TWM561807U - Health care spectacle with anions - Google Patents

Abstract

The present invention provides an anion health-care eyeglass, which is mainly composed of a frame, a lens and a temple. The lens is embedded in the frame, and the temple is pivotally connected to the rear of the frame, wherein the lens includes a substrate made of a methacrylic polymer material, wherein the substrate contains an anion material, and the substrate is provided with an ultraviolet shielding layer, a blue light resistant layer and an antifogging layer from the inside to the outside. The frame and the temple are made of a resin material, and the resin material contains an anion material, so that the lens has the effect of protecting the eyes, and the frame and the temple can release negative ions, so that the wearer can match Wearing glasses also has the effect of eye care.

Description

Negative ion health glasses

The present invention relates to an anion health care eyeglass, in particular to a lens that has the effect of protecting the eyes, and the frame and the temples can release negative ions, so that the wearer has the effect of eye care while wearing glasses.

According to the rapid development of 3C products in recent years, a 3C electronic product, regardless of the need for work or play, everyone relies heavily on these electronic products, which emit harmful rays (such as blue light...). While blue light is a short-wavelength light with high energy in visible light, it is most likely to be scattered in an inhomogeneous medium, which makes the eyes blur the imaging. At the same time, the high-energy light will cause great damage to the eyes and aggravate the retinal macula. The occurrence of lesions can lead to cataracts, visual fatigue, glare, decreased vision and other adverse effects, increasing the incidence of eye diseases, and the most common way to treat eyesight loss is through wearing glasses (such as glasses, reading glasses, etc.) In order to correct it; however, the lens of the general glasses only has a simple degree adjustment, and has no anti-ultraviolet, anti-blue light and anti-fog effects. The glasses are worn for a long time, and are prone to eye fatigue and discomfort of the eyes.

The purpose of this creation is to provide an anion health care eyeglass that can effectively solve the shortcomings of conventional glasses.

The negative ion health glasses of the present invention are mainly composed of a frame, a lens and a temple. The lens is embedded in the frame, and the temple is pivotally connected to the rear of the frame, wherein the lens comprises a substrate. The substrate is made of a methacrylic polymer material, and the substrate contains an anion material. The substrate is provided with an anti-ultraviolet layer, a blue-resistant layer and an anti-fog layer in this order from the inside to the outside. The frame and the temple are made of a resin material, and the resin material contains an anion material.

The negative ion health glasses of the present invention are mainly composed of a frame, a lens and a temple. The lens is embedded in the frame, and the temple is pivotally connected to the rear of the frame, wherein the lens comprises a substrate. The substrate is made of a methacrylic polymer material, and the surface of the substrate is sprayed with an anion material to form an anion layer, and then an ultraviolet-resistant layer, a blue-ray resistant layer and an anti-blue layer are sequentially disposed on the substrate from the inside to the outside. In the fog layer, the frame and the temple are made of a resin material containing an anion material.

The negative ion health glasses of the present invention, wherein the frame and the negative ion material are contained in the temple, the negative ion powder is first ground to obtain fine nanometer negative ion powder, and the nanometer negative ion is further obtained. The powder is added to the resin material and uniformly mixed to obtain a mixture, the mixture is placed in an oven and a separating agent is added for baking until the mixture is sufficiently dissolved, and the fully dissolved mixture is placed in a cooling molding apparatus for processing, that is, obtained. The frame with negative ions and the temple.

The negative ion health glasses of the present invention have the advantages that the filtering effect of the lens on ultraviolet light and blue light can reach more than 60%, which can effectively prevent ultraviolet rays and blue light radiation from harming the eyes, and can reduce eye irritation, soreness, dryness, Fatigue and other discomfort can reduce the incidence of cataract and macular lesions, and negative ions can be released from the frame, lens and temple. Negative ions can promote blood circulation and metabolism, relieve eye fatigue and improve oxygen supply around the eyes, helping to improve And to prevent eye diseases, it can achieve the effect of eye care.

1‧‧‧ glasses

10‧‧‧ Frame

11‧‧‧ lenses

110‧‧‧ substrates

111‧‧‧Anti-UV layer

112‧‧‧Anti-blue layer

113‧‧‧Anti-fog layer

114‧‧‧Anti-reflection coating

115‧‧‧negative ion layer

12‧‧ ‧ temples

The first figure is a perspective view of the present embodiment.

The second figure is a schematic cross-sectional view of the lens of the present embodiment.

The third figure is a schematic cross-sectional view of another embodiment of the lens.

For the purpose of achieving the above-mentioned purpose and effect of the above-mentioned use, a preferred and feasible embodiment will be described, and as shown in the drawings, the details are as follows:

For the embodiment of the present invention, as shown in the first, second and third figures, the glasses 1 are mainly composed of a frame 10, a lens 11 and a temple 12, and the lens 11 is embedded in the frame 10, and the lens 12 is embedded in the frame 10 The lens 11 is pivotally connected to the rear of the frame 10, wherein the lens 11 comprises a substrate 110. The substrate 110 is made of a methacrylic polymer material, and the substrate 110 contains an anion material or The outer layer of the substrate 110 is sprayed with a negative ion material to form a negative ion layer 115 (as shown in the third figure), and then the inner surface of the substrate 110 is sequentially provided with an anti-ultraviolet layer 111, a blue light-resistant layer 112 and an anti-fog layer. 113, the anti-blue layer 112 may be sequentially provided with a first SiO ₂ film layer, a ZrO ₂ film layer, an In ₂ O ₃ film layer, a Ti ₂ O ₃ film layer, and a second SiO ₂ film layer, and may be vacuumed during fabrication. Evaporation coating, or sputtering deposition using a sputtering target, the thickness of the coating can be controlled by parameters such as deposition time, thermal evaporation temperature, and sputtering power, and the inner side of the substrate 110 and the outer side of the anti-fog layer 113 An anti-reflection film layer 114 may be further disposed, and the frame 10 and the temple 12 are made of a resin material. Anion containing material, the material is a negative anion nano tourmaline powder, so, that is a negative health glasses.

The method for fabricating the frame 10 and the negative electrode material in the temple 12 is to first grind the negative ion powder to obtain a fine nano-sized negative ion powder, and then add the nano-sized negative ion powder to the resin material. Mixing uniformly to obtain a mixture, placing the mixture in an oven and adding a separating agent for baking. The separating agent may be a resin separating agent until the mixture is sufficiently dissolved, and the fully dissolved mixture is placed in a cooling molding apparatus for processing. That is, the frame 10 having the negative ions and the temple 12 are obtained.

The chemical composition of the negative ion polymeric nanomaterials described in the present application is: Al2O3 content 35.10%, SiO2 content 34.81%, B2O3 content 11.02%, MgO content 4.70, Fe2O3 content 10.18%, Na2O content 0.91%, K2O content 0.04%, The amount of CaO is small, the content of P2O5 is 0.22%, the content of TiO2 is 0.26%, the content of FeO is 1.35%, and other trace amounts.

The composition in the negative ion powder is a bismuth hydride material of aluminum, sodium, iron, bismuth and lithium ring structure characterized by boron. The isomorphism is similar. Because of its thermoelectricity and piezoelectricity, the polar ions are balanced. The positional vibration causes dipole moment changes to generate electromagnetic radiation in the far-infrared band. If it is added to the product (such as fiber) in a certain proportion, it passes its own free ions, impurity ions and ionic substances, impurities and two or three sounds. Sub-resonance generates radiation, which affects the polar vibration of the ionic bond between the organic and inorganic molecules, forming a strong radiation broadband. According to the test, the emission rate of the negative ion powder to far infrared rays is over 90%.

The far-infrared properties of negative ion powder have the following aspects in the health care and other functions of the human body:

1. Far-infrared rays can accelerate the movement of water molecules, making ordinary water become active water, thereby enhancing the water penetration, diffusion, solvency, and metabolism, and producing a water protective film.

2. Far infrared rays can expand the capillaries, enhance blood circulation, promote metabolism and enhance lymphatic circulation.

3. Far-infrared rays can activate cells, excrete or regenerate old dead cells, enhance cell energy, and enhance cell function and vitality.

The frame 10 and the temple 12 of the present invention are rich in tourmaline powder in addition to the polymer anion material; the tourmaline powder is a powder obtained by mechanically pulverizing the tourmaline ore after removing impurities, and is processed and purified. The powder has a high negative ion production and far-infrared emissivity. The tourmaline is also called tourmaline, and the tourmaline chemical formula is NaR3Al6Si6O18BO33(OH,F)4. The crystal is a general term for a family of cyclic structure citrate minerals. In the chemical formula, R represents a metal cation. When R is Fe2+, it forms a black crystal tourmaline. The far infrared ray emitted by tourmaline powder can initiate biomolecules. Activity, so that the molecules of the organism are in a higher vibration state, promote and improve blood circulation, enhance metabolism, improve immune function, eliminate fire and swelling, regulate the balance of the autonomic nervous system, reduce blood pressure, sterilize and remove waste and harmful substances in the blood, Increase the number of red blood cells, improve allergies, and enhance immunity.

The lens 11 of the present invention can effectively reduce the blue light damage emitted by the electronic product and the LED light by the arrangement of the anti-UV layer 111, the anti-blue layer 112 and the anti-fog layer 113. The filtering effect of the lens 11 on the ultraviolet and blue light is It can reach more than 60%, and its frame 10, lens 11 and temple 12 can release negative ions, which can promote blood circulation and metabolism around the eyes, help to improve and prevent eye diseases, and relieve eye fatigue and improve the eyes around the eyes. Oxygen supply, the negative ion release amount of the frame 10 and the temple 12 is 100 times that of the ordinary material, and the negative ions are beneficial to human health, and the creation is provided by the frame 10, the lens 11 and the temple 12 with negative ion components. While wearing glasses 1, the wearer can release negative oxygen ions in addition to the optical effect, thereby achieving the effect of protecting the eyes.

In summary, the present invention has achieved the intended use and effect, and is more desirable and practical than the prior art. However, the above embodiments are only specifically described for the preferred embodiment of the present invention. This embodiment is not intended to limit the scope of the present invention, and all other equivalents and modifications may be included in the scope of the invention covered by the present invention.

Claims (3)

The negative ion health-care glasses are mainly composed of a frame, a lens and a temple. The lens is embedded in the frame, and the temple is pivotally connected to the rear of the frame. The lens comprises a substrate. The substrate is made of a methacrylic polymer material, and the substrate contains an anion material, and the substrate is provided with an ultraviolet-resistant layer, a blue-resistant layer and an anti-fog layer from the inside to the outside, and the frame and the temple are It is made of a resin material containing an anion material. The negative ion health-care glasses are mainly composed of a frame, a lens and a temple. The lens is embedded in the frame, and the temple is pivotally connected to the rear of the frame. The lens comprises a substrate. The substrate is made of methacrylic polymer material, and the surface of the substrate is sprayed with an anion material to form an anion layer, and then an ultraviolet-resistant layer, a blue-resistant layer and an anti-fog layer are sequentially disposed on the substrate from the inside to the outside. The frame and the temple are made of a resin material containing an anion material. The negative ion health-care glasses according to claim 1 or 2, wherein the frame and the method for manufacturing the negative ion material in the temple are firstly ground with a negative ion powder to obtain a fine nano-sized negative ion powder. The nano-sized negative ion powder is further added to the resin material and uniformly mixed to obtain a mixture, and the mixture is placed in an oven and a separating agent is added for baking until the mixture is sufficiently dissolved, and the fully dissolved mixture is placed in a cooling mold. Processing and molding in the device, that is, obtaining the frame with negative ions and the temple.