KR101436530B1 - Vision correction pinhole glasses - Google Patents

Abstract

The present invention relates to vision correction pinhole glasses which make a hole in which an object is seen through be inclined to maximally prevent diffused reflection to correct a focusing point to become distinct and clear and, more specifically, arranging multiple regular trapezoidal-shaped observation holes wherein an X side hole having shorter diameter and facing the eye direction is located on a centerline of a Y side hole having longer diameter and facing the object side on eyeglasses to form columns and rows to make a visible ray inserted in a slope state from the Y side hole not flow into the X side hole and be reflected to the Y side hole for a diffused reflection phenomenon not to be happened to have an effect of minimizing the diffused reflection phenomenon caused by inflowing light by forming the observation holes to be inclined.

Description

{Vision correction pinhole glasses}

[0001] The present invention relates to a spectacle lens, and more particularly to a pinhole spectacle for correcting a visual acuity, in which a hole for obliquely projecting an object is inclined to prevent irregular reflection as much as possible,

Eye is an important part of our body.

The eye can be an important input means to recognize the surrounding information. The function of the eye is to recognize the color, shape, and distance of an object.

The human eye is a kind of convex lens. When the object is refracted from the lens and the reverse phase is formed on the retina, the reverse phase is transferred to the cerebrum through the optic nerve while the reversed phase is converted to normal by the optic cross.

The lens is thickened when it is seen close to it due to the contraction and relaxation of the connected ciliary body, and becomes thin when seen at a far distance, so that the object is precisely regulated on the retina. So that the focus is not focused on the precise location of the retina.

At this time, depending on the position of the image on the retina, it is called as the time, primordial, nearsightedness. At the time of focusing, the focus of the object is precisely focused on the retina. Myopia is focused on the front of the retina and is blurred. It will look blurry.

The eyes are born at the first time when they are born, they are adjusted to the right time as they grow up, and they are passed on to myopia by genetic factors and environmental factors. Basically, they are affected by genetic factors and environment, As the time passes, the visual acuity of the eye decreases.

Various methods have been proposed to correct this vision for a long time, and in recent years, various instruments have been used to correct the visual acuity. A representative example is a vision correction eyeglass using a pinhole effect.

Such a spectacle lens for visual correction has a plurality of pinholes of 0.7 mm to 0.9 mm in diameter on a convex plate-like curved surface, and colors of blue and green on the surface of a convex plate-like curved surface.

Such a spectacle lens is called a microhole eyeglass or a pinhole eyeglass by piercing a needle eye.

Microhole glasses are used to correct visual acuity by using pinhole effect. It allows people with refractive errors such as nearsightedness, prime, astigmatism, and nose to see distant (nearsighted) or nearby (presbyopia) through pinhole.

The technical background of such microhole glasses will be described as follows.

The myopia is generated in the front side as shown in Fig. 2 of Patent Document 2 rather than in the case of the normal phase. Therefore, the image formed on the retina shows a blurred image in which several images overlap.

On the other hand, when incident through the pinhole, the incident beams 1 and 3 are blocked by the blocking film as shown in FIG. 3 of Patent Document 2, and the incident beam is passed through only two times, And consequently, only one image is formed on the retina.

Although three incident beams are described here, in reality, since there is not one light passing through the pinhole due to the presence of a large number of incident beams, a slightly overlapping phase may be generated. However, this means that the overlapping is markedly reduced will be

That is, the blurring degree of the image is remarkably reduced to an image formed only by the rays passing through the area on the optical axis where aberration generation is small due to the blocking effect of the beam around the optical axis of the incident beam. Artificial limitations to allow viewing of distant (nearsighted) or nearby objects (presbyopia).

In other words, the light coming from various places will make an image at various positions. If the light fills the eye, the light will be cut off. If the light enters through only the pinhole with the small hole, The light passing through the same path forms a consistent image irrespective of the distance of the screen. This is the principle of the micro-hole glasses.

As shown in FIGS. 1 and 2, the conventional pinhole glasses 2 have a configuration in which a user's eye focus finds one pinhole 1 for each lens among a plurality of pinholes 1 formed on both lenses, Focusing through the holes, you will see an object outside.

By constantly focusing on the object, we move the eye muscles to improve the restoring power of the soma and lens.

However, the distance between the human eye and the pupil is different for each person, and the distance between the pinholes is constantly fixed to about 2 mm.

In the conventional pinhole glasses 2, the pinhole 1 is formed to have a certain diameter, and a visible light that flows into the eye when projecting the object hits the inner surface of the pinhole 1, The edges and objects of the pinhole 1 seen in the eyes are not clear and blurred, and the effect of the correction of the visual acuity is reduced.

1. Registration No. 10-0455302 (Eyeglass for sight correction) 2. Registration No. 10-1118839 (a spectacle lens for correcting vision using a pinhole effect and a spectacle lens made by applying the spectacle lens) 3. Registration No. 20-0182162 (Glasses for the correction of eyesight)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a pinhole spectacle lens for correcting visual acuity through an effect of magnifying an object through a slit- There is a purpose.

Another object of the present invention is to form a through hole at an angle so as to minimize irregular reflection due to incident light.

In order to achieve the above object, the present invention provides a spectacle having a function for correcting visual acuity, wherein the eyeglass lens has an X-side ball pointing toward the eye direction and a diameter on the center line of the Y- The visible rays entering the oblique angle from the Y side are not allowed to flow into the X side bulb and are reflected to the Y side bulb to prevent irregular reflection phenomenon The pinhole glasses for vision correction are characterized by being formed in a shape of an inclined hole.

As described above, the present invention has an effect of correcting visual acuity through an effect of enlarging an object through a through hole that is inclined to extend in the direction of sight.

It is another object of the present invention to provide an apparatus and method for forming a through hole having a slanting shape and minimizing irregular reflection due to incident light.

1 is a perspective view showing a conventional pinhole glasses,
2 is a cross-sectional view showing a phenomenon in which diffused reflection occurs through a pinhole of a conventional pinhole spectacle,
FIG. 3 is a perspective view of a pinhole spectacle for vision correction according to the present invention,
FIG. 4 is a sectional view of eyeglasses of a pinhole glasses for visual acuity correction according to the present invention,
FIG. 5 is a view showing a state in which a normal visible ray is introduced into the pinhole glasses for vision correction according to the present invention,
6 is a view illustrating a state in which a normal oblique viewing ray enters the pinhole glasses for correcting vision according to the present invention,
Fig. 7 is a state diagram showing that the pinhole glasses for vision correction according to the present invention are not influenced by irregular reflection when used. Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

3 and 4, the pinhole glasses for visual acuity correction of the present invention relates to spectacles having a function for correcting visual acuity. The spectacles 30 are provided with opaque eyeglasses 10 through a through hole 20 are formed to constitute the pinhole glasses 100.

The eyeglasses 10 of the pinhole glasses 100 are provided with an X-side hole directed toward the eye direction and an orthogonal trapezoidal-shaped sight hole 20 located on the center line of the Y-side hole whose diameter is larger than the X- Are arranged in rows and columns.

At this time, the array of the through holes 20 is configured such that the upper and lower sides are narrow and the center portion is formed in a wide hexagonal shape.

In this case, the X-side ball and the Y-side ball are formed in the shape of a hole, and when the diameter of the X side is denoted by 'd' and the diameter of the Y side is denoted by 'D' D / 2 position.

It is preferable that the diameter of the X side (mm) <the diameter of the Y side (mm) is less than 5 mm.

That is, the reason for constituting the above condition is that when the X-side ball and the Y-side ball are continuously formed, the eyeglass ball gap 11 existing between the X-side ball and the X-side ball is generated.

Specifically, when the Y-side ball is configured to have a size larger than 5 mm, the eyeglass ball 11 formed between the X-side ball and the X-side balloon becomes relatively large. When the ball is viewed through the eye, There is a problem that disturbance phenomenon or interference occurs, so that the Y-side ball is made smaller than 5 mm through the manufacture of the product several times, which is the most ideal result.

Due to the above conditions, it is preferable that the ratio of the X side to the Y side is X: Y = 1: 3 to 5.

That is, although the ratio of the X side to the Y side is limited to X: Y = 1: 3 to 5, the ratio X: Y = 1: 3, So that no interference phenomenon occurs.

In this way, the visible light introduced into the Y-direction from the Y-direction to the beveled state can not enter the X-side hole and is reflected to the Y-side hole, thereby preventing diffuse reflection.

5 to 7, a stable visible light (solid line in the figure) that is linearly introduced into the X-side and the Y-side of the center line of the Y-side is transmitted to the eye through the X-side. However, A diffuse visible ray (dotted line in the figure) flowing at an oblique angle, particularly at an angle of 90 degrees with the inclined plane 12, is reflected on the inclined plane 12, It is possible to prevent irregular reflection phenomenon in which the rim of the X side and the rim of the subject are not clear and blurred when the subject is viewed through the X side.

In addition, a stable visible light entering the X-side and Y-side slopes 12 does not strike the oblique surface 12 clearly, but the closer the angle to the oblique surface 12 is to a right angle, And when the angle of incidence is large, it enters at an oblique angle to form diffuse reflection, so that it forms a 90 ° angle with the inclined plane 12, and functions to filter out the obliquely irregular diffuse visible rays as much as possible.

In addition, the diffusely visible light rays, which are inclined at an angle of less than 90 ° with respect to the inclined surface 12, are obliquely incident on the inclined surface 12, which is narrowed in the direction of the X-side from the Y-side to the X- And when it is introduced into the eyeball, it flows into the form of stabilized visible light so that the effect of the diffuse reflection is not generated.

Thus, when the subject is viewed through the pinhole spectacle 100 according to the present invention, the gypsum, rectilinear, and thin muscles that move the eyeball's eyeball with poor visual acuity can be normally recovered through exercise, It can be used without any adverse effects, and at the same time, it can be used by anyone regardless of visual acuity.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the embodiments set forth herein. Various changes and modifications may be made by those skilled in the art.

10: eyeglasses 11: eyeglass clearance
12: slope 20: perspective hole
30: eyeglass frame 100: pinhole glasses

Claims (3)

A spectacle having a function for correcting vision,
The eyeglasses 10 are arranged and arranged in rows and columns in a plurality of straight-trapezoidal-shaped sight holes 20, which are located on the X-axis side toward the eye direction and on the center line of the Y- So,
Wherein a visible ray entering the oblique angle from the Y side is not introduced into the X side bulb but is reflected to the Y side bulb to prevent irregular reflection phenomenon. . The pinhole eyeglass for correction of eyesight according to claim 1, characterized in that it is formed in an oblique hole shape, characterized in that the diameter (mm) of the X side <Y side diameter (mm) <5 mm. The eyeglass pinhole for vision correction according to claim 1 or 2, wherein the ratio of the X-side and Y-side is X: Y = 1: 3 to 5.

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