JP2017120868A - Magnetic materials, glasses, lenses and glasses accessories using the magnetic materials - Google Patents

Abstract

To reduce and eliminate eye fatigue, a magnetic material having a combined effect of an oxygen supply effect, a negative ion effect, a magnetic effect, a photocatalytic effect, and a far-infrared effect, and an apparatus using the magnetic material, glasses, Provide lenses and accessories.
One or more magnetic powders selected from the group consisting of alnico magnets, ferrite magnets, samarium cobalt magnets, neodymium iron boron magnets, samarium iron nitrogen magnets and hard ferrite magnets and / or soft ferrites, iron, silicon A magnetic powder comprising at least one magnetic powder selected from the group consisting of steel, permalloy, sendust, permendur, amorphous magnetic alloy and crystal magnetic alloy, preferably tourmaline powder, copper, One or more far-infrared ray generating component powders selected from the group consisting of silicon, nickel, sodium, alumina, and beryllium are used, which are formed integrally with the crane 6 and used for glasses.
[Selection] Figure 3

Description

  The present invention relates to a magnetic material having a negative ion effect, a magnetic action, and a far-infrared effect by increasing the oxygen concentration in the air, and a glass, a lens, and an accessory for glasses. More specifically, the present invention relates to an electromagnetic noise generated from a display such as a smartphone, a personal computer, a television, etc. , An effective magnetic method for reducing the absorption of light components such as blue light, and an increase in the amount of water vapor and water vapor (fine) using changes in the gas partial pressure ratio in the atmosphere around the glasses generated by the movement of oxygen molecules due to the magnetic field In particular, the present invention relates to a magnetic material for supplying oxygen to the eye surface from the periphery of the glasses by oxygen negative ions dissolved in a water cluster, glasses, lenses, contact lenses, accessories such as glasses, and accessories.

The air contains about 78% nitrogen and about 21% oxygen, and the remainder is composed of argon, water vapor, carbon dioxide and the like.
Nitrogen is a diamagnetic material, and oxygen is a paramagnetic material in the molecular state. That is, the magnetic susceptibility of nitrogen is −0.4 × 10 ⁻⁶ (cm ³ / g), whereas the magnetic susceptibility of oxygen is 104 × 10 ⁻⁶ (cm ³ / g), and oxygen is air The gas inside is a paramagnetic substance that reacts to a magnetic field fairly remarkably.

  Therefore, when a permanent magnet is placed in a gas containing nitrogen, oxygen, etc., such as air, nitrogen, which is a diamagnetic material, repels the permanent magnet and moves away from the magnet, but has a high magnetic susceptibility and is a paramagnetic material. It is known that oxygen is attracted to a permanent magnet and the oxygen concentration increases near the magnet.

  Mr. Nobuko Wakayama of the National Institute for Materials Science at the 2nd meeting of the Research Association for Low Temperature Engineering held at the University of Tokyo on February 6th, 2006 And the effect on convection, that is, experiments on magneto-aerodynamics, entitled “Research on New Use of Magnetic Force” (Non-Patent Document 1). According to the report, when oxygen gas is flowed upward from below position A in a magnetic field as shown in FIG. 1, the oxygen gas is sucked upward when the magnetic field is applied and stays around position B. Since oxygen is heavier than air, it is observed that oxygen flows downward. This phenomenon is caused by the upward magnetic force due to the magnetic field gradient at position A because oxygen gas has a relatively large paramagnetism as a gas. It is reported as a result.

  Similarly, when nitrogen gas was flown upward from below position C, it was observed that it was ejected vigorously upward when a magnetic field was applied, but such a phenomenon was not observed when no magnetic field was applied. . From this experiment, since nitrogen gas is diamagnetic, an upward magnetic force acts due to the magnetic field gradient at position C, and at the same time, oxygen gas in the air receives a downward magnetic force and is sucked into the magnetic field, thereby causing convection. It elucidates the mechanism that occurs and jets like a jet stream.

This is also clear from the fact that magnetic oximeters are actually manufactured based on this theory and principle. The principle will be briefly described below.
When oxygen is present in the measurement gas, oxygen is attracted to the magnetic field, so that the flow rate of the auxiliary gas flowing in the direction B decreases as shown in FIG. The difference in the flow rate ratio between the B direction and the A direction caused by the effect of this restriction is proportional to the oxygen concentration in the measurement gas, and this is detected and displayed as the oxygen concentration.

Since oxygen gas is affected in the magnetic field gradient, it is natural that the oxygen concentration increases in the vicinity of the pole of the permanent magnet.
There have also been many studies on the separation of paramagnetic and diamagnetic materials in a magnetic field.

  By the way, it is known that the above oxygen gas is ionized. Here, the ion is a collection of molecules and atoms, and is an invisible fine particle with a positive or negative charge. Ions are officially called negative small ions, and ions in the atmosphere consist of multiple molecules. Negative ions are also called nicknames such as “vitamins in the air” or “genki ions”. They regulate the body, harmonize, act on the autonomic nerves, relax the mind, promote the activation of the cranial nerves, etc. It is said to have the effect of harmonizing and healing cells at the atomic level.

  Ions are generated by the effects of cosmic rays, ionization of crust radiation, gas oxidation by heat, and friction of ice particles like lightning. Even in everyday life, when you touch the door of a car, such as in dry winter, static electricity may be discharged to your fingertips and receive impact, but this static electricity is also an ion.

In normal air, ions are 1000 to 2000 (pieces / cm ³ ), and positive and negative ions float in a well-balanced ratio of approximately 5 to 4, but this varies greatly depending on weather conditions. To do. Normally, even if a neutral molecule or atom is subjected to some kind of impact, negative electrons will jump out freely, the remaining nucleus will carry positive electricity, and the molecule or atom that has received the emitted electron will become a negative ion. Become. In other words, a negative ion is an atom or molecule that has an extra electron.

For example, when a cold front or a low atmospheric pressure passes, positive ions rapidly increase, and negative ions in the human body decrease due to the influence.
Therefore, it is medically known that the incidence of neuralgia, asthma, and stroke is high under such weather conditions.
Table 1 shows a typical example of the actual number of negative ions in the air.

It is clear that there are many positive ions in places and areas where daily life is conducted.
At the beginning of the 20th century, the number of negative ions in the atmosphere was 1.2 compared to the number of positive ions 1, but the current state of the atmosphere is reversed from the number of positive ions 1.2 to 1. Yes.

Possible causes of positive ion generation are
1. Exhaust gas → Main cause 2. 2. Smoke emitted from factories, etc. 3. Polluted rivers and acid rain 4. Dioxin that is generated when garbage is incinerated. 5. Pesticides and various food additives Formaldehyde7. Organophosphorus compounds used in daily necessities8. Radiation 9. UV light10. “Electromagnetic waves” emitted from various electrical products.

  Increased positive ions increase indefinite complaints such as headaches, dizziness, nausea, and irritation, oxidize cells in human tissues, stimulate the autonomic nerves, worsen the endocrine system, immunity, and fluid circulation. Has accelerated aging.

  When positive ions enter the body, they themselves become active oxygen that damages healthy cells, or the blood becomes acidic, and if the cells oxidize, lactic acid is increased in the blood, resulting in various diseases. It is believed that.

  Regarding the action, influence and effect of negative ions and positive ions on the human body, in 1975, Minamiyamado, a medical clinic in Japan, conducted ion therapy with "circulatory diseases such as hypertension, rheumatism, gout, etc." `` It has an impact on motor system diseases, nervous system diseases, respiratory diseases, Graves' disease, senility and recovery after illness, gastrointestinal diseases, menopause, skin diseases, tinnitus, etc. '' From the viewpoint of sports medicine, in 1997, Dr. Tomio Particles of the Graduate School of Science, Tokyo Metropolitan University (now Tokyo Metropolitan University) said, “After exercise, ion therapy is used to return the fatigued body to rest in a short time. Has been reported, and in 2000 the effect on the living body was published in the Journal of Odor Research.

Positive ions are said to be the true form of active oxygen, and are generated as soon as impact is applied in the air. Waste, exhaust gases from automobiles, factory fumes, acid rain, agricultural chemicals, various food additives, and new building materials It often occurs due to adhesives. Electromagnetic waves emitted from electric appliances and electronic devices such as smartphones, personal computers, microwave ovens, and televisions are also the same positive ions.
Table 2 shows typical examples of the action and effect of negative ions and positive ions on the human body.

Furthermore, regarding the effect of negative ions, the following excerpts from the literature are described.
In terms of “how much” is actually an appropriate amount, it is thought that there is a difference depending on the person advocating that amount. Here, the approximate amount of the appropriate amount from the “value of negative ion generation” used in the experiment or treatment described in the literature or its summary is shown as a reference value in FIG. Describe in 5).

From FIG. 4, when the appropriate amount was estimated, the following conclusions were obtained.
1. The effective negative ion generation amount is in the range of 1000 to 500,000 (pieces / cm ³ ), which is about 85% of the total data.
2. In particular, when a negative ion generation amount corresponding to about 54% of all data is 50000 (pieces / cm ³ ) or less, a considerable effect is observed.
3. The data is often related to the treatment of certain diseases. Therefore, in the case of general healthy people, the negative ion density may be low. Considering this data, the negative ion density is 5000 to 10,000 (pieces / cm ³ ). If it is, it seems to be effective.

In this regard, according to Shiseido's report, thirst, wrinkled voice, and nose due to the stress hormone “seretonin” that adversely affects the body when breathing air of 32,000 (pieces / cm ³ ) of positive ions for 20 minutes It has been reported that clogging starts, and on the contrary, if the negative ion air is inhaled for 10 minutes, the brain waves become stable, people feel at ease, and “seretonin” is hardly detected.

It is also said to be effective in preventing fine lines and restoring skin.
Since positive ions exist in an unstable state and have a property of binding to other substances, they can be neutralized and harmless by binding to negative ion substances.

  Patent Document 1 (Japanese Patent Application Laid-Open No. 9-55309) discloses that, by mixing a raw material powder for a magnet and a far-infrared radiation material powder, the blood circulation promoting effect of the human body by magnetism, the activation effect of animals, plants, water, etc., and Disclosed is a composite material in which the effect of promoting far-infrared blood circulation and metabolism can be obtained, and a permanent magnet material powder and far-infrared radiation material powder are added with a binder such as resin or rubber. .

  Furthermore, Patent Document 2 (Japanese Patent Laid-Open No. 5-347206) describes that graphite, fired white porcelain, alumina, ferrous oxide, silicon carbide, carbon, magnesia, silica, and the like are used as far infrared radiation materials. Has been.

  In recent years, especially with the rapid spread of smartphones and personal computers, eye fatigue called VDT (Visual display terminal) syndrome has become a major problem. Smartphones and PCs need to perform a series of operations, such as obtaining necessary information from every corner of the screen, chewing the meaning, and instructing, confirming, effective and reacting to the information. As a result, the eyes will continue to focus on one point at a near point for a long time.

  That means putting the ciliary muscles at a certain degree of strain over a long period of time, which puts a strain on the eyes so severe that it is not comparable to continuing to watch TV programs vaguely. It will be a thing.

  Continuing to focus and stare at a point close to the eye results in a drastic reduction in the number of blinks, evaporation of tears, prone to dry eyes, and a significant increase in eye fatigue. it is conceivable that.

  Furthermore, the spread of contact lenses is said to be a major factor in the lack of oxygen. In recent years, the spread of color contact lenses has become particularly popular in fashion, and the demand and range of use of contact lenses has expanded.

  Vision is a function that recognizes and senses optical changes taken from the eyeball. The eyeball is supported by the eye muscle, and it is said that the movement of the eye muscle is generally 100,000 times or more per day. ing. Therefore, the “oxygen deficient” state is said to affect the eye's ocular muscular function, which is one of the causes of the acceleration of myopia and presbyopia due to a decrease in ciliary muscle strength and lens elasticity. It is thought to be the cause. Furthermore, the decrease in the metabolism of the lens causes turbidity of the lens, leading to the onset of cataracts, and the function of excreting waste products in the eyeball is insufficient, which is thought to contribute to the development of fly mosquito disease.

  Therefore, the excretion function of the bodily fluid called the aqueous humor that fills between the cornea of the eyeball and the iris and between the iris and the lens becomes insufficient, and the function is delayed. It can be a cause of elevation and glaucoma, and can also cause narrowing of the visual field due to insufficient nutrition of the optic nerve.

  The cornea of the eye is an organ that directly absorbs oxygen from the surrounding air, but some contact lenses have high oxygen permeability, but many of them have problems with oxygen permeability. In any case, wearing a contact lens hinders oxygen absorption from the cornea, so it is necessary to limit the wearing time. It is necessary to take measures to prevent corneal neovascularization caused by lack of oxygen.

Japanese Patent Laid-Open No. 9-055309 JP-A-5-347206

“Research on New Use of Magnetic Force” 2nd Study Group, “Investigation Study Group on New Magnetic Field Application” National Institute for Materials Science, Nobuko Wakayama; February 6, 2006 Kitasato University School of Medicine, Department of Ophthalmology, Miyata et al., Ophthalmology Clinical Medical Journal; 1998 Yasuhiro Oya Sevemation review February 2003 Co-authored by Shoichi Kimura and Masahiro Taniguchi; Medical Field Theory and Practice of Air Ions; Published by Nanzandou Shoten Tomoko Isogo and Hisao Sasaki (edited) / Japan Society for Environmental Health Research (supervised);

  In recent years, smartphones and personal computers have become the center of social life, and in today's day-to-day use, VDT syndrome is called eye fatigue, contact dissemination, eye fatigue associated with aging, and measures for aging are imminent issues. It is.

  The present invention provides an effect of oxygen supply for the purpose of reducing and removing eye fatigue and safety by improving eye health and excellent health while performing normal daily life, business, etc., regardless of place, negative ion effect, An object of the present invention is to provide a magnetic material having a combined effect with a far-infrared effect in addition to a magnetic effect and a photocatalytic effect, and to provide glasses, lenses, accessories, and the like that are devices using this magnetic material.

  The magnetic material of the present invention is at least one soft magnetic powder selected from the group consisting of alnico magnets, ferrite magnets, samarium cobalt magnets, neodymium iron boron magnets, samarium iron nitrogen magnets and hard ferrite magnets, and / or A magnetic powder consisting of at least one hard magnetic powder selected from the group consisting of soft ferrite, iron, silicon steel, permalloy, sendust, permendur, amorphous magnetic alloy and crystal magnetic alloy, It is characterized in that the magnetic powder is made into nanoparticles.

The magnetic material of the present invention is preferably an organic-inorganic composite magnetic powder that further contains an organic magnetic material.
The magnetic material of the present invention preferably further contains a tourmaline powder.

  The magnetic material of the present invention preferably further contains at least one far infrared ray generating component powder selected from the group consisting of copper, silicon, nickel, belium, sodium, alumina, and beryllium.

The magnetic material of the present invention preferably further contains at least one component selected from the group consisting of menthol, panthenol, potassium aspartate and taurine.
The magnetic powder preferably contains cobalt-doped titanium oxide and / or titanium apatite powder.

The magnetic material of the present invention includes a compound comprising zinc oxide (ZnO) and manganese dioxide (MnO ₂ ), titanium oxide (TiO ₂ ), oxide of iron (Fe), oxide of nickel (Ni), cobalt It is preferably at least one transparent magnetic material selected from the group consisting of oxides such as (Co) oxides, molybdenum (Mo) oxides, and these compounds.

  In the present invention, the content ratio of the component that emits the far-infrared effect in the magnetic powder is 10 to 12% by weight in the case of copper and 5 to 10% by weight in the case of silicon with respect to 100 parts by weight of the magnetic powder. 3 to 10% by weight, 1 to 2% by weight for sodium, 20 to 25% by weight for alumina, and 0.1 to 2% by weight for beryllium.

In the magnetic material of the present invention, the average particle diameter of the nanoparticulated magnetic powder is preferably 10 nm or less.
The eyeglasses of the present invention comprise at least one soft magnetic powder selected from the group consisting of alnico magnets, ferrite magnets, samarium cobalt magnets, neodymium iron boron magnets, samarium iron nitrogen magnets and hard ferrite magnets, and / or soft It consists of at least one hard magnetic powder selected from the group consisting of ferrite, iron, silicon steel, permalloy, sendust, permendur, amorphous magnetic alloy and crystal magnetic alloy. It is characterized by having a magnetic member.

The glasses of the present invention may contain components other than the magnetic material.
The glasses of the present invention are made by adding a magnetic material, tourmaline, or other ore in a chip-like manner to the left and right inner sides of the eyeglass frame, and closer to the eye surface. Oxygen in the air concentrated by the released magnetism is supplied to the eye surface, and sufficient oxygen is supplied to the cornea. In addition to the negative ion effect emitted from tourmaline powder, etc. It is characterized by protecting the safety and health of eyes by neutralizing positive ions drifting in the vicinity, and reducing and eliminating eye fatigue.

  In the glasses of the present invention, it is preferable to fix the magnetic material obtained by processing the magnetic material into a chip shape on the temple portion of the glasses, or to form the integral with the temple and install the glasses in the glasses. Adhesive method, adhesive method, screwing method, fitting method, fixing method, detachable fixing method, and integral molding method are preferred, and the support on which the magnetic member made of the magnetic material is installed is non- A magnetic material is preferred.

The lens of the present invention has a transparent magnetic layer obtained by laminating the above-described magnetic material on the lens body with a welding layer, a mounting layer, or a laminate.
In the present invention, the lens includes a non-degree lens and a contact lens.

In the lens of the present invention, the magnetic material constituting the lens is composed of a compound comprising zinc oxide (ZnO) and manganese dioxide (MnO ₂ ), titanium oxide (TiO ₂ ), an oxide of iron (Fe), nickel ( It is preferable to include at least one transparent magnetic material selected from the group consisting of oxides of Ni), cobalt (Co), molybdenum (Mo), and these compounds.

The accessory for glasses of this invention is characterized by the above-mentioned magnetic material being fixed to the strap for glasses, and a chain.
According to the present invention, an excellent oxygen concentration effect is achieved by using a magnetic member made of a magnetic material of magnetic nanoparticles, and oxygen in the air receives a downward magnetic force and is sucked into the magnetic field, thereby causing convection. Effective absorption of oxygen into the cornea of the eye due to the characteristic of jetting and jetting, negative ion effect, magnetic action effect, plus negative ion effect by tourmaline, copper, silicon, nickel, sodium, alumina, beryllium A magnetic powder using a material having a far-infrared effect such as one or a composite material is added to a part of an existing eyeglass vine in a chip shape using a support, or this magnetic powder Are used in a sheet form by being bonded to the vine and integrated by means such as double molding.

  In the present invention, a magnetic material mixture is produced using at least one component selected from the group consisting of a polymer, a ferromagnetic compound, a nonmagnetic metal, and a metal oxide ceramic together with the organic-inorganic composite magnetic material as described above. From this magnetic mixture, a magnetic material can be formed.

  Examples of the high molecular polymer that can be used here include polyvinylidene fluoride (PVDF), and examples of the nonmagnetic metal include aluminum, manganese, chromium, silver, platinum, and gold. In addition, examples of the metal oxide ceramics include cobalt-doped titanium oxide, titanium apatite, zinc manganese oxide, and neodymium iron oxide. These can be used alone or in combination. Among these, cobalt-doped titanium oxide and / or titanium apatite exhibit ferromagnetism and photocatalytic activity.

  The magnetic member made of the magnetic material of the present invention has the advantage of efficiently separating and concentrating oxygen inexpensively and easily from the mixed gas such as nitrogen and oxygen, which are the main gases in the air, by the action of a variable magnetic field. is there.

  That is, oxygen in the air is concentrated by a magnetic member made of a magnetic material made of magnetic nanoparticles, and the oxygen in the air receives a downward magnetic force by the magnetic member and is sucked into the magnetic field to generate convection, which is like a jet stream. As a result, it can effectively supply sufficient oxygen to the cornea of the eye, and is effective in reducing eye fatigue, improving the insufficient oxygen supply to the crystalline lens by contact lenses, and suppressing aging.

  The present invention constantly supplies a large amount of oxygen to the cornea of the eye due to the oxygen concentration effect in the air due to magnetic force, neutralizes the positive ions due to the negative ion generation effect, and creates a negative ion environment, and further negative ions due to tourmaline. The effect of reducing blood flow by eye contact with the body, substances that are released from magnets and far infrared rays, weak magnetic action, and far infrared ray action to promote blood circulation. Fine fatigue can be removed.

  Tourmaline rods are produced by grinding tourmaline ore, react with moisture in the air to generate negative ions, and radiate far-infrared rays.

FIG. 1 is a diagram schematically showing the arrangement of the electromagnet and the state of the magnetic field in the experiment. FIG. 2 is a diagram schematically showing the principle of the magnetic oxygen concentration measuring device. FIG. 3 is a schematic view of an embodiment of the glasses (chip type) of the present invention. FIG. 4 is a graph for illustrating the effect of the negative ion generation amount. FIG. 5 is a schematic view showing an example of a molecular magnetic substance of an organic magnetic substance. FIG. 6 is a schematic view showing an example of a magnetic material by an organic radical anion of an organic magnetic substance. FIG. 7 is a characteristic curve of a comparative experiment of the amount of water vapor (water cluster amount) at a position apart from the vicinity of the magnetic body of the present invention. FIG. 8 is a structural diagram of an oxygen permeable contact lens to which the magnetic material of the present invention is applied.

The magnetic material of the present invention includes a soft magnetic powder and a hard magnetic powder.
Examples of the soft magnetic powder include alnico magnets, ferrite magnets, samarium cobalt magnets, neodymium iron boron magnets, samarium iron nitrogen magnets, and hard ferrite magnets. The soft magnetic powder can be used alone or in combination.

  Examples of the hard magnetic powder include soft ferrite, iron, silicon steel, permalloy, sendust, permendur, amorphous magnetic alloy, and crystal magnetic alloy. The hard magnetic powder can be used alone or in combination.

  In the present invention, the soft magnetic powder and the hard magnetic powder (inorganic magnetic powder) are usually used at a weight ratio in the range of 0: 100 to 100: 0. That is, either the soft magnetic powder or the hard magnetic powder can be used, or both can be used in combination.

  Any of these magnetic powders is coarsely pulverized by a pulverizer such as a hammer mill or a homogenizer, and nanoparticles having a particle size of 100 nm or less are formed by a wet or dry pulverizer such as a ball mill or a bead mill. If necessary, the particles are classified to form nanoparticles having an average particle diameter of 10 nm or less. By using such a particulate magnetic material, a strong magnetic material can be formed.

  In the present invention, an organic-inorganic composite magnetic powder can also be used as the magnetic powder. Here, as the organic-inorganic composite magnetic powder, the above-mentioned soft magnetic powder and / or hard magnetic powder are used as a spin source for atoms having d electrons or f electrons such as transition metals and lanthanoids. Stable organic radicals such as fullerene derivatives, complexes of fullerene derivatives and metal phthalocyanines, metal-encapsulated fullerenes, metal phthalocyanines, etc., and nitronyl nitroxides, TCNQ anions, etc. Is used as a molecular species, and when this molecular species has a crystal structure, strong magnetism is expressed (see FIGS. 5 and 6). These can be used alone or in combination. In the case of preparing an organic-inorganic composite magnetic powder, an organic-inorganic composite magnetic powder can be obtained by adding an organic magnetic material at the end of the ball mill or bead mill process and synthesizing at the same time as pulverization. At this time, the blending ratio between the organic magnetic powder and the inorganic magnetic powder can be adjusted by the above-described pulverization / synthesis process.

The average particle diameter of the nanoparticulate organic-inorganic composite magnetic powder used in the present invention is usually 10 μm or less.
In the present invention, the organic magnetic powder or inorganic magnetic powder can be used alone. Also, these magnetic powders generate negative ions when in contact with oxygen.

  The magnetic material used in the present invention contains a tourmaline powder. This tourmaline powder is also made into nanoparticles, and the average particle size is usually 10 μm or less. By blending the tourmaline powder, negative ions are generated from the molded body of the magnetic material of the present invention.

This tourmaline powder is usually used in an amount in the range of 1 to 20 parts by weight with respect to 100 parts by weight of the magnetic powder.
The tourmaline powder is coarsely pulverized by a pulverizer such as a hammer mill or a homogenizer, and nano-sized by a wet or dry pulverizer such as a ball mill or a bead mill, that is, a particle size of 100 nm. The following nanoparticles are formed, classified as necessary, and nanoparticles having an average particle diameter of 10 nm or less are formed and used.

  The magnetic material of the present invention further contains a far infrared ray generating component powder. Here, copper, silicon, nickel, sodium, alumina, and beryllium can be used as the far infrared ray generating component powder. These far infrared ray generation component powders can be used alone or in combination. These far infrared ray generating component powders are 10 to 12% by weight in the case of copper, 5 to 10% by weight in the case of silicon, 3 to 10% by weight in the case of nickel and 100% by weight of the magnetic powder. In the case of, it is preferable to blend in a proportion of about 1 to 2% by weight, in the case of alumina 20 to 25% by weight, and in the case of beryllium 0.1 to 2% by weight. These far-infrared ray generating component powders are nano-sized by a wet or dry pulverization apparatus such as a ball mill or a bead mill, that is, nanoparticles having a particle size of 100 nm or less are formed and classified as necessary, and an average particle size of 10 nm Nanoparticles within the following ranges are formed and used.

The magnetic material of the present invention may further contain a polymer, and examples of the polymer include polyvinylidene fluoride (PVDF).
In addition, the magnetic material of the present invention may contain a nonmagnetic metal, and examples of the nonmagnetic metal include aluminum, manganese, chromium, silver, platinum, and gold.

  Further, examples of the metal oxide ceramics in the magnetic material of the present invention include cobalt-doped titanium oxide, titanium apatite, zinc manganese oxide, neodymium iron oxide and the like. These can be used alone or in combination. In particular, cobalt-doped titanium oxide and titanium apatite have a photocatalytic action, and can be decomposed into carbon dioxide gas and water by irradiating light with organic substances such as bacteria and pollen.

  The magnetic material of the present invention can be produced by mixing the above magnetic powder, tourmaline powder and far-infrared ray generating component powder and shaping them into a desired shape. That is, in the present invention, the magnetic powder is formed into a chip shape, and the chip made of the magnetic powder is fixed to the temple of the glasses, and the temple of the glasses is fixed to the support, or the magnetic powder is fixed to a sheet. Thus, it can be installed by an installation method in which the crane and the double molding method are integrated.

  The glasses of the present invention thus obtained increase the oxygen concentration in the air to supply high concentration oxygen near the eye surface and increase negative ions to neutralize the positive ions near the eye surface, thereby purifying blood and fatigue. In addition to the effects of prevention, recovery from fatigue, etc., in addition, the magnetic field generated by this magnetic powder improves the blood circulation near the eye surface, etc. Can reduce and eliminate eye fatigue.

  Magnetic materials can be installed on non-magnetic supports such as eyeglass frames, adhesive methods, adhesive methods, screwing methods, adhering methods, detachable methods, or integrated into a vine, or processed into a lens body, etc. This method can be adopted.

Thus, the support on which the chip is placed is preferably a non-magnetic material. When the support is a magnetic material, the support is subjected to a non-magnetic material treatment by a known method.
Furthermore, in the present invention, a refreshing feeling is expressed by arranging any of menthol, panthenol, potassium aspartate and taurine.

  The glasses of the present invention use the magnetic powders of the magnetic nanoparticles of the present invention instead of the conventional magnetic powders to sufficiently supply oxygen to the cornea of the eye due to an effective oxygen concentration effect from the air. In addition to the effects of negative ions and negative ions, as well as magnetic and far-infrared effects, and the combined health benefits of tourmaline's negative ion effects, it reduces eye fatigue and removes it whenever and wherever you need it. Can be offered.

  In particular, the glasses of the present invention are blended with copper, silicon, nickel, sodium, alumina, beryllium, which is a material having a far-infrared effect, in addition to magnetic powder and tourmaline powder. Infrared irradiation has a great effect on eye strain recovery.

In the glasses of the present invention (chip type), the negative ions of the magnetic powdery substance were measured for 10 minutes using a negative ion measuring instrument, and as a result, averaged 4000 to 5000 (pieces) from the left and right vine portions of the glasses. / Min ³ ) air negative ion release was measured. In addition, according to the description of Non-Patent Document 3 (Sevemation review February 2003 issue), the numerical value is an amount that can be expected to be sufficiently effective if it is a healthy body from the relationship between the amount of mys ion generation and the effect. is there.

The magnetic flux density of the magnetic powder-like material of the present invention of spectacles (chip type) of the present invention the above description, the average 100 mT, the magnetic flux density, a profile magnetic flux density of the "pip Erekiban ^TM" is 80 to 190 mT Therefore, it can be said that it is effective. The magnetic flux density can be adjusted to an arbitrary density.

For those who don't need glasses, use plain lens glasses.
In addition, although an example in which a chip is mounted on the temple of the above glasses has been mainly described, a thin film made of the magnetic powder of the present invention may be formed on the lens itself. Also, a thin film made of a magnetic powder can be formed on the contact lens, and in this case, the same effect can be obtained.

  FIG. 8 is an explanatory view of a contact lens manufactured in accordance with the present invention. In FIG. 8, 701 is a front optical unit, 702 is a front bezel, 703 is a rear optical unit, 704 is a bezel, 705 is a front surface, 706 is a rear surface, 707 is a front blend, 708 is a blend, 709 is an edge, and 710 is a transparent magnetic material. The body coating layer 711 is an oxygen permeable lens material.

Oxygen (O ₂ ) collected from the front surface 705 by the magnetic field of the transparent magnetic material 710 passes through the porous transparent magnetic material coating layer 710 and further passes through the porous oxygen-permeable lens material 711. Oxygen (O ₂ ) can then be supplied to the cornea from blend 708 that contacts the cornea through the tear film.

  That is, in the contact lens of the present invention, the oxygen-permeable lens material 711 is coated with the transparent magnetic material coating layer 710 by vacuum deposition or sputtering, and the conventional oxygen-permeable lens material 711 is a solo. Xanyl metacrete (SMA) or fluoromethacrylate (FMA) can be used.

The magnetic material used here is preferably a transparent magnetic material. That is, the magnetic material used in the present invention includes a compound comprising zinc oxide (ZnO) and manganese dioxide (MnO ₂ ) together with or separately from the inorganic magnetic powder and organic magnetic powder described above, an oxide, Titanium (TiO ₂ ) or oxides such as iron (Fe) oxide, nickel (Ni oxide), cobalt (Co) oxide, molybdenum (Mo) oxide, or a group of these compounds It is preferable to use at least one transparent magnetic material selected from:

  The film thickness of the magnetic material thus formed is usually 2 to 100 nm, preferably 15 to 50 nm. When the film thickness is 2 nm or less, the magnetic field formed is weak, and convection of oxygen and water vapor can hardly be expected, and alleviation of hay fever symptoms, blue light and electromagnetic noise can be hardly expected. If the film thickness exceeds 100 nm, the total light transmittance of the lens is lowered, and the functions as a spectacle lens and a contact lens are lost.

  When the above film is formed, it may be formed on either the lens front surface or the back surface, or on both surfaces. However, in the case of a contact lens, since the concave portion is in contact with the eyeball, it is preferably formed on the surface (front surface).

  A film made of a magnetic material is formed so that the total light transmittance in the present invention is usually 95% or more, and preferably in the range of 95 to 99%. In the present invention, since at least 50% of the blue light can be absorbed and the visible light transmittance other than that is 80% or more, the color tone hardly changes. The visible light transmittance can be achieved by using the transparent magnetic material as described above.

  The lens forming the film may be either a glass lens or a plastic lens, and in particular, a contact lens can be manufactured using a conventional oxygen-permeable lens material.

  Furthermore, the same effect can be obtained by embedding a chip made of magnetic powder in a spectacle accessory, for example, a strap for glasses or a chain using the magnetic powder of the present invention.

  It is preferable to form a noise earth electrode in order to remove electric signal noise, electromagnetic wave noise, and the like caused by the magnetic material in order to fully exhibit the functions of the glasses, lenses and contact lenses using the magnetic material of the present invention.

  The noise earth electrode can be formed of a metal piece or the above-described magnetic material, for example, can be formed on the temple or modern part in FIG. 3, and can be adhered to the surface of the nose pad or the noise pad. It can also be a noise earth electrode.

Examples of the present invention are shown below, but the present invention should not be construed as being limited thereto.
[Example 1]
The objective of neutralizing positive ions with negative ions and creating a negative ion environment, which is obtained by concentrating only oxygen from the air, was realized by a simple method of attaching magnetic powder to the vine of ordinary glasses.

FIG. 3 is an explanatory view of a chip type eyeglass of the present invention formed from an inorganic powder according to an embodiment of the present invention.
In FIG. 3, 1 is a rim of eyeglasses, 2 is an armor, 3 is a bridge, 4 is a hinge, 5 is a crings, 6 is a temple, 7 is a nose pad, 8 is modern, and 9 is a chip-like present invention. It is a magnetic material.

In this embodiment, a chip 9 of a magnetic material made of inorganic magnetic powder and pulverized into nanoparticles is fixed to the temple 6 with an adhesive or the like.
Since nitrogen in the air around the glasses is a diamagnetic material, it is repelled away from the magnetic pole magnet of the tip 9 which is a magnetic material fixed to the temple 6.

On the other hand, oxygen is attracted to the magnetic powder 9 because it is magnetized in the opposite direction to the magnetic pole of the chip 9 which is a magnetic material.
Although the orientation of the magnetic pole at this time is not shown in the drawing, since nitrogen exhibits a diamagnetic property with respect to the polarity of the magnetic pole closer to gas, nitrogen moves away regardless of the polarity.

On the other hand, in the case of oxygen, on the other hand, oxygen is sucked even if the polarity is any.
By this alone, oxygen collected around the tip 9 made of magnetic powder does not move, but oxygen in the air receives a downward magnetic force and is sucked into the magnetic field, and is jetted. It becomes like an air current, and highly concentrated oxygen around the chip enters from the eye surface.

The results of the evaluation test of the glasses (chip type) of the present invention described above are described below.
Evaluation method: Sensory test method Number of subjects: 100 Gender: 50 males, female: 50 Ages: 20-50 generations Test method: business processing with personal computer for 2 hours each using glasses of the present invention and unused (spreadsheet) Data input to software)
Evaluation: Questionnaire count results (blurred eyes, back of eyes hurts, eyes drenched, etc.)
Effective: 37 No effect: 6 Unknown: 57 As a result, excluding unknown, the effect can be confirmed in 37 out of 43 (about 85%).

[Example 2]
A complex of C ₆₀ fullerene derivative and metal phthalocyanine is selected as the organic magnetic powder, neodymium iron boron is selected as the inorganic magnetic powder, and the ratio of organic magnetic material: inorganic magnetic material = 3: 7. After mixing, tourmaline and titanium apatite were blended and pulverized into nanoparticles, powder sintering was performed at a low temperature of 300 ° C. or lower to produce an organic-inorganic composite magnetic material.

As a result of a test installed in an actual environment, when the humidity at a position away from the magnetic material is 40% and the air temperature is 25 ° C., the humidity near the magnetic material is 58% and the air temperature is 25 ° C. When the amount (water cluster amount) was calculated, it was about 12.7 (g / cm ³ ).
Water vapor amount (water cluster amount)
= Saturated water vapor amount x Humidity / 100 [g / cm ³ ].
* Saturated water vapor is calculated from the ambient temperature and atmospheric pressure.

Similarly, when the amount of water vapor (water cluster amount) at a position away from the magnetic material is calculated by Equation 1, it is about 9.2 (g / cm ³ ), and clearly the amount of water vapor (water cluster amount) near the magnetic material is It can be said that the value is higher than the position away from the magnetic body.

Furthermore, the transparent magnetic layer formed in this manner can keep pollen that is a non-magnetic material away from the magnetic material, and can reduce the symptoms of hay fever.
In addition, the transparent magnetic layer formed in this way can block part of blue light and electromagnetic waves having a wavelength of 380 to 500 nm.

Furthermore, the magnetic material of the present invention used here also has a photocatalytic function, and active oxygen OH ⁻ : a hydroxyl radical) is converted into an electron-hole pair hole (h ⁺ ) generated by ultraviolet light, It has the effect of reducing and decomposing to produce water and oxygen. Therefore, the decomposition effect and the bactericidal effect of pollen adhered by the photocatalytic reaction can also be expected.

Example 3
The magnetic material according to the present invention is an organic magnetic material, a complex of C ₆₀ fullerene derivative and metal phthalocyanine is selected, neodymium iron boron is selected as an inorganic magnetic material, and organic magnetic material: inorganic magnetic material = 3: 7. After mixing at a ratio, compounding titanium apatite powder, crushing it into nano-sized material, performing powder sintering at a low temperature of 300 ° C. or less, making a prototype as an organic-inorganic composite magnetic material, and installing it in an actual environment As a result of the test, when the humidity at a position away from the magnetic material is 40% and the air temperature is 25 ° C., the humidity near the magnetic material is 58% and the air temperature is 25 ° C. ) Was obtained, about 12.7 (g / cm ³ ) was obtained.
Water vapor amount (water cluster amount)
= Saturated water vapor amount x Humidity / 100 [g / cm ³ ] ... Formula 1
* Saturated water vapor is calculated from the ambient temperature and atmospheric pressure.

Similarly, when the amount of water vapor (water cluster amount) at a position away from the magnetic material is calculated by Equation 1, it is about 9.2 (g / cm ³ ), and clearly the amount of water vapor (water cluster amount) near the magnetic material is It can be said that the value is higher than the position away from the magnetic body.

Furthermore, the transparent magnetic layer formed in this manner can keep pollen that is a non-magnetic material away from the magnetic material, and can reduce the symptoms of hay fever.
In addition, the transparent self-living layer formed in this way can block part of blue light and electromagnetic waves having a wavelength of 380 to 500 nm.

Furthermore, the magnetic material of the present invention also has a photocatalytic function. Active oxygen OH ^-: the hydrate nitroxyl radical) a pair of derived electrons and holes by ultraviolet light hole (h ^+), have the effect of generating a decomposed water and oxygen is reduced, improving the humidity of glasses near There is an effect to make. Therefore, the decomposition effect and the bactericidal effect of pollen adhered by the photocatalytic reaction can also be expected.

  FIG. 7 shows that the magnetic body of the present invention is installed on the left and right temple front edges of the glasses, and a member containing a menthol is arranged on the nose pad, and two temperature / humidity sensors are installed at the same left and right positions on the temple front edge. For mounting and comparison, a temperature / humidity sensor was also mounted at a position away from the glasses, and measurements were taken every minute for about 3700 minutes (61 hours or more) with an automatic measuring machine using a personal computer. It is the characteristic curve which totaled the result. Although the values are different on the left and right sides of the glasses, when compared with the values at positions away from the glasses, the sensors on the left and right sides of the glasses clearly show less fluctuation and a higher value.

It can be said that the increase phenomenon of water vapor (water cluster), which is considered to mainly dissolve oxygen molecules and oxygen due to the magnetic field of the magnetic material of the present invention, has the effect of increasing the humidity of the surface and surroundings of the eyes. Therefore, it is possible to keep the humidity at about 40 to 60%, which is an ideal humidity condition. In addition, according to the present invention, since water vapor (water cluster) that exists naturally is used, replenishment of water compared to the conventional method of volatilizing water in a container such as a water tank at body temperature. It can be said that it is easy to handle and is always hygienic.
Furthermore, a cool feeling was expressed by arranging a member containing menthol in the nose pad.

  The lens attached to the glasses can cut blue light with a wavelength of 380 to 500 nm by 50% or more, electromagnetic noise can also be cut by 50% or more, and the total light transmittance is 80% or more for other visible rays. Therefore, there was no change in the color tone seen through the glasses and the color tone seen without the glasses.

DESCRIPTION OF SYMBOLS 1 ... Rim 2 ... Yoroi 3 ... Bridge 4 ... Hinge 5 ... Krings 6 ... Vine (Temple)
7 ... Nose pad 8 ... Modern 9 ... Magnetic powder chip 701 ... Full surface optical unit 702 ... Front bezel 703 ... Rear optical unit 704 ... Bezel 705 ... Front surface 706 ... Rear surface 707 ... Front blend 708 ... Blend 709 ... Edge 710 ... Transparent magnetic material coating layer 711 ... Oxygen permeable lens material

Claims (21)

  At least one soft magnetic powder selected from the group consisting of alnico magnet, ferrite magnet, samarium cobalt magnet, neodymium iron boron magnet, samarium iron nitrogen magnet and hard ferrite magnet, and / or soft ferrite, iron, silicon steel A magnetic powder comprising at least one hard magnetic powder selected from the group consisting of permalloy, sendust, permendur, amorphous magnetic alloy, and crystal magnetic alloy, and the magnetic powder is a nanoparticle. A magnetic material characterized by being made.   The magnetic material according to claim 1, wherein the magnetic material is an organic-inorganic composite magnetic powder further containing an organic magnetic material.   The magnetic material according to claim 1, wherein the magnetic material further contains a tourmaline powder.   The said magnetic material further contains at least 1 sort (s) of far-infrared ray generation | occurrence | production component powdery material chosen from the group which consists of copper, silicon, nickel, sodium, an alumina, and beryllium, The Claim 1 or 2 characterized by the above-mentioned. Magnetic material.   The magnetic material according to claim 1 or 2, wherein the magnetic material contains at least one component selected from the group consisting of menthol, panthenol, potassium aspartate, and taurine. The magnetic material is a compound composed of zinc oxide (ZnO) and manganese dioxide (MnO ₂ ), titanium oxide (TiO ₂ ), iron (Fe) oxide, nickel (Ni) oxide, cobalt (Co The magnetic material according to claim 1, wherein the magnetic material is at least one transparent magnetic material selected from the group consisting of oxides such as oxides of molybdenum), oxides of molybdenum (Mo), and compounds thereof. .   The magnetic material according to claim 1 or 2, wherein the nanoparticulate magnetic powder has an average particle size of 10 nm or less.   The content ratio in the magnetic powder of the component that produces the far-infrared effect is 10 to 12% by weight in the case of copper, 5 to 10% by weight in the case of copper, and 3 in the case of nickel with respect to 100 parts by weight of the magnetic powder. The magnetic material according to claim 4, wherein the magnetic material is 10 to 10% by weight, sodium is 1 to 2% by weight, alumina is 20 to 25% by weight, and beryllium is 0.1 to 2% by weight.   At least one soft magnetic powder selected from the group consisting of alnico magnet, ferrite magnet, samarium cobalt magnet, neodymium iron boron magnet, samarium iron nitrogen magnet and hard ferrite magnet, and / or soft ferrite, iron, silicon steel A magnetic member comprising a nanoparticulate magnetic powder comprising at least one hard magnetic powder selected from the group consisting of permalloy, sendust, permendur, amorphous magnetic alloy and crystal magnetic alloy Features glasses.   The eyeglasses according to claim 9, wherein the magnetic material is an organic-inorganic composite magnetic powder further containing an organic magnetic material.   The eyeglasses according to any one of claims 9 to 10, wherein the magnetic material further contains a tourmaline powder.   11. The magnetic material according to claim 9, further comprising at least one kind of far infrared ray generating component powder selected from the group consisting of copper, silicon, nickel, sodium, alumina, and beryllium. The glasses described in item 1.   The eyeglasses according to any one of claims 9 to 10, wherein the eyeglasses have a member containing at least one component selected from the group consisting of menthol, panthenol, potassium aspartate, and taurine. .   The above glasses add magnetic material, tourmaline, and other ores in a chip shape to the left and right inner sides of the eyeglass frame and near the eye surface of the magnetic material mixed with powder. In addition to supplying oxygen in the air, which is concentrated by magnetism, to the eye surface, sufficient oxygen is supplied to the cornea, and in addition to the negative ion effect emitted from tourmaline, positive ions drifting in the vicinity of the eye surface due to the reduction of negative ions. The eyeglasses according to any one of claims 9 to 13, wherein neutralization protects eye safety and health, and reduces and eliminates eye fatigue.   15. The magnetic material according to any one of claims 9 to 14, wherein the magnetic material is processed into a chip shape and fixed to a temple portion of the glasses, or is integrally formed with the temple and installed in the glasses. Glasses.   15. The installation method according to claim 9, wherein the installation method is any one of an adhesion method, an adhesion method, a screwing method, a fitting method, a fixing method, a detachable fixing method, and an integral molding method. The glasses described in the section.   The glasses according to any one of claims 9 to 14, wherein the support on which the magnetic material is installed is a non-magnetic material.   A lens having a transparent magnetic layer obtained by laminating the magnetic material according to any one of claims 1 to 8 on a lens body, a welding layer, a mounting layer, or a laminated layer.   The lens according to claim 18, wherein the lens includes a contact lens. The magnetic material constituting the lens is a compound composed of zinc oxide (ZnO) and manganese dioxide (MnO ₂ ), titanium oxide (TiO ₂ ), oxide of iron (Fe), oxide of nickel (Ni) 20 or 19, comprising at least one transparent magnetic material selected from the group consisting of an oxide of cobalt (Co), an oxide of molybdenum (Mo), or a compound thereof. The lens described.   An accessory for glasses, wherein the magnetic material according to any one of claims 1 to 8 is fixed to a strap or chain for glasses.