KR20050081180A - Bio Contact Lens - Google Patents

Abstract

The present invention provides a contact lens, wherein the contact lens is a contact lens by preparing a contact lens by mixing ocher, nano silver, zeolite, bentonite, bioceramic, nano gold, nano platinum, etc. The present invention relates to a bio-contact lens having antimicrobial activity by itself, not having a lot of eyeballs, and far infrared anion being emitted, which has an extremely good effect on the eye health of a person wearing the contact lens.

Description

Bio Contact Lenses

The contact lens refracts the light into the desired shape in direct contact with the eye, ie, the cornea surface, and corrects the vision. It is combined with the tear layer on the cornea, and unlike glasses, it is fixed to the eye instead of being fixed to the face. There is an optical advantage that cannot be solved. In other words, the lens is not blurred, there is no prism, the field of view is wider, and the magnification difference of the image is much smaller even though correction of irregular astigmatism caused by irregularities on the surface of the cornea and changes in environmental conditions due to temperature and humidity difference. have.

As a general method for manufacturing the contact lens, a casting method and a lathe cutting method are used, and the casting method is divided into a fixed casting method and a rotation casting method.

The fixed casting method is a method of making a contact lens by inserting a monomer between a convex mold and a concave mold to scan ultraviolet rays, and has the advantage of making a large number of lenses while maintaining the same reproducibility. In reality, however, it is very difficult to produce very sophisticated female and mold molds for producing these lenses because there are many things that need to be strictly controlled in order to produce lenses of the same quality and many molds are required according to curvature, frequency, thickness and balance. In the light of the severe design change of the lens, it is difficult to change the mold from time to time because it is necessary to catch the design according to eye conditions.

The rotation casting method is a method of manufacturing a contact lens that injects a monomer into a concave mold and photopolymerizes it by centrifugal force and ultraviolet rays due to rotation. The contact lens manufactured by this method has a smooth surface and can be mass-produced, resulting in low cost. However, since the curvature of the contact lens concave surface varies according to the frequency, it is difficult to manufacture a high myopia lens, and the optical part, the bevel, the center thickness, and the difference in diameter may be accompanied.

Defects can also occur in manufacturing techniques. For example, there are many factors such as rotational speed, monomer injection amount and polymerization rate, and it is difficult to round the edges of the lens.

The lathe cutting method is a method of manufacturing the concave and convex surfaces of a contact lens by cutting them with a lathe and polishing the fine concavo-convex surface of the surface with a polishing machine. This method is easy for the manufacturer to give a variety of curved surfaces on both sides can always be changed according to the requirements of the consumer, but it is difficult to always maintain the constant curvature of the diameter or the concave surface of the lens, there was a problem that mass production is difficult.

As a conventional technology devised in view of the above-described problems, a technology registered and filed by the present applicant is to form an inclined surface of a certain angle in a convex mold having a precise lens contact surface to precisely form the curvature of the concave surface of the contact lens. After the convex surface of the contact lens is formed on the contact surface of the convex lens convex mold, the convex mold is fixed on the shelf jig and the convex surface of the contact lens is cut and processed to produce a large amount of precise and precise contact lenses. And a contact lens manufacturing mold and a contact lens manufacturing method using the same (registration number; 10-0335721). Briefly, in the contact lens formed by irradiating ultraviolet rays by injecting monomer between the convex mold and the concave mold, the inclined surface is formed to be inclined at an angle to the outside of the lens contact surface of the convex mold, and the shelf jig is inserted into the bottom surface. The present invention relates to a mold for manufacturing a contact lens for forming a jig latching jaw in which a jig is fitted to a jig hole in multiple stages. The angle of the inclined surface of the convex mold is preferably in the range of 20 to 40 °, and the vertices are rounded. It is good for the biocompatibility of the cornea by discharging the gas generated during the polymerization process, reducing the defect rate of bubbles, and improving the lens movement when worn. And completely mixing the monomer, which is a raw material of the contact lens, in a stirring vessel containing a magnetic bar; Injecting the monomer mixture between the convex mold and the concave mold and injecting ultraviolet rays to completely polymerize the injected monomer; Confirming that the polymerized material is normally formed after detaching the concave mold from the resultant; The present invention relates to a method for manufacturing a contact lens including a step of inserting and fixing a shelf jig into the jig hole of the convex mold, cutting and processing the convex portion of the contact lens into a lathe, and separating the contact lens from the convex mold. In addition, the monomer injected between the convex mold and the concave mold is preferably supplied with 0.1 to 0.3 ml. In addition, there is an ultraviolet polymerization method in which the monomer is irradiated with ultraviolet rays of 365 nm wavelength for 10 to 30 minutes to polymerize, and there is a heating polymerization method by heat of 80 to 110 ° C.

According to the prior art of the mold for injection molding the convex mold and the concave mold, as shown in Figure 2, after forming a mold groove formed in one mold and a mold protrusion formed in the other mold, Injecting the injection melt into the space formed in the mold groove and the mold protrusion to produce the convex mold or concave mold.

By the way, the convex mold or the concave mold should be injection molded to have a precise lens contact surface due to the characteristics of the contact lens, and only two molds each formed with a mold groove and a mold protrusion have a convex mold or a concave mold having a precise lens contact surface. There was a problem that was very difficult to do.

Thus, the present inventor has filed a mold mold for contact lens casting (application number 10-2004-005200).

In the mold for the contact lens mold of the present invention is a mold mold in which the contact lens mold is injection molded in the space formed between the mold groove and the mold protrusion formed in the concave mold and the convex mold, respectively, wherein the concave mold is a mold The first concave mold for forming the lens contact surface of the mold and the second concave mold for forming the outer peripheral surface of the mold, wherein the first concave mold is formed in the lens contact surface on one end of the cylindrical body, the second concave mold Is formed in the vertical through hole at the proper position of the convex mold, the rod-shaped body of the first concave mold in which the lens contact surface is formed on the cross section from the outside of the mold to a proper depth leaving a part of the inner circumferential surface of the vertical through hole. It is characterized in that the mold groove is formed by a part of the inner circumferential surface of the vertical through hole and the lens contact surface.

In the vertical through hole formed in the second concave mold, the inner peripheral surface except the inner peripheral surface in which the first concave mold is inserted becomes the surface of the mold groove for forming the outer peripheral surface of the mold, considering the shape of the outer peripheral surface of the mold to be formed. The inner circumferential surface of the through hole may be additionally cut, which may vary depending on the desired mold specification.

Contact lenses are classified into hard contact lenses and soft contact lenses according to their materials.In general, contact lenses aim to correct the vision of spherical lenses and corneal astigmatism for visual correction of muscle (concave) and hyperopia (convex). There is a toric lens having both spherical power and circumferential power.

Among the contact lenses described above, hard contact lenses are made of a material having good stability and hardness, such as methyl methacrylate, and having excellent optical properties. Thus, even when manufactured as a spherical lens shape, astigmatism is severe or irregular eyesight correction is performed. While it is possible to obtain a great effect, have a long life, and is easy to clean, the material has a disadvantage of having a large amount of foreign matter due to the characteristics of the material, and it requires a lot of effort and time to adapt to the lens. .

On the other hand, soft contact lenses, such as 2-hydroxy ethyl methacrylate, are mostly hydrogel materials, and are made of a material having high hydrophilicity and good oxygen permeability but low strength and poor protein adsorption. While there is an advantage of less foreign body feeling and pressure on the cornea when the lens comes into contact with the eye, the dryness is strong and the material is weak as described above, which is less optical than the hard contact lens. This is an impossible drawback.

In the classification according to the structure of the contact lens, the spherical lens has various curves on the front and rear surfaces, but is rarely angled or processed in a straight line.

Looking specifically at the structure of the first, there is a power curve (PC) in charge of the optical unit (OZ) on the front of the lens and the front curve (FC) for the thickness and balance of the entire lens, the back of the eye shape Fitted lens curvature (BC) and bevel curve (VC) for improved tear circulation and fit. As mentioned above, in the case of the hard contact lens, even if manufactured in the form of the spherical lens as described above, visual acuity correction of the corneal astigmatism is possible, but the soft contact lens is less optical properties than the hard contact lens, corneal astigmatism Vision correction is impossible.

Next, the toric lens is formed by adding a circumferential frequency and an axis to the shape of the normal muscle and the primitive lens for the purpose of correcting the visual acuity of the corneal astigmatism. OZ) is added to the processing process that allows the power curve PC having both spherical power and circumferential power simultaneously along its axis, so that the power curve has a different power curve shape than a general spherical lens and does not shake when worn. Has a unique design of the root curve (RC). In addition, there is a front curve (FC) made for the center thickness and balance, the rear has a lens curvature (BC) to match the shape of the eyes and a bevel curve (VC) to improve tear circulation and fit, the edge of the lens Is rounded

The toric lens described above is also referred to as a prism ballast lens. Since the lens is manufactured by forming the upper part thin and the lower part thick, the center of gravity is formed on the lower side due to the prism caused by the thickness difference between the upper and lower parts. This is because, in the end, the lens is a lens which uses this to prevent the shaft from shaking.

Another prior invention of the present inventors, 'Materials and Structure of Contact Lenses' (Application No. 10-2000-69734), firstly methyl methacrylate, N-vinyl-2-pyrrolidone, N-methyl-3-methylene- A monomer consisting of crosslinking of the monomers is prepared by mixing monomers of 2-pyrrolidone and 3-hydroxy propyl methacrylate in an appropriate ratio and polymerizing with ethylene glycol dimethacrylate, which is a crosslinking agent. Becomes the base material for forming the contact lens of the present invention.

Looking specifically at the process of the polymerization reaction occurring in the production process of the contact lens material as described above, first, the initiator is mixed with a monomer having a double bond to generate a radical, and then the radical continuously reacts with another monomer to the material And crosslinking agent ethylene glycol dimethacrylate, as seen above, promotes continuous polymerization. However, preferred reaction conditions, initiators, catalysts, and the like in such a polymerization reaction will be described in detail in the Examples.

In the above polymerization process, monomers are used as described above. Among them, methyl methacrylate is a polymer mainly used as a material for hard contact lenses, and polymerized polymethyl methacrylate has poor wettability. It has excellent optical properties such as high hardness and high refractive index.

In contrast, N-vinyl-2-pyrrolidone, N-methyl-3-methylene-2-pyrrolidone, and 3-hydroxy propyl methacrylate, which are also used in the polymerization process, are polymerized, and are mainly soft contact lenses. As the materials used for the materials of the present invention, the properties of the polymers of the above-described materials, first, poly N-vinyl-2-pyrrolidone is a structure containing a lactam ring, a material having a high water content that absorbs a lot of water is a suitable reaction It can have a wide moisture content of 50 to 80% under the conditions, and also has the advantage of good oxygen permeability, but the strength of the material is somewhat deteriorated, there is a fear of deformation, discoloration, adsorption of the protein is good.

Next, poly N-methyl-3-methylene-2-pyrrolidone has a high water content due to ionic and hydrophilic functional groups in the branches of the molecule, and may exhibit high oxygen permeability due to the poor network structure of the hydrogel. Like N-vinyl-2-pyrrolidone, it is inferior in strength and has good disadvantages such as good protein adsorption

Finally, poly 3-hydroxy propyl methacrylate is a protein composed of various amino acids in which the methylene group (CH ₂ ) is increased in the molecule of poly 2-hydroxy ethyl methacrylate, which is most commonly used in soft contact lenses. The adsorption of can be significantly reduced. In addition, in the polymerization step, in addition to the material, 2-hydroxy ethyl methacrylate, which is a main material of the soft contact lens, may also be included as one of the monomers. It is the same as the material of the lens, there is an advantage that can be improved even better.

That is, the material used as a base material for manufacturing the contact lens of the present invention is prepared by polymerizing materials having the above characteristics and causing a polymerization reaction between the materials, thereby forming a crosslinking bond. Due to the properties of the materials, the material has an amphoteric structure that combines the optical properties of hard contact lenses with the comfort and biosynthesis of soft contact lenses. Therefore, the contact lens of the present invention by using a material produced by polymerizing the above materials, such as a hard contact lens has a good optical and vision correction effect, such as a soft contact lens, such as a contact lens with good fit and oxygen permeability Can provide.

Next, the present invention provides a contact lens having a special structure, which is manufactured using the material as a raw material. In manufacturing the above-mentioned contact lens, first, the raw material of the above-described contact lens is filled in a clean male and female mold in the presence of nitrogen (N ₂ ) gas under anoxic, and injected with 365 nm ultraviolet light for 10 to 30 minutes or 80 to 110 ° C. Is heated to polymerize. In this process, the resulting lens curvature BC is determined by the convex mold.

After the above process, the convex lens power curve PPC connecting the power curve PC and the peripheral curve VC is cut in consideration of the center thickness on the upper part of the resultant product, and the lens Power curve (PC) is formed to match the frequency. In addition, the peripheral curve (VC) and the edge curve (EC) are cut and polished to improve the balance and fit of the lens, and then the lens is detached from the male mold, and the saline solution (0.9% NaCl solution) heated to about 75 ° C is used. When soaked for 3 hours, the contact lens according to the present invention can be obtained.

However, the drawbacks of the various contact lenses as described above are not suitable for people with special allergies or hypersensitivity due to various pathogens, fungi, and fungi, which are produced and propagated in contact lenses, and may have foreign bodies or pruritus.

And if you have eye diseases such as cornea, conjunctiva, sclera, eyelid diseases, iris or cystitis, the wearing time is also limited.

Therefore, according to the present invention, by adding antimicrobial, antiseptic, far infrared rays and negative ions to the material of the conventional contact lens, the state of the contact lens and the eyes is always in a sanitary state and the cells of the eye area are caused by the far infrared rays. The present invention proposes to activate and maintain a healthy state.

The present invention relates to a biocontact lens according to the present invention, wherein the contact lens is a component of any one of ocher, bentonite, zeolite, and bio ceramic, and a monomer. And the contact lens is a bio-contact lens, characterized in that the nano silver component and monomer (monomer).

In addition, the present invention is a contact lens, wherein the contact lens is a bio-contact lens, characterized in that any one component and monomer (monomer) of nano gold and nano platinum.

And one of the ocher, bentonite, zeolite, bio-ceramic is less than 30% by weight, the remaining components are bio-contact lenses, characterized in that the monomer (monomer).

The nano silver component is 0.01% to 5% by weight and the remaining components are bio contact lenses, characterized in that the monomer (monomer).

In addition, any one of the nano gold and nano platinum is characterized in that the weight ratio of 0.01% to 5% and the remaining components are monomers (monomer).

The nano silver component is 0.001% to 5% by weight and the remaining components are characterized in that the monomer (monomer).

And one of the nano gold and nano platinum is characterized in that the weight ratio of 0.001% to 5% and the remaining components are monomers (monomer).

Instead of the monomer, other plastic resins or acrylic resins and fluororesins or silicones may be used.

The ocher used in the present invention is a soil made of very fine sand. Ocher contains a lot of calcium carbonate, which does not break easily. It is because of this calcium carbonate that when water is mixed it turns into clay.

Ocher particles range in size from 0.02 to 0.05 mm and consist of various mineral particles such as quartz, feldspar, mica, and calcite. The chemical composition is 60 to 65 percent silica, 5 to 6 percent iron, 10 to 13 percent alumina, 2 percent magnesium, 2 percent sodium, 1.5 percent potassium, and 8 percent lime.

A spoonful of ocher contains about 200 million microorganisms. This is why ocher is often referred to as "living life."

The fact that loess is a living creature proves that loess has such a great influence on human beings.

Microorganisms such as moss, mold, radioactive bacteria, and bacteria in ocher are responsible for decomposing organic matter. Organic matter decomposed by microorganisms is a source of nutrition for plants.

In addition, organic matter decomposed by microorganisms is used as a medicine to treat human diseases.

The loess contains a variety of enzymes that are said to be circulating.

A few of these can help you understand the different effects of loess on humans.

Ocher, covering about 10% of the earth's surface, contains a large amount of calcium carbonate (CaCO ₃ ).

Due to this calcium carbonate, loess has a viscous force that is not easily broken, and it turns into clay when water is added.

It consists of silica (SiO ₂ ), alumina (Al ₂ O ₃ ), iron, magnesium (Mg), sodium (Na), and kali.

Ocher composed of such an ingredient ratio and various enzymes emits a large amount of far-infrared rays necessary for the growth of animals and plants, so it is called a living organism.

Ocher is a honeycomb structure with a large surface, and a large number of spaces have a multi-layer structure.

In this sponge-like hole, far-infrared rays are absorbed and stored in a large amount, and radiate when heated to stimulate molecular activity of other objects.

In other words, loess absorbs solar energy for many years and can be called 'solar storage' simply as silicon mineral.

Today, ocher covering 10% of the earth's surface is most widely distributed in semi-arid regions.

A spoonful of ocher contains about 200 million microorganisms, causing various enzymes to circulate. Since ancient times, ocher has been used as a living, lifeless soil with tremendous weakness.

Our loess is composed of yellow dust that has flown hundreds of thousands of years from mainland China.

The enzyme component of loess includes four types of catalase, diphenol oxidase, saccharase and protease. Each of these enzymes plays a role in toxin removal, degradability, fertilizer components, and purification.

Catalase, an enzyme in loess, is now known to be the highest activity among soil enzymes.

This enzyme removes hydrogen peroxide, which provides toxins to the organism, thereby creating the proper soil environment for the organism.

Aging occurs when a toxin called lipid peroxide occurs during metabolism in the body.

However, if you put your body in good quality loess, it can neutralize and dilute the body's toxin, lipid peroxide, by the strong absorption of soil. In other words, ocher has the effect of suppressing aging and maintaining youth in humans.

The second of the loess enzymes is diphenol oxidase.

It also plays a role in strengthening the oxidation and degrading power of the soil.

The third of the loess' enzymes is saracase.

Comparative experiments of loess and black loess revealed that loess had more saccharase activity than loess. However, when the soil was used for rice or barley farming, it brought about the result of fertilizer.

It is also related to rice and barley farming in Namdo, which has a lot of yellow soil in Korea.

Fourth of the loess enzymes are proteases.

Proteases are enzymes that hydrolyze a protein into amino acids when the nitrogen in the protein is mineralized. For example, nitrogen contained in proteins in dead animals is hydrolyzed and mineralized to amino acids. It is a kind of decomposition that purifies the soil.

Thus, in living organisms, cancer, boils and other decayed cells can be broken down with the help of protease, an enzyme in the soil.

It is also based on the use of loess for detoxifying wounds and toxins in the body.

In addition, there are several enzymes in the loess, which act on their own, resulting in a beneficial effect on humans.

The effect of ocher is to promote blood and boost metabolism. And good for arthritis, muscle pain, back pain, autonomic ataxia (aftermath).

It also decomposes body waste and has self-cleaning ability, so it is good for skin beauty, removes toxins and relieves pain.

It also has the effect of eliminating inflammation and inhibiting non-cells (cancer) and calming the mind to strengthen the mind and body.

The zeolites used in the contact lenses of the present invention are silicate minerals of aluminum containing alkali earth metals such as sodium and potassium, alkali earth metals such as calcium, and containing crystal water. And two types of morden knight.

Zeolites, which are naturally produced as rocks or clays, are altered tuffs, which are less than synthetic zeolites, but have strong adsorption and occlusion, and base substitution capacity.

This exchange action allows zeolites to be ionized in water and replaced with ions from other electrolytes. All the tombstones have many acicular, columnar, rhombohedral and abstract, colorless or white and sometimes pale.

Specific gravity is 2 ~ 2.4 (2.7), hardness is 3.5 ~ 5.5 It can be dissolved at low temperature and water is easily released when heated, but there is zeolite water in it.

Natural zeolites have been used for many purposes.

For example, it is used as an additive for livestock feed to promote the growth of livestock, and blended with soil to increase crop yields, especially in Italy, as a building brick to maintain a constant temperature and humidity in the room regardless of seasonal changes. Is applied.

Zeolite has a three-dimensional structure consisting of Al ₂ O ₃ and SiO ₂ tetrahedron, Pore, Channel, etc., and ion-exchangeable metal ions.

Due to such structural properties, there are various applications such as water treatment agents, molecular sieves, catalysts and catalyst carriers, and detergent additives.

Bentonite used in the contact lens of the present invention is a mineral produced by volcanic ash and lava due to volcanic eruptions in the early stage earth generators, which have been accumulated in the sea for a long time and then brought up to the land by the earthquake.

Also known as montmorillonite, it is a broad name for bentonite.

In the US FDA, all bentonite (montmorinite) is categorized under GRAS, and bentonite is used for food digestion and various diseases (allergic, periodontitis, streptococcus of the esophagus, gastric ulcer, nausea, anal rectal bleeding, diarrhea, wasps , Athlete's foot, wounds, acne, swelling, female yeast, dandruff, fever, itching, etc., as well as clearing blood and relieving nervous system stress, promoting metabolism and vitality. A mineral that has a turbid effect on treatment.

(1) eco-friendly, safe and stable minerals

Because it is mineral, it does not rot like organic matter. It is strong against heat and stable up to about 700 ℃.

(2) swellability

Bentonite is very water-friendly, and when it comes in contact with water, it absorbs water and swells up to several to several tens of its original volume like a jelly image.

In addition, I hold the water which I took in myself and prevent it from coming out.

(3) absorption

Not only water, but also oil, dirt and smell can be absorbed.

(4) Sol / Gel Formation Ability

Bentonite can form Sol by only adding a small amount to water. This Sol hardens like Gel when left unattended.

(5) Make a thin film to protect it.

Bentonite liquid has a property of making a smooth film.

Silver used in the contact lenses of the present invention is the most potent natural antibiotic.

Silver is a catalytic agent that allows single-celled animals (bacteria, viruses, fungi, etc.) to act on and neutralize special enzymes that act on their oxygen metabolism, causing them to suffocate or kill.

Most germs dissolve the reproductive organs, resulting in the destruction of the plasma or the division of cells due to the electrical shock of silver ions (Ag +). Doctors drink silver ionized water, which is effective for syphilis, cholera, malaria, colds, athlete's foot, eczema and severe burns.

Experiments have demonstrated that silver metal can kill almost all single cell germs on the ground. The absence of any bacteria that survives for more than six minutes in contact with silver dramatically represents its strong antibacterial activity.

In addition to killing germs in a metal state, when released into water in an ionized state (Ag +), it eliminates the reproductive function of bacteria in the water. As a result, silver has a bactericidal function that kills germs and an antibacterial function that prevents the growth of germs.

Nano is used in the present invention nano (Nano) is a word derived from the myths of the Greek myths, meaning 'one billionth', one nanometer corresponds to one thousandth of the hair thickness do.

The present invention will be described in detail with reference to the accompanying drawings.

1 is a contact lens of the present invention, Figure 2 is a photograph of a contact lens mixed with 5% ocher of the present invention, Figure 3 is a photograph of a contact lens mixed with 20% ocher of the present invention. 4 is a photograph of a contact lens containing 2% of nano silver of the present invention.

The particle size of the ocher used in the present invention is suitable for 3000 mesh at 1000 mesh, but if necessary, the ocher of various particle sizes is added to produce a contact lens.

Zeolites and bentonites are also produced using the same particle size.

In addition, a contact lens may be manufactured by adding bioceramic particles, which are beneficial to the human body, such as jade, germanium, and elvan.

Referring to an embodiment of manufacturing a contact lens by mixing the loess, first, the monomer (Monomer) and the loess which is a raw material of the contact lens is mixed in a weight ratio of 70: 30. Next, the mixture is filled in a clean male and female mold in the presence of nitrogen (N ₂ ) gas under anoxic, followed by injection of 365 nm ultraviolet light for 10 to 30 minutes or heating at 80 to 110 ° C. for polymerization. In this process, the resulting lens curvature BC is determined by the convex mold.

After the above process, the convex lens power curve PPC connecting the power curve PC and the peripheral curve VC is cut in consideration of the center thickness on the upper part of the resultant product, and the lens Power curve (PC) is formed to match the frequency. In addition, after cutting and polishing the periphery curve (VC) and the edge curve (EC) to improve the balance and fit of the lens, the lens is removed from the male mold, and the saline solution heated to about 60 to 90 ° C. in the case of a water-soluble lens. (0.9% NaCl solution) soaked for 3 hours, swelled, washed, packaged after washing, and in the case of non-functional lenses, washed and packaged, thereby obtaining a contact lens according to the present invention.

When the mixing ratio of ocher is small, the desired effect is weak, and when the mixing ratio of ocher is mixed more than 30%, the color may become darker and the appearance may not be good.

This gel-like mixture is filled in a male and female mold and polymerized by injecting 365 nm ultraviolet light for 10 to 30 minutes or applying heat of 80 to 110 ° C.

The following is the same as the embodiment of producing a contact lens by mixing ocher.

As the material of the contact lens, other plastic resins, acrylic resins, fluorine resins or silicones may be used instead of the monomers.

When nano silver is mixed in the contact lens, it is most suitable to mix in a weight ratio of 0.01 to 5% of the total.

If too much nano silver is mixed, the color becomes dark and if it is too small, the effect is hard to occur and the aesthetics are lost.

However, at least nano silver should be mixed at least 0.001% of the total weight to achieve the desired effect.

Of course, the ratio can be changed at the request of the user.

Nano silver powders and liquids are blended in a plastic resin, an acrylic resin, rubber, and silicone, which are the materials of the contact lens, in a weight ratio of 0.01% to 5%.

The manufacturing process is the same as the process of manufacturing a contact lens by mixing the above-mentioned ocher in a monomer (monomer).

In another embodiment, after completing the contact lens in advance, at least one or several of the ocher, bentonite, zeolite, nanosilver and bioceramic components may be coated or coated on the outside of the contact lens. Can be.

In another embodiment, a contact lens may be manufactured using nano gold or nano platinum.

In this case, the method of manufacturing a contact lens by mixing nano gold or nano platinum is the same as the method of manufacturing nano silver.

In the case where nano gold or nano platinum is mixed with the contact lens, it is most suitable to mix in a weight ratio of 0.01 to 5%.

However, at least nano gold or nano platinum must be mixed at least 0.001% to achieve the desired effect.

Of course, the ratio can be changed at the request of the user.

If too much nano gold or nano platinum is mixed, the color becomes too dark, and if too little, the effect is hard to occur and the aesthetics are lost.

For reference, nano gold or nano platinum mainly used in the present invention will be described.

Gold is applied to human-friendly products because of its high antibacterial activity, antifungal and sterilization deodorization effect, and excellent electrical conductivity and far-infrared emissivity. It is used for research of various industrial materials.

Neurostable and detoxification, ionic, blood circulation has a smooth function. Gold generally has the effect of calming the mind, calming the mind, and detoxification. It is harmless to human body, no resistance to environmentally friendly virus, and no oxidation phenomenon.

Nano gold is produced in the form of nanoparticle powder, solution of 1 to 30 nm size.

The color is brown or wine color.

Platinum has superior antimicrobial effects to any synthetic drug. The advantage of platinum nanotechnology is that the volume increases rapidly with respect to weight, resulting in the same effect on the same area of each unit's energy. For example, nano-treating 1 g of platinum produces a volume capable of drawing 1.8 million kilometres.

The biggest advantage of nano metals is that they have excellent antimicrobial effects as well as electrical properties.

In fact, the results of the research of the Korea Textile Testing Institute proved that it showed more than 99.9% of antibacterial activity when 20mm of gold, silver, platinum, and nano powder were added at 10ppm concentration in water containing 140,000 bacteria per ml. Among them, nano platinum has superior antibacterial and deodorizing effects to any synthetic drugs.

Nano platinum is also produced in the form of nanoparticle powder, solution of 1 to 30 nm size.

The color of platinum is dark or khaki (dark brown, yellowish brown).

A photograph of the contact lens of the present invention is shown in the accompanying photograph.

Of course, the above components may be used singly or in combination of various components as necessary for the contact lens.

In another embodiment, after completing the contact lens in advance with plastic resin, acrylic resin, rubber, silicone, etc., in the last step, one or more of the ocher component, bentonite component, zeolite component, nano silver component, bio ceramic component It can be mixed and coated or applied to the outside of the contact lens.

Therefore, in the present invention, the contact lens itself has a sterilization and antibacterial activity by producing a contact lens by mixing the ocher component, bentonite component, zeolite component, nano silver component, bio ceramic component, nano gold component and nano platinum component when manufacturing the contact lens. The eyeballs are not caught much and the far infrared negative ions are emitted, which is extremely good for the eye health of the patient wearing the contact lens.

1 is a contact lens of the present invention

2 is a photograph of a contact lens mixed with 5% ocher of the present invention

Figure 3 is a photograph of a contact lens mixed with 20% ocher of the present invention

4 is a photograph of a contact lens containing 2% of the nano silver of the present invention

5 is a mold for a conventional contact lens mold

6 is a conventional one-piece mold

7 is a mold mold for a conventional contact lens mold

8 is a view showing a conventional first and second convex molds

9 is a view showing a conventional first, second, third convex mold

10 is a view installed with a conventional temperature adjustment rod

<Explanation of symbols for main parts of drawing>

1: male mold 2: female mold

3: glass 4: ultraviolet

5: Shelf jig insertion hole 6: Contact lens

7: lens contact surface 8: mold groove

9: mold protrusion 10: mold pin

11: injection solution injection hole 12: vertical through hole

13 concave mold 14 first concave mold

15: second concave mold 16: convex mold

17: first convex mold 18: second convex mold

19: third convex mold 20: temperature control rod

21: sealing material 22: bolt

23: Euro 24: cylindrical groove

Claims (9)

The contact lens of claim 1, wherein the contact lens is one of a component of ocher, bentonite, zeolite, and bio-ceramic, and a bio-contact lens. The contact lens of claim 1, wherein the contact lens is a nano silver component and a monomer. The contact lens of claim 1, wherein the contact lens is one of nano gold and nano platinum and a monomer (monomer). The biocontact lens according to claim 1, wherein any one of the yellow clay, bentonite, zeolite, and bio ceramic is 30% or less by weight, and the remaining components are monomers. The biocontact lens according to claim 2, wherein the nano silver component is 0.01% to 5% by weight and the remaining components are monomers. The biocontact lens according to claim 3, wherein any one of the nano gold and the nano platinum is 0.01% to 5% by weight and the remaining components are monomers. The biocontact lens according to claim 2, wherein the nano silver component is 0.001% to 5% by weight and the remaining component is a monomer. The biocontact lens according to claim 3, wherein any one of the nano gold and the nano platinum is 0.001% to 5% by weight and the remaining component is a monomer. The bio contact lens according to any one of claims 1 to 8, wherein other plastic resins, acrylic resins, fluororesins or silicones are used in place of the monomers.