KR20190002415U - Health eyeglasses capable of producing negative ions - Google Patents

Abstract

A lens has an eye protection effect, and the rim and the leg of the glasses emit negative ions, so that when the user wears the glasses, there is provided anion glasses with optical correction and eye care effects. The anion glasses are mainly composed of a rim lens and a pair of glasses. The lens is coupled to the rim. The lens is pivotally connected to both rears of the rim. At this time, the lens comprises a substrate, the substrate is made of methacryl-based polymer material, the substrate contains an anionic material. An anti-UV layer, an anti-blue light layer and an antifogging layer are provided on the substrate in an inward to outward order. The rim and the spectacles are made of a resin material, and the resin material contains an anion material.

Description

Health eyeglasses capable of producing negative ions}

The present invention relates to anion glasses, in particular the lens has an eye protection effect, and also to release the anion from the rim (rim) and glasses (temples) to have the effect of eye care while wearing the glasses at the same time.

In recent years, due to the rapid development of electronic communication devices, everyone has an electronic communication device, and it is used for work and entertainment, and the use of the electronic communication device is increasing so that individual individuals have no electronic communication device. Such devices produce harmful radiation (eg blue light, etc.). In addition, blue light is a visible light having a high energy because of its short wavelength among visible light. In non-homogeneous media, light is most likely to be scattered, the eye is difficult to image and blur, while high energy light is very damaging to the eye, causing disease in the macula of the retina, cataracts, It can have adverse effects such as eye fatigue, glare and poor vision and increase the incidence of eye diseases. Correcting through the use of glasses (e.g., myopia glasses, magnifiers, etc.) is the most common treatment for vision loss in the eye.

General eyeglass lenses have a simple power adjustment function, and do not provide effects such as UV and blue light prevention or anti-fog. In addition, when the user wears glasses for a long time, eye fatigue, eye pain, or drying may occur.

As a problem to be solved by the present invention, the ordinary spectacle lens does not provide a protection effect against ultraviolet rays, blue light, and fog when only a simple adjustment of the frequency. In addition, when the user wears glasses for a long time, discomfort due to eye fatigue, eye pain, or drying may occur.

Therefore, an object of the present invention is to provide anionic glasses that solve the disadvantages existing in existing glasses.

To this end, the anion glasses of the present invention are mainly composed of a rim, a lens, and a pair of glasses. The lens is coupled to the rim. The lens is pivotally connected to both sides of the rim. Wherein said lens comprises a substrate, said substrate being made from a methacrylic polymer material, said substrate containing an anionic material. An anti-UV layer, an anti-blue light layer and an anti-fog layer are provided on the substrate in an inward to outward order. The rim and the eyeglass legs are made of a resin material, the resin material is characterized by containing an anionic material is the most important feature.

In the negative ion glasses of the present invention, the lens has a filtering effect on ultraviolet rays and blue lights of 60% or more, thereby effectively preventing eye damage due to ultraviolet rays and blue light radiation. It also reduces incompatibility such as eye pain and swelling, dryness and fatigue, and reduces the incidence of cataracts and macular lesions. The rim, lens and eyeglasses all emit negative ions. Negative ions have the advantage of promoting blood circulation and metabolism to heal eye fatigue, improve the oxygen supply around the eye, help improve and prevent eye problems, and treat the eye.

1 is a three-dimensional view of an embodiment of the present invention.
2 is a cross-sectional view of a lens of an embodiment of the present invention.
3 is a cross-sectional view of a lens of another embodiment of the present invention.

Anion glasses according to an embodiment of the present invention is mainly composed of a rim, a lens, a pair of glasses, the lens is coupled to the rim. The eyeglass legs are pivotally mounted to both rears of the rim. The lens includes a substrate, the substrate is made of methacrylic polymer material, the substrate contains an anionic material. An anti-UV layer, an anti-blue light layer, and an anti-fog layer are provided on the substrate in an inward to outward order, and the rim and the eyeglass legs are made of a resin material containing an anion material.

Anion glasses according to another embodiment of the present invention is mainly composed of a rim, a lens, a pair of glasses, the lens is coupled to the rim. The eyeglass legs are pivotally mounted to both rears of the rim. The lens includes a substrate, the substrate is made of methacrylic acid polymer material, the surface of the substrate is sprayed with an anion material to form an anion layer. In addition, an anti-UV layer, an anti-blue light layer, and an anti-fog layer are provided on the substrate in an inward-to-outward order, and the rim and the eyeglass legs are made of a resin material containing an anion material.

According to another embodiment of the present invention, the method of manufacturing anion glasses according to the present invention including anion material on the rim and the leg of the glasses may include the following steps.

That is, the step of pulverizing the anion powder to obtain an ultrafine, nanometer (nanometer) anion powder; Mixing the nano-anionic powder in a resin material to obtain a homogeneous mixture; placing the mixture in an oven, adding a separating agent and heating to fully melt the mixture; ; The melted mixture may be processed into a cold forming facility to form a rim and a pair of glasses containing anionic material.

EXAMPLE

The present invention is a technical means adopted to achieve the above-described purposes and effects, preferred embodiments will be described below with reference to the accompanying drawings.

1, 2 and 3, the anion glasses according to the embodiment of the present invention, mainly composed of a rim 10, a lens 11 and a pair of glasses 12. The lens 11 is coupled to the rim 10. The spectacles 12 are pivotally installed on both sides of the rim 10. Among them, the lens 11 includes a substrate 110, the substrate 110 is made of methacrylic acid polymer material, and the substrate 110 contains an anion material or the substrate 110. The anion material is sprayed on the outer layer of () to form an anion layer 115 (see, eg, FIG. 3).

In addition, the anti-UV layer 111, the anti-blue light layer 112, and the antifogging layer 113 are disposed on the substrate 110 in the order from the inner side to the outer side.

The anti-blue light layer 112 may include a first SiO ₂ (silicon oxide) film layer, a ZrO ₂ (zirconium oxide) film layer, an In ₂ O ₃ (indium trioxide) film layer, a Ti ₂ O ₃ (titanium trioxide) film layer, A second SiO ₂ (silicon oxide) film layer. In the production of these membrane layers, a method of vacuum deposition or sputtering precipitation of a sputtering target can be employed, and the thickness of the coating is obtained by parameter control such as settling time, thermal evaporation temperature and sputtering power. An anti-reflection layer 114 is provided on an inner side surface of the substrate 110 and an outer side surface of the blur prevention layer 113, respectively. The rim 10 and the spectacles 12 are made of a resin material, the resin material contains an anion material, and the anion material is a nano-class tourmaline anion powder. Therefore, it becomes an anion glasses.

In the manufacturing method containing an anion material in the rim 10 and the eyeglass leg 12 of the present invention, the anion powder is first ground to obtain an ultrafine nano-class anion powder. Next, the nano-anion powder is put into a resin material and mixed to obtain a uniform mixture. The mixture is then placed in an oven, added with a separator and baked by heating. The separating agent is a resin separating agent, and the mixture is sufficiently melted. When the completely melted mixture is processed into a cold molding facility, the molded part is formed into a rim 10 and an eyeglass leg 12 containing an anion material.

The chemical composition table of the anion powder which this invention shows is as follows.

The content of Al2O3 (aluminum trioxide) is 35.10%, the content of SiO2 (silicon oxide) is 34.81%, the content of B2O3 (boron trioxide) is 11.02%, the content of MgO (magnesium oxide) is 4.70%, the content of Fe2O3 (iron trioxide) 10.18% of silver, 0.91% of Na2O (sodium oxide), 0.04% of K2O (potassium oxide), trace amounts of CaO (calcium oxide), 0.22% of P2O5 (phosphorus pentoxide), TiO2 (titanium oxide) The content is 0.26%, the FeO (iron oxide) content is 1.35%, and others are traces.

The anion powder component is a silicate material of aluminum, sodium, iron, germanium, and lithium ring structure, characterized in that it contains boron, and is grown in an oil-like phase. Its thermal conductivity and piezoelectricity cause polar ions to vibrate at equilibrium positions, resulting in dipole moment changes and electromagnetic radiation in the far infrared wavelength band. If a certain anionic powder is added to the product (eg fiber) at a specific rate, far infrared rays pass through free ions, impurity ions and ionic materials, causing impurities and 2 or 3 phonons to resonate and emit radiation In addition, the polar oscillations of the ionic bonds related to the bond between organic and inorganic molecules form a relatively strong radiation broadband. According to the anion powder test, the emissivity of far infrared rays is 90% or more.

The care effect and other effects of far infrared radiation of anion powder on the human body are mainly as follows.

1. Far-infrared rays can accelerate the movement of water molecules, and can convert ordinary water into active water, further strengthening water penetration, diffusion, solubility, metabolism, and create water barrier.

2. Far-infrared causes circulatory system to expand capillaries, strengthen blood circulation, promote metabolism, increase lymph circulation.

3. Far-infrared rays activate the cells in cells, give them the ability to excrete or regenerate old dead cells, and strengthen cell energy and increase cell function and vitality.

The rim 10 and spectacles 12 of the present invention contain other more abundant tourmaline powder containing a polymer anion material. The tourmaline powder can be obtained by removing impurities from the tourmaline gemstone and then pulverizing it with a machine to process and refine the powder. The tourmaline powder has a relatively high anion generation amount and far-infrared emissivity. Tourmaline is also called tourmaline. The tourmaline has a chemical formula of NaR 3 Al 6 Si 6 O 18 BO 33 (OH, F) 4, and the crystal is a generic term for tricyclic cyclic silicate minerals. In the formula, R represents a metal cation, and R represents Fe 2+. Configure In addition, far-infrared rays emitted by tourmaline powder cause the activity of biological molecules, make the molecules of living organisms in a relatively high vibration state to promote and improve blood circulation, enhance metabolism, improve immunity, Lowers swelling, regulates autonomic nervous system to maintain equilibrium, lowers blood pressure, sterilizes and removes debris and harmful substances in the blood, increases erythrocyte count, improves allergic predisposition, and boosts immunity .

The lens 11 of the present invention effectively installs an anti-UV layer 111, an anti-blue light layer 112, and an anti-fog layer 113 to effectively reduce injuries due to blue light emitted from electronic products and LED rays. The lens 11 of the present invention has a UV filtering and blue light filtering effect reaching 60% or more, and thus, negative ions are emitted from the rim 10 and the lens 11 and the eyeglasses 12, thereby surrounding the eyes. Promotes blood circulation and metabolism, improves and prevents eye diseases. It also heals eye fatigue and strengthens the oxygen supply around the eyes. The amount of negative ions emitted from the rim 10 and the leg 12 is usually 100 times higher than that of the material, and the negative ions are beneficial to the health of the human body. Also, in the present design, the rim 10, the lens 11, and the leg 12 are By containing an anion component, the user wears the glasses 1 and at the same time achieves the optical correction effect, and at the same time emits anions to achieve the effect of protecting the eyes of the user even more.

As described above, the present invention certainly achieves the intended use purpose and effect, and is also more ideal and practical than known ones. However, the above embodiment only describes in detail a preferred embodiment of the present invention, and the present embodiment does not limit the claims of the present invention. In addition, all equivalent changes and modifications completed according to the technical means proposed by the present invention without departing from the scope of the present invention are all included in the claims of the present invention.

1: glasses 10: rim
11: lens 110: substrate
111: anti-UV layer 112: anti-blue light layer
113: antifogging layer 114: antireflection layer
115: anion layer 12: glasses legs

Claims (2)

In the anion glasses composed of a rim lens and a pair of glasses,
The lens is coupled to the rim, the spectacles being pivotally connected to both rears of the rim,
The lens comprises a substrate, the substrate being made of a methacrylic polymer material,
The substrate contains an anion material, an anti-UV layer, an anti-blue light layer and an anti-fog layer are provided on the substrate in an inward to outward order, and the rim and the eyeglass legs are made of a resin material. An anionic eyeglass, characterized in that an anionic material is contained in the resin material. In the anion glasses composed of a rim lens and a pair of glasses,
The lens is coupled to the rim, the spectacles being pivotally connected to both rears of the rim,
The lens comprises a substrate, the substrate being made of a methacrylic polymer material,
Anion material is injected onto the surface of the substrate to form an anion layer, and further, an anti-UV layer, an anti-blue light layer, and an anti-fog layer are provided on the substrate in an inward to outward order, and the rim and the glasses legs are provided. Is made of a resin material, wherein the anion material is contained in the resin material.

Images