KR20060126329A - Watch - Google Patents

Abstract

A watch is provided to contain a tourmaline material to continuously generate far infrared rays and anions to prevent generation of odor in summer time, and generate fragrance. A watch includes one or mixture, and a tourmaline material(20). The one or mixture is selected from metal, plastic, synthetic resin, optical material, silicon, and rubber polymer. The tourmaline material and fragrance are mixed with a ratio of 0.1 ~ 50wt% : 0.1 ~ 10wt% of the entire weight of a watch body. The tourmaline material has a particle diameter of 0.01 ~ 500nm. The tourmaline material is inserted during a forming process or a final process to be coated to a 0.01 ~ 50 micrometers.

Description

Watch {watch}

1 is a perspective view of a watch according to the present invention.

2 is a mixing process diagram of tourmaline of a metal watch according to the present invention.

Figure 3 is a mixing process of the tourmaline plastic, synthetic resin, poly, silicone, watch according to the present invention.

Figure 4 is a coating process of the tourmaline of plastic, synthetic resin, poly, silicone, watch according to the present invention.

Figure 5 is a coating process of tourmaline of the metal watch according to the invention.

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

Figure 7 is a photograph of another far infrared radiation test report of the tourmaline of the present invention.

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

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

10 is a photograph of the torn dried stone lump of the present invention.

Figure 11 is a photograph taken of the tourmaline carving of the present invention.

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

Figure 13 is a photograph of the tourmaline fine powder of the present invention.

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

Figure 15 is a photograph taken to block the compressed torn dried powder of the present invention.

Figure 16 is a photograph taken to polish the tourmaline of the present invention.

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

10: clock body 12: front

14: Watch band 16: fastener

18: adjustment unit 20: Thor Marlin

30: fragrance 40: container

60: melting 80: melting

100: heating 120: softening

140; stirring 160: mixing

180: module input 200: molding

220: injection 230: extrusion

240: Coating 260: Deposition

280: Drying 300: Chamber

320: washing process 340: 1st surface coating

360: Secondary surface coating 380: Finished

The present invention relates to a watch that is used when a person normally wears his forearm, hangs his neck, puts it in his pocket, or watches a ringing time. The method of manufacturing a functional clock 10 in which antibacterial power and a function of releasing far infrared rays and silver ions are continuously maintained as described above. The origin and background of the clock 10 will be described in detail.

Watches are most commonly used in daily life, including watches, wall clocks, and old clocks, as well as sundials, water clocks, pocket watches, and electronic clocks.

Designed to keep time and time mechanically and electrically based on regular regular movements among natural phenomena, water clocks and sands made by using relatively constant outflow rates of water and sand Clock, pendulum clock made by pendulum reciprocating movement, tuning fork clock using sound wave oscillation, crystal clock using crystal oscillation, atomic clock using oscillation of atom There are many ways.

The clock was made with various mechanisms according to the social and economic needs of each age. Since the beginning of social life, clocks of simple instruments such as sundials and water clocks have been devised and used.

The ancients counted days and created calendars by repetition of day and night, and knew the passage of time as the shadows changed.

The original clock is its gnomon who built one rod on the ground. In ancient Egypt, the obelisk was used as a gnomon, and the instructions were inclined parallel to the axis, so that the direction of the shadow changed for one year without changing the direction, which is the sun dial.

The sundial was initially Babylonia. It is said that it was made in Egypt and gradually transferred to each other. However, sundials were not available at night or in bad weather, and were not suitable for subdividing time, so a water clock clapsydra was devised to compensate for this drawback.

Ancient Egypt had already used a calendar of 365 days a year, and by 1550 BC it was known that by this type of clock, the day and night were divided into 12 parts each. After that, an hourglass, candle, lamp, etc., which turned water into sand, was devised, and according to its characteristics, even the modern age was used. However, these clocks were less precise and were always a supplementary device to equalize some time compared to the sundial.

These early time-measuring methods are usually solar days with the shortest time until the shadow of the stick on the ground is the shortest and the same day the next day again. In order to eliminate this inconvenience, in Europe, the average solar day was averaged every year from the middle of the 18th century to the end of the 19th century, and it was divided into 24 hours and 60 hours. The system began by dividing the number into minutes by 60 minutes.

With the advent of crystal clocks in 1927, the accuracy of the clock was gradually improved, and irregularities of the Earth's rotational speed (5 ± 100 million precision), which had been the highest precision watch ever, were discovered and proved that this was not the standard for accurate clocks. Thus, the plenary session of the International Conference on Weights and Measures of 60 years defined 1 second as 3155,6925.9747 of the solar year measured at the beginning of 1900, and made it the unit of time.

In addition, in 1967, the General Assembly agreed to set the time unit of the International System of Units (SI) in 1 sec. To 9,191,263 million of the radiation cycle for the transition between the two ultrafine structures in the ground state of cesium 133. 1770 times, and thus the unit of seconds was independent of the astronomical definition.

 Today we live in two clocks, one which is advantageous in astronomical observation of time as the time and the atomic clock.

The invention of the mechanical clock was around 1300, and by the 14th century, the major cities of Europe centered on northern Italy, arranging for public clock towers with time-keeping devices. The clock in the Supreme Court of Paris was made by H. Peak, a German in 1370 for Charles V of France, and is famous as the oldest of all time.

The astronomical clock produced by G. Dondi, Italy, and the 1.4-meter-high clock, though not present, remain in the literature written in 1364, and its exact replicas were made in 1960 and housed in the Smithsonian Museum of America. . At that time, the clock structure was a method of suppressing the rotation of the shaft by rotating a gear by a heavy weight force, so that a large inertia bar tempo was bitten by a tubular oscillator.

Since the bar tempo itself does not oscillate with isochronism like today's pendulum or tempo, the clock error is 30 minutes a day, so the clock at that time had only one hand. It was not a servant's time.

Most clocks made in the 14th century did not have dials, and as the origin of the clock became a bell, ordinary citizens lived in harmony with the bells. It looks like It was only in the late 14th century that these public clocks were downsized to the size they fit into the room, and it was only in the 16th century that ordinary wealthy families could see them.

It was presumed that it was the first half of the fifteenth century, and that it was also in Italy, but the center of watchmaking shifted from southern Germany a little later to Southern Blois in the late fifteenth century. It is famous to make a mobile watch, the predecessor of pocket watch around the year.

The biggest problem of the self-winding watch was that the power of the mainspring fluctuated greatly depending on the state of the winding, which resulted in the incorrect time. Because of this, the inventors are not clear, but the design of the fusee and stack freed devices found in the records left by Leonardo da Vinci was used, and either one of them was used in the 16th-17th century mobile watches. It became.

Early cell phones were thick, with many of them hanging on their necks or chests and equipped with a time signal. The cross before and after 1600 years. skull. animal. fruit. star. Many clocks with unusual shapes, such as flowers, were made and then settled into the same round shape as they are today. The case is made of precious metal or enamel, but because of the beautiful enamel painting, the watch is a work of art. It was also treated as jewelry.

When the isochronism of the pendulum was discovered by G. Galileo in 1583, the Dutch scientist C. Huygens used it in his watch to complete the first pendulum clock in 1657, and the governor combines a 75-year tempo with a swirl-like analogue. The invention of this isochronous governor increases the precision of the watch. Opened the way to high precision.

As the center of the world economy moved to England after the prosperity of the Netherlands in the first half of the 17th century, many inventions of watches were made in England. Spain since the 16th century. Netherlands. England. Shipping nations such as France have encouraged the production of a watch's marine chronometer with the highest precision, taking the discovery of hardness as a national task, and the Swiss N. Patty, who was active in London in 1704. Invented a method for drilling holes in ruby ruby, the use of jewelry bearings, the invention of dust removal machines such as R. hook, W. clement, T. tompion, G. graham and T. mudge in the 17th century, graham's mercury correction pendulum In the eighteenth century, a major invention followed, the watch's structure was greatly improved and many functions were added.

In the 19th century, a factory was gradually established, and personal production was hidden. The United Kingdom, the world's leading watch industry until then, declined around 1840 and Switzerland began to emerge instead. Watches that appeared in the early 20th century became very popular after World War I, and in 1924, self-winding watches were marketed by J. Howard of England. One of the major contributors to improving the accuracy of watches is Swiss C.E. The base flame was awarded the 1920 Nobel Prize in Physics for the invention of nickel iron alloy, invar with little change in temperature and Elinbar with little change in elasticity. Inba is used for the pendulum, and El Linba is used for tempo-like variations, greatly improving the practical accuracy of the watch.

The 18th century is the structure of the clock. In the period of improvement in function, the 19th century was a reform of the recipe. In the era of progress, the 20th century is the completion of mechanical watches and revolutionary electricity in the clock industry. It became the era of the change to the electronic clock.

 The present invention relates to a watch that a person normally uses when looking at the time of wearing a forearm, a neck, a pocket, or a ring

Functional watch (10) containing a tourmaline (20) material that generates far infrared rays and negative ions by mixing (160) the tourmaline (20) during the manufacture of the watch (10) consisting of metal, mineral, synthetic resin, plastic, and poly series As described above, the clock 10 of the present invention is not economical or mechanical action of the machine, but is simply input at the time of manufacture of the clock 10 body. Containing an unprecedented and powerful tormalin (20) material, you can continue to achieve the following outstanding benefits without wasting any electrical power or time anywhere anytime:

The present invention relates to a watch that contains tourmaine containing components that emit far infrared rays and anions to help the human health, the metal, minerals, plastics, synthetic resin, poly series of the body of the watch The purpose of the present invention is to prepare a functional watch that deodorizes far infrared rays and anions by adding 0.1 to 50% by weight of the torn dried powder based on 100% by weight of material.

The present invention compensates for the shortcomings of the hollow watch, by using a torned gemstone as fine particles, forming a coating or coating film on plastic, synthetic resin, rubber, and silicon, which are the material of the watch, without causing a problem of rupture and This is a functional tourmaline watch that can directly contact the body and increase the release effect of negative ions and far infrared rays.

Far infrared rays emitted from the tourmaline promote the flow of human blood, promote sweating (discharge of waste), alleviation of neuralgia, arthritis, low back pain, soothing effects of the skin (face), deodorization, sterilization, dehumidification, softening ( It is widely used in Europe and Japan for jewelry, underwear, duvets, cosmetics, air purifiers and water purifiers.

Natural tourmaline is a hexahedral crystal structure and has a specific gravity of 2.90 to 3.10 g / ㎠ and a chemical composition of Max 3 Al 6 B3 S 16 (OH.O) 3 O (OH.F). It is a rich ore, from transparent to pink, light green, blue, purple and red. In particular, positive and negative poles naturally occur at both ends of the crystal, resulting in a potential difference of 1 million volts and a weak current of about 0.06 mm amperes. It is also called a tourmaline due to its flowing nature.

This characteristic of the tourmaline is effective in hypertension and intestinal diseases such as weak currents stimulate the acupuncture points in the human body to improve the peripheral circulation and promote blood flow. It is known to improve body fluid with weak alkaline constitution and give stability to human body. Also, the test result of 325 mesh torn dried powder from Korea Building Materials Research Institute shows the characteristics of far-infrared radiation as shown in Table 1 below. This far-infrared and radiant energy improves blood circulation and promotes metabolism, promotes the discharge of skin wastes, activates the skin, and has excellent effects on the treatment of diabetes, constipation pain and arthritis. have.

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. Tourmaline's far-infrared emissivity is close to 100% and is higher 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 it is recognized that the body regulates the balance of ions, 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. Known. Modern environments have many elements that generate cations, which causes the body to become nervous, which causes the tornin to release large amounts of negative ions.

3, deodorizing 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. Tourmaline not only removes the smell of floating indoors, but it is also effective against odors emitted from the body, and the negative ions generated by tourmaline can decompose or neutralize odors.

4. Warming

The amount of tourmaline grazing far-infrared rays increases as heat is applied, and when the body is processed with products made from tourmaline ore or powder, it absorbs the heat energy emitted by the human body.

Tormarin converts this heat energy back into heat energy and returns it to the body. As the body becomes an energy source, the tornin warms itself and the heat energy radiates far-infrared rays from the tornlin, so the longer the torn substance is in the body, the greater the effect.

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.

As described above, the present invention is used by women to dress up.

As the clock relates to the body of the watch 10, the tourmaline 20 is mixed (160) or coated (240) to the body of the watch 10, the negative ion and far-infrared radiation action of the watch 10 is continuously maintained It relates to a manufacturing method.

As described above, since the watch 10 of the present invention is not simply a mechanical or electrical action of the machine, it is simply input at the time of manufacture of the watch 10 body, and thus economical and powerful tornine which far-infrared rays and negative ions cannot be estimated. (20) Containing the substance, the following excellent benefits can be obtained continuously.

Firstly, the watch (10) containing tourmaline (20) generates healthy negative ions and far-infrared rays, which in turn stimulates the body's blood circulation and endocrine activity, clears the head, and is an environmental hormone. There are many advantages to blocking forum data and maintaining far infrared and negative ion release effects even after repeated washings.

Second: Tor curl 20 is very easy to coating 240, mixing 160, and the like with the material, metal, plastic, synthetic resin, minerals, jewelry, silicone, rubber, which is a material of the watch 10 of the present invention The material of the watch 10 made of a poly-based material and the mixing 160 or coating 240 is made well.

Third, it has a deodorizing effect and a fragrance diverging effect. Clock 10 of the present invention is a bacterial film is formed on the surface of the clock 10 due to the pollutants secreted from the human body even if the user washes from time to time, and in particular, in the hot summer, the odor is generated by the sweat of the human body,

The tourmaline 20 of the present invention and the watch containing the scent 10 may be a liquid or powder of a vegetable scent base material such as fruit scent, aroma scent, herb scent, flower scent during the manufacturing process or any one of the final processes. By adding a weight ratio of 0.1 to 10% by weight, the gentle fragrance is always divergent, and there is an advantage of maintaining the effect of pleasing the sense of smell of users and others of the watch 10 of the present invention, thereby increasing national health.

 The present invention is to solve the above conventional problems as described above

 Mixing (160) or coating (240) on the material of the body of the watch (10) body made of metal, synthetic resin, plastic, minerals, gems, silicone, rubber, poly-based material of the body of the watch (10) using the tourmaline (20) The far-infrared rays and negative ions to act to generate more specifically, the material of the tourmaline ore (20) ore in the form of particulate powder or nano (Nano) powder of the metal material of the watch 10, 0.1 to 50% by weight of torn dried (20) to the total weight of the body of the watch (10) body made of plastic, synthetic resin, minerals, jewelry, silicone, rubber poly-based, such as fruit or aroma, herbal, floral, etc. Mixing (160) or coating (240) by adding a liquid or powder of the perfume raw material in a weight ratio of 0.1 to 10% by weight and the particle size of the torn dried (20) fine particles have a particle size of 0.01 to 500nm and coating (240) Coating thickness 240 It is characterized in that the tourmaline (20) coating film 240 is formed on the body of the watch 10 with a thickness of 0.0 l to 50 m (micrometer), so that far infrared rays and negative ions are emitted effectively and continuously. There is this.

The present invention is based on 100% by weight of the total material of the watch body made of at least one material of any one of metals, plastics, synthetic resins, minerals, jewelry, silicone, rubber poly-based or mixed (160) Dried (20) 0.1 to 50% by weight of liquid or powder of the vegetable aroma base material such as fruit aroma, aroma, herb, flower aroma in a weight ratio of 0.1 to 10% by weight of the material of the watch 10 body It relates to a watch (10) characterized in that it is mixed (160) or coated (240) by putting in.

In order to help the understanding of the present invention will be described in detail the silver and tourmaline (20) of the present invention.

    Tour Marlin's name is the Sinhalese (Sri Lankan) tourmaline, meaning "mixed gemstones." In the mid-1500s, the Porto Cal expedition discovered a mineral that was painted in Brazil. Tourmaline was first discovered in 1703 on the island of Celon, the clear transparent tourmaline, which became famous as a gem after it was first introduced 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 promoted his jewels as a jewel, and the expansion of the market supply led to the discovery of the Tourmaline mine in Brazil in the early 20th century.

Tourmaline is one of the most interesting gems because of its multicolored color and one of its own energetic materials (uranium ore, magnetite, or tourmaline).

The largest importer of tourmaline was China, but in the early 1900s the market was closed off due to communism, but again, high-quality tourmaline was distributed, made of practical goods such as small sculptures and snuff pipes. It is still China.

It is reported that strange phenomena about tourmaline have been discovered in Europe before it was known as a gemstone.Thermal ore crystals warmed up by the heat of hot sunlight when children were playing in the tourmaline mine in midsummer. He noticed the attraction and bounce of ash and light matter, and it is said that men sometimes used tourmaline crystals as a way to remove ash from clogged tobacco pipes.

The Tor Marlin mine at this time was a wilderness and mountainous area thousands of kilometers away from the village, and of course the surrounding environment was not good enough to get sick. 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, miners in the Toxic Mining mines had the fewest patients.

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

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

A trace amount was calculated near the Pacific coast, such as the central region and the Savior, and a small piece of paper was attracted by applying heat to the crystal or rubbing it out of its properties. I noticed, but I didn't understand why this happened.

One day in 1880, the Tour Maine crystal was forced to come under pressure from the outside world, with the help of his brother Zaku, who was the Nobel Prize-winning physicist Pierre for the discovery of radium, who was a mineralogist. When it was found, it was found that an electric charge was generated on the surface of the crystal, which 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 itself, the positive (+) and the negative (-) are present at both ends of the crystal, and its properties disappear permanently. Found not to lose. Therefore, when the anode (+) and the cathode (-) are connected to the tourmaline crystal with a wire, it is proved that a weak current of 0.06 mA flows. It is also called "電氣石 and tourmaline is a gem known as the birthstone of October in Japan, Korea, and China.

    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, uranium ore emits very strong radiation and cannot be used as a raw material. However, the tourmaline ore is permanently charged with electricity. A band has a property. Tourmaline emits 0.06mA of electricity, which is a weak current that occurs when plant and animal cells nourish their growth. A 100-watt bulb is 1A (amps), and a hair dryer is a very small current compared to 10A. However, Tourmaline generates electricity no matter how much it discharges.

Tourmaline is a health gem that energizes the human body by absorbing energy in large quantities for hundreds of millions of years.

Tourmaline is a mineral belonging to the hexagonal system. Hardness 7.0-7.5, specific gravity 2.98-3.20. Also known as tourmaline, 'tour dried ore' has negative ions due to the electric charging mechanism, so it is widely used in health drinks and the chemical composition is complex borosilicate of iron, magnesium, alkali metal and aluminum. It is usually hexagonal or nine-angled, sometimes triangular, and sometimes different in crystalline form.

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

Electricity is generated by the tourmaline friction, and when it is heated, both ends are positively and negatively charged, so this name is named. Iron is called iron tourmaline, and it is black and is opaque to the naked eye. There is much to do.

Tourmaline is produced in granite pegmatite together with quartz, dolomite, and feldspar. Magnesium-rich is called goto tourmaline or magnesium tourmaline. It is brown, translucent and produced in contact metamorphic rock and wide metamorphic rock.

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

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

The tourmaline is the only mineral present on earth, so the anion, weak current, and far-infrared ray generated from this ore are groundbreaking new materials that are being actively researched at universities and research institutes for health and the environment. In particular, there are effects of far infrared rays and negative ions.

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

The tourmaline is an anion generated by 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 piezoelectric effect (voltage is generated on the surface when pressurized).

In addition, tourmaline attracts dust when heated (about 100 degrees)

Pyroelectricity function in the Netherlands

Called aschentrekers, this property was used to remove tobacco ash from pipe tobacco.

 This property of attracting dust in the air when displayed under hot lighting is lower than quartz because of this property, but it also has piezoelectricity due to pressure.

The present invention, as described above, torn to the material of the body of the watch 10 made of at least one material of any one of the above-mentioned metal, plastic, synthetic resin, minerals, jewelry, silicone, rubber poly-based or mixed (160) (20) relates to a functional watch (10) containing tourmaline (20) for coating (240) or mixing (160) a material to release negative ions and far infrared rays to the watch;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in describing each of the drawings, the same reference numerals refer to the same reference numerals and components even though they are shown in different drawings.

1 is a perspective view showing the overall configuration of the watch 10 according to the present invention, at least one material of any one of the above metals, plastics, synthetic resins, minerals, silicones, rubber poly-based or mixed (160) Figure 10 shows the body of the watch (10) consisting of a front part 12, a watch band (14), a fastening part (16), and an adjusting part (18) for adjusting the watch. ,

FIG. 2 is a flow chart of a mixed timepiece of a metal watch and anklets according to the present invention. The material of the watch 10 body is put into a container 50, heated and melted (60) or melted (80) by heating (100). (120) and then stirred (140) at this time the tourmaline (20) to 0.1 to 50% by weight based on 100% by weight of the total weight of the watch 10, such as fruit or aroma, herb, flower flavor The liquid or powder of the fragrance raw material is added in a weight ratio of 0.1 to 10% by weight, and the particle size of the torn dried 20 has a particle size of 0.01 to 500 nm, and after the addition and stirring, the mold or the molding 200 module It is also possible to coat (240) the torn malin (20) once again in order to reinforce (180) to form (200) at this time to enhance the negative ions and far-infrared of the completed watch 380 body (380).

3 is a flow chart of the mixing process of plastic, synthetic resin, poly, silicone, watch and ankle torridin according to the present invention, the resin or powder material of the material is introduced into the barrel 50, and then heated (100) to soften (120). At this time, the tourmaline 20 is 0.1 to 50% by weight based on 100% by weight of the total weight of the watch 10 to the liquid or powder of vegetable fragrance base material such as fruit or aroma, herbal or floral Infused with 0.1 to 10% by weight to give the color of the watch 10

(Not shown) 0.1 to 5% by weight of pigment is added to 0.1% to 5% by weight of paint, crosslinking agent, curing agent or flocculant, and other additives, and 0.1 to 5 parts of torn dried material is added to the material. 50% by weight of a liquid or powder of vegetable fragrance-based raw materials such as fruit or aroma, herbal or flower, in a weight ratio of 0.1 to 10% by weight, and the particle size of the torn dried 20 is 0.01 to 500 nm. After stirring to give a degree to the molding module 180 or the mold module 180 is molded in advance (200) by injection (220) or molding (200) or extruded through an extruder (230) and then slowly cooled After the drying 280 is completed 380, the particle size of the injected torn marlin 20 is completed 380, characterized in that having a particle diameter of 0.01 to 500nm.

In addition, in order to enhance the negative ion and far-infrared radiation sterilization power and corrosion resistance and surface strengthening of the finished watch 10 body, it is also possible to coat 240 once again.

Referring to the type and method of the injection molding 200, which is a method of mixing and manufacturing a watch made of plastic or synthetic resin, plastic, mineral, silicon, and rubber-based materials of FIG. 3, as follows.

1, injection molding

 The molding (200) material of the watch is heated (100), melted (60), injection-filled into a cavity of a pre-closed mold, and then solidified or cured to form a molded article. It forms a large field of molding processing with

 The molding materials used in the injection molding 200 are thermoplastic resins, which are mainly applied to almost all molding materials such as main resins, thermosetting resins, rubbers, foam molding materials, etc. Is being developed.

Molding is a standard type of line screw type injection molding machine which is ① mold, ② injection, ③ holding pressure (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 plasticizing the material, the screw advances to extrude the molding material, and this type of molding machine is also used for molding the thermosetting resin.

Compared to the thermoplastic resin, when the mold is heated (100) to cure the resin, the temperature of the heating cylinder is lowered so that the resin does not solidify. Therefore, the heating method of the cylinder and the shape of the screw are somewhat different. have.

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

1, extrusion

 Torn Malin (20) was introduced into a thermoplastic material on the surface of various thin substrates such as paper, cloth, cellophane, plastic, vinyl, film, metal film, etc. It is a processing method in which it is extruded into a thin film form at the same time and simultaneously crimped continuously. The combination of the properties of the substrate and the characteristics of the extruded and compressed thermoplastics (water resistance, moisture resistance, chemical resistance, flexibility toughness, breathability, heat seal synthesis, and others) creates a packaging volume layer material adapted to a variety of applications, but is currently in practical use. Mainstream products are 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 torn dried 20 is introduced is put into a pot (called a cavity) of a heated mold and press-molded by a compression molding machine (press).

 The molding machine is heated in the cavity and once flowed, spreads to every corner of the cavity and causes a simultaneous chemical reaction to cure.Then open the mold after a suitable time (called curing time) and remove the molded product after finishing flash removal. Processing to obtain the product. If the molding process is largely divided into molding process and finishing process.

The molding process is carried out by ① molding material processing weighing (in some cases, it may be processed by a turret using a turret machine) ② loading of 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 thermoplastic products, compression molding is performed in the case of molding thick products or producing a silicon film. In this case, the trick is to remove the molded article by cooling the mold after heating and pressing the molding material. In general, the compression molding is characterized by less molding of the dielectric material or molecules compared to injection molding or transfer molding, so that it is easy to obtain a molded article having a low internal stress.

 3, extrusion-blow molding

 The plastics, poly, synthetic resin, rubber, and silicone in which the tourmaline (20) has been introduced are heated and melted (60) and inserted into one or two or more molds of flies continuously extruded into a tube from an extruder, and then closed and sealed. By blowing air into the fly's hand from the rear mandrel, the fly's hand sticks to the mold's inner wall, making it a product and the most popular blow molding method.

 4, blow molding

 Softening 120 by heating in the split mold to inflate the fly hand or sheet into which thermoplastic or synthetic resin, rubber, poly, mineral, silicone ash and tormalin 20 are injected using air pressure, Cooling is a method of obtaining an aerial body. Called blow molding or blow molding. Ordinarily extruded or melted thermoplastic plastic molding material or insert a flyson or two sheets of preformed into a tube according to the injection method into a molding die by heat into the molding die, and then heat softened (120) and blows in the air therein. To form a hollow product. There are various types of blow molding according to the Parisian state shaping method, and typical examples thereof include injection blow molding, extrusion blow molding, sheet blow method (sheet fly hand method), and direct blow molding.

5, vacuum forming

 After heat-softening (120) the thermoplastic material into which the tourmaline (20) was introduced, and placed it on the mold module 180, the gap between the tongue and the sheet is immediately vacuumed to closely adhere to the surface of the mold and cooled to fix the phenomenon of the molded product. On the contrary, if a female is used to take out a molded article by inhaling air, it is called a straight forming, and a male is called a 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 the tourmaline 20 has been injected in vacuum to attach the vapor to the object surface.

That is, a current flows through a high-vacuum state in which a current is applied to an object to be coated in a high vacuum state (an object to be deposited) and a tungsten coil inserted with a piece of metal (Al) or chromium (Cr) to be attached to the surface thereof. I'm using the way.

In the vacuum deposition process, the paint used in BASE and TOP consists of urethane acrylates and monomas, which 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.

Figure 4 is a plastic, synthetic resin material, poly, silicone, the coating process of the tourmaline of the watch and anklet according to the present invention, the molding 200 process and the injection 220 process of Figure 3 and extrusion through the extruder 230 After removing the foreign matter on the surface of the body of the finished watch 380 after completion (380) and put it into the container 50 (not shown) the coagulant or coating agent from 0.1 to 100% by weight based on 100% by weight of the watch 10 5% by weight and the total amount of the torn dried (20) material in the body of the watch (10) to 0.1 to 50% by weight of the liquid or powder of vegetable fragrance base material such as fruit or aroma, herbal or floral In a weight ratio of 0.1 to 10% by weight,

 Particle size of the tourmaline (20) to have a particle size of 0.01 to 500nm by spraying or depositing (260) on the surface of the watch to completely coat the tourmaline (20) (240), and then slowly cooled to dry (280) After the process, inspection and packaging and completion (380) is shown as a block diagram showing the step.

FIG. 5 is a process chart illustrating a tourmaline of a metal watch and anklets according to the present invention.

 In order to coat 240 the inside and the outside of the finished watch 380, both the wet coating method 240 and the dry coating method 240 using plasma may be used.

First, the wet coating 240 of the present invention will be described.

 The coating 240 can be divided into electro-coating and electroless coating. The silver coating 240 requires a solution containing negative ions and the gold coating 240 requires a solution containing gold ions. To dry the watch (20) and to coat it (240), put the watch on the + side and-on the pole, put the Tor dried lump in a solution containing the watch and the tourmaline ions and apply electricity to the + and-poles. It will be given and gradually become a coating (240).

The electroless coating 240 has a substitution coating and a reduction coating, and the substitution coating, for example, when iron powder is added to the iron powder, iron tends to be more ionized, so electrons are given to the copper ions, and magnetic is dissolved, and copper is reduced to iron powder. Stick on and this is a substitution coating.

 First, the coating 240 is to prevent corrosion (or oxidation), and silver is less reactive than iron, so the oxidation rate is slow, and if scratches occur on the coated portion 240, water vapor or oxygen enters between them. .

First, the negative electrode of the battery is attached to the object (clock) to be coated (240), the positive electrode of the silver to the metal to be coated (240), the positive and negative ions of the silver in the silver metal, where the electron goes to the iron pole Of course, the aqueous solution contains negative ions, and of course, the torn dried coating 240 may be written as containing the aqueous solution dried torn ions.

When the electrons come to the pole, the tourmaline ions in the aqueous solution are attached to the watch 10 around the wet coating. Thus, the wet coating 240 becomes a wet coating. After the reaction, the amount of the tourmaline ions in the aqueous solution does not change. The mass of the metal is reduced.

Next, a plasma or stuffing coating method 240 of the watch containing the tourmaline 20 of the present invention will be described.

Plasma and stuffing are gaseous states that are separated into electrons with positive charges and positively charged ions at high temperature, and have a high degree of charge separation but a neutral gas with the same number of positive and positive charges. Since the 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.

It is derived from the Greek words πλσμα, -ατos, τ and its original meaning is that it is built and assembled, and as the nature of the collective behavior suggests, it is easily controlled externally to deal with plasma. Rather, it is common that plasma itself behaves freely, and the original name is wrong. Plasma is the fourth material state after solid, liquid, and gas (three states of matter).

Gradually increasing the temperature, almost all objects change from solid to liquid and gaseous. At tens of thousands of degrees Celsius, the gas is separated into electrons and atomic nuclei, resulting in a plasma state. Plasma is not common in everyday life, but it is common throughout the universe. That's because 99% of the universe is estimated to be plasma.

For example, conduction gases that carry current in fluorescent lamps, ionized gases mixed in rockets or lightning strikes, aurora borealis in the atmosphere, ionospheres in the atmosphere, and out of the atmosphere are trapped by ions in the Earth's magnetic field. Plasma is present in the solar wind that pours intermittently from the sun, and the gas inside the star, the surrounding gas surrounding it, and the hydrogen gas filling the space between the stars are plasma states.

Each individual object of the plasma is electric, which is very different from the neutral gas, has a high electrical conductivity, and is confined to the surface like a metal conductor.The current flows only on the surface. It is easily influenced by direct force, but as the charge density increases, it performs group movement different from the individual movement, and the self-closing required by nuclear fusion means that the charge follows the magnetic force line. It is used.

Plasma plasma is confined there by deforming the magnetic field lines appropriately and confined 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. Research is underway for the development of electromagnetic fluid dynamics (MHD), ion engines and nuclear fusion of space travel rockets.

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

Diamond is a very important material, not only as a gemstone but also as an industrial material because of its high hardness, thermal conductivity, refractive index, and gaps. The artificial synthesis of diamond is a high temperature and high pressure developed by GE in the US in the 1950s. The law has been mainly written, but in the early 80's it was found that diamonds could be obtained in the form of a thin film from methane gas plasma at low pressure, so that semiconductor devices, tool coatings, optical component coatings, and acoustic devices were actively pioneering new applications. It is becoming.

In addition, Tin, which is used as a diffusion barrier at the contact point in the wear-resistant coating of a tool, a decorative coating, and a semiconductor device, can be made dry by Tim's reactive ion plating, sputtering, or Pecvd method.

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 the antistatic, dichroic, deep color, etc. When a contact is applied and a bias is formed, a nitride layer or a carbon layer is formed on the surface, thereby improving the hardness, wear resistance, and corrosion resistance of the metal.

Some of the effects that can be obtained by surface coating 240 and modification techniques using plasma can be obtained by conventional wet methods, but considering the environmental problems, dry methods using plasma have many advantages. Welding, cutting and processing of materials using high temperature of plasma and plasma can be sprayed. High melting point powder is melted by plasma and coated on solid surface to greatly increase heat resistance, corrosion resistance and abrasion resistance. It can be increased.

 In addition, it is possible to manufacture ultra-fine particles, using the high temperature, high activity of the thermal plasma to quench the particles synthesized by the gas phase reaction to synthesize the ultra-fine particles to plasma chemistry or physical vapor deposition: to create a functional film using the plasma, high temperature, high activity of the thermal plasma The advantage is that the waste can be broken down and vitrified using.

If so, look at the plasma coating 240 process of the watch of the present invention having many of the advantages as follows.

Plasma coating 240 injects argon and other gases into the vacuum chamber 300 and then causes an electrical discharge, the gases injected into the chamber 300 are ionized, and the torn dried target (tordried plate) into which the ionized gas is injected ) And the torn dried atoms are protruded in a gaseous state to be coated 240 on the coating body (clock), and the thickness of the coating 240 may be dramatically controlled in nano units according to time.

On the other hand, the plasma coating process 240 will be described briefly as follows.

 In order to wash foreign substances on the surface of the finished watch, a washing process is performed by putting a watch into a washing bucket and injecting a cleaning liquid to wash impurities attached in the inside or outside of a metal watch using an ultrasonic vibrator ( After passing through the rinse process (320) and drying (280) in a drying machine (280) to evaporate moisture, the watch is attached to the chamber (300) with the watch attached to the holder, and the inside of the watch (10) with oxygen plasma under vacuum. Alternatively, after the external sterilization process, the first tourmaline surface coating (340) is performed, and the plasma secondary surface processing for enhancing the surface adhesion of the watch coated with the tourmaline (240) and increasing the strength of the watch is performed. Coating 360 and reinforcement treatment are performed.

Next, in the plasma coating 240 of the torn Malin 20 finally by the vacuum macnetron sputtering plasma coating method, the plasma was coated with a desired thickness of 0.0 l (micrometer) µm to 50 µm (micrometer). By coating (240) to complete (380) or to the total material of the watch made of metal (0.1) to 50% by weight of the dry aroma of the vegetable aroma based raw materials such as fruit or aroma, herb, flower Na powder is added in a weight ratio of 0.1 to 10% by weight,

 The body of the watch 10 is deposited 260 in the container 50 or injected into an injector, and sprayed onto the surface of the watch 10 body to perform a coating 240 operation and to complete the drying 280 and then finish 380. In this case, the coating 240 has a thickness of 0.0 l (micrometer) μm to 50 μm (micrometer) and the torn Malin 20 particles having a particle size of 0.1 to 500 nm.

The following is a photograph taken of the raw material and powder of the tourmaline 20 of the present invention and a test report in the drawings for the understanding of the present invention.

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

Figure 7 is a photograph of another far infrared radiation test report of the tourmaline of the present invention.

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

Figure 9 is a photo taken another tourmaline gemstone of the present invention.

10 is a photograph taken of the tourmaline lump of the present invention.

Figure 11 is a photograph taken of the tourmaline carving of the present invention.

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

Figure 13 is a photograph of the tourmaline fine powder of the present invention.

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

Figure 15 is a photograph taken to block the compressed torn dried powder of the present invention.

Figure 16 is a photograph taken to polish the tourmaline of the present invention.

Thus, the tourmaline 20 of the present invention looked at the block diagram of the coating 240 containing the fragrance and the photographs and antimicrobial data of the tourmaline 20, and the manufacturing method of the present invention of the watch body of the conventional watch 10 The manufacturing method and process will be followed.

[Example]

Applicant was able to know the schematic process of the watch 10's body to test this.Note) Buy 2kg of Tormin Fine Powder from Mining Co., Ltd., and mix 3L to dilute 50% by weight of torn dried water with 100% by weight of distilled water. Heat it and boil it, then slowly cool it and mix it with 160% natural aroma fragrance purchased from Samhwa Co., Ltd. (160), and watch made of metal material worn by a woman in her 50s for 5 years (10) and 20s. The body of a plastic watch worn by a female college student for three years was immersed for 60 minutes in the prepared nano silver solution for 60 minutes, and the silver ions were deposited for 260 in the tank containing the prepared torn dried solution. After dipping 60 minutes each (260) and completely drying the torn dried ions (260) and drying (280) for 60 minutes in a drying machine (280) after the good results expected by the applicant and the gentle natural divergenceConfirmed sufficiently, and can be applied leading to the completion of 380, the present invention.

According to the present invention, the tourmaline 20 is added or coated 240 to various watches made of at least one material of any one of metals, plastics, synthetic resins, minerals, gems, silicones, and rubber poly series or mixed 160 thereof. It is characterized by having a clock that has antibacterial function and negative ion and far infrared radiation.

As described above, the tourmaline (20) powder having a number of advantages according to the present invention, the watch 10 is made of a metal, synthetic resin, plastic, mineral, jewelry, silicone, rubber poly-based material of the body of the watch 10 Torn dried (20) in the body to 0.1 to 50% by weight, the liquid or powder of vegetable fragrance base material such as fruit or aroma, herbal or flower flavor in a weight ratio of 0.1 to 10% by weight of the torn dried (20 ) Has a particle diameter of 0.01 to 500 nm and the thickness of the coating 240 of the tourmaline 20 is coated with a thickness of 0.0 l (micrometer) μm to 50 μm (micrometer). By the production and propagation of bacteria and pathogens and microorganisms it becomes possible to use the clock 10 body clean and hygienic.

In the above, the embodiments or preferred embodiments of the present invention are easily described.

Those skilled in the art to which the present invention pertains will understand that the present invention can be variously modified or modified without departing from the spirit and scope of the present invention and the scope of the patent described in the claims below.

Claims (10)

 In the watch (10) made of at least one material of any one of metal, plastic, synthetic resin, mineral, silicone, rubber poly series or a mixture thereof 160 used when viewing the time. The watch (10) is based on 100% by weight of the tourmaline (20) material based on 0.1 to 50% by weight of the base material and 0.1 to 10% by weight based on the watch (10), characterized in that the watch (160) is mixed.  In the watch 10 having the front part 12, the watch band 14, the fastening part 16, and the adjusting part 18, 0.01 to 30% by weight of the torn dried 20 material is based on 100% by weight of the watch. The watch as characterized in that it further comprises that the watch body 10 is coated (240) to 0.1 to 50% by weight of the tourmaline (20) material based on 100% by weight of the watch material. The method according to claim 1 or 2, Tourmaline (20) is put into the watch is characterized in that it has a particle diameter of 0.01 to 500nm. The method according to claim 2, The tourmaline 20 material is introduced during the molding process or the final process to coat 240, and the coating 240 has a thickness of 0.0l μm to 50 μm (micrometer), and the coating film 240 on the body of the watch 10. The clock is characterized by this formation.  The method according to claim 2, In order to coat 240 a metal material with a coating (200) process or injection 220 process, the body of the watch extruded 230 through an extruder, the wet coating 240 or stuffing, plasma Dry coating according to any one of the coating method is selected. The method according to claim 2   Crosslinking agent, pressure-sensitive adhesive and tourmaline (20) material in a process (380) of completing a watch made of at least one material of any one of plastics, synthetic resins, minerals, gems, silicones, and rubber poly series or mixed (160). Mixing (160) by spraying or depositing (260) on the watch body, the clock drying, characterized in that the coating film 240 was formed. The method according to claim 6, The surface of the watch 10 is coated with a surface color and then dried (280), the drying step (280) and the surface of the watch is characterized in that the surface resistance coating (240) to lower the surface resistance from the rough watch (10) surface. The method according to claim 1, After removing this material in plastic or synthetic resin, it is added to the container 50 and melted 60 so as to soften 120. In addition, paint, crosslinking agent and curing agent are added at 0.1 to 5% by weight and pigments to give the color of the watch. Is 0.1 to 5% by weight of the input by stirring (140) and put into a mold module 200 is molded (180) by injection 220 or a clock, characterized in that the extrusion 230 through an extruder. The method of claim 2.  The wet coating method of the watch 240 attaches a metal clock to the pole side and a target tornine tube on the pole side, and puts the tournal mass into the solution containing the tournal ion and adds electricity to the + and-poles. The clock, characterized in that the wet coating 240 was spilled. The method of claim 2. For dry coating, stuffing or plasma coating 240, the washing process 320 and the rinsing process are carried out, followed by drying (280) and then attached to the clock (10) fixture and then put into the chamber (300) and the clock (10) body The watch, characterized in that for coating (240).

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