KR100664409B1 - Multi proofreading utensils - Google Patents

Abstract

A functional orthodontic appliance is provided to prevent bacteria, virus, and germs by adding nano-silver and tourmaline of 0.1~5wt.% and aromatic materials of 0.1~5wt.%. The functional orthodontic appliance is composed of brackets(80) attached on the teeth; an adhesive part(120) bonding the brackets; a wire(60) connecting the brackets; a fixing piece, a band(150), and a fixing screw(130) supporting the teeth; and an elastic rubber or a spring(100) straining the fixing piece, the band, and the fixing screw. Nano-silver, tourmaline nano, and aromatic materials are mixed about 0.1~5wt.% to 100 weight percent of a orthodontic appliance body. A nano-silver or tourmaline coating film is formed on the surface of the orthodontic appliance made of one of metal, synthetic resin, silicon, rubber, and ceramic, in the thickness of 0.05~5 micrometers.

Description

Multi proofreading utensils

1 is a perspective view and a photograph showing the configuration of the orthodontic appliance in the present invention.

Figure 2 is a photograph showing the lingual teeth orthodontic appliance in the present invention.

Figure 3 is a photograph showing a removable orthodontic appliance made of synthetic resin in the present invention.

Figure 4 is a photograph showing the medial orthodontic appliance in the present invention.

Figure 5 is a photograph showing the insertion type orthodontic appliance made of synthetic resin material in the present invention.

Figure 6 is a block diagram of the mixing process of the calibration mechanism of the present invention.

7 is a block diagram of a wet plating process of the calibration mechanism of the present invention.

8 is a block diagram of a dry plasma coating process of the calibration instrument of the present invention.

Figure 9 is a block diagram of the manufacturing process of the calibration mechanism of the synthetic resin material of the present invention.

10 is a block diagram of the manufacturing process of the calibration mechanism of the ceramic material of the present invention.

FIG. 11 is a photograph taken at 60,000 times magnification of a cross section of silver nanoparticles of the present invention.

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

Figure 13 is a photograph taken at 50,000 times magnification of the surface of the silver nano of the present invention.

Figure 14 is a photograph of the antimicrobial activity of the strain into which the silver nano of the present invention.

15 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.

16 is a three-dimensional structural diagram of silver nano of the present invention.

17 is a photograph of the tourmaline far infrared radiation test report of the present invention.

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

19 is a photograph of the tourmaline gemstone of the present invention.

20 is a photograph taken another gemstone of tourmaline of the present invention.

21 is a photograph of the torn stone lump of the present invention.

Figure 22 is a photograph taken of the tourmaline carving of the present invention.

Figure 23 is a photograph taken of the packaged torn dried powder of the present invention.

Figure 24 is a photograph taken of the tourmaline fine powder of the present invention.

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

Figure 26 is a photograph taken by blocking the torn dried powder of the present invention.

27 is a photograph taken by polishing the tourmaline of the present invention.

* Explanation of symbols for main parts of drawings *

10: blowjob 20: tongue

40: tooth 60: wire

80: bracket 100: elastic rubber, spring

120: bonding portion 130: fixing screw

140: holder 150: band

160: silver nano 180: tourmaline

190: scent ash 200: mixed

210: coating 220: melting

240: fusion 260: drying

280: Stirring 290: Deposition

300: cylinder 320: injection

340: molding 360: softening

380: mold module 400: chamber

420: washing step 440: rinsing step

460: polishing step 480: plating tank

500: initial plating 520: nickel plating

540: gas injection process 560: sterilization process

580: silver nanoplate, target 600: 1st surface finish

620: secondary surface finish 630: firing

650: pressurized 660: insertion correction mechanism

The present invention relates to a bio-calibration device made of any one of a metal, silicon, rubber, ceramic material is mixed (200) or coated (210) silver nano (160) and tourmaline (180), generally Orthodontics are most commonly used in surgery and dentistry. Orthodontics are used to ensure that teeth and jaws are positioned correctly or at normal angles when there is a malocclusion with teeth or jaw misalignments, such as teeth or cuddles. By saying mechanism to match with, as a correction device

There are lingual orthodontic devices worn on the outside and worn on the inside.

On the other hand, look at the overall dental orthodontics in order to help the understanding of the orthodontics of the present invention.

The correction of teeth is divided into lingual correction and medial correction. For aesthetic reasons, the lingual orthodontic device has recently been activated. However, the lingual correction device is more uncomfortable for patients. There is no more occurrence, but it is difficult to manage and the calibration period may be longer than the median period.

True aesthetic orthodontic treatment is currently called Lingual Orthodontics, Invisible Orthodontics.

Unlike the external exposure device, lingual orthodontic treatment has a slight foreign body at first, and thus pronunciation dysfunction. Most lingual orthodontic patients are adapted to within 1 or 2 weeks and gradually lose their foreign body feeling. If you have a disability, but you can adapt within a few weeks and can't easily adapt, it can be solved through your own practice.It is about 3 to 6 months longer than normal malocclusion, but the treatment period can be shortened. have.

The orthodontic device is made of various materials such as metal, ceramic, rubber and the like to fix the teeth and to the bracket to attach the orthodontic bracket 80 and the bracket (80) attached to the tooth and elastic rubber or spring (100) And the fixing screw 130 for fixing it and the wire 60 having a shape memory function for connecting the bracket 80 is largely divided into a leacher wire.

Recently, as the population of orthodontics has increased, the demand for more aesthetic devices in social conditions has led to the development of ceramic or plastic devices with the same tooth color.

However, this also has the disadvantage of being seen because the device is exposed.

 If you need orthodontic treatment

Opposite bite where the lower incisor bites forward in front of the upper incisor when there is a gap between the teeth even after running out of crooked or overlapping teeth due to lack of space. When a child falls too early or remains too long

 If the middle line of the lower-upper teeth does not match, the face looks strange (scalp, jaw, squeak, lips protruding)

 If the upper and lower incisors do not touch when molar

 If the incisor is too deep and the lower incisor does not cover the upper incisor,

 If they do not mesh well and have difficulty chewing food,

 If you have sound or pain in your jaw joint when opening or closing your mouth

Prophylaxis is a misalignment between the upper and lower jaw bones, which can promote or suppress the growth of the jaw bones during the early growth period, thereby correcting the incongruity between the jaw bones, and in the future, may be a negative effect on the development of the dentition. It is a treatment that helps normal growth by removing the occlusion and bad habits early.

The duration of treatment usually ranges from six months to one year, and after the permanent teeth have run out (usually around 12-13 years old), fixed teeth may need to be fitted to correct the overall tooth position.

Next is adult correction,

Orthodontic treatment in the growth phase (under 18 years of age) has the advantages of rapid tooth movement, easy adaptation, and less recurrence of malocclusion after orthodontic treatment. In recent years, the number of orthodontic treatments in adults has increased so much that 25% of patients undergoing orthodontic treatment are adults over 18 years old. It is slower than the growth period, so there is a difference that the speed of tooth movement must be slowed down. However, due to the development of orthodontic technology, methods for shortening orthodontic treatment period such as rapid orthodontic implantation have been developed.

On the other hand, the teeth with the correction device is significantly higher than the natural teeth of the debris, plaque, calculus of the food and the brushing is caused by the attachment of the correction device, blind spots occur, especially sticky food or hard food food between the correction device Pinching, causing rapid tooth decay, leading to deformation and dropping of the orthodontic device, which may lead to undesired or undesired tooth movement.

 Teeth usually move 1mm a month, so when the wire is released, a small wire that ties the bracket to the cast iron (80) must be pushed under the main wire with a pointed loose ring.

 The retainer wire with shape memory is so thin that it often slips behind the rear teeth. Orthodontic treatment is usually given every two to three or four weeks.

After orthodontic treatment, you will be examined every few months at the end of the month to adjust the maintenance device.

Inflammation of the cavities or gums may cause delayed or discontinued orthodontic treatment, and often white spots (pre-caries) on the tooth surface after orthodontic treatment.

The present invention has been made in order to solve the infection and cavities of the bacteria generated during the correction of the teeth, the fixture and brackets made of any one material of metal, synthetic resin, rubber, ceramic material that is a device for correcting teeth (80) ) And the elastic rubber or spring (100) to support and pull it and the fixing screw (130) for fixing it and silver nano (160) and tourmaline (180) or aged material By mixing (200) or coating (210) to equip the body of the dental orthodontic appliance anti-bacterial power to wear orthodontic instruments in the long term can be used to correct the infection or tooth decay in the oral cavity, plaque generation and bad breath A functional calibration mechanism.

The present invention relates to a bio- orthodontic appliance including anti-bacterial surgery containing silver nano (160) and tourmaline nano (180) as described above, and the metal, synthetic resin, rubber, silicon, ceramic material Aging of the at least one anti-sterile mineral metal including silver nano 160, which is an antimicrobial metal material, preferably gold, copper, zinc, tin, etc. It is added to the material of the manufacturing or during the manufacturing process, the liquid or powder of the raw material of natural fragrances (190) such as aroma, fruit, herbs, flowers in a weight ratio of 0.01 to 10% by weight, and the latest tourmaline mineral tourmaline mineral ( 180) In the form of nano-type, anti-sterilization and deodorization role and far-infrared ray are emitted to protect users' body and use the corrective device of comfortable state. Be that relates to a nano-160 and tourmaline (180) the nanomaterial needle or coating 210. The functional in vivo calibration mechanism.

The antimicrobial minerals introduced into the orthodontic appliance of the present invention are as follows. Looking at the advantages of the silver nano 160 and tourmaline nano 180 materials, respectively.

First, the silver nano 160 of the present invention is economical and anti-sterilization and power because the nano nano 160 and tormalin (180) nanomaterials are easily added at the time of manufacturing the orthodontic appliance without the physical, chemical, or electrical action of the surroundings. The long-term release and sustainability of the germ-line, far-infrared anions, and long-term benefits include:

Then, if you first look at the features of the representative antimicrobial mineral metal silver nano (160)

     1: When nanonized silver, antibacterial, sterilization, deodorization, detoxification function is superior to any disinfectant, and the silver nano (160) -correcting device promotes blood circulation and endocrine activity when used, and the environment which is becoming a problem recently It can block more than 90% of the hormone formaldehyde and have antiviral and antiallergic effects.

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

It strongly binds with SH, CO OH, 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. The silver nano 160 has excellent electrical conductivity and functions to prevent static electricity generation, to prevent harmful electromagnetic waves and to prevent atopy, skin disease, and itching, and to stabilize the mind and body.

       4: The silver nano 160 is very easy to coat (210), mix (380), or feed with a material, and is well suited to synthetic resins, rubbers, and ceramics, which are materials of fabrics, metals, plastics, and the calibration instruments of the present invention. Fusion.

       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.

Since the orthodontic appliance for living body is attached to the patient's mouth or body, it always gets a lot of saliva and secretion foods, and the body of the orthodontic appliance has a very disgusting smell when used for a long time. The fragrance (190) is a liquid or powder of the raw material in a weight ratio of 0.1 to 5% by weight to always emit a soft scent from the body of the orthodontic appliance to entertain the sense of smell of users of the orthodontic appliance and to prevent allergic diseases or rhinitis It has the effect of increasing health.

Next, looking at the advantages of the silver nano 160 and tourmaline (180) minerals, far infrared rays emitted from the tourmaline (180) promotes the flow of human blood, promotes sweating (waste release), neuralgia, arthritis, back pain Relief of the back, of the skin

It has a soothing effect (face), deodorization, antibacterial, dehumidification, softening (water), and air cleaning, so it is widely used in Europe and Japan for jewelry, underwear, bedding, cosmetics, air purifier, medical equipment, tableware, water purifier, etc. have.

Natural tourmaline mineral is a silver hexagonal crystal structure with a specific gravity of 2.90 to 3.10 g / cm 2 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 due to the permanent flow of amperes of weak current.

Due to this characteristic of the tourmaline (180), the weak current stimulates the menstrual blood for the human body, improves peripheral circulation, promotes blood flow, etc. Weakly generated acidified body fluids

It is known to give stability to the human body by improving caliber constitution and test results of 325 mesh tourmaline nano (180) powder from Korea Institute of Construction Materials. As a result of the test report shown in the drawing below, it has the characteristics of far-infrared radiation. This far-infrared and radiation energy improves blood circulation and promotes metabolism, promotes the discharge of skin wastes, activates the skin, and has excellent effects in the treatment of diabetes, constipation pain and arthritis. 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 the tourmaline nano 180 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 be in a tense state. The tornin nano 180 releases a large amount of anions.

   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, cations and negative ions of floating odor causing substances are electrically neutralized, resulting in odorless odors. It will be lost. The tourmaline 180 not only removes the smell of floating in the room, but also has an effect on the smell emitted from the body, and the anion generated by the tourmaline 180 has a function of decomposing or neutralizing the odor.

   4. Warming up.

The amount of tornin 180 that emits far infrared rays increases as heat is applied, and when the tornin 180 has a product processed into ore or powder, it absorbs the heat energy emitted from the human body.

This heat energy is tourmaline (180) is converted back to the heat energy back to the body.

In addition, as the body becomes an energy source, the tornin (180) warms the body and the heat energy again radiates far infrared rays from the tornin (180), so the longer the tornin (180) material is retained in the body, 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 160 and tourmaline (180) nano put into the functional calibration mechanism of the present invention.

The present invention is a silver nano (160) and tourmaline (180) greatly improving the conventional calibration mechanism

An object of the present invention is to provide a functional antibacterial corrective device containing nanomaterials and fragrances 140.

Therefore, the present invention has been made in view of the conventional problems as described above to solve the complement, the main object of the invention is to fix the teeth made of metal, synthetic resin, rubber, silicon, ceramic material and to attach the orthodontic bracket 80 The bracket 80 attached to the holder and the tooth and the elastic rubber or spring 100 that serves to support and pull it and the fixing screw 130 to fix it and the shape memory connecting the bracket 80 Injecting silver nano (160) and torn marlin (180) nano and fragrance ash (190) into the body of the wire corrector to prevent infection of orthodontic patients and to prevent tooth decay and prevent plugs during dental use. It aims to achieve safe oral correction by emitting negative ions and far infrared rays.

The present invention relates to a calibration mechanism made of any one of metal, synthetic resin, silicon, rubber, ceramic, mineral material, based on the total weight of the calibration mechanism body silver nano 160 and tourmaline (180) nano powder or the It relates to the mixing 200 or coating 210 of the powder diluted solution 0.1 to 5% by weight to the calibration device body.

   The particle size of the silver nano 160 and the tourmaline (180) nano-injected to the calibration tool is added to the body of the calibration tool to have a particle size of 1 to 15nm to form a coating 210 film, wherein the coating (210) ) The thickness of the membrane is 0.05 to 5 탆 (micro) particle diameter to have antimicrobial and bactericidal action on various types of orthodontic instruments attached to the teeth.

First, looking at the silver nano 160 of the present invention are as follows.

Silver, the main component of silver nano (160), 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 160, a brief description of the silver nano 160 (Nano silver) extraction method and features in the present invention are 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 160 was first developed by a biotechnology company, a government-affiliated organization in our country, and was named Silver Nano 160 as a compound name of the brand name Na no-technology and silver. ;

  Silver nano (160) is a field of Na no-technology (nano technology) is an advanced antimicrobial agent using the mechanism of strong antibacterial and sterilization function, electromagnetic shielding excellent electrical conductivity. Silver nano (160) is unlikely to be resistant to bacteria, unlike conventional antibiotics. Silver nano (160) 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 160 consisting of powder and solution have been invented 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 (160) (Nano silver) is a new concept made by utilizing the excellent efficacy of antimicrobial power, deodorization station, and extending the preservation time of food among the many characteristics of silver. .

 Since ancient times, silver has been recognized as a disinfecting substance that not only prevents bacteria but also East and West. Currently, the extraction method of silver (160) is added to distilled water (Age 99.9%). 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 to obtain a stable silver nano (160) may be used a lot of conventional electrolysis method. Looking at the known well-known manufacturing method of various forms of the silver nano is as follows.

The production method of silver nano is currently very diverse and good methods are being developed and developed one after another. Conventional nano powder production method can be divided into gas phase method, liquid phase method and mechanical method. Law and meteorological reduction method, and mechanical grinding method using mechanical force.

The uniformity of the particle size of the prepared powder is good and can produce particles of high purity, and the advantages and disadvantages of preventing the agglomeration of the particles have the disadvantage that the experimental equipment is expensive.

In addition, the manufacturing method using the liquid phase is capable of producing a uniform powder than the manufacturing method using the gas phase, and also has the advantage of manufacturing the powder at a low device cost, but the tendency of aggregation of the individual particles is very strong and the shape of the particles is somewhat irregular The disadvantage is that.

Next, there is a systematic recipe,

While there is a problem in the incorporation of impurities generated in the manufacturing process and a severe condensation phenomenon, there is an advantage that can easily mix several components,

In the present invention, there is a feature of the present invention in producing a product by applying the conventional silver nano produced through the various types of silver nano-manufacturing methods described above without producing silver nano according to the production method of silver nano.

The silver nano 160 of the present invention is ultrafine particles of 0.1 to 15 nm silver, 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 sure that the antibacterial, It has a germ area (99.9%) (reference virus size is about 10 nm).

     The main antibacterial mechanism of silver nano (160) is to dissolve harmful bacteria cell membranes and interact with enzymes in the cells to block the metabolic function of nutrients, that is, the influx and discharge of nutrients, and stop the respiration and production of harmful bacteria And destroys regenerating ability to kill harmful bacteria.

     In addition, since the silver nano 160 controls the harmful bacteria by releasing antimicrobial power continuously from the fine particles, the antimicrobial and bactericidal function is excellent in sustainability.

Therefore, silver nano (160) does not produce resistance and silver nano (160) 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% antimicrobial and sterilization, silver nanoparticles are known to have more than 200 times the sterilization power compared to silver powder or ions.

    In addition, unlike the general chemical antimicrobial agent or chlorine disinfectant, silver nano 160 is an ultrafine particle of pure silver, so it has excellent antibacterial and antibacterial properties (99.9%) even at high temperature, and is non-toxic and non-irritating to the human body. It has been reported that bacteria cannot live in contact with silver nano 160 and more than 5 minutes.

Next, the tourmaline 180, which is a constituent mineral, is described in detail in order to help the present invention.

    Tor Marlin (180) is called the Sinhalese (Sri Lankan) tourmaline, meaning 'mixed gems'. In the mid-1500s, the Porto Cal expedition discovered a green mineral in Brazil, which they called emerald. It was Tourmaline (180) and Thormaline (180) was first discovered in 1703 on the Celon Islands, the clear transparent Tormaline (180), 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 to be found in the states of Maine and California, and advertised his jewels, and the expansion of the market supply led to the discovery of the Tor Marin (180) mine in Brazil in the early 20th century.

Tourmaline (180) is one of the most interesting gems because of its variety of colors and one of its own energetic materials (uranium ore, magnetite, tourmaline (180)).

The largest importer of tourmaline (180) was China, but in the early 1900s the market was closed off due to communism, but again the quality tourmaline (180) 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 about the Tourmaline (180) have been discovered before it became known as a jewel in Europe. When the children are playing in the Tourmaline (180) mine in midsummer, they are heated by the heat of hot sunlight. Marlin (180) Attention has been paid to the attraction and rebound of ash and light matter in natural gemstone crystals. Sometimes, men use this phenomenon to remove ash from clogged tobacco pipes. It is said that crystals were used.

The Tor Marlin (180) mine at this time was a wilderness and mountainous area thousands of kilometers away from the village, and of course, the surrounding environment was also poor and many people became ill. 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 of the Toxic Tormarin (180) mine were the smallest.

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 (180). 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 called a mineralist. 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, according to the study of the physicist 保 保 哲 治 郎 氏 in 1986, no matter how much crushed torn marlin (180) itself, the positive (+) and the negative (-) are present at both ends of the crystal, and permanently It was found that the nature did not disappear. Thus, when the anode (+) and the cathode (-) are connected to the tourmaline crystal (180) with a wire, it is proved that a weak current of 0.06 mA flows. It became known as the tourmaline, and is now also known as Japan's, Korea's, and China's.

    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, and the gemstone cannot be used as it is. However, the Tourmaline (180) ore is permanent, as it has permanent magnetism, which is the property of magnetism. It has the property of being charged with electricity. The electricity of 0.06 mA emitted by the tourmaline 180 is a weak current that occurs when plant and animal cells nourish for growth. 100 watt light bulb

1A (amps), the hair dryer is a very small current compared to 10A. However, the tourmaline 180 generates electricity no matter how discharged.

Tourmaline (180) is a health gem that energizes the human body by absorbing a large amount of beneficial energy from the sun for hundreds of millions of years and releases energy semi-permanently, and Tourmaline (180) 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 known as Tour Marlin (180), the 'Tour Marlin (180) ore' is used in health drinks, such as negative ions due to the electrostatic mechanism, and its 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 has a flat top and bottom rhombohedron, needle and shape, and sometimes forms granules and agglomerations, and the cleavage is not clear. It is not flat or shell-shaped, has a hardness of 7.0-7.5, specific gravity 2.98-3.20, and has glass or resin gloss.

Electricity is generated by the tourmaline friction of the tourmaline (180), and when heated, both ends are positively and negatively charged (가열 電), which is named because many irons are called iron tourmaline, and have black eyes. Many things are opaque.

Tourmaline (180) is produced in granite pegmatite together with quartz, dolomite, feldspar, etc.Magnesium-rich is called goto tourmaline or magnesium tourmaline. do.

Many tourmaline metals are called tourmaline or alkaline tourmaline, and they have various colors such as colorless, red, blue, yellow, and many of them are transparent. Among them, red is tourmaline (rubellite), 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 180 has the only electrical properties among the only minerals present on the planet, so the anion and weak currents generated from this ore are far being actively studied at universities and research institutes for health and the environment. It is a groundbreaking new material, especially with the effect of far infrared rays and negative ions.

As mentioned above, far infrared rays have a function of improving blood circulation, warming the body and stimulating metabolism, and negative ions have the function of releasing tension of the autonomic nerve, which is fragile due to stress, and adjusting the condition of the body and mind. .

The tourmaline 180 (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 .

Brief description of the drawings of the calibration mechanism containing the silver nano 160 and tourmaline 180 of the present invention for achieving the above object is as follows.

   1 is a perspective view and a photograph showing the configuration of the orthodontic appliance in the present invention, the surface of the tooth slightly corroded with a chemical to the bracket (80) to be fixed with an adhesive and pull the fixed stop to the bracket (80) Wire 60 to be used to woven with the bracket 80, the support member that can transfer the force to the bracket 80 or the wire 60, and the elastic rubber or spring 100 to serve to pull it and It consists of a fixing screw 130 for fixing it and the band 150 is inserted into the four teeth to serve as a fixing part of the wire 60 and the support member.

At this time, most of the configuration of the conventional orthodontic device, as shown in Figure 1, after fixing the bracket 80 to the surface of the teeth, and securely supported by the retcher wire 60 generates a traction force and band 150 ) And the fixing screw 130 and the elastic rubber or spring 100 to be pulled by the tension to the force required for the correction.

    Figure 2 is a photograph showing the lingual orthodontic appliance in the present invention is a photograph showing a correction mechanism attached to the inner side of the lingual tongue that is currently used a lot for aesthetic reasons.

    Figure 3 is a photograph showing a removable correction mechanism made of synthetic resin in the present invention mainly attached to the lingual side, easy to insert or dismantle as a teeth straightening device of a synthetic resin material eccentric wire 60 to the synthetic resin body after curing the teeth It will be used to clip in.

    Figure 4 is a picture showing the internal orthodontic appliance in the present invention wire 60 for fixing the adhesive portion 120 and the attached bracket 80 to adhere the bracket 80 to the body of the tooth using an adhesive and this Picture of the fixing bracket 140 and the band 150 and the elastic rubber or spring 100 for continuously applying traction and elasticity to the teeth to be corrected, and attaching the metal correction mechanism to the inner side of the tooth. It is shown.

    5 is a photograph showing the insertion-type orthodontic appliance 660 made of a synthetic resin material in the present invention as one of the recently developed orthodontic treatment method, instead of attaching the orthodontic device by orthodontic treatment using a transparent frame surrounding the entire dentition. The insertion-orthodontic appliance 660 may be worn all day.

Since the orthodontic mechanism 660 is a transparent frame, which is almost invisible on the surface, it is called a transparent orthodontic device, and has the advantage of not attaching the device, but when eating and brushing teeth, it is necessary to continue wearing other than corrective treatment because it requires more cooperation. And, after shaping the pattern of the upper jaw or lower jaw of the tooth is inserted into the tooth after correction of the bone in the form of the tooth to be corrected. Recently, the insertion orthodontic appliance 660 made of a ceramic material has also been released.

    6 is a block diagram of a mixing process of the calibration device for a living body according to the present invention, wherein the calibration device is made of any one of metal, synthetic resin, ceramic, and the like. ) Powder or a diluted solution of the powder is heated to melt (240) or melt (220) for mixing (200) or coating (210) to 0.1 to 5% by weight based on the total weight of the calibration instrument body. Softening (360) and adding silver nano (160) and torn dried nano (180) by mixing (200) and then stirring (280) to the molding (340) to the module 380 by molding (340) after the slow cooling process After the polishing process 480 will be completed,

A block diagram is prepared by adding silver nano 160 and tourmaline (180) nano powder or solution to the entire material of the calibration instrument at a preferred weight ratio of 0.1 to 5 wt% based on the total weight of the calibration instrument body. It is shown.

    FIG. 7 is a block diagram of a wet plating process of a calibration device for a living body according to the present invention, in order to coat the completed calibration tool 210 with silver nano 160 and tourmaline 180 nanomaterials.

Electroplating wet plating method or a dry plating method using a plasma can be used, the present invention follows a conventional plating method and there are many types and methods of plating so that not all can be listed as a preferred embodiment of the calibration mechanism of FIG. The wet electroplating will be described first.

 Coating 210 or plating is generally divided into electroplating and electroless plating, and silver plating requires a solution containing silver ions, and gold plating requires a solution containing gold nano ions.

 When the electrode is placed in a solution containing metal ions and a current is applied, metal ions are discharged and precipitated at the cathode, which is used to form a thin film of metal on the surface of the article placed on the cathode.

The purpose of plating is to beautifully finish the exterior of the article, to increase corrosion resistance, to resist wear and corrosion, and to obtain other necessary surface properties. To increase lubrication.

 The general sequence of the electroplating of the present invention is the plating of nickel (520), which is a pre-plating process so that the metal surface of the calibration tool made of metal is well coated with copper, this process may be omitted if necessary, and finally, Nano (160) and Tourmaline (180)

Allow nanomaterials to be plated.

The silver nano 160 and the tourmaline 180 as the cathode and the metal to be electrodeposited as the anode, the silver nano 160 and the tourmaline 180 to be electrodeposited

The nano nanoparticles in the electrolyte containing the ions, and the direct current through the silver nano (160) and tourmaline (180) ions will stick to the surface of the calibration mechanism.

Looking at the process of plating the calibration instrument with silver nano 160 and torn marlin (180) nano material, after the cleaning process (420) and rinsing process (440) to shake off the impurities in the body of the completed calibration mechanism abrasion (麻布) After the polishing process (460) and washed again with clean water (洗滌) and immersed in the plating solution.

In the plating tank 500, the calibration apparatus is stored in a container containing the calibration apparatus to be plated with silver nano 160 and the tourmaline (180) nano and connected with the calibration instrument on the positive side, and the silver nano (160 on the pole side). ) And the Tourmaline (180) plate (target) 580, and the + and-poles of direct current flowing in the galvanic silver nano (160) and the Tourmaline (180) nano-material is coated (210) ) And then the coating 210 or plated calibration mechanism is dried again after the washing process 420 and the drying process 260 and dried and then packaged.

As described above, the electrode is equipped with a calibration mechanism, which is a plated body to be plated, and the + pole is attached with a silver nano (160) and a tourmaline (180) plate (target) 580, and a current flows to remove the positive and negative ions. The electrons go to the pole-the calibration mechanism, and of course the aqueous solution contains silver nano (160) and torn dried nano (180) ions. The dried nano (180) ions are attached to each other so that the calibration mechanism is silver nano (160) and torn dried nano (180) wet plating.

 The thickness of the coating 210 of the silver nano 160 and the tourmaline nano 180 wet plating on the calibration tool is coated 210 to a thickness of 0.05 to 5 μm (micrometer), and the weight of the calibration tool is determined as a whole. 0.1 to 5% by weight of the particle size of the silver nano 160 is added to the calibration mechanism to the wet coating 210 to a particle size of 1 to 15nm.

In addition, the embodiment of the silver nano plating is a conventional plating method and the size of the silver nano (160) material and the particles of the silver nano 160, and the coating material or the size of the particle size of 1 to 15nm and coating ( The coating 210 at the time of 210 is characterized by coating 210 to a thickness of 0.05 to 5 μm (micrometer).

     Next, FIG. 8 is a block diagram of a dry plasma coating 210 process of the calibration tool of the present invention, and the plasma is a dry coating method for the calibration tool containing the silver nano 160 and torn dried nano 180 materials of the present invention. The (plasma) coating 210 is described in detail as follows.

Plasma is a gaseous state separated by electrons with positive charges and positively charged ions at high temperature, and has a high degree of charge separation and a positive gaseous number as a whole. In general, it is a gas that is neutral due to the same number of charges in yin and yang.

 Since the long-acting Coulomb force acts between charges, it is characterized by the collective action of the whole moving under the influence of the distant state rather than the local state of the short distance. In 1928, I. Lang Muir of the United States first applied the concept of plasma to ionized gases produced during electrical discharges.

  Plasma is derived from the Greek words πλσμα, -ατos, τ, and its original meaning is that it is built and assembled, and as the characteristics of group behavior suggest, it actually deals with plasma. There is a view that Plasma itself is usually behaving arbitrarily rather than easily controlled from the outside, and that the original name is wrong.So, Plasma is the fourth to be followed by solid, liquid, and gas (three states of matter). It is called material state.

As the temperature gradually increases, almost all objects change from solid to liquid and gaseous state, and at tens of thousands of degrees Celsius, the gas is separated into electrons and atomic nuclei into plasma.

Plasma is not common in everyday life, but it is common throughout the universe, because 99% of the universe is assumed to be plasma, for example conducting gases, rockets or lightning that carry currents in fluorescent lamps. There are ionized gases mixed in the gas when it hits, aurora borealis in the Arctic, ionosphere in the atmosphere.

 Plasma is present in the van allenic zone, solar winds intermittently pouring from the sun, and the hydrogen gas filling the space between the stars and the surrounding gas and the space between the stars is in the plasma state. .

Each object that makes up the plasma is electric, so it is very different from the neutral gas, has a high electrical conductivity, and the current is limited to the surface like a metal conductor. When applied, it is easily affected by the force as a charge, but as the charge density increases, the group movement differs from the individual movement, and the self-closing required by nuclear fusion means that the charge follows the magnetic field line. It is used to confine the Plasma to it by properly deforming the magnetic force line and confining it to a place in space.

 In the past, plasma research has been conducted in geophysics and astrophysics related to plasma around the earth and celestial bodies, but recently, the development of electromagnetic fluid dynamics (MHD) using the electrical properties of plasma, ion engines of space travel rockets, Research is underway for nuclear fusion research, and it has been a long time since the Department of Plasma was established in the science and engineering fields of Korean universities.

 As such, the high temperature and active chemical properties of plasma provide extreme environments that are difficult to obtain by conventional methods, and can be used to give new physical and chemical properties different from the main body by changing the properties of new materials, metals or polymers. there is,

Diamond, for example, is an important material not only for jewelry but also for industry because of its high hardness, thermal conductivity, refractive index, and large band gap. Artificial synthesis of diamond was developed by GE company in USA in the 1950s. Although a high temperature and high pressure method has been mainly used, it has been found in the early 80s that diamonds can be obtained in a thin film form from methane gas plasma at low pressure in the USSR, thereby coating semiconductor devices, tool coating (210), and optical component (210). In addition, new applications are being actively explored for acoustic devices.

In addition, the wear-resistant coating 210, the decorative coating 210 of the tool, it can be made by the dry method through a reactive ion plating or sputtering method used as a diffusion barrier at the contact point in the manufacture of the semiconductor device.

In addition, if the surface of the polymer is treated with nitrogen or oxygen plasma, it can give hydrophilicity or hydrophobicity to the surface of the polymer, or it can improve antistatic, dichroic, deep color, etc. When contacted with a plasma and biased, a nitride or carburized layer is formed on the surface to improve the hardness, wear resistance, and corrosion resistance of the metal.

Some of the effects that can be obtained by the surface coating 210 and the modification technique using plasma can be obtained by the conventional wet plating or coating 210 method, but considering the environmental pollution problem, The dry method has many advantages, and it is possible to apply plasma for plasma welding, cutting, processing of materials using high temperature of plasma, and to spray plasma, and to dissolve high melting point powder into plasma Coating 210 on the surface (coating) is to significantly increase the heat resistance, corrosion resistance, wear resistance and the like.

 In addition, ultra-fine particles can be manufactured and the particles synthesized using high temperature and high activity of thermal plasma are quenched and synthesized into ultra-fine particles to deposit plasma chemically or physically and to produce a functional film using plasma. The high temperature, high activity of the thermal plasma allows the waste to be decomposed and vitrified.

As such, the plasma coating 210 makes the vacuum chamber 400 a vacuum, injects argon and other inert gases, and then causes electrical discharge. The gases introduced into the chamber 400 are ionized. ) And the process of colliding with the targets 580 (plate) and the tourmaline nano (180) target 580 (plate) in which the silver nano (160) and the tourmaline nano (180) atoms protrude in a gaseous state and are coated 210 on a plated body (calibration apparatus). As a result, the thickness can be controlled in nano units significantly according to the coating time.

Next, a brief description of the coating 210 process of the calibration mechanism using the plasma of the present invention as follows.

 In order to wash foreign substances on the surface of the completed calibration tool, the calibration tool is put into the washing tub, the cleaning solution is injected, and the washing process is used to wash the impurities attached in the manufacturing process of the calibration tool, which is inside or outside the metal, using the washing machine (420). After passing through the rinse process (460) and the drying process (440) in the dryer to evaporate the water and then to the chamber (400) with the calibration tool attached to the holder, the plasma inside the calibration tool or under vacuum After the sterilization process 580 on the outside, the surface of the calibration tool body is processed.

Next, after the plasma sterilization process (580) and the silver nano (160) primary surface processing (600), the calibration apparatus coated with silver nano (160) and tourmaline nano (180) materials (210) was used. Plasma secondary surface processing (620) and reinforcement treatment is performed to improve surface adhesion.

Next, in the plasma plating or coating 210 of the silver nano 160 and the tourmaline nano 180 material to the calibration apparatus 200 by vacuum macnetron stuffing plasma plating method, a plasma plating coating ( 210) A thickness of 0.05-5 μm (micrometer) is obtained by coating (210) with a plasma (Plasma) or the silver nano (160) and torn dried nano (180) material on the metal material of the corrector sphere 0.1 to 5% by weight of the total weight of the coating 210 will be prepared.

In addition, it is of course possible to mix (200) or coating (210) on the material of the calibration mechanism of the non-metal synthetic resin, ceramic, rubber, material using the plasma using the process using the plasma process, and here, orthodontic Orthodontic device that is inserted into or attached to the human body for medical purposes, not limited to the instrument is possible to use for all instruments of surgery, and in the present invention it is clear that it is only an example of representing the dentist.

As a result, a calibration device coated with the silver nano 160 and tourmaline nano 180 materials 210 is completed, and then packaged and distributed to a medical institution for hygienic and effective use.

The mixing 200, coating 210, or plating method of the silver nano 160 and the tourmaline nano 180 may be performed by mixing 200, plating, or coating 210 a surgical orthodontic appliance including a conventional dentistry. It should be understood by those skilled in the art that it will follow.

    9 is a block diagram of the manufacturing process of the calibration mechanism of the synthetic resin material of the present invention,

First, the injection process or the molding 340 process of the calibration mechanism made of any one material of synthetic resin, metal, rubber, silicon is as follows.

After removing this material to the material, it is put into the container 300, melted 220, softened (360) and the paint, crosslinking agent and hardener 0.1 to 5 based on the total weight of the calibration mechanism. 0.1 to 5% by weight of the silver nano (160) and torn dried nano (180) powder or a solution of the diluted powder based on the total weight to the material and other (not shown) additives The particle size of the nano 160 and torn dried nano 180 particles has a particle size of 1 to 15 nm, and a curing agent or flocculant is added in an amount of 0.1 to 5 wt% based on the total weight of the calibration instrument to promote coagulation. In order to give the color of the calibration mechanism, the pigment is injected into the molding module 380, which is 0.1 to 5% by weight, injected or molded (340), cooled and dried, followed by a drying (260) process, inspection and packaging and completion. To Referring to the type and method of the injection molding unit 340 to the road shown as follows.

1, injection molding

 It is suitable for mass production of complex shaped products by the molding method of molding the mold 340 of the calibration mechanism by heating and melting 220, and filling the cavity of the pre-closed mold, and then solidifying or curing the mold. Molding 340 is a major field of processing.

 The molding materials used for injection molding are thermoplastic resins, which are mainly applied to almost all molding materials such as thermosetting resins, rubbers and foam molding materials, and various kinds of molding materials and mold structures have been developed in consideration of the types of molding materials. .

Molding is a standard type of line screw type injection molding machine which is ① mold, ② injection, ③ pressure preservation (this series of processes to prevent backflow of material filled in cavity and extract by cooling is repeated as one cycle). When retracting and injecting by molding material, the screw advances and extrudes the molding material, and this type of molding machine is also used for molding thermosetting resin.

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 injection molding conditions;

1, extrusion

Silver nano 160 and tourmaline nano 180 were added to thermoplastic synthetic resin material on the surface of various thin layer substrates such as paper, cloth, cellophane, vinyl, film, metal film, and the like by heating and melting 220 using an extruder. It is a processing method in which the film is extruded in a thin film form at the T band after being brought into a fluid state and continuously pressed. Characteristics of the substrate and the thermoplastic resin

Combinations of features (water resistance, moisture resistance, chemical resistance, flexibility toughness, breathability, heat rod synthesis, etc.) make the packaging volume layer material adaptable to various applications, but the mainstream of the current practical use is low density polyethylene, polypropylene, Vinylene chloride resin and the like.

2, compression-molding

 In the most common molding method of thermosetting resin, the molding material into which the silver nano 160 and the tourmaline nano 180 are charged is placed in a recessed hole (called a cavity) of a heated mold and corrected by a compression molding machine (press). The apparatus is pressurized (650).

 The molding material of the orthodontic appliance is heated in the cavity and once flowed, spreads to every corner of the cavity and causes a simultaneous chemical reaction to cure, so after opening the mold after a suitable time (called curing time) You can get the product by finishing, and if you divide the molding process largely, it will be the forming process and finishing process.

Molding process ① molding material processing weighing (in some cases, the turret processing using a turret machine) ② inserting the material into the cavity (preheated before)

 ③ Pressurization operation (low pressure pressurization, high pressure pressurization) ④ Curing process ⑤ Remove molded product It is to clean the mold.

Finishing process includes ① flash 뗌 ② gloss, etc., and for molding large and thick products, high frequency preheating is usually performed for efficiency and quality improvement. It should be decided properly. In the case of molding a thick product even in a thermoplastic resin or producing a silicon film, compression molding is performed. In this case, the method is to remove the molded product 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 injection molding or transfer molding, so that a molded article having less internal stress can be easily obtained.

 3, extrusion-blow molding

  The synthetic resin into which the silver nano 160 and the tourmaline nano 180 are charged is inserted into one or two or more molds of flies that are continuously melted and extruded into a tube from an extruder by heating and melting (220). The air is blown from the mandrel into the fly's hand to inflate it, and the fly's hand adheres to the mold's inner wall to create a product of the orthodontic appliance and is the most popular blow molding method.

 4, blow molding

 Thermoplastic synthetic resin material and silver nano (160) by softening (360) as heating in the split mold

The torn dried nano (180) material is swelled by using a pneumatic hand or sheet, and in close contact with the mold to cool at the same time to obtain a body. The thermoplastic synthetic resin molding material, usually called blow molding or blow molding, is extruded or extruded or inserted into a mold for blow molding 340 by preliminarily forming a Parisian or two-sheeted sheet into a tube according to an injection method. After heat softening (360), the air is blown into such a hollow product to be molded (340). There are various forms of blow molding according to the Parisian state molding method and the like, such as injection blow molding, extrusion blow molding, sheet blow method (sheet fly hand method), direct blow molding, blow molding and the like.

5, vacuum forming

  After heat softening (360) the thermoplastic synthetic resin material into which the silver nano (160) and the torn dried nano (180) are put, the mold is placed on the mold, and the gap between the tongue and the sheet is immediately vacuumed to closely adhere to the surface of the mold, and then cooled and molded. After fixing the phenomenon of pneumatically, if you use the shape to remove the molded article by inhaling the air on the contrary is called straight forming, when using the male is called drape forming.

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 160 and torn dried nano 180 materials are applied in a vacuum to attach the vapor to an object surface.

That is, a method in which a current is applied to a tungsten coil in which a metal (Al) or chromium (Cr) piece to be attached to the surface (object to be deposited) to be coated in a high vacuum state and a metal (Al) or chromium (Cr) piece to be attached to the surface is heated and attached in a high vacuum state. I use it.

In the vacuum deposition process, the paint used in BASE and TOP is composed of urethane acrylate, monomer, and other additives, and it can represent various types of products depending on whether the paint is glossy or matte.

In addition, dyes can be added during TOP PAINT spraying to represent any color desired.

As a result, the molding method of the correction mechanism made of synthetic resin and rubber material (340) was examined in detail.

    10 is a block diagram illustrating a manufacturing process of a calibration tool of a ceramic material according to the present invention. The calibration mechanism including glass and porcelain mineral materials, which are ceramic materials, is as follows.

First of all, the glass is the most common glass mainly composed of silicate anhydrous silica (silica) in the form of silicate glass silica sand (or silica). Sodium lime glass, potassium lime glass, lead glass, barium glass, etc. In addition to containing a modified oxide, there are many kinds such as silicate glass (quartz glass) made of silicic acid only.

Glass is made by mixing silica (silicon oxide: sand) as a quartz component with sodium carbonate (soda ash) and calcium carbonate (limestone) and heating it to a high temperature. When anhydrous boric acid is mixed with silica glass, it becomes soda silicate glass, commonly called Pyrex glass.

And crystal glass is a lead glass that makes a beep when pounded and mixed with lead oxide and potassium carbonate (200) unlike ordinary glass products.

Impurities that cause coloring of glass, especially potassium lime glass with low iron oxide content (usually 0.012% or less), are used because of their high transparency even when they are thick, and the higher the refractive index for light, the higher the reflectance and the greater the scattering of light. It also contains lead oxide, which increases the refractive index and gives a beautiful luster.

The manufacturing method of glassware differs according to the shape of the vessel to be made and the purpose of use, such as for construction and optics. In addition, different techniques are used depending on the production method, such as crafting and mass production.

In general, there are various methods such as air blowing, mold blowing, and mechanical methods for hand-operating methods. For small-volume production methods, crucibles are used, day tanks are used, small tanks are used, and large tanks are used. There is a manufacturing method

When explaining the various manufacturing methods of the glass material containing the silver nano 160 and the tourmaline nano 180 of the present invention there are the following preferred methods.

   1, (air blowing) roll the molten glass chunks about 1.5m thin iron pipe (this is called a fire, and a simple light bulb for a Christmas tree can be made by pulling the tube from the glass chunks and using it as a fire). Then roll it to make it even and blow it from one end of the fire into the mouth to make the product.

In addition, first, compressed air is made into a certain size, and then a person blows it into the mouth to form 340.

   2, (Frame Blowing) Roll up the molten cage at the end of the fire and break it to a certain size, and then put it into a frame made of wood, grite, iron, etc. Another method is to cut the molten glass into a concave mold and press it with a convex mold to make the glass bowl half-mounted.

In addition, there is the Furcol method, the Colburn method, the Pittsburgh method, there is a float method and the calibration mechanism of the glass material of the present invention is prepared by injecting silver nano 160 and tourmaline nano 180 in any one of the above preferred method It is quite natural.

Next, look at the manufacturing method of the ceramic calibration mechanism in the material of the calibration device of the ceramic material and the barrel (300) by injecting silver nano (160) and nanonized tourmaline (180) or fragrance ash (190) stirring (280) It is molded so that it can be put on or attached to the tooth, and the strength, the surface tension and the density of the orthodontic tool are densely formed through the pressing process 650 at a pressure of 10KG-500KG in the molding mold, and 500 ℃ ~ 2000 ℃ in the firing kiln. After heating and calcining the calibration instrument at a temperature, the ceramic material was mixed (not shown), which was mixed to coat silver nano 160 and nano-ized torn dried 180 and fragrance ash 190 again. The block diagram of the firing of the calibration tool of ceramic material, which is completed after drying after spraying, coating, and depositing in the calibration tool in the kiln, and then drying.

The following is a picture taken by the silver nano 160, the cross section, the side and the surface of the electron microscope, and the type and test report of the tourmaline nano 180, respectively, shown in the drawings and pictures in the drawings for understanding of the present invention. if,

FIG. 11 is a photograph taken at 60,000 times magnification of a cross section of silver nanoparticles of the present invention.

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

Figure 13 is a photograph taken at 50,000 times magnification of the surface of the silver nano of the present invention.

Figure 14 is a photograph of the antimicrobial activity of the strain into which the silver nano of the present invention.

15 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 16 is a comparison of the silver nano and normal fibers of the present invention.

17 is a three-dimensional structural diagram of silver nano of the present invention.

18 is a photograph of the tourmaline far infrared radiation test report of the present invention.

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

20 is a photograph taken tourmaline gemstone of the present invention.

21 is a photograph taken another gemstone of the tourmaline of the present invention.

Figure 22 is a photograph taken of the tourmaline stone lump of the present invention.

Figure 23 is a photograph taken of the tourmaline carving of the present invention.

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

Figure 25 is a photograph taken of the tourmaline fine powder of the present invention.

Figure 26 is a photograph taken that the tourmaline gemstone of the present invention is crushed.

Figure 27 is a photograph taken of the compressed and dried torn dried powder of the present invention.

Figure 28 is a photograph taken of grinding the tourmaline of the present invention.

In the above, the general configuration of the calibration apparatus of the present invention has been described in detail. For the anti-sterilization of the calibration apparatus of the present invention, silver nano 160 and torn dried nano 180 materials are extremely preferred, and the amount of the mixed 200 is 200. It is preferably 0.1 to 5% by weight, respectively, based on the total weight of the calibration instrument made of metal, ceramic, silicon, and synthetic resin.

 It is difficult to manufacture the calibration mechanism of the present invention because the antibacterial effect is not sufficiently exhibited at 0.1 wt% or less, and at 5 wt% or more, the increase in price and viscosity are so large that the strength and curvature of coating or mixing 200 appear. Because.

The size of the fine particles of the silver nano 160 and the tourmaline nano 180 is selected within the range of 1 to 15 nm is selected in the case of less than 1 nm, if the surface of the calibration mechanism is not smooth coating 210 is uneven In the case of more than 15nm, the silver nano is too fine so that it does not adhere well to the body of the calibration tool, and the waste and time of labor and labor cost that need to be coated 210 is increased.

The present inventors conducted many experiments with the University of S Plasma Center to find the coating method of the optimum ratio of the calibration device, and also found the best optimal ratio through two years of extensive experiments at S. Hitech Plasma Laboratories. I want to apply this.

 The thickness of the coating 210 of the silver nano 160 on the surface of the orthodontic appliance has a thickness of 1 to 5 μm as described above. In 1 μm or less, the coating 210 is weak due to erosion of saliva or secretion during biocorrection. The coating 210 can be easily damaged or peeled off in a short time, and the body of the calibrating mechanism and antibacterial activity can not be greatly expected, and at a thickness of 5 μm or more, the surface of the calibrating mechanism is too thick and dull, making it difficult to work. The cost rises and the electron microscope confirms with 10,000 times magnification.

As a result, the coating 210 is embossed to increase the surface roughness.

The present invention is a silver nano (160) in the form of a powder or a diluted solution of silver nano (160) and torn dried nano (180) form a strong antimicrobial sterilization and lubricating action based on the total weight of the calibration mechanism Providing 0.1 to 5% by weight of a calibration tool to decontaminate the contaminants attached to the outside of the calibration device, and to prevent the growth of mold, virus plugs, bacteria that can be reproduced by the external environment more cleanly the calibration tool It can be used.

Example 1

Applicants can understand the rough process of the calibration mechanism to test this, and the silver nano-manufacturer, which produces silver ions stably with high purity, was purchased from Coco Silver. Pure silver nano colloidal solution (Silver Colloidal Solution) was prepared, and the silver nano solution prepared in the sterilized tank was added. After the nano (160) and the tourmaline nano (180) is mixed with 3L (120) so that 5% by weight of each of the ionized water is diluted, it is boiled by

Note) 100 orthodontic brackets (80) and wire (60) 3m purchased from Handok dental materials and 30 fixing brackets (140) and bands (150) for supporting them and elastic rubber and spring (100) to give traction and elasticity and 30 fixing screws 130 each for 10 hours in a diluted solution of silver nano 160 and torn dried nano 100. Infiltrating silver nano 160 and torn dried nano 180 completely immersed ( 290), after drying (26) for 60 minutes in the drying (260) stage, the data before and after the test are shown as follows, confirming the good results expected by the applicant and the applicability to the medical industry, and completing the present invention. It came to the following.

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 concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced 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 effect of the silver nano 160 and the tourmaline nano 180 to the calibration device for the living body.

The table below shows that Staphylococcus aureus, pneumococci, bacteria, and MRSA (Methicillin-resistant Staphylococcus aureus) bacteria were added with 5% silver nano (160) and tourmaline nano (180) substances, respectively, and the bacteria were killed after 30 minutes. As an example of the diagram, the silver nano 160 and tourmaline nano 180 materials were found to have excellent bactericidal power.

As described above, the silver nano (160) and the tourmaline nano (180) material having a number of advantages according to the present invention bio-calibration made of metal, synthetic resin, silicon, rubber, ceramic material which is a material of the bio-calibration instrument The particle diameter of the silver nano 160 and the tourmaline nano 180 has a particle size of 1 to 15 nm, and the thickness of the coating 210 is 0.05 to 5 at the time of coating. It is characterized in that the coating (210) to a thickness of (micrometer) micro-calibration instruments can be used clean and sanitary.

As described above, the present invention, as described above, the present invention is a silver nano (160) and tourmaline nano (180) powder or solution having a lot of the above weight ratio of 0.1% to 5% by weight in the body of the calibration instrument By mixing (200) until the liquid or powder of the fragrance (190) raw material is prepared by adding a weight ratio of 0.1% to 5% by weight,

Bio-calibration instruments that are easy to generate bacteria, pathogens and microorganisms can have an effect that can be used cleanly and sanitarily until completion of calibration.

The table below shows that 30% of silver nano (160) and tornin nano (180) substances were added to Staphylococcus aureus, pneumococcus, bacteria, and MRSA (methicillin resistant Staphylococcus aureus) bacteria, and the bacteria were killed after 30 minutes. As an example of the diagram, the silver nano 160 was found to have excellent sterilizing power.

test subject unit Number of strains  5 wt% of silver nano and nanotor dried (in 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 description of the preferred embodiments and preferred embodiments of the present invention, those skilled in the art to which the present invention pertains to the present invention without departing from the spirit and scope of the invention described in the claims below It will be appreciated that modifications and variations are possible.

Claims (8)

Bracket 80 attached to the living body and the adhesive portion 120 to attach it and the wire (60) connecting the bracket 80 is attached to the fixing bracket 140 and the band 150 to act to support the living body fixed In the calibration mechanism consisting of a screw 130 and an elastic rubber or spring 100 to pull it, 0.1 to 5% by weight of silver nano 160 and tourmaline nano 180 material and 0.1 to 5% by weight of fragrance (190) are mixed in the body of the calibration device. Functional calibration mechanism, characterized in that. The method of claim 1, Made of any one of metal, synthetic resin, silicon, rubber, ceramic material  The calibration device of claim 1, further comprising a silver nano or tourmaline coating (210) film formed on the surface of the calibration device at a thickness of 0.05 to 5 μm. The method according to claim 1, wherein Functional nanostructures, characterized in that the size of the nanoparticles (160) and torn dried nanoparticles (180) introduced into the orthodontic body has a particle size of 1 to 15nm. The method according to claim 1, wherein Functional calibration device, characterized in that the pigment is added 0.1 to 5% by weight based on 100% by weight of the body of the calibration device in order to give a color of the body of the calibration device made of any one of synthetic resin, silicone, rubber material.  The method of claim 2, wherein. The silver nano-coating 210 method of the calibration mechanism made of metal or ceramic material is characterized in that the wet coating or the method of the dry coating by plasma (21) characterized in that the functional calibration mechanism. The method of claim 5, wherein. The wet plating method of the calibration mechanism is a functional calibration mechanism, characterized in that the electroplating by attaching a metal calibration mechanism on the + side and the silver nano (160) and the tourmaline (180) target 580 on the pole side . The method of claim 2, wherein. Plasma coating 180 after the washing process (420) process and after drying (260) The functional calibration mechanism, characterized in that the calibration mechanism body is coated between the 0.05 and 5㎛ by a plasma by attaching the calibration mechanism to the fixture and then introduced into the chamber 400 and the silver and torn target 580. The method of claim 1, Silver nano (160) and tourmaline nano (180) in the form of powder or a diluted solution of the powder is put into the ceramic calibration tool material and agitated (280) and pressurized at a pressure of 10KG-500KG in the mold (650) A post-molding (340) and a functional calibration mechanism characterized in that the firing of the calibration mechanism at a temperature of 500 ℃ to 2000 ℃ in a kiln to complete.

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