KR20120030120A - The metal glasses lens of 9 pinholes for eyesight revision using ocular muscles - Google Patents

Abstract

PURPOSE: A 9-pinhole metal glass lens for vision correction is provide to correct vision by systematizing 9 pinholes for eye movement based on eye muscle shape. CONSTITUTION: A metal plate is cut into a lens(13) shape. A pinhole(12) is punched based on eye muscle shape. A glass lens is coated and baked with an eco-friendly antibacterial inorganic composite material. The glass lens is made of metal. The eco-friendly antibacterial inorganic composite material of front and rear surfaces(14) is formed by spraying a composition in which nano silver powder, zeolite powder, tourmaline powder, titanium dioxide powder, calcium carbonate powder, and silicon paint are mixed.

Description

{The metal glasses lens of 9 pinholes for eyesight revision using ocular muscles}

The present invention relates to a 9-pin hole metal glasses for vision correction using the eyeball, and more particularly, to correct eye vision by systemizing eye movement and strengthening the eyelid's control by puncturing one point in the direction of the position of the extraocular muscle to control eye movement. .

In general, the eyeglasses for correcting vision were eyeglass lenses in which a plurality of pinholes were perforated to a certain standard on an opaque plastic, but the eyeglasses for correcting eyesight of FIG. Vision correction by eye movement is restored.

As such, the opaque plastic pinhole lens has a problem that the plastic lens, which requires a certain thickness for the blackout effect and strength, is distorted due to contamination, and the arrangement of the plurality of pinholes has a problem in the basic system of eye movement for vision correction. have.

Invention Patent Registration 10-1038556 Vision Correcting Glasses

JP2005-148690 A 2005.6.9 Movable pinhole glasses wikipedia Encyclopedia External eye muscles http://ja.wikipedia.org/wiki/%E5%A4%96%E7%9C%BC%E7%AD% 8B

Accordingly, the present invention has been made to solve the problems of the prior art,

First, the purpose is to form a high-strength thin film as a lens to increase the black film effect, to prevent contamination of the pinhole, and to facilitate the pinhole cleaning.

Secondly, it aims to construct the lens structure by puncturing one point in the direction of movement of the attached rectus and oblique muscles around the eyes.

Thirdly, the object of the present invention is to provide a spectacle lens that protects the eyes with an antibacterial function by coating an antimicrobial paint on the lens.

The present invention for solving the above problems is as a 9-hole hole metal glasses for vision correction using the eyelid

First, the lens is a press mold to cut a high-strength thin film of 0.5mm or less into a lens shape, the pinhole is drilled, the spherical surface is processed with a draw, and the type is marked to form a pinhole lens.

Second, the eyeball has four rectus muscles and two oblique muscles attached to the eyes, and is in charge of eye movement with up, down, left, right, up, down, right, and left rotations.

Based on the illustration of the eye muscles, the pupil one point of the pupil, the four directions of the ocular rectus muscle and the ocular oblique muscle are the lens composed of nine pinholes with the reference point in eight directions centered on the pupil point based on the four directions of the oblique line. .

As described above, the pupil is an empty space, and the pupil reflectance of 6 mm to 2 mm in diameter is determined by the amount of light that passes through the cornea. Adjusted.

The diameter of the pinhole in one point and eight directions of the pupil center is within 2mm of the minimum size of the pupil to adjust the wide angle, which is the actual area, and the spacing between the pinhole in one point and the arm direction is within 12mm, which is twice the maximum size of the pupil. It is configured to achieve eye movement distance.

Third, the antimicrobial lens is baked and coated in color with a composition of environmentally friendly antimicrobial inorganic on the front and rear of the metal lens.

Said eco-friendly antimicrobial mineral is silver nano powder 0.01-15.00 weight% which has the size of nanometer (nm), 10-20 weight% of zeolite powder of 1000 mesh or less size, 10-20 weight% of tourmaline powder, dioxide Composed of 10-20 wt% of titanium powder, 10-20 wt% of calcium carbonate powder and 10-40 wt% of silicone paint, or antimicrobial paint sprayed onto metal lens and baked at 200 ℃ or below do.

The metal glasses lens of the present invention is a dark film function is easy to secure the field of view is to increase the effect of the pinhole.

Particularly, in the present invention, the nine pinholes based on the illustration of the eye muscles are the cornerstone of the systematization of the eye movements, and the eyesight is improved by the strengthening of the eye muscles, resulting in the effect of vision correction.

In addition, as an antimicrobial lens of the color baking coating with the composition of the environment-friendly antimicrobial minerals of the present invention will have the effect of light blocking and antibacterial function to prevent eye diseases.

It is excellent eye-correction effect because the youth of the growing age recovers eye fatigue by activating the extraocular muscles of the eye as an eye movement for the modern people who are tired of computer games and eye fatigue by long-term computer work.

1 is a conventional glasses for correcting vision
2 is a perspective view of the present invention
3-1 is a diagram of the right eye muscle
3-2 is a diagram of the left eye muscle
4-1 shows the direction of activity of the right eye muscle
4-2 shows the direction of activity of the left eye muscles
5 is a wide-angle diagram by binocular
6-1 is a front view of a 9-pin hole lens
6-2 is a front view of a 17-pin hole lens
Figure 7 is a manufacturing process by the press of the 9-pin hole metal glasses lens using the eyeball of the present invention.
8 is a manufacturing process by the laser of the 9-pin hole metal glasses lens using the eyeball of the present invention.

The present invention relates to a 9-pin hole metal spectacle lens using an ocular muscle, wherein a high-strength metal sheet is cut into a lens shape, and nine pinholes are designed and drilled based on the illustration of eye muscles, and a draw surface of the lens is drawn. The eyeglass lens which is secured by baking and coated with an environmentally friendly inorganic antimicrobial paint is a vision correcting eyeglass professional eye movement, characterized in that made of metal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view of a 9-hole hole metal glasses lens for vision correction using the eye muscles according to the present invention,

3-1 is a muscle diagram of the left eye and FIG. 3-2 is a muscle diagram of the right eye.

4-1 is a diagram illustrating the direction of activity of the right eye muscle and FIG. 4-2 is a diagram of the direction of activity of the left eye muscle.

5 is a diagram of a wide angle (APB) with both eyes.

6-1 is a front view of the 9-pin hole lens, and FIG. 6-2 is a front view of the 17-pin hole lens.

7 is a manufacturing process diagram by the press of the 9-pin hole metal glasses lens using the eye muscle of the present invention.

8 is a manufacturing process chart of the 9-pin hole metal glasses lens using the laser of the present invention by the laser.

The first embodiment of the present invention will be described in detail with reference to FIGS. 2 to 7.

FIG. 2 according to the present invention is a perspective view of a 9-pin hole metal glasses lens 13 using the intraocular lens, wherein the antibacterial paint is baked on the front and rear surfaces 14 of the metal glasses lens 13 mounted on the glasses frame 11, and the pinholes. (12) was arranged in an eight-way structure and constructed by drilling.

The structure of the arm orientation is based on the illustration of the eye muscle, and looks at the left eye muscle diagram of FIG. 3-1 and the right eye muscle diagram of FIG. 3-2 for detailed description.

As shown in Figs. 3-1 and 3-2, the human eye is divided into the inner and external eye muscles in charge of the eye movement. The inner eye muscles are controlled by the autonomic nerve and the external eye muscles are eyeballs. Stick to the wall of the eye to govern the movement.

The upper rectus muscle (1) of the extraocular muscles attached to the eye that governs the movement of the eye is at the top, the lower rectus muscle (5) is at the bottom, the inner rectus muscle (4) is on the inside, and the outer rectus muscle (2) is on the outside The ocular rectus muscles and superior oblique muscles (3) are located on the upper inclination, and the inferior oblique muscles (6) are located on the lower inclination. It maintains the position of the eye with the flexibility of the pulley muscle (8), the pulley muscle (8), protects eyes and eyesight, and the pupil (7) is the pupil (7) at the center of the eye. Is located.

3-1 and 3-2, the direction of activity of the right eye muscle of FIG. 4-1 and the direction of activity of the left eye muscle of FIG. 4-2 will be described.

When the eyes of the left and right eyes pay attention to the front, both eyeballs are the lateral rectus muscle (2), which is responsible for the external side, and the internal rectus muscle (4), which is responsible for the internal side,

Joint cooperation between the upper rectus muscle (1) and inferior oblique muscle (6) in charge of the upper side, and the lower rectus muscle (5) and upper intestine muscle (3) in charge of the lower side,

The upper rectus muscle (1) in charge of the upper oblique side of the outer side and the lower rectus muscle (5) in charge of the lower oblique side;

It is responsible for eye movements such as up, down, left, right, up, down, left and right, and rotation by activities of the inferior oblique muscle (6) in charge of the upper oblique side of the inner side and the inferior oblique muscle (3) in charge of the lower oblique side.

5 is a wide-angle diagram by both eyes, the size of which varies depending on the size of the wide-angle according to the perspective of the point of focus of both eyes.

When one point P is observed with both eyes, the eye axis of the eyes meet at the point P, so that APB is wide angle.

In addition, since the visual axis of the pupil 7, the pupil of both eyes, pays attention to the focus P through the pinhole 12 of the metal lens 13, the wide angle is equal to the left eye, the focus, and the right eye. It recognizes the shape of the object.

The size of the pinhole 12 of the metal glasses lens 13 is proportional to the minimum size of the pupil (2 mm), and the arrangement of the eyeglass lens is 9-pin by setting an interval of 8 directions of the center of the pupil to be twice the maximum size of the pupil (6 mm). Arrange in the structure of the hole.

6-1 is a front view of the 9-pin hole lens, and the spectacle lens has a 9-pin hole structure with a center point pin hole size of 2 mm and an eight-way distance interval of 12 mm. Can be adjusted.

FIG. 6-2 is a front view of the 17-pin hole lens, in which a spectacle lens having a 17-pin hole structure is constructed by selecting two points with a center pin hole size of 2 mm and an eight-way distance interval of 6 mm and 12 mm. The aperture and position of the hall can be adjusted.

7 is a manufacturing process drawing by pressing a 9-pin hole metal glasses lens using the eye muscle of the present invention.

Metal glasses use high-strength metal plate (less than 0.5mm stainless steel or cold rolled steel), press-wash, press-punch (drill) and draw spherical processing, wet wash lens, powder coating antibacterial paint, and below 200 ℃ After baking and inspection, the spectacle lens is mounted on the spectacle frame and manufactured to a finished product.

A second embodiment of the present invention will be described in detail a manufacturing process using a 9-pin hole metal glasses lens using a laser of Figure 8 laser.

In the second embodiment of the present invention, the details based on FIGS. 2 to 6 have been described in detail above, and thus a repeated description thereof will be omitted.

The metal eyeglass lens is made of high strength metal sheet (less than 0.5mm stainless steel or cold rolled steel sheet), cut with a laser, wet-washed the laser perforated lens, powder coated with antibacterial paint, and baked under 200 ℃. After the inspection, the spectacle lens is mounted on the spectacle frame, and the manufacturing process is completed up to the finished product.

In the case of manufacturing and manufacturing by laser as in the second embodiment of the present invention, there is a point that the production of small quantities of various kinds is easier than the manufacturing by the press of the first embodiment.

Mass production is easy to produce the press manufacturing process of the first embodiment.

1: upper rectus
2: external rectus
3: superior oblique
4: internal rectus
5: inferior rectus muscle
6: bottom extremity
7: pupil
8; pulley
11: glasses frame
12: metal lens
13: pinhole
14: antibacterial paint

Claims (3)

High-strength metal sheet material (CR & SUS of 0.5 mm or less) is cut into the shape of the lens 13, and the pinhole 12 is drilled into nine pieces based on the illustration of the eye muscles, to secure the spherical surface of the lens, Eyeglasses for eye vision professional, characterized in that the baking lens coated with the inorganic antibacterial paint made of metal According to claim 1, based on the illustration of the eye muscles based on the pupil point of the pupil and the position direction of the four bones of the eye rectus muscles and the four diagonal lines of the two eye oblique muscles to take a reference point in eight directions Eyeglass professional vision correction glasses, characterized in that the lens 13 consisting of nine pin holes made of metal According to claim 1, wherein the environmentally friendly antimicrobial inorganic material on the front and rear surfaces 14 of the metal glasses lens 13, the silver nano powder having a size of nanometer (nm) 0.01% to 5.00% by weight, zeolite of less than 1000 mesh (Mesh) size A metal lens comprising a composition or an antimicrobial paint mixed with 10-20 wt% of powder, 10-20 wt% of tourmaline powder, 10-20 wt% of titanium dioxide powder, 10-20 wt% of calcium carbonate powder and 10-40 wt% of silicone-based paint Eyeglass professional vision correction glasses, characterized in that the antimicrobial lens 13 is sprayed on (13) and baked baking below 200 ℃ made of metal

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