, and dust. However, among the respiratory illnesses, the miners in the Toxic Tor Marlin (120) mine had the fewest patients.

In addition, minerals, called alias tourmaline, are the only minerals on earth that have the property of continuously flowing electrons permanently in their natural state, the most porous of which are minerals.

In Japan, about 200 years ago, Hokkaido, Tohoku,

A trace amount was calculated near the Pacific coast, such as the central region and the Savior, and a small piece of paper that was subjected to heat or friction in the crystals of the tourmaline 120 possessed. I noticed that I pulled the pieces, but I didn't understand why this happened.

One day in 1880, with the help of his brother Zaku, Pierre Curie, who won the Nobel Prize in Physics for his discovery of radium, was a mineralogist. When it was subjected to the electric charges, it was found that electric charges were generated on the surface of the crystal, and this was called piezo electric.

In Japan, in 1986, a study by a physicist, 久保 哲 治 도, regardless of the crushing of the torn marlin (120) itself, the positive (+) and the negative (-) were present at both ends of the crystal. It was found that the nature did not disappear. Thus, when the anode (+) and the cathode (-) are connected to the tourmaline crystal (120) with a wire, it is proved that a weak current of 0.06 mA really flows. It became known as the tourmaline, and in Japan, Korea, and China, it is also known as the tourmaline, and Tormaline (120) is known as the birthstone for October.

    There are three materials that have their own energy among the materials on earth. Three types of uranium ore, magnetite, and tourmaline ore that generate radiation. However, in Uranium Ore, very strong radiation is emitted, so the raw gemstone cannot be used as it is, but the Tourmaline (120) ore is permanent, as it has permanent magnetism, which is the property of magnetism in magnetite. It has the property of being charged with electricity. The electricity of 0.06 mA emitted by the tourmaline 120 is a weak current that occurs when plant and animal cells nourish to grow. 100 watt light bulb

1A (amps), the hair dryer is a very small current compared to 10A. However, the tourmaline 120 generates electricity no matter how discharged.

Tourmaline 120 is a health gem that energizes the human body by absorbing large amounts of beneficial energy from the sun for hundreds of millions of years, and releases energy semi-permanently. Tourmaline (120) is a hexagonal system. As a mineral belonging to 六 方 晶 系), hardness (hardness) 7.0-7.5, specific gravity 2.98-3.20. Also referred to as tourmaline (140), 'tour dried ore' in the negative ions due to the electrostatic mechanism is used a lot in health drinks, etc. The chemical composition is a complex borosilicate of iron, magnesium, alkali metals and aluminum. Usually six or nine, sometimes triangular,

In some cases, the crystal form may be different from above and below the main column.

In addition, it exhibits a flat rhombohedron, needle and shape, and sometimes forms granules and lumps. It is not or shell-shaped and has a hardness of 7.0-7.5, specific gravity of 2.98-3.20, and glass or resin gloss.

The tourmaline friction is generated by the tourmaline (120), and when heated, both ends are positively and negatively charged (帶電), so this name is given and the iron is called iron tourmaline, and black color and the naked eye Many things are opaque.

Tourmaline 120 is produced in granite pegmatite together with quartz, dolomite, feldspar, etc. Magnesium-rich is called goto tourmaline or magnesium tourmaline. .

Many alkali metals are called tourmaline or alkali tourmaline, and they have various colors such as colorless, red, blue, and yellow, and many of them are transparent, especially reddish brown (rubellite) and indigo blue ( It is called a tourmaline (indigo light) and green is rust tourmaline (Belderite or Brazilian emerald). The beautiful one is used as a jewel.

In particular, there is a case that the color of the crystal is different at both ends and inside and outside, and beautiful is produced in Brazil, USA (California), South Africa, etc., and it is produced by granite pegmatite or ready-made action. It is calculated from veins and the like.

The tourmaline 120 has the only electrical properties among the only minerals present on earth, so the anions and weak currents generated from this ore are far being actively researched at universities and research institutes around the world for health and the environment. It is a groundbreaking new material, especially with the effect of far infrared rays and negative ions.

Far infrared rays have the function of improving blood circulation, warming the body and stimulating metabolism. Negative ions release the tension of the autonomic nervous system, which is fragile due to stress, and the condition of body and mind.

The tourmaline 120 (電氣石, tourmaline) is anion generated by the electrolysis

Releases a weak current of 0.06 mA and holds minerals (Na, Mg, Fe, B)

PH is 7.2 ~ 7.5 and far infrared emission is 92 ~ 72% of 4 ~ 14 micron infrared emission rate.

In addition, the current collection effect (charge of charge on the surface according to the change of temperature)

And the piezoelectric effect (voltage is generated on the surface when pressurized) and attracts dust in the air when displayed under a hot light due to this property is lower quartz, but also piezoelectricity caused by applying pressure .

Briefly explaining the drawings of the wear gown (20, 80) containing the silver nano 110 and the tourmaline 120 of the present invention for achieving the above object is as follows.

1 to 4 are perspective views of the functional gowns 20 and 80 of the present invention, and the upper part 60 and the lower part of the gown 20 and 80, the body 20, the wearing part 40, and the gown 20 and 80 ( 80) and various types of gowns (20, 80) formed by the connecting ring (90) is shown in the picture, and the silver nano (110) and the tourmaline (120) and fragrance (140) of the present design , 80) is shown as a picture of the wear gown (20, 80) completed in the selected process of any one of molding, injection, weaving, weaving (640).

1 is a real picture of a sauna or jjimjilbang gown in the present invention is made of a natural or artificial fiber material worn when bathing in a sauna or jjimjilbang, and is divided into a top (20) and a bottom (80). Inserted into the neck portion of the neck attached to the neck (40) and the arm portion to insert the two arms (60) and the gown (20, 80) bottom (80) is the leg part 90 and the elastic band to put two legs Gowns of various colors consisting of the waist portion 100 is prevented from flowing down is shown in the photo.

Figure 2 is the actual picture of the bathrobe in the present invention upper and lower (20, 80) to be worn for the warmth of the body when bathing or showering in a hotel or lodging is integrated and arm region 60 to insert both arms and The picture shows the state of the gown made of a tightening string (150).

3 is an actual picture of the exercise gown in the present invention is a photograph taken of the exercise gown made of the same structure as shown in FIG. 1 to be worn during exercise or training in the gym.

Figure 4 is a perspective view of a bath or bathrobe robe in the present invention is a perspective view of the gown of Figure 1;

Figure 5 is a block diagram of the mixing process of the functional gown (20, 80) of the present invention is prepared by mixing the silver nano (110), tourmaline 120 material and the fragrance (140) to antibacterial and deodorizing role and far infrared By diverging to protect the user's body, there is an effect that can be used in a comfortable and clean gown (20, 80).

The manufacturing method of the wear gown (20, 80) and the body (20) into which the antimicrobial minerals of the present invention, which are the antimicrobial minerals of the present invention, and the fragrance agent (140) are added, are described as follows. .

1st process

P.P. The polymer is mixed with 0.5 to 5% by weight of a conventionally used antimicrobial ceramic material consisting of a powdered substance having particles of aluminum oxide, aluminum hydroxide, silicon oxide and titanium oxide having 1 to 6 microns and having a purity of 95% or more.

Mixing in MIXING HOPPER is done by mechanical means such as screw, and the screw is rotated to mix the antimicrobial ceramic particles evenly. The material is inserted into 3 ~ 8M diameter and dried. The drying temperature is 120 ~ It is dried at a temperature of 210 ° C. for 30 minutes to 1 hour 30 minutes.

2nd process

1) Put the chips mixed in the first process into the extruder 1st cylinder temperature 210 to 230 ° C 2nd cylinder temperature 240 to 260 ° C 3rd cylinder temperature 260 to 300 ° C 1st die temperature 220 to 230 ° C 2 After molding at a temperature of 230 to 250 ° C. for the second die type, post-heat treatment and cooling are performed, followed by chemical treatment and softening agent treatment.

2) After the fiber yarns are obtained, they are stretched by cutting the federal ratio by 1: 2 to 5 in the usual manner, and the silver nano (110) and torn dried (30-70 denier) of the final wear gown (20,80) yarns are drawn. 120) wearable gown (20, 80) fibers are mixed (380).

Wearing gown (20, 80) fibers containing the silver nano (110) and torn dried (120) material that has undergone the process as described above generates antimicrobial effect and far infrared rays, tensile strength and elongation of the fiber and curl state during processing This good, excellent physical properties, durability and corrosion resistance to ultraviolet rays and long-lasting excellent gown fiber (20, 80) is born.

The present invention relates to a gown (20, 80) made of artificial or natural fibers or fabrics containing silver nano (110) and torn marlin (120) material, for wearing the silver nano (110) and torn marlin (120) Gowns (20,80) Functional gowns that are finished by spraying or depositing (520) onto fibers or fabrics that are simulated raw materials or by mixing (380) silver nano (110) and tourmaline (120) on natural simulated materials (20). , 80).

   The silver nano 110 and the tourmaline 120 are introduced into one of the processes selected from the roller process 260 and the spray process 280 of the noodle making process 20 and 80.

 The manufacturing work of the gowns 20 and 80 made of chemical textile materials, which are artificial systems, is largely composed of five processes: a noodle making process, a roller process (dipping process), a spraying process, a drying process, and a cutting process.

The noodle making process 300 is a process of making a fabric which is a body of a gown (20, 80) by squeezing it by using chemical fiber yarn which is artificial fiber.

Chemical fiber refers to all fabrics that are not woven or knitted, that is, not woven, and it is very difficult to pull the thread out of short core oil, and to weave or squeeze this thread from the fabric to avoid this hassle. Several ways of making were devised.

① How to make from felt ② How to make from film ③ How to make fibers into felt state ④ How to make felt state sheet on rubber or plastic support ⑤ How to weld heat softened fiber ⑥ How to make fiber There are a variety of methods such as making by combining with a suitable solvent.

Thus, non-woven fabrication consists of two parts: the web of fibers and the bonding, and for 1 kg of fiber, 10-12 m of ordinary gown (20,80) fabric can be produced. It is composed of 200 million strands of myriad fine fibers.

Therefore, making a web from fibers is more difficult than joining the fibers, and there are two methods of aligning the fibers and randomly arranging the fibers (random web).

Orienting the fibers is the same as making ordinary fabrics. Cross-aligned webs are created to compensate for this, because the well-arranged, parallel fibers are weak in the transverse direction. Is one web placed as close to the right angle as possible on another web, which is much slower to manufacture than a parallel array web.

The random web is made of a special machine that combines a feeder, a lander feeder, a lander weber, and a web-making device, which blows fibers onto the screen and presses the random web together.

The fibers in the form of a web are in a state of being bonded to each other, and the binder may include polyvinyl acetate, rubber latex, urea formaldehyde, polyvinyl chloride dispersion, water-soluble carboxymethyl cellulose, and the like.

 In addition to the methods described above, there is also a method in which thermoplastic fibers are mixed with other fibers to melt or dissolve with a solvent or heat to bond the fibers. Artificial chemical fibers have a higher elasticity than natural fibers, and have resilience, tensile strength, and shrinkage wear resistance. It is mainly used for rayon, synthetic resin, nonwoven fabric or polyester and nylon.

The most common uses are clothing wicks, and other materials such as bed sheets, towels, blankets, iron pallets, carpets, napkins, shoe insoles and upholstery. Blow it up, capture it on the screen, and press the random web (randomly arranged) that you've gathered to clean up.

 The fibers in web form are bonded to each other and the binder binder is sprayed onto the chemical fibers so that the bonds are maintained without being scattered.

The fabric for the gowns 20 and 80 manufactured through the noodle making process 3000 is added with a dye and a hardener through the roller process 260. The roller process 260 is also called a dipping process. The fabric for gown (20,80) manufactured through the) is pressed while passing through the first roller (Roller), and then the color is coated while passing through the container containing the coating additive (500) and the pigment and curing agent and at the same time By bonding, a tight tissue fabric is produced.

The fabric contained in the back pain 160 containing the pigment and the hardener is pressed again through the second roller roller, and the fiber is flat and uniform due to the second roller process 260. It can be maintained and can be said to be a process for increasing the flatness of the fiber.

Next, the spray process 280 is a gown (20, 80) by uniformly applying the coating additive 500 once again through a mechanical spray to the gown (20, 80) coated to the color through a roller process The process of increasing the strength of the fabric of more and after the spraying process (280) after the cutting process 340 in accordance with the prescribed specifications of the gown (20, 80) of the present application is finished by weaving the goods.

After the spray process 280, the gowns 20 and 80 containing the silver nano 110 and the tourmaline 120 of the present invention are finally completed through the drying process 320.

Next, the drying is natural drying and artificial drying method, the natural drying is to dry in the shade, artificial drying is to dry by forced ventilation through hot air or hot air.

Next is a look at the injection molding of artificial hair is another preferred method of the present invention.

1, injection molding

 Molding (440) The material is heated and melted (220) by injection molding into a cavity of a pre-closed mold, and then solidified or cured to be a molded product. The molding method is suitable for mass production of complex shaped products. It is a large field of.

 The molding materials used for injection molding are thermoplastic resins and almost all molding materials such as thermosetting resins, rubber, and foam molding materials, and various kinds of molding materials have been developed for various processing machines and mold structures in consideration of the production of shape (440) products. Being

The molding 440 includes ① mold, ② injection, and ③ holding pressure (this series of processes of preventing backflow of the material filled in the cavity and extracting by cooling is repeated as one cycle). The in-line screw injection molding machine is a standard type of screw, which is retracted by plasticization of the molding material, and when the injection 420 is carried out, the screw is advanced to extrude the molding 440, and the molding of the thermosetting resin 440 is also performed. A type molding machine is used.

Compared with the thermoplastic resin, when the mold is heated to cure the resin, the temperature of the heating cylinder is lowered to prevent the resin from solidifying, and thus the heating method of the cylinder and the shape of the screw are somewhat different.

Next, as a method of determining the conditions of the injection 420 molding 440;

1, extrusion

 Silver nano 110 and tourmaline 120 materials are introduced into a thermoplastic material on the surface of various thin layer substrates such as cellophane, plastic, vinyl, film, metal film, etc., and then heated or melted 220 or melted using an extruder. It is a processing method in which it is made into a fluid state by 240, extruded in a thin film form at the T band, and simultaneously crimped continuously.

The combination of the properties of the substrate and the characteristics of the extruded and compressed thermoplastics (waterproof, moisture proof, refractory chemical properties, flexible toughness, breathability, heat seal synthesis, etc.) creates a packaging volume layer material that adapts to a variety of applications, but is currently practical. Mainstream products are low density polyethylene, polypropylene, vinylene chloride resin and the like.

2, compression-molding

 The most common molding method of thermosetting resin is compression molding (440) machine by putting the molding material (440) into which the silver nano (110) and the tourmaline (120) materials are put into a recess (called a cavity) of a heated mold. Press molding).

 The molding material is heated in the cavity and once flowed, spreads to every corner of the cavity and causes a simultaneous chemical reaction to harden, so after a suitable time (called curing time), the mold is opened, the molded product is removed, and flash finishing is performed. To get the product. If the molding process is largely divided into molding process and finishing process.

The molding process 220 is carried out by ① molding material processing weighing (in some cases, the turret processing is carried out using a turret machine) ② loading of the material into the cavity (preheated before).

 ③ Pressurization operation (low pressure pressurization, high pressure pressurization) ④ Curing process ⑤ Molding (440) Product taking out It is cleaning of the mold.

Finishing process includes ① flash 뗌 ② gloss, etc., and for large products or thick ones, high-frequency preheating is usually performed for efficiency and quality improvement. The curing time depends on the temperature of molding (440) or the thickness of molding (440). Therefore, the optimum degree of hardening should be determined properly. In the case of molding a thick product even in a thermoplastic resin or producing a silicon film, compression molding 440 is performed. In this case, the trick is to remove the molded article by cooling the mold after heating and pressing the molding material. In general, the compression molding is characterized by less molding of the dielectric material or molecules compared to the injection molding or transfer molding, thereby making it easy to obtain a molded article having a low internal stress.

 3, extrusion-blow molding

 Extrusion blow molding is the body of a gown (20, 80) in which silver nano (110) and torn marlin (120) materials are injected.

The resin is heated and melted and inserted into one or two or more molds of the fly hands continuously extruded from the extruder into the tube, closed and sealed, and then air is blown into the fly hands from the mandrel to expand. It is a blow molding method that is most popular at present, by making a gong (20, 80) by notarizing by contacting the inner wall of the mold.

 4, blow molding

 Softening (200) by heating in a split mold to inflate the fly hand or sheet into which the thermoplastic and silver nano (110) and torn dried (120) materials are injected, using pneumatic pressure or the like. How to get.

Called blow molding or blow molding.

After heat-melting (220), the thermoplastic plastic molding material is extruded, or the preformed Paris hand or two-sheet sheet is pre-molded into a tube according to the injection (420) method, and then heat-softened (200) by inserting it into a molding die with a fire. Blowing air into such an interior to form a hollow product (440).

There are various forms of the blow molding 440 according to the Parisian molding method, such as injection blow molding 440, extrusion blow molding 440, sheet blow method (sheet fly hand method), direct blow molding (440). ), Fire molding and the like.

5, vacuum forming

 After heat softening (200) the thermoplastic sheet containing the silver nano (110) and the torn dried (120) material, and placing it on the mold, the gap between the tongue and the sheet is immediately vacuumed to closely adhere the sheet to the surface of the mold. At the same time, after cooling to fix the phenomenon of the molded article, on the contrary, air is sucked out and the molded article is used to remove the molded article.

6. vacuum deposition;

A brief overview of vacuum deposition refers to the heating of a small piece of metal or nonmetal to which silver nano 110 and torn marlin 120 materials are applied in a vacuum to attach the vapor to an object surface. In other words, the current is applied to a tungsten coil with a metal (Al) or chromium (Cr) piece to be attached to the surface to be coated in a high vacuum state (an object to be deposited), and to be heated and attached in a high vacuum state. I use it.

The vacuum evaporation process consists of urethane acrylate, monomer, photo diluent diluent and other preparations. Can represent a product. In addition, dyes can be added during TOP PAINT spraying to express any desired color.

Pre-treatment step to remove the foreign matter in the finished gown (20,80), and coating (360) step of coating the background color on the surface of the antimicrobial gown (20,80) after the previous treatment step and drying it And a crosslinking agent as a coating additive 500 and a coating and an adhesive on the surface of the gown (20,80) having undergone the surface coating (360) step to lower the surface resistance from the surface of the gown (20,80) having undergone the coating (360). After the silver nano (110) and the tourmaline (120) material is mixed (380) by spray coating (360) and the coating (360) process and after the coating (360) process through the slow cooling (460) process is completed after drying 640.

6 is a block diagram of the coating process of the functional gown (20, 80) of the present invention is a natural fiber or fabric of wool, cotton, hemp, silk yarn and also artificial fibers, the material of the gown (20, 80), Coating (360) process diagram of various gowns (20, 80) made of any one of synthetic resin, non-woven fabric, span lace, and poly-based gown (20, 80) containing silver nano (110) and tourmaline (120) In order to reinforce the sterilizing power of the body and to strengthen the corrosion and surface strengthening of the silver nano (110) and the tourmaline (120) material coating (360) Looking again, this wear gown (20, 80) is molded After extruded through the process and injection process or extruder, the body of the finished antimicrobial gown (20, 80) is removed into the container 160 after removing foreign matters on the surface (not shown) and the coating additive 500 is antibacterial 0.1 to 5% by weight based on 100% by weight of the total gown (20,80) The total weight of the silver (110, 110) and tourmaline (120) material in the total body weight of the cloud (20, 80) is 0.01 to 10% by weight of the fragrance agent 140 to the total weight of the gown (20, 80), respectively, 0.01 to 10 weight% of the material is heated (180) and stirred (400) to impregnate. The particle size of the injected silver nano (110) and tourmaline (120) material has a particle diameter of 0.01 to 500 nm and the coating (360) A thickness of 0.0l μm to 50 μm (micrometer) is sprayed or deposited on the surfaces of the antimicrobial gowns 20 and 80 (660) to mix and heat the silver nano 110 and the tourmaline 120 (180). The impregnation 520 of the gown (20, 80) body 20 by completely impregnating the silver nano (110) and the tourmaline (120) material and the fragrance agent 140, and then discharged it by slow cooling (460) and after the drying process 320, the gong (20, 80) after the inspection and packing and completion (640) the step shown in the block diagram will be.

In the manufacturing process of the gown (20, 80), the addition of the silver nano (110) material and the tourmaline 120 of the present invention is any one of the preferred process of the noodle making process 300, roller process 260, spray process (280) Injected through the barrel 160, the fabric for the gown (20, 80) is doped, and the silver nano (110) and tourmaline (120) material together with the pigment is also adhered together.

The doped fabric from the cylinder 160 passes through the roller and spreads evenly in the fabric and adheres to the spraying process 280 with the pigment, the liquid adhesive, the silver nano (110) and the tourmaline (120) material together with the sprayer. Place and spray.

At this time, the preferred addition ratio of the pigment 500g / kg, pigment and curing agent 200g, / kg, pressure-sensitive adhesive 100g, / kg, other coating additives of 200g / kg and the silver nano (110) and tourmaline 120 material is a coating additive The total weight ratio of the 500 and the main body of the gown (20, 80) is 100% by weight, and the silver nano (110) and the tourmaline (120) materials are composed of the ratio of the weight% of 0.01 to 10%, respectively. The particle size of the nano (110) and tourmaline (120) material is composed of a ratio of particle size of 0.01 to 500nm, the addition ratio of the composition can be changed to the desired mixing ratio for better quality, as described above It is also possible to pass the nano 110 and the tourmaline 120 material through the roller process 260 and the spray process 280 twice.

This is because the silver nano (110) material and tormalin (120) are strongly adhered to the body of the gown (20,80) so that even if the gown (20,80) is used for a long time, To continue functioning.

 In the above, the various manufacturing methods of the gown (20, 80) of the present invention were examined.

The antimicrobial mineral silver nano (110) and tourmaline (120) materials are extremely preferred for always germs and far infrared anion generation of the gown of the present invention. For example, gold, copper, zinc, tin, titanium, It is also preferred to use antimicrobial mineral metals such as these.

The amount of the mixture 440 of the gowns 20 and 80 is extremely preferably 0.01 to 10% by weight based on the total weight of the material of the gowns 20 and 80, respectively.

 If the weight ratio is less than 0.01% by weight, there is no effect of disinfection and deterioration. At 10% by weight or more, silver nano (110) and tor marlin (120) are expensive, so the price rise and viscosity are too large. 80) is difficult to manufacture.

 In addition, the fragrance of the natural fragrance 140 of the present application can not expect aroma function when used in a weight ratio of 0.01% by weight or less based on the total weight of the gown 100% by weight and 10% by weight or more of the gown (20, 80), the sense of smell can cause discomfort and dizziness.

  The present application covers various gowns (20, 80) made of natural wool, silk, hemp, and cotton gowns (20, 80), and artificial ones made of silicone, latex, and synthetic poly-based materials. The silver nano (110) and the tourmaline (120) is mixed (380) or coated by adding 0.01 to 10% by weight of the fragrance 140 to 0.01 to 10% by weight, respectively, to the fibers or fabrics of the gowns (20 and 80). (360) and the particle diameter of the silver nano (110) and the tourmaline (120) injected is characterized in that it has a particle diameter of 0.01 to 500nm or (sil) made of silver nano (110) or tourmaline (120) It is an object to manufacture by weaving, knitting, weaving through the machine by adding intermixing in the range of 0.01 to 10% by weight to the artificial fibers or fabrics of the gown (20, 80).

 The following is a photograph taken by electron microscope of the cross-section, side, and surface of the silver nano of the present invention, and the test report of far-infrared radiation of the tourmaline 120 and the tourmaline (120) gemstone and powder in the drawings for understanding of the present invention. Shown in pictures and photos.

Figure 7 is a photograph taken in 60,000 times magnification of the cross-section of the silver nano of the present invention.

8 is a photograph taken by magnification 80,000 times of the side of the silver nano of the present invention.

Figure 9 is a photograph taken at 50,000 times magnification of the surface of the silver nano of the present invention.

Figure 10 is a photograph of the antimicrobial activity of the strain nanoparticles of the present invention.

11 is Staphylococcus aureus, pneumococci, bacteria in which the silver nano of the present invention is added.

MRSA (Methicillin-Resistant Staphylococcus Aureus) Bacteria Antimicrobial Test Picture.

Figure 12 is a comparison of the silver nano and general fibers of the subject innovation.

Figure 13 is a three-dimensional structure diagram of the silver nano of the present invention.

14 is a photograph of the Tourmaline far infrared radiation test report of the subject innovation.

15 is a photograph of another far-infrared radiation test report of the tourmaline of the present invention.

Figure 16 is a photograph of the tourmaline gemstone of the present invention.

17 is a photograph taken another gemstone of Tourmaline of the present invention.

18 is a photograph of the tourmaline lump of the present invention.

19 is a photograph of a torn dried piece of the present invention.

20 is a photograph taken of the packaged torn dried powder of the present invention.

Figure 21 is a photo taken the tourmaline fine powder of the present invention.

22 is a photograph taken that the tourmaline gemstone of the present invention is crushed.

Figure 23 is a photograph taken to block the compressed torn dried powder of the present invention.

24 is a photograph taken by grinding the tourmaline of the present invention.

Thus, the block diagram of the silver nano and fragrance-containing gowns (20, 80) and the photos and antimicrobial activity data of the silver nano (110) were reviewed. 20, 80) Manufacturing method and process will be followed.

As described above, the present invention is a solution or powder of silver nano (110) and tourmaline (120) for the entire body of the gown (20, 80) made of an artificial fiber or natural fiber fabric and fibers. To 0.01 to 10% by weight and the fragrance (140) material 0.01 to 10% by weight of the particle size of the nanoparticles (110) and torn dried (120) is characterized in that the particle size of 0.01 to 500nm , The fragrance base 140 is prepared by adding 0.01 wt% to 10 wt% by weight, and a bathrobe for sauna, gym, massage parlor, accommodation, home, steaming or bathing, sleeping, relaxing, and massage (20) Functional gown containing silver nano (110) tourmaline (120) material and fragrance agent (140) to sterilize the remaining bacteria and to release good ions, far infrared rays and fragrance. Safety and effectiveness of gowns (20, 80) The purpose of the present invention is to strengthen the gown (20, 80) by using a healthy and clean gown (20, 80) by blocking the infection and bacterial propagation of human secretions of a large number of users.

Silver nano (110) and tourmaline 120 of the present invention and the gown (20, 80) mixed with the fragrance (140) is a cell structure of various sizes and densities with antiseptic function, fragrance divergence function, detoxification function, Sterilization function including humidity control function is useful for people.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and the present invention, which can be variously substituted, modified, and changed without departing from the technical spirit of the present invention, is common in the art. It will be apparent to those who have knowledge.

Example 1

Applicant will test this

1. Six-month-old cotton gowns (20, 80) that are currently used in the jjimjilbang,

2. Three-month-old gowns made of resin (20,80) for weight training at health clubs and

3. One-year-old cotton bathrobes (20, 80), used by women in their 40s, were purchased and tested at a chemical laboratory.

Example 2

The main cause of this experiment is to purchase 10 gowns made of synthetic resin (20, 80) and to produce silver ions stably with high purity. 20ppm pure silver colloidal solution obtained by decomposition with A / C current was made and mixed with 10ml of aroma scent from Daemin Co., Ltd. After 10L of silver nano (110) solution water was added to the sterilized tank, the 10 gowns (20, 80) were impregnated for 60 minutes at room temperature of 20 ° C, respectively, to deposit silver ions, and then dehydrated in a washing machine for 10 minutes. After drying for 60 minutes in the dryer and before and after the silver solution treatment, the average value obtained by measuring the number of Staphylococcus aureus, pneumococci, bacteria, MRSA (Methicillin-resistant Staphylococcus aureus) bacteria, and went to the analysis table below The bacteria were shown were awarded a faint feeling of drifting in neatly it disappeared gown (20, 80) confirmed that natural aroma can fully apply to the industrial hygiene and accomplished the present invented.

In the above description of the embodiments or preferred embodiments of the present invention

Those skilled in the art to which the present invention pertains will understand that the spirit and scope of the present invention described in the claims below can be variously modified or modified within the scope of the invention.

As described above, the present invention is a silver nanoparticle (Ag) in the form of a silver nano (110) colloid having a particle size of 0.01 to 500 nm, thereby suppressing the reproductive function of microorganisms such as viruses, bacteria, and fungi by the electrical load of silver. While limiting the growth of microorganisms, while penetrating into the cell to stop the metabolism by stopping the function of enzymes required for the respiration of microorganisms, Tor Marin (120) has the purpose of releasing far infrared rays and negative ions to health the human body .

As a result, the silver nano (110) and tourmaline (120) materials which are put into the gowns (20, 80) of the present invention and emit antibacterial activity, far infrared rays, humidity control and anion were examined in detail.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concepts of terms in order to best describe their own design. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention on the basis of the principle of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be substituted for them at the time of the present application It should be understood that there may be equivalents and variations.

As described above, the present invention is to provide the antibacterial and far-infrared effects of the silver nano 110 and the tourmaline 120 to the gown (20, 80) to be worn in a sauna or a jjimjilbang.

The table below shows that Staphylococcus aureus, pneumococci, bacteria, MRSA (Methicillin Resistant Staphylococcus aureus) bacteria were injected with 10% of silver nano (110) and torn dried (120) substances at 10%, respectively. As an example of the diagram, it was found that the silver nano (110) and torn marlin (120) materials have excellent sterilizing power.

As described above, the silver nano (110) and the tourmaline (120) material having a number of advantages according to the present invention is a natural material and artificial materials of synthetic materials, plastics, latex, silicone material of the gown (20, 80) , The particle size of the silver nano (110) and the tourmaline 120 with a particle diameter of 0.01 to 500nm, respectively, with a particle size of 0.01 to 10% by weight based on the total weight of the gown (20, 80) made of a rubber poly-based material (360) thickness is 0.0l to 50㎛

It is characterized by coating (360) to a thickness of (micrometer) it is possible to use the gown (20, 80) that the breeding of bacteria by the unspecified many wear clean and hygienic.

As described above, the present invention, as described above, the present invention has a silver nano (110) and the tourmaline (120) powder or solution having a lot of the above in the weight ratio of 0.01% by weight to the body of the gown (20, 80) Mixing up to 10% by weight, by adding a liquid or powder of the fragrance (140) raw material in a weight ratio of 0.01% to 10% by weight of the rot, deterioration, degeneration and bacteria and pathogens and microorganisms easy to produce ( 20, 80) will have the effect of using clean and hygienic until the end of life.

The table below shows that 30% of silver nano (110) and tornin (120) substances are added to Staphylococcus aureus, pneumococci, bacteria, and MRSA (methicillin resistant Staphylococcus aureus) bacteria, and the bacteria are killed after 30 minutes. As an example of the diagram, it was found that the silver nano 110 had excellent sterilizing power.

test subject unit Number of strains  Silver nano and tourmaline 10 wt% input (after 30 minutes) Staphylococcus aureus CFU / mL 3.4 X 10 ³ 0 Pneumonia group CFU / mL 3.1 X 10 ³ 0 MRSA (Methicillin Resistant Staphylococcus Aureus) CFU / mL 1.3 X 10 ² 0 bacteria CFU / mL 3.4 X 10 ² 0

  (This test report is an analysis data of Korea Testing Institute)

In the above, the embodiments or preferred embodiments of the present invention are easily described, and those skilled in the art to which the present invention pertains can devise the present invention in various ways without departing from the scope and spirit of the present invention described in the claims below. It will be appreciated that modifications and variations are possible.

1 is an actual picture of a sauna or a bath jjimbang in the functional gown of the present invention.

Figure 2 is a real picture of the bathrobe in the functional gown of the present invention.

Figure 3 is a real picture of the exercise gown in the functional gown of the present invention.

Figure 4 is a perspective view of the sauna or sauna bathrobe in the functional gown of the present invention.

5 is a block diagram of the mixing process of the functional gown of the present invention.

6 is a block diagram of the coating process of the functional gown of the present invention.

Figure 7 is a photograph taken in 60,000 times magnification of the cross-section of the silver nano of the present invention.

8 is a photograph taken by magnification 80,000 times of the side of the silver nano of the present invention.

Figure 9 is a photograph taken at 50,000 times magnification of the surface of the silver nano of the present invention.

Figure 10 is a photograph of the antimicrobial activity of the strain nanoparticles of the present invention.

11 is Staphylococcus aureus, pneumococci, bacteria in which the silver nano of the present invention is added.

MRSA (Methicillin-Resistant Staphylococcus Aureus) Bacteria Antimicrobial Test Picture.

Figure 12 is a comparison of the silver nano and general fibers of the subject innovation.

Figure 13 is a three-dimensional structure diagram of the silver nano of the present invention.

14 is a photograph of the Tourmaline far infrared radiation test report of the subject innovation.

15 is a photograph of another far-infrared radiation test report of the tourmaline of the present invention.

Figure 16 is a photograph of the tourmaline gemstone of the present invention.

17 is a photograph taken another gemstone of Tourmaline of the present invention.

18 is a photograph of the tourmaline lump of the present invention.

19 is a photograph of a torn dried piece of the present invention.

20 is a photograph taken of the packaged torn dried powder of the present invention.

Figure 21 is a photo taken the tourmaline fine powder of the present invention.

22 is a photograph taken that the tourmaline gemstone of the present invention is crushed.

Figure 23 is a photograph taken to block the compressed torn dried powder of the present invention.

24 is a photograph taken by grinding the tourmaline of the present invention.

* Description of the symbols for the main parts of the drawings *

20: gown top 40: neck

60: arm part 80: bottom of gown

90: leg 100: waist

110: silver nano 120: tourmaline

140: fragrance 150: waist tightening strap

160: barrel 180: heating

200: softening 220: melting

240: fusion 260: roller process

280: spray process 300: noodle process

320: drying process 340: cutting process

360: coating 380: mixing

400: stirring 420: injection

440: molding 460: slow cooling

480: weave 500: coating additive

520: deposition 540: module input

640: complete

Claims (9)

In the baths, saunas, gyms, massage parlors, lodging facilities, gowns (20, 80) to be worn at the time of steaming, bathing, sleeping, massage at home,  The gown (20, 80) is divided into a gown divided into a top and a bottom (80), or the body of the gown united with the top and bottom of the gown (20, 80) of the antimicrobial mineral silver nano (110) and tourmaline (120) material Based on 100% by weight of the total weight of the material of the gown (20, 80) during the manufacturing process or the final process of the fragrance (140) 0.01 to 10% by weight of the gown (20, 80) body Functional gown, characterized in that it has a structure (380) mixed (10). The method of claim 1, In the gown (20, 80) made of any one of natural materials such as wool, cotton, hemp, burlap and artificial materials, latex, microfiber, rubber, synthetic resin, silicone poly-based material,  Based on 100% by weight of the entire body of the gown (20, 80), the silver nano (110) and the tourmaline (120) material is in the shape of 0.01 to 10% by weight coated on the body surface of the gown (20, 80) Functional gown, characterized in that it comprises. The method according to claim 1, wherein Functional gown, characterized in that the silver nano (110) and the tourmaline (120) particles injected into the gown (20, 80) body has a particle diameter of 0.01 to 500nm. The method according to claim 1, wherein The coating (360) thickness of the silver nano (110) and tourmaline (120) material is 0.0l to 50㎛  Gown (20, 80) A functional gown characterized by a coating film formed by impregnating or spraying the body. The method according to claim 1, wherein  In the gown (20, 80) made of one or more materials, including any one of the material, such as silicone, rubber, latex, synthetic resin, ultra-fine yarn, poly-based or mixed 380, including the natural material, After removing the material and the silver nano 110 and the torn dried 120 material, the material is added to the container 160 to be heated (180), melted (220), softened (200), and the coating additive (500) is 0.01 to. In order to add 5% by weight and the color of the gown (20, 80) body 2, the pigment is added in 0.01 to 5% by weight to the body of the gown (20, 80) is injection (420) or extruded structure The functional gown characterized by. The method according to claim 1, wherein  Made of silver nano (110) and tourmaline (120) material, the yarn is mixed at a ratio of 0.01 to 10% by weight of the entire fabric of the gown (20, 80) to form a structure in which the body of the gown (20, 80) is woven or served. Functional gown, characterized in that having. The method according to claim 1, wherein 92 to 95% by weight of polypropylene resin, 1 to 3% by weight of poly ethylene resin, 1 to 3% by weight of polyester resin, 0.5 to 3% by weight of acrylic, 0.5 to 5% by weight of polymerized resin 0.01 to 30% by weight of silver nano (110) and tourmaline (120) to 0.01% by weight was mixed (380) to form a chip in the extrusion process cylinder temperature 210 ℃ to 300 ℃ ℃, drawing die temperature 220 to 250 ℃ Functional extrusion gown characterized in that the body of the gown (20, 80) is formed by extruding into a soft mystery 1: 2 to 5 and stretched to a yarn thickness of 30 to 70 denier range. The method of claim 7, wherein Functional gown, characterized in that the shape of the body of the gown (20, 80) in a weight ratio of 0.1% to 5% by weight of the pigment to give the color of the body of the gown (20, 80). The method of claim 8, Functional gown characterized by the shape of the body of the gown (20, 80) is 0.1% to 5% by weight of the plasticizer or coating additive 500 to promote curing and cohesion of the gown (20, 80) .