CN112612146A

CN112612146A - Far infrared myopia prevention and control glasses and manufacturing method thereof

Info

Publication number: CN112612146A
Application number: CN202110058477.5A
Authority: CN
Inventors: 陈宏�; 陈怀
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-16
Filing date: 2021-01-16
Publication date: 2021-04-06
Anticipated expiration: 2041-01-16
Also published as: CN112612146B

Abstract

The invention relates to far infrared myopia prevention and control glasses, which comprise a glass frame and two glass legs, wherein hinges are arranged on two sides of the glass frame, the glass frame is movably connected with the glass legs through the hinges, two glass rings are symmetrically arranged on the glass frame, and mineral raw stones are arranged in the glass rings. The myopia prevention and control glasses provided by the invention adopt natural mineral raw stones, the natural mineral raw stones become good far infrared energy storage units due to the special internal structure of the natural mineral raw stones, the natural mineral raw stones can absorb, store and continuously release far infrared rays and negative ions, the far infrared rays with the power of 0.91 can be continuously released by 8-14 microns, the far infrared rays can act on eyes, the blood circulation is promoted, ciliary muscles are promoted to relax, the asthenopia is eliminated, and the myopia prevention and control functions are achieved; the material has no harm to human body, no contact with eyes, and no adverse effect on eyes.

Description

Far infrared myopia prevention and control glasses and manufacturing method thereof

Technical Field

The invention relates to the field of glasses, in particular to far infrared myopia prevention and control glasses and a manufacturing method thereof.

Background

Pseudomyopia belongs to refractive myopia, ciliary muscles are continuously in a tense state due to excessive or long-term incorrect eye using habits, excessive exertion is caused, if the pseudomyopia is not relieved in time, the human body can gradually elongate the axis of eyes in order to adapt to the working environment of the glasses, and true myopia is formed. The pseudomyopia can be corrected and recovered, and the main principle of the common vision corrector is that the eyes see through the tiny apertures, so that the vision difference is adjusted, and the pseudomyopia and partial hyperopia can be corrected after a period of time of adjustment. The vision corrector has the defects of single structure and function, poor vision correcting effect and long correcting time consumption.

Disclosure of Invention

The invention provides far infrared myopia prevention and control glasses and a manufacturing method thereof, and solves the problem that a common vision corrector is poor in vision correction effect.

The invention adopts the following technical scheme:

far infrared myopia prevention and control glasses, including a picture frame and two mirror legs, the hinge is installed to the both sides of picture frame, and the picture frame passes through hinge swing joint mirror leg, and the symmetry is provided with two mirror rings on the picture frame, installs the former stone of mineral in the above-mentioned mirror ring, and this former stone of mineral contains following component: silicon trichloride, aluminum trioxide, ferric oxide, aluminum, iron, magnesium, potassium and calcium.

In a further improvement, the raw mineral stone is in a lens shape, a plurality of small holes are formed in the middle of the raw mineral stone, and the aperture of each small hole is 1-2 mm.

In a further improvement, the mineral stone is ring-shaped, and the front end of the lens ring is provided with a lens.

Further improved, the inner side of each glasses leg is provided with a plurality of installation grooves, and mineral stones are inserted into the installation grooves.

In a further improvement, the frame is made of a polymer material.

The manufacturing method of the far infrared myopia prevention and control glasses comprises the following steps:

(1) frame and mirror leg: designing the appearance style of the spectacle frame, and opening the mold for manufacturing;

(2) selecting materials: selecting crude natural skyhawk Le super-energy crystal ore, and performing sampling test, wherein the wavelength of an infrared radiation energy spectrum contains medium of 4-18 microns, the peak value is more than 2.5 microns, and the normal total emissivity is more than 0.9;

(3) cutting: cutting the raw mineral stone with the radionuclide limited quantity meeting the requirements of the A-type material in the standard GB 6566-2010 into plates with the thickness of 2 cm;

(4) and (3) machining and forming of a numerical control machine: programming according to the designed specification, model and size of the lens, inputting the lens into a numerical control machine tool, and processing and forming a rough blank, wherein the allowable deviation is within 0.15 mm;

(5) slicing by a cutting machine: mounting the rough blank which is processed and formed on a wire cutting machine, cutting the rough blank into pieces according to the required thickness, wherein the allowable deviation is within O.1 mm;

(6) chamfering by a milling machine: designing and manufacturing a chamfering die according to the size of a glasses frame and the thickness of a lens, and chamfering edges;

(7) polishing: and grinding the formed device by a water mill, and then polishing by a polishing machine.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the myopia prevention and control glasses provided by the invention adopt natural mineral raw stones, the natural mineral raw stones become good far infrared energy storage units due to the special internal structure of the natural mineral raw stones, the natural mineral raw stones can absorb, store and continuously release far infrared rays and negative ions, the far infrared rays with the power of 0.91 can be continuously released by 8-14 microns, the far infrared rays can act on eyes, the blood circulation is promoted, ciliary muscles are promoted to relax, the asthenopia is eliminated, and the myopia prevention and control functions are achieved; the material has no harm to human body, no contact with eyes, and no adverse effect on eyes.

Drawings

Fig. 1 is a schematic perspective view of a pair of myopia prevention and control glasses according to a first embodiment.

Fig. 2 is a schematic perspective view of the myopia prevention and control glasses according to the second embodiment.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Referring to fig. 1, far infrared myopia prevention and control glasses, including a picture frame 1 and two mirror legs 11, hinge 12 is installed to the both sides of picture frame 1, and picture frame 1 passes through hinge 12 swing joint mirror leg 11, and the symmetry is provided with two mirror rings 10 on the picture frame 1, installs the crude mineral stone 2 in the above-mentioned mirror ring 10, and above-mentioned crude mineral stone 2 is the lens form, and this crude mineral stone 2 contains following component: silicon trichloride, aluminum trioxide, ferric oxide, aluminum, iron, magnesium, potassium and calcium. The middle part of the mineral raw stone 2 is provided with a plurality of small holes 20, the aperture of the small holes 20 is 1-2 mm, the preferred aperture is 1.5mm, and the eyes can see through the tiny apertures, so that the visual difference can be adjusted, and the pseudomyopia can be corrected through a period of time adjustment. The spectacle frame 1 is made of a polymer material, preferably, the periphery of the spectacle frame 1 is made of plastic titanium, and the spectacle frame has super toughness, impact resistance and wear resistance.

(1) frame 1 and temple 11: designing the appearance style of a frame 1 of the glasses frame, and opening the mold for manufacturing;

(6) chamfering by a milling machine: designing and manufacturing a chamfering die according to the size of the spectacle frame 1 and the thickness of a lens, and chamfering edges;

Material detection results of the raw mineral stone 2:

the radionuclide limit of the sample meets the specified requirements of A-type decorative materials in the standard GB 6566_2010, and the production, marketing and application ranges of the sample are not limited.

The second embodiment:

referring to fig. 2, far infrared myopia prevention and control glasses, including a picture frame 1 and two mirror legs 11, hinge 12 is installed to the both sides of picture frame 1, and picture frame 1 passes through hinge 12 swing joint mirror leg 11, and the symmetry is provided with two mirror rings 10 on the picture frame 1, installs mineral crude stone 2 in the above-mentioned mirror ring 10, and above-mentioned mineral crude stone 2 is the annular form, and lens 3 is installed to the front end of above-mentioned mirror ring 10, and lens 3 is by preventing blue light material and making, for preventing blue light lens 3, this mineral crude stone 2 contains following component: silicon trichloride, aluminum trioxide, ferric oxide, aluminum, iron, magnesium, potassium and calcium. The spectacle frame 1 is made of a polymer material, preferably, the periphery of the spectacle frame 1 is made of plastic titanium, and the spectacle frame has super toughness, impact resistance and wear resistance. The inner side of each glasses leg is provided with a plurality of mounting grooves 110, mineral stones 111 are inserted into the mounting grooves 110, the mineral stones 111 are made of the same material as the mineral raw stones 2, the mineral stones 111 are close to the periphery of the auricular tip acupoints of people and located at the tip ends above auricles of ears, conjunctiva congestion, swelling and pain and acute conjunctivitis are caused, and the mineral stones 111 have a relieving effect on keratitis.

The myopia prevention and control glasses provided by the invention adopt natural mineral raw stones, the natural mineral raw stones become good far infrared energy storage units due to the special internal structure of the natural mineral raw stones, the natural mineral raw stones can absorb, store and continuously release far infrared rays and negative ions, the far infrared rays with the power of 0.91 can be continuously released by 8-14 microns, the far infrared rays can act on eyes, the blood circulation is promoted, ciliary muscles are promoted to relax, the asthenopia is eliminated, and the myopia prevention and control functions are achieved; the material has no harm to human body, no contact with eyes, and no adverse effect on eyes.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims

1. Far infrared myopia prevention and control glasses, including a picture frame and two mirror legs, the hinge is installed to the both sides of picture frame, and the picture frame passes through hinge swing joint mirror leg, and the symmetry is provided with two mirror rings on the picture frame, its characterized in that, install the former stone of mineral in the mirror ring, this former stone of mineral contains following component: silicon trichloride, aluminum trioxide, ferric oxide, aluminum, iron, magnesium, potassium and calcium.

2. The far infrared myopia prevention and control glasses of claim 1 wherein: the raw mineral stone is lens-shaped, a plurality of small holes are formed in the middle of the raw mineral stone, and the aperture of each small hole is 1-2 mm.

3. The far infrared myopia prevention and control glasses of claim 1 wherein: the mineral stone is in a ring shape, and the front end of the lens ring is provided with a lens.

4. The far infrared myopia prevention and control glasses of claim 1 wherein: the inboard of mirror leg is equipped with a plurality of mounting groove, and the mounting groove interpolation is equipped with the mineral stone.

5. The far infrared myopia prevention and control glasses of claim 1 wherein: the spectacle frame is made of high polymer materials.

6. The method for manufacturing far infrared myopia prevention and control glasses according to claim 1, comprising the steps of:

frame and mirror leg: designing the appearance style of the spectacle frame, and opening the mold for manufacturing;

selecting materials: selecting crude natural skyhawk Le super-energy crystal ore, and performing sampling test, wherein the wavelength of an infrared radiation energy spectrum contains medium of 4-18 microns, the peak value is more than 2.5 microns, and the normal total emissivity is more than 0.9;

cutting: cutting the raw mineral stone with the radionuclide limited quantity meeting the requirements of the A-type material in the standard GB 6566-2010 into plates with the thickness of 2 cm;

and (3) machining and forming of a numerical control machine: programming according to the designed specification, model and size of the lens, inputting the lens into a numerical control machine tool, and processing and forming a rough blank, wherein the allowable deviation is within 0.15 mm;

slicing by a cutting machine: mounting the rough blank which is processed and formed on a wire cutting machine, cutting the rough blank into pieces according to the required thickness, wherein the allowable deviation is within O.1 mm;

chamfering by a milling machine: designing and manufacturing a chamfering die according to the size of a glasses frame and the thickness of a lens, and chamfering edges;

polishing: and grinding the formed device by a water mill, and then polishing by a polishing machine.