KR200399151Y1 - Nano silver and perfume contain a swim suit - Google Patents

Abstract

  Bacteria are most lurking in contact with the hands and bodies of many people, and most people do not know it with the naked eye, and most of them do not know this, and only after being infected with bacteria or viruses do they realize their severity.

  The present invention relates to a swimsuit (10, 20) to wear when swimming in water made of various elastic or chemical fibers or fabrics with elasticity.

By using silver nano 140 and fragrance 160 on the body of swimsuit 10 and 20, it prevents bacterial infections that may occur in the water of swimming pool, and blocks UV rays, electromagnetic waves, and good silver ions and far infrared rays. The present invention relates to a bathing suit (10, 20) containing silver nano140 and a fragrance agent to be able to do so.A silver nano (140) powder or colloidal silver or silver nano solution (Ag) ) Is incorporated in the manufacture of the body of the swimsuit (10, 20) has the purpose of effective in increasing the health and hygiene of the health of the swimsuit (10, 20) users.

Description

Nano silver and perfume contain a swim suit}

The present application relates to a functional swimsuit (10, 20) containing a silver nano 140 and a fragrance (160) in the swimsuit (10, 20) to be worn when swimming as described above, the material of the swimsuit (10, 20) is elastic Generally, polyurea or synthetic fiber using polyester and polyurethane is used a lot, and the general fiber mixing rate is 80% polyester and 20% polyurethane. ), Such as jet concept and fastskin, which have innovatively reduced water resistance by coating on water), are being introduced by multinational companies.

If so, prior to the description of the swimsuit (10, 20) of the present invention to look briefly with reference to the origin and type of the swimsuit (10, 20) as follows.

The origin of the bathing suits 10 and 20 can be found in the mosaic depicted in the residence of the Plaza Armerona around the 3rd century. She wore a strophion (now a bra) and a fit-to-fit pagne on this mosaic, but there is no solid evidence.

The definitive historical data for the bathing suits (10, 20) began to appear around the end of the 18th century, when George III was in England, and George III enjoyed playing with his servants when he was swimming. He wore a bonnet with a symbolic emblem on his head and dressed in flannel wool.

He enjoyed playing mainly in the city of Bath, and for this reason, the city was named Bath (bathing or swimming), and the water playing in the aristocracy was aimed at treating women with diseases such as arthritis and neuralgia. It was also done in.

   However, since the 19th century, sea bathing became popular as a sport or recreation for the purpose of treating such diseases. By 1822, the first bathing beach was created, and the population of sea bathing increased and men wore felt hats. I started to take a bath in casual clothes. As the bathing became popular, design elements were gradually added to the beach clothes.

  In the late 19th century, as a result of the industrial revolution, economic leisure was created, and sports such as tennis, croquettes, bicycles, and swimming became popular. Swimsuits (10, 20) in the 1860's were long-sleeved dress styles, and in the 1870's ankles. The long underpants were tuned dresses, bonnets and slippers.

This one-piece dress is made of multicolored flannel wool, decorated with tape and belted around the waist.

In the 1880s, swimwear (10, 20) and hats were paired, and calf-length Knickerbocker (short, loose pants) were worn. The tunic-shaped dress worn over the pants had almost no sleeves, and the length rose above the hips to form a blouse.

In the 1890s, new one-piece pants with tops and bottoms appeared, and the pants were shortened to knee lengths. The neck was deeply dug in round or V-neck line

Early swimwear focused on designing more elegantly than practical, so the form was almost similar to the current town's town, which continued until the early 1930s.

 In the mid 1920s, after Chanel introduced jerseys to women's casual wear, swimwear (10, 20) made of wool-Jersey was designed to reveal the body curves of women. Swimsuits (10, 20) showed lines, exposing the woman's navel.

  At that time, nudism was introduced to prepare a breakthrough biography of swimsuits (10, 20), and the exposure of the back became a point of eroticism in women's evening dresses in the 1930s. Halter's neckline was popular.

In the 1950s, swimsuits (10, 20) with sequins (metal plates) were introduced. As such, swimsuits (10, 20) became more exposed than when they first appeared, among which dresses and bikinis appeared. Was very important in determining the shape of the swimsuits 10 and 20.

In the 1960s, drastic exposure was attempted in swimwear (10, 20), which is a revolutionary period of exposure in fashion.

Maximization of the exposed area and minimization of the concealed areas resulted in swimwear (10, 20), topless (topless swimwear (10, 20)), and monokini (men's extremely short pants). This is a groundbreaking attempt at exposing the body and expressing the open and free atmosphere of this age.

 Also, a super bikini woven with a crochet, which is closely attached to the human body like a second skin and stares deeply through a drastic exposure, has also appeared.

Later, in the 1970s, swimwear (10, 20), called strings, appeared, and the string was a super bikini with a small piece of cloth covering only the important areas, and the briefs were strapped on both ends of the hips. The lease is extremely small, and there are many forms of bare-top without a strap: a swimsuit with bare shoulders (10, 20). The one-piece swimsuit (10, 20) also raised the side of the thigh high to make the legs as long as possible.

As such, the swimsuit (10, 20) came to this day in pursuit of various forms of change as the concept changed from aristocratic water play to the purpose of treating diseases and sports for health.

In particular, today, as a decorative tool for the purpose of pursuit of eroticism, beyond the functional level of the sport only for the purpose of the purpose, attentive sense and creativity are required in the design.

ST RUSH swimsuit (10, 20): Super fine polyester yarn always uses for the first 36 gauge flight article of the material

Excellent elasticity and minimal surface irregularities Minimized water resistance and slightly glossy and smooth surface.

ST RUSH-J: By forming small bones in the material itself, the irregularities of the bones facilitate the flow of water.

Especially suitable for long distance athletes, it forms a fine air film on the surface of the material

There is irregularities on the surface to realize a lightweight feeling with water flow resistance reduction.

DOUBLE MATT J: Special material that does not shine even in bright colors to realize light rectification effect in the vertical direction by the special processing to block the light, and to reduce the water resistance and reduce the water resistance by forming the air film in water, but slightly thicker than STRUSH-J Holding

Full-body swimwear (10, 20): Recently, the controversial full-body swimwear (10, 20) has been used as a sport suit with the approval of the FINA (International Swimming Federation) in October 1999. State-of-the-art athletes wearing full-body swimwear (10, 20), first developed in 1998 by the sporting goods company Speed, have reduced water resistance to the maximum of 15 world records at the Athena World Short Course Swimming Championships in March 2000. It was evaluated as a product.

The swimwear (10, 20), designed as a competition swimsuit (10, 20), uses a cutting-edge material called `` fast skin, '' which is modeled on shark scales.The cloth is light and elastic, so every time you use muscle, It moves and fixes your thigh muscles. In addition, the fine wrinkles caught in the V-shape is such that the water does not penetrate the swimsuits 10 and 20 and spirals through the swimsuits 10 and 20.

The present invention relates to a polyurethane elastic fiber and its manufacturing method, fabric and swimwear (10, 20).

More specifically, the present invention relates to an excellent elastic fiber having antimicrobial action and fragrance divergence by adding the preferred silver nano 140 and the fragrance agent 160 to the swimsuits 10 and 20 used in swimming pools and the like.

Polyurethane-based elastic fibers have high rubber elasticity, and are excellent in mechanical properties such as tensile stress and recoverability and thermal properties, and thus are widely used in leg wear, inner wear, sportswear, and the like.

Everyone wears one or two swim suits (10, 20), which are used by people for swimming or swimming, but they are usually used at the beach in the city of vacation in summer. To take out and wear swimwear (10, 20), it is common to see moldy or smelly smells and severe corrosion of swimwear (10, 20) due to intense UV rays. Economic expenditures.

As described above, polyester-based polyurethane elastic fibers have no antibacterial activity, are easily invaded by mold, and have a weakness to UV rays, and the elasticity of the swimsuits 10 and 20 is degraded or the thread breaks during use or storage. There is a problem that it is easy.

In addition, even when wearing the swimsuit (10, 20) when wearing a chemical fiber Girman skin causes itching and allergies, severe skin rash or hives.

If the swimsuit (10, 20) is worn for a few days in a vacation place, seawater or fresh water may seep into the swimsuit (10, 20) and dry the swimsuit (10, 20) in the sun. The generated bacteria are hard to kill, so if you wear the contaminated bathing suit (10, 20), you can get diseases of the genital tract and skin.

The present invention relates to the formulation or coating of the silver nano 140 material and the fragrance agent 160 to the material of the swimsuit (10, 20) of a composite material of polyester and polyurethane as described above,

 Non-chemical and environmentally friendly silver nano (140) powder or colloidal silver. “In other words, nano silver solutions (Ag) and fragrances are used to make swimwear (10, 20). 10, 20) by mixing or coating or depositing the silver nano (140) ash to sterilize the swimsuit (10, 20), to generate the fragrance in the swimsuit (10, 20) and to generate bacteria, mold, viruses, It relates to a functional swimsuit (10, 20) that can be blocked by playing in the water.

The present invention relates to an antimicrobial bathing suit (10, 20) containing silver nano 140 and a fragrance agent, which greatly improves the conventional bathing suit (10, 20). 20) Since it is put into the manufacturing process, it contains powerful silver nano (140) material which is economical and sterilization and sustainability are unpredictable. The following excellent benefits can be obtained.

   Silver nano 140 is harmless to the human body and has a sterilizing power and antimicrobial reverse detoxification station tens of times stronger than chlorine series.

If so, look at the characteristics of the swimsuit (10, 20) containing the silver nano 140 and the fragrance (160)

1: Nano-silver is said to have superior antibacterial, bactericidal, deodorant and detoxification functions.

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

It binds strongly to bacterial membranes (SH, COOH, OH) and the like and destroys the bacterial cell membranes or disrupts the function of the cells and shows continuous antiseptic action.

 Recent research has shown that 650 bacteria and viruses can be sterilized, and the proliferation suppression and antiseptic function is excellent against harmful bacteria, fungi, athlete's foot, and allergic bacteria, preventing secondary infections from other pathogens that are problematic. Silver catalyzes the conversion of oxygen to free radicals, which prevents the growth of bacteria that propagate by bactericidal action.

  3: The silver nano 140 has an antistatic function and an electromagnetic wave blocking function to solve harmful electromagnetic waves, have excellent electrical conductivity, and suppress static electricity generation.

  4: The silver nano 140 is very easy to coat, mix, and feed with other materials, and it is very easy to fuse or mix with the metal, fiber, and fabric of the swimsuit 10 and 20 material of the present invention.

  5: In addition, healthy silver ions and far-infrared rays generate blood circulation and endocrine activity, and block 90% of formaldehyde, an environmental hormone, which is a problem recently. It has many advantages, such as protection, soft touch, deodorant effect and repeated cleaning, which lasts sterilization effect.

   6. It has UV-blocking effect. Aged silver has excellent UV-blocking effect. Currently, it is used for sunglasses or sun cream, so if you apply this technology, your swimsuit (10, 20) will not fade or corrode by UV rays. I can wear it.

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

Even if the swimsuits (10, 20) are washed in summer summer resorts, the swimsuits (10, 20) will have foreign substances on the body of the swimming pool, river, or sea. Very disgusting on the road It smells to prevent the growth of bacteria by the introduction of the silver nano 140 material of the present application, and the liquid or powder of the natural fragrance raw material in weight ratio of 0.01% to 5% by weight in any one of the preferred processes during the manufacturing process or the final process. As it is put in, it always emits a subtle scent so that the user's sense of smell can be enjoyed by the swimmers (10, 20) and those around them, and the effect of increasing the health of the swimmers (10, 20) by silver ion and far-infrared radiation.

 Unlike the general chemical antibacterial agent or chlorine disinfectant, silver nano 140 is pure SILVER's ultra fine particles, so it has an excellent antibacterial / bacterial range (99.9%) even at high temperature, and it is non-toxic and non-irritating to the human body. It has been reported that the silver nano 140 cannot be in contact with it for more than 5 minutes.

The present invention uses silver, which is a completely different technology from ordinary silver powder or ions, to form nanoscale powder or silver (Ag) solution in various swimsuit (10, 20) body materials. Polyester, polyurethane, and fast skin have silver nano140 to 0.01% to 10% by weight, and have a particle size of 5 to 300nm and silver nano140 to PP 0.01 to 10 PPM per 100g, or formulated and coated at a constant weight ratio, and the liquid or powder of natural fragrance raw materials such as fruit, aroma, herb, and flower fragrance is added at a ratio of 0.01% to 5% by weight. The purpose of the present invention is to manufacture a clean and clean functional antibacterial swimwear (10, 20) having a function, a sterilization function, a deodorizing effect and a silver ion and far infrared radiation function.

Therefore, the object of the present invention is to overcome the various problems as described above excellent antibacterial ability, while maintaining the antimicrobial activity for a long time, it is possible to mass-produce at a low price, there is no harm to the human swimsuit (10, 20) To provide.

The present invention is applied to the material of the swimwear (10, 20) made of a composite material of a mixture of polyurea or polyester and polyurethane, and various materials such as silicone, latex, jet concept, and fast skin. As it relates to the injection of the silver nano 140 material and the fragrance agent, the silver nano 140 and the composition of the silver of the present invention will be described in detail as follows.

Silver, the main component of silver nano140, has been recognized as a precious metal of high value from ancient times, and has been the object of extraction. 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 Americas discovery, and later from Peru and Bolivia.

 Silver flowed into Europe, and the flow of silver went 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 point is 960.5 ℃.

In particular, the melting point of silver is very important for temperature compensation of high thermometers, which is the standard of scientific and industrial temperature. Silver is the best conductor of all metals and is used extensively 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 depending on the amount of impurities (O2) contained in the silver, and the hardness of the heat-treated high-purity silver is Brinell hardness of 25 to 27 and tensile strength of 12 to 16 kgf / mm2. The strength is up to about 29 kg / mm 2, the elongation is 48 to 54%, and the recrystallization temperature is 150 ° C.

    In particular, in the case of pure silver, the processed hardened material is softened by recrystallization at normal room temperature and softened softly. The malleability and flexibility are rich after gold.

     Silver's efficacy has been used as a tool to check the imbalance of the body that the person does not feel because the gloss or color changes depending on the condition of the body when worn on the body since ancient times. Fatigue or low rhythm), and Dongbobom said that it is effective in the prevention and treatment of mental disorders and women's diseases such as epilepsy and game. If you have it, the five Jang (5 하고) is comfortable, mind and body (stable), the mind and body ((身 身) stable), chasing (邪氣) and the body lightens the body lengthened by the main tree.

      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 140, a brief description of the silver nano 140 (Nano silver) extraction method and features in the present invention is 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 140 was first developed by a biotechnology company, a government subsidiary of our country, and was named silver nano 140 as a compound name of the brand name Nano-technology and silver;

  Silver nano 140 is a field of nano-technology, which is an advanced antimicrobial agent that uses silver's strong antibacterial and sterilization function and electromagnetic shielding mechanism.

Silver nano (140) is unlike the traditional antibiotics, bacteria are not resistant to the silver nano 140 has been confirmed to kill almost all single cell germs on the ground in a short time.

 Currently, various products based on silver nano (140) consisting of powder and solution have been devised and produced in real life. This technology, called silver nano (140), produces silver nano It is a small particle size of 0.000000001mm, which is 1m / m, and it can make 10 grains by aging 1 gram of silver.

Therefore, silver (Ag) in the form of ultra-fine particles aging silver nano (140) is a new concept produced by utilizing the excellent efficacy, such as antibacterial deodorization of the various properties of silver, extending the preservation time of food.

 Since ancient times, silver has been recognized as a disinfecting material that not only blocks bacteria but also East and West. The extraction method of silver nano (140) which is currently used injects silver (Ag 99.9%) into distilled water and generates low current at low temperature. After electrolysis of the silver-containing compound, electrophoresis using the + and-poles of each molecule can be used to collect silver (Ag 99.9%) and other physical methods such as liquid reduction and grinding. In order to obtain a stable silver nano (140) (Nano silver) is used a lot of the above electrolysis method.

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 addition amount is very small. The sterilization power of silver varies depending on the product, but a maximum of 99% can be obtained.

 Silver nano 140 is a fine particle of 3 to 5 nm Silver microparticles, which directly acts on harmful bacteria, directly dissolves the cell membranes of harmful bacteria and interferes with the electron transfer system of the harmful bacteria, thus making them effective and effective. = 99.9%) (for reference, VIRUS size is about 10nm).

     The main antimicrobial mechanism of silver nano 140 is to dissolve harmful bacteria cell membranes and interact 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. And destroys regenerating ability to kill harmful bacteria.

     In addition, the silver nano 140 continuously releases the antimicrobial power from the fine particles to control harmful bacteria, so the antimicrobial / antibacterial function of the excellent durability.

Therefore, silver nano 140 does not produce resistance and silver nano 140 has a surface reaction to have an effect, and kills 99% of all bacteria, and is particularly effective in general E. coli or food poisoning.

   “The larger the surface area, the smaller the nanoparticles, the better the bactericidal and antimicrobial activity. Based on the data tested so far, E. coli, Staphylococcus aureus, Salmonella, Vibrio, Heterozygos, Pneumococci, Typhoid bacteria and resistance This strongest

Up to MRSA (Methicillin-Resistant Staphylococcus Aureus) can be 99.9% antibacterial and bactericidal.

     Even if silver (Ag) is present in an ionic state or a metal state, it may be referred to as colloidal silver when it is present in a colloidal state by a solvent.

In the silver nano 140, the silver nano 140 is maximized the surface area by minimizing particles have the best antibacterial activity.

Hereinafter, with reference to the accompanying drawings will be described in detail the most preferred embodiment of the present invention. First, in describing each of the drawings, the same reference numerals are used to refer to the same components, even if shown in different drawings.

To briefly describe the drawing of a loofah containing silver nano 140 and the fragrance of the present invention for achieving the above object.

1 is a perspective view of a male swimwear (10) containing silver nano (140) and fragrance of the present invention is a diagram showing a male swimwear (10) and a panty-shaped male swimwear (10) in the form of a short.

2 is a perspective view of the silver nano 140 and the female swimsuit 20 containing the fragrance of the present invention, showing a pantaloon swimsuit 20 having a bra and panties as one, and a bikini swimsuit 20 having panties and bra separately. It is shown as.

3 and 4 are block diagrams of the production of the silver nano 140 and the fragrance-containing swimsuit 10, 20 of the present invention, the silver nano 140 and the fragrance-containing swimsuit 10, 20 of the present invention is a swimsuit (10). Polyurethane and elastic fiber, which is a plastic material, are made of polyurethane urea and polyurethane. Polyurethane urea is composed of polyol, diisocyanate and diamine, and is used for polyurethane urea. Polyols, such as polyether glycol, polyester glycol, polycarbonate dior, etc., have recently been coated with silicone or latex on swimwear (10, 20) to reduce water resistance, jet concept, fast skin and It is also preferable to inject the silver nano 140 material and the fragrance agent 160 of the present application into the same high-end swimsuit 10, 20.

On the other hand, such a polyol may be used alone or in a mixture of two or more kinds thereof, and thus used in the polyurethane urea of the present invention in view of obtaining a polyurethane elastic fiber having excellent elongation, strength, elastic recovery, and heat resistance. It is preferable to exist in the range of 1000 or more and 8000 or less, and, as for the horizontal molecular weight of the polyol to become, it is more preferable to exist in the range of 1800 or more and 6000 or less.

Next, the method of manufacturing the polyurethane elastic fiber of the present invention will be described with reference.

 What kind of method may be sufficient as the manufacturing method of the polyurethane urea and polyurethane which are the solutes of a solution? That is, either melt polymerization or solution polymerization can be used.

In the case of the solution polymerization method, there is little generation of foreign substances, such as a gel, in polyurethaneurea and a polyurethane, and it is easy to obtain a polyurethane fiber of low fineness.

Polyurethaneureas include polyols having a molecular weight of 1000 to 8000, MDI, ethylenethiamine, 1, 2-propanethiamine, 1, 3-propanethiamine, hexamethylenediamine, 1, 3-cyclohexyldiamine and 2-methyl. It is preferable that at least 1 type of diamine selected from the group which consists of pentamethylene diamine is used, and is synthesize | combined, and melting | fusing point of the high temperature side is 250 degreeC or more and 300 degrees C or less.

Synthesis of polyurethane urea involves first melting the polyol and MDI, for example, and then dissolving the reactant in DMAc, DMF, DM SO, NMP, etc. or a solvent containing these as a main component, and reacting with the diamine to make polyurethane urea. Is prepared in solution

In addition, adjusting the melting point of the high temperature side of the polyurethane urea to 250 ° C. or higher and 300 ° C. or lower can be achieved by controlling the type and ratio of polyol, D MI and diamine, and when the molecular weight of the polyol is high, D MI By increasing the ratio of relatively high temperature, polyurethane urea having a high melting point can be obtained. When the molecular weight of the polyol is 1000 or more, the addition ratio ((NCO based on diisocyanate) is the ratio of the mole number of the NCO group based on the diisocyanate and the hydroxyl group based on the polyol, from the viewpoint of setting the melting point of the high temperature side of the polyurethane urea to 250 ° C or higher. Moles of groups) / (moles of hydroxyl groups based on polyols)) should be at least 1.3.

In the synthesis of such polyurethaneurea, one or two or more amine catalysts and organometallic catalysts are mixed. As the amine catalyst, for example, N, N-dimethylcyclohexylamine, N, N-dimethylbenzylamine, triethylamine, N-methylmorpholine, N, N-ethylmorpholine, N, N, N ', N'-tetramethylethylenediamine, N, N, N ', N'-tetramethyl-1,3-propanethiamine, N, N, N', N'-tetramethylhexanediamine, bis-2-dimethylamino ethyl Ether, N, N, N ', N', N'-pentamethyldiethylenetriamine, tetramethylguanidine, triethylenediamine, N. N'- dimethylpiperazin, N-methyl-N'-dimethylamino ethyl- Piperazine, N- (2-dimethylamino ethyl) morpholine, 1-methylimidazole, 1,2-dimethylimidazole, N, Ndimethylaminoethanol, N, N, N'-triethylaminoethylethanol Amine, N-methyl-N '-(2-hydroxyethyl) piperazine, 2,4,6-tris (dimetalamino ethyl) phenol, N, N-dimethylaminohexanol, triethanolamine and the like are preferably used. .

As the organometallic catalyst, tin octanoate, dibutyltin acid, lead dibutyl octanoate, or the like can be used.

Synthesis of such polyurethane is, for example, DMAc, DMF, DM SO, NMP, etc., each raw material is added and dissolved in a solvent containing these as a main component, heated to an appropriate temperature, and reacted to obtain a polyurethane solution, The so-called one-shot method, or polyol and D MI are first melted, and then the reactant is dissolved in the solvent and reacted with the diol to obtain a polyurethane solution.

In addition, in this invention, it is preferable to make the concentration of a polyurethane solution into the range of 30 weight% or more and 80 weight% or less normally, Especially it shall be made into the same density | concentration as a polyurethaneurea solution.

Any method of adding a polyurethane solution to a polyurethane urea solution and a method of adding a polyurethane urea solution to a polyurethane solution may be employed, and the silver nano140 solution in the stirring 220 process may be employed. The powder is added in an amount of 0.01% by weight to 10% by weight, and the raw material of the fragrance agent 160 is added in an amount of 0.01% by weight to 5% by weight, in any preferred weight ratio, wherein the grain size of the silver nano 140 is 5 It is characterized by having a particle size of 300nm.

In this invention, the method of adding a small amount solution to a large amount solution from a viewpoint of uniform mixing of a solution with each other is preferable.

In addition, the silver nano 140 solution and the fragrance agent 160 to be added are preferably added simultaneously with a drug such as a chlorine deterioration inhibitor, a light emitting agent, an antioxidant, or a pigment.

 As the spinning method, any method that can apply both dry spinning or wet spinning can be adopted.

The present invention relates to a bathing suit (10, 20) containing a silver nano (140) material and a fragrance agent 160, the silver nano 140 and a fragrance agent (160) is a raw material of a metal or swimsuit (10, 20) It relates to a functional swimsuit (10, 20) to be completed by spinning on fibers or fabrics.

Silver nano (140) materials and fragrances in the materials of various swimwear (10, 20) consisting of natural or artificial chemical fibers, synthetic resins, spin laces, polyesters, silicones, latexes, polyureas or polyesters, polyurethanes, and microfibers (160) is characterized in that the particle size of the silver nano 140 to 0.1 to 10% by weight of the fibers or fabric of the swimsuit (10, 20) has a particle size of 5 to 300nm and 160 is a bathing suit (10) made from a natural (or artificial) chemical fiber or fabric containing a weight percent of between 0.0.1% and 5% to give off a fragrance or made of silver (thread) made of silver nano140. , 20) is preferably produced by weaving or weaving 240 through a machine in the range of 0.1% to 10% by weight.

Next, another preferred processing method of the silver nano 140 and the swimsuit 10 and 20 containing the fragrance is briefly described as follows.

 1.pretreatment method,

Artificial nylon or polyester fiber in which the silver nano140 material and the fragrance agent 160 are mixed and manufactured in a powder type, and the silver nano140 material and the fragrance agent 160 are mixed during the polymerization of the fibers. The polyester chips are prepared in a masterbatch and the chips are used to produce antimicrobial polyester fibers.

  The characteristic of the yarn modified type is that the washing durability is excellent because the silver nano 140 material is mixed inside the fiber, but it takes time to produce an antibacterial effect and a fragrance divergence effect compared to the post processing type.

 2. Post-treatment method,

  As a method of imparting the silver nano 140 material to the fiber by the post-processing method, ① ① mixes the nano 140 material and the fragrance agent 160 and applies the coating onto the fiber by spraying ② silver like the dyeing process Method of depositing and immersing the raw materials of the swimsuits 10 and 20 in the liquid to which the nano 140 material and the fragrance agent 160 are added. ③ The liquid containing the silver nano 140 material and the fragrance agent 160. There is a pad method or a coating method for processing by padding. Antimicrobial, deodorant and processed textiles are usually processed to the final stages of the post-dyeing process, sometimes after the finished product is processed with a processing agent.

  In this case, in order to improve washing durability of the silver nano 140 material and the fragrance agent 160, the silver nano 140 material and the fragrance agent 160 component may be used as a crosslinking agent or a synthetic resin capable of forming a film. Many methods of fixing to the fiber surface are used.

 3. Reactive resin mediated method,

  The processing method is a silver nano 140 material and a fragrance agent (160) on the surface of the fiber and then crosslinks the components with the fiber and at the same time the silver nano (140) agent and fragrance agent (160 ) Is a method of heat fixing.

Aqueous solution of quaternary ammonium chitosan and film-forming reactive resin is treated on nylon or polyester fabric by spray method, pad method or coating method, and then heat-treated at 130 ~ 180 ℃. Heat immobilize.

 4. The method of immobilizing the antimicrobial agent on the fiber surface,

  In this processing method, the antimicrobial processing agent eluted from the surface of the fiber acts as an antimicrobial agent by adsorption-immobilization of the silver nano 140 material and the fragrance 160 on the fiber surface using a chemical reaction.

 5. Method of using organic silicon quaternary ammonium salt,

In this process, organic silicon-based quaternary ammonium salts are covalently bonded to hydroxyl groups and trimethoxyl groups on cotton fiber surfaces to fix silver nano140 material and fragrance agent 160 on the fiber surface, and at the same time the surface of the organosilicon coating Coating method.

  For example, organic silicon-based quaternary ammonium salts are treated on the surface of cotton fibers by a deepening method or a padding method, followed by drying at 80-120 ° C. to remove water or methanol. By this operation, the silver nano 140 material and the fragrance agent 160 are undispersed in the water to decompose the trimethoxyl group to covalently bond the surface of the fiber and the enzyme atoms of the silver nano 140 material and the fragrance agent 160. The reactive resin of organosilicon is graft polymerized to form a very strong thin film and the antimicrobial agent is heat fixed.

  Antimicrobial agents used in antibacterial and deodorant processed fibers, in addition to silver nano (140) of the present invention, various types such as organometallic, guanycin, halo sialyl element, phenol, fatty acid ester, natural (chitosan, hinokichiol, etc.) Used for antimicrobial processed fiber. As the organic antimicrobial agent, the quaternary ammonium salt-based antimicrobial agent occupies the overwhelming position, and the use of the organic silicon-based quaternary ammonium salt is prominent.

  Brief description of the quaternary ammonium salt-based antimicrobial agent has a structure in which four hydrocarbons are bonded to a nitrogen atom in terms of chemical structure.

Of these, ospan (benzalcholium chloride) used as a disinfectant in water washing is a representative of the quaternary ammonium salts made of organosilicon, which are widely used for textiles, such as 3-trimethoxysilylpropyl and dimethyloctadecyl. And ammonium chloride.

  There are two antimicrobial mechanisms of quaternary ammonium salts, one of which is the physical destruction of the cell membrane. The cation of ammonium molecules binds to the anion sites on the bacterial surface and physically destroys the cell membrane by hydrophobic interaction.

Another is the action of inhibiting metabolic function (growth) by quaternary ammonium salts strongly adsorbed to bacteria and inhibiting enzymes in cells due to the inhibition of bacterial metabolism.

6. Fixed method by sputtering,

  Sputtering has been used to form thin films since Grrove's discovery in 1852. Sputtering methods include a direct current bipolar sputtering method, a high frequency sputtering method, a macronet sputtering method, and a reactive sputtering method.

  In this process, polyester taffeta cloth is washed well with a neutral detergent and dried, the sample is placed in a drum in the chamber of the Macnetron sputtering apparatus, and the pressure is first reduced to 1 × 10-3 Pa in the vacuum apparatus, followed by argon gas. The pressure is adjusted to a predetermined pressure while promoting, and the direct current is discharged at a voltage of 100 to 1000 V for 30 minutes to remove impurities adhering to the target (silver, copper, titanium) surface. Subsequently, the drum is set at a rotational speed of 10 rpm to circulate cooling water at 18 ° C. and sputtered for a predetermined time (12 to 20 seconds) while suppressing the temperature rise of the target.

As a result, various methods up to 1 to 6 containing or containing the silver nano 140 and the fragrance agent 160 of the present application have been found and can be preferably used in the present invention.

Looking at another preferred method of manufacturing a bathing suit (10, 20) containing silver nano 140 and the fragrance (160).

The silver nano 140 and the fragrance agent 160 are added to any one selected from the process of spinning the fabric 260, the roller process 40, and the spray process 60, which are raw materials for the swimsuit 10 and 20.

 The manufacturing work of the swimwear (10, 20) of natural or artificial chemical fabric material is largely performed in the noodle making process (260) → roller process (dipping process) → spray process (600 → drying process (100) → cutting process 120). It consists of two processes.

Noodle 260 is a process of making a fabric, which is a body of a swimsuit (10, 20), by squeezing from natural fibers or artificial fibers of chemical fibers.

Chemical fiber refers to all fabrics that are not woven or knitted, that is, without weaving or weaving (240), and avoiding this hassle as it takes a lot of effort to pull the yarn out of short core oil and weave or scoop it up again. To make cloth directly from textile

Several methods have been 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 various methods such as making by combining with a suitable solvent, and any one of these can be used.

Thus, non-woven fabrication consists of two parts, the making of a web of fibers and a bond, and for a kilogram of fiber a normal swimsuit (10, 20) can be made from 10 to 12 meters. It is made of billion fiber of myriad thin fibers.

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

Orienting the fibers is the same as making a normal fabric, and because the well-ordered webs are parallel and the parallel webs are weak in the transverse direction, cross-aligned webs are created to compensate for this. Is one web placed as close to the right angle as possible on another web, which is very slow to manufacture compared to parallel webs.

The random web is made of a special machine that combines a feeder called Lando Feeder, Landor Weber (trade name of US Collator), and a web-making device, which blows fibers onto the screen and presses the random webs together.

The fibers in web form are bonded to each other, and the binder may include an adhesive polyvinyl acetate, rubber latex, urea forum aldehyde, polyvinyl chloride dispersion, water-soluble carboxymethylcellulose, 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. Natural or artificial chemical fibers are more elastic than natural fibers, and have resilience, tensile strength, and shrinkable wear resistance. Because of its large size, it is mainly used in rayon, synthetic resin, nonwoven fabric, polyester, and nylon.

The most common use is for apparel wicks, and other materials such as bed sheets, towels, blankets, iron pallets, carpets, napkins, shoe insoles, upholstery, and in the case of swimwear (10, 20) Blown by the wind, it is captured on the screen, and the random web (randomly arranged) collected in this way is cleaned up by pressing.

 The fibers in web form are bound to each other and the binder, Binder, is spread over the chemical fibers so that the bonds remain undispersed.

The fabric for the swimsuit (10, 20) manufactured through the noodle making process (260) is a dye and film-forming cross-linking agent is injected through the roller process, the roller (140) process is also called a dipping (Dipping) process.

The fabrics for the swimwears 10 and 20 manufactured through the noodle making process 260 are compressed by passing through the first roller and then colored by passing through the container 80 containing pigment and film-forming crosslinking agent. At the same time, the film-forming crosslinking agent is combined to form a hard tissue fabric.

The fabric contained in the container 80 containing the pigment and the film-forming crosslinking agent and then re-employed is pressed again through the second roller roller. The second roller process 40 causes the fabric to have a flat thickness. It can be kept comfortable and constant and can be said to be a process for increasing the flatness of the fabric.

Next, the spray process 60 refers to the silver nano 140 material, the fragrance agent 160, the polish agent and the film through the mechanical sprayer to the swimsuit 10 and 20 coated to the color through the roller process 40. Applying the forming cross-linking agent once again to make the strength and color of the fabric of the swimsuit 10 and 20 more clear, and after the spraying process 60, according to the prescribed standard of the swimsuit 10 and 20 of the present application After weaving or weaving 240 through the cutting process 120 is completed as a product.

After the spray process 60, the bathing suits 10 and 20 containing the silver nano 140 and the fragrance agent 160 of the present invention are finally completed through the drying process 100.

Next, the drying is a 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 warm air.

In the manufacturing process of the bathing suit 10, 20, the silver nano 140 material and the fragrance agent 160 of the present invention are introduced in any one of the noodle making process 260, the roller process, and the spraying process 60. .

Addition rate of pigment 500g / kg, film-forming cross-linking agent 200g, / kg, pressure-sensitive adhesive 100g, / kg, other additives 200g / kg of silver nano (140) material and fragrance (160) additives and swimwear (10, 20) It is composed of a ratio of 0.01% to 10% by weight of silver nano (140) and 0.01% to 5% by weight of fragrance (160) and the fabric for swimwear (10, 20) while passing through the container (80). This is doped.

At this time, the silver nano 140 material and the fragrance agent 160 are also bonded together with the dye and the film-forming crosslinking agent.

The doped fabric from the bottle 80 is adhered evenly and strongly spreads in the fabric as it passes through the roller again. In the spraying process, the film forming crosslinker, the liquid adhesive, the silver nano 140 material, and the fragrance 160 are sprayed on the sprayer. Place together and spray. At this time, the addition ratio of the pigment 500g / kg, the film-forming cross-linking agent 200g, / kg, the pressure-sensitive adhesive 100g, / kg, other additives 200g / kg and the silver nano 140 material and fragrance (160) additives and swimsuit ( 10, 20) 0.01% to 10% by weight of the silver nano (140) of the combined weight ratio of the main body is composed of 0.01% to 5% by weight of the fragrance (160) and the particle size of the silver nano 140 is 5 to 300nm As described above having a particle size, the silver nano 140 material and the fragrance agent 160 are introduced twice in the roller process 40 and the spray process 60.

This is because the silver nano (140) material and the fragrance agent (160) are uniformly adhered to both the inner and outer skins of the swimwear (10, 20) so that the antimicrobial activity of the silver nano (140) continues as it is even if the swimwear (10, 20) is used for a long time. This is to completely sterilize the contaminated liquid and seep into the endothelium.

    Conventionally, disinfectant fibers prepared using simple silver were prepared by mixing fine silver particles as solids, or by simply coating silver particles or powder on the surface of the fibers.

However, the method of preparing fibers by mixing silver particles or mixing uses only solid silver particles, so that only fine silver particles are recessed in the fiber structure, and silver particles are not uniformly dispersed in the fiber structure. The method of coating silver particles on the surface does not form a strong bonding relationship, so it can be easily peeled through a process such as washing, so that the sterilizing power of the initial stage is difficult to maintain.

As described above, the present invention is silver nano 140 having a particle size of 5 to 300 nm is a colloidal nano silver (Ag) fine particles to suppress the reproductive function of microorganisms such as viruses, bacteria and fungi by the electrical load of silver. By limiting the growth of microorganisms, while penetrating into the cell to stop the function of the enzymes required for the respiration of the microorganisms to prevent metabolism to ensure continuous sterilization in the swimsuit (10, 20). Figures of the cross-section, side, and surface of the electron microscope, respectively, are shown in the drawings for the purpose of understanding of the present invention. FIG. 5 is a 60.000 times magnification of the nanoscopic cross-section of the present invention. 6 is a magnified photograph of the side of the silver nano of the present invention under a microscope of 80.000 times. Figure 8 is a magnified photograph taken. Fig. 8 is an antimicrobial test photograph of the strain in which the silver nano of the present invention was injected. Fig. 9 is Staphylococcus aureus, pneumococci, and bacteria. Fig. 10 is a comparative graph of conventional general fibers and silver nanofibers. FIG. 11 is a diagram showing a three-dimensional structure diagram of silver nano of the present invention. For the always fungus of the swimming suit, silver nano material is extremely preferred, and the blending or weaving amount is preferably 0.01 to 20% by weight in the material of the swimsuit (10.20), respectively. It is because it is difficult to manufacture the swimsuit of the present invention at 0.01 wt% or less, since the sterilization and anti-degradation effects are not shown at all, and the silver nano140 is expensive at 20 wt% or more, and the price rise and viscosity are too high. Natural fragrance fragrance 160 of the present invention can not expect aroma function when used in less than 0.01% by weight, and more than 10% by weight of the fragrance is too large can sense olfactory discomfort and dizziness. Swimsuit (10, 20) containing the silver nano 140 and the fragrance (160) by the prevention of the growth of microorganisms under the action of the silver nano (140) by the generation of odor and microorganisms harmful to the human body (10) , 20) It protects skin from anti-viral and anti-allergic vitamin B6, and has many benefits that keep the disinfectant effect in soft touch, deodorant effect and repeated washing. Have.

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 Thus, the present invention is sterilized by weaving or weaving 240 or coating the silver nano 140 and the fragrance 160 on the swimsuit 10 and 20 made of various natural fibers or artificial fibers. Antibacterial function and deodorizing function Far infrared radiation, microbial removal and fragrance scent by the fragrance is characterized by the production of excellent functional swimwear (10, 20) to the sunscreen.

[Example]

Applicants have been able to know the schematic process of swimwear (10, 20) to test this, and to test this, three-year-old men's swimwear for men (10) with a high standard of bacteria and men and women's swimwear (10, 20) were purchased respectively, and the bacteria, Escherichia coli and fungi were commissioned in the chemical test center as shown below.

[Example]

The main cause of this problem is the purchase of a silver nanogen generator that produces silver ions stably with high purity and makes 20ppm pure silver colloidal solution obtained by decomposing silver rods with D / C current. After mixing to 10ppm, 20L of silver nano solution was added to the sterilized tank, and the bathing suit (10, 20) tested in the test chamber was deposited in the nano silver solution for 60 minutes to deposit silver ions, followed by 60 minutes in a dryer. The average values obtained by measuring the number of Staphylococcus aureus, pneumococci, bacteria, and MRSA (methicillin-resistant Staphylococcus aureus) bacteria before and after the silver solution treatment, are briefly shown in the analysis table below. I came to complete this draft after confirming that it has a natural scent and can be applied industrially enough.

   Although the preferred embodiments of the present invention have been described in detail above, those of ordinary skill in the art to which the present invention pertains without departing from the spirit of the present invention as defined in the appended claims. All changes or modifications to the design will fall within the scope of the present invention.

As described above, the present invention, as described above, the present invention is a silver nano (140) (Nano silver) powder or silver (Ag) solution having a number of advantages to the fabric or fabric of the swimsuit (10, 20) material Silver nano (140) is characterized by having a (Ag) solution or powder in 0.01 to 10% by weight or having a particle size of 5 to 300nm. PPM unit contains silver nano (140) at a constant weight ratio of 0.01 to 10 PPM per 100 g of swimsuit, and is used for the plant's natural fragrance raw materials such as fruit, aroma, herb and flower. By adding a liquid or powder in a ratio of 0.01 to 5% by weight, forming, weaving, or weaving (240) enables the use of swimwear (10, 20) that is easy to produce and propagate bacteria, pathogens and microorganisms clean and hygienic.

In the above description of the embodiments or preferred embodiments of the present invention easily described, those skilled in the art to which the present invention pertains to the present invention without departing from the spirit and scope of the present invention described in the claims below, and within the scope of the patent It will be understood that modifications and modifications are possible.The table below shows 60% of silver nano140s in Staphylococcus aureus, pneumococci, bacteria, and MRSA (Methicillin-resistant Staphylococcus aureus) bacteria. Minutes after the minute the diagram showing the killing of the example was found that the silver nanoparticles have an excellent bactericidal power. test subject unit Number of strains 10% of nano addition (after 60 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 the analysis data of Korea Testing Institute)

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1 is a perspective view of a male swimsuit containing silver nano and fragrance of the present invention.

Figure 2 is a perspective view of a female swimsuit containing silver nano and fragrance of the present invention.

Figure 3 is a block diagram of the production of natural fiber-based swimsuit containing silver nano and fragrance of the present invention.

Figure 4 is a manufacturing block diagram of a synthetic fiber-based bathing suit containing silver nano and fragrance of the present invention. Figure 5 is a photograph taken at 60.000 times magnification under a microscope of the silver nano of the present invention. A photograph taken at 80.000 times magnification under a microscope. FIG. 7 is a photograph taken at 50.000 times magnification of a surface of a silver nano of the present invention. FIG. 8 is an antimicrobial test photograph of a strain containing silver nano of the present invention. Staphylococcus aureus, pneumococci, bacteria into which the silver nano of the present invention is injected. MRSA (Methicillin-resistant Staphylococcus aureus) bacterium antimicrobial test photograph. FIG. 10 is a comparison graph of conventional general fibers and silver nanofibers. Figure shows the three-dimensional structure diagram of the silver nano of the design.

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

10: men's swimsuit 20: women's swimwear

40: roller process 60: spray process

80: container 100: drying process

120: cutting process 140: silver nano

160: fragrance No. 180: cross-linking

200: deposition 220: stirring

240: weaving, weaving 260: noodle making process

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Claims (7)

Formed of natural or artificial fibers or textile materials In the swimsuit 10, 20, in the manufacturing process or the final process of the swimsuit 10, 20, the silver nano 140 material may be 0.01 to 10 based on 100% by weight of the total weight of the swimsuit. Weight percent is contained in the body of the swimsuit Swimsuit containing characteristic silver nano and fragrance. The method of claim 1,  Swimsuit containing silver nano and fragrance, characterized in that the fragrance divergence by containing 0.01 to 5% by weight of the natural fragrance fragrance (160) based on the body of the swimsuit (10, 20). The method according to claim 1, wherein Nano silver material and fragrance (160) is coated or coated on the swimsuit (10, 20) body Swimsuit containing silver nano and fragrance, characterized in that it further comprises formed. The method according to claim 1, Swimsuit containing silver nano, characterized in that the particle size of the silver nano (140) has a particle size of 5 to 300nm. The method of claim 1,  When the weaving or weaving 240, which is a manufacturing process of the swimwear 10 and 20, the silver yarn (thread) made of silver nano is mixed at a ratio of 0.01 to 10% by weight based on the material of the swimwear 10 and 20. Swimsuit containing silver nano and fragrance characterized by being made. The method of claim 1, The injected silver nano (140) solution is a bathing suit containing silver nano and scent, comprising a silver colloidal solution (Silver Colloidal Solution). The method of claim 1, The silver nano 140 material is blended in a content ratio of 0.01 to 10 PPM per 100 g of the total weight of the bathing suit in the material of the swimsuit made of any one of synthetic resin, nylon, silicone, nonwoven fabric, latex, microfiber, and rubber, or Swimsuit containing silver nano and scent characterized by the formation of silver nano coating or coating film.