JP2003107411A - Contact lens - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the deterioration of kinetic vision and wearing feeling. SOLUTION: A contact lens body 32 is constituted as a wide preform in which the diameter of the contact lens body is selected to be a diameter approximate to the external diameter of the cornea 12 and through-holes 34 for pressure reduction are drilled at a plurality of points thereof. The through-holes function as reflux ports for lacrimal fluid. The contact lens is a wide lens in which the diameter of the contact lens body is selected to be 10.0 to 11.0 mm and the through-holes are about 0.1 to 0.3 mm. The lens diameter is formed to nearly the same size as the minor diameter of the cornea, by which the stable feel after wearing of the contact lens on the cornea is obtained and the wearing position of the lens to the cornea is not changed and therefore the kinetic vision is not deteriorated. The feel of wearing is improved by the stable feel of the wearing position. The lacrimal fluid flits between the inside and outside surfaces of the lens through the through-holes and is kept fed at all times to the surface of the cornea and therefore the lack of the oxygen of the cornea is eliminated and the inflammation of the cornea can be prevented. This contact lens is adequate when applied to the contact lens using a hard lens having high oxygen permeability.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a large diameter contact lens. Specifically, the contact lens body is made larger than a commonly known contact lens diameter to ensure stability after wearing, thereby eliminating discomfort after wearing the lens and improving dynamic visual acuity. It is a thing.

[0002]

2. Description of the Related Art In order to correct myopia and the like, the surface curvature of the cornea may be restored. Explaining from the structure of the human eye, the human eye 10 is as shown in FIG. 5, and the subject light enters from the cornea 12, is refracted by the lens 14 serving as a lens, and enters the vitreous body 16. Vitreous 1
By stimulating the photoreceptor cells of the retina (not shown) on the back side of 6, the brain senses that it is a subject.

When the subject light is normally formed on the retina, the subject image can be visually recognized normally. On the other hand, when the subject light is imaged in front of the retina, the image looks blurred,
In this case, a correction lens (glasses or contact lens) is used to correct the image formation position to the retina. This allows the subject image to be viewed correctly without blurring.

As is well known, a contact lens is one whose inner and outer surfaces are formed with a predetermined curvature, and a hard lens having oxygen permeability and a soft lens having higher oxygen permeability than this are used. The contact lens 20 for correcting vision is attached to the cornea 12 as shown in FIG.

As is well known, the contact lens 20 is mounted on the surface 12a side of the cornea 12, but its size (outer diameter) differs depending on the type of contact lens.

In the case of a so-called soft type contact lens (soft lens), a lens having high oxygen permeability is used, and therefore it is mounted so as to be in close contact with the corneal surface 12a. Since the tear fluid passes through this contact lens, the cornea 12 does not become inflamed even if the contact lens 20 is worn while being in close contact with the corneal surface 12a. However, since bacteria and the like tend to adhere to the soft lens, it is necessary to boil this after removing the contact lens.

On the other hand, a hard type contact lens (hard lens) transmits oxygen but is less likely to penetrate than a soft lens, so that tear fluid may be present between the corneal surface 12a and the inner surface of the hard lens. Be attached to. Recently, even with hard lenses, lenses with high oxygen permeability similar to soft lenses have been developed, and when such hard lenses are used, they should be mounted in the same way as soft lenses. become.

Further, the lens diameter of the hard lens is larger than the pupil and equal to the iris 15 (see FIG. 6), and the soft lens larger than the iris 15 appears. There are several types of lens diameters, regardless of whether they are hard lenses or soft lenses, to accommodate individual differences.

The hard lens is about 8.8 to 9.4 mm. The standard diameter of hard lenses in the industry is contact lenses with a small diameter of 8.8 mm. Some soft lenses have a size of 13.4 mm.

[0010]

By the way, although there are individual differences, the size (diameter) of the cornea 12 is approximately 11.0 to 1.
It has a diameter of 2.0 mm. On the other hand, the size of the contact lens 20 mounted on the corneal surface 12a is 8.8 mm in diameter particularly in the case of a hard lens, and is about 9.4 mm even if a lens having a large diameter is used.

As a result, due to the opening and closing movement of the eyelid 26,
The mounted contact lens 20 may move. This tendency is particularly strong in the case of hard lenses. It is said that when the mounting position of the contact lens 20 moves, the viewing angle becomes narrow and the dynamic visual acuity deteriorates. Further, it has been pointed out that when the contact lens 20 moves, the lens wears a feeling of strangeness. Therefore, it is desired to reduce the dynamic visual acuity and improve the wearing feeling.

Therefore, the present invention solves the above-mentioned conventional problems, and proposes a contact lens which can reduce the visual acuity and the discomfort caused by wearing.

[0013]

In order to solve the above problems, in the contact lens according to the present invention described in claim 1, the diameter of the contact lens body is selected to be a diameter close to the outer diameter of the cornea. It is characterized in that it is configured as a wide-diameter base material, and that pressure-reducing through holes are formed in a plurality of places of the contact lens body.

The present invention particularly applies to a hard lens. The lens diameter of the contact lens body is selected to be a diameter (10.0 to 11.0 mm) close to that of the cornea (minor diameter). With such a large-diameter lens, even if the eyelid is closed or opened, the mounting position is hardly moved, so that the dynamic visual acuity is improved.

However, with such a large-diameter lens,
Even though it is a hard lens, the perfusion of tears is reduced, so two or more, especially three or more, depressurizing through holes are provided at predetermined locations on the lens body. This through hole acts as an outlet for tear fluid,
As a result, tear fluid is supplied to the surface of the cornea by opening and closing the eyelid, and inflammation of the cornea can be prevented.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of the contact lens according to the present invention will be described in detail with reference to the drawings. FIG. 1 shows an embodiment in which the contact lens 30 according to the present invention is applied to a so-called hard lens.
The contact lens 30 is composed of a contact lens main body 32 having a large diameter. The contact lens main body 32 is selected to have a lens diameter close to the size (short diameter) of the cornea 12.

In this embodiment, a diameter of 10.0 to 11.0 mm is selected in consideration of individual differences among users. This is 11.0 to 12.0 even if the size of the cornea 12 takes individual differences into consideration.
This is because it is said to be mm. In the embodiment, the diameter is 10.6 mm. Incidentally, the size of a standard diameter hard lens (diameter of 8.8 mm) is shown by a chain line in FIG.

In the present invention, as shown in FIGS. 1 and 2, a plurality of through holes 34 for reducing pressure are provided at predetermined places of the contact lens body 32. In this embodiment, three depressurizing through holes 34a to 34c are provided on the same circumference and maintaining an angular interval of approximately 120 °. This diameter is selected to be about 0.1 to 0.3 mm, especially 0.1 mm.

The pressure-reducing through hole 34 functions as an opening for tear fluid, and when it is attached to the corneal surface 12a as shown in FIG. 3, as shown in FIG. 26
By opening and closing, the tear fluid is supplied from the corneal surface 12a into the inner surface 32a of the contact lens body 32, and also from the outer surface 32b of the contact lens body 32 to the corneal surface 12a via the pressure reducing through hole 34. Supplied.
Then, the tear fluid accumulated on the corneal surface 12a flows out through the pressure reducing through hole 34, and the contact lens body 3
Since it circulates between the inner surface 32a and the outer surface 32b of the contact lens body 2 of FIG.
It is possible to prevent the inner surface 32a of the second body 2, particularly the outer periphery of the main body 32, from adhering to the corneal surface 12a. As a result, the plurality of through holes 34 have a function of reducing the pressure (internal pressure) between the inner surface 32a of the contact lens body 32 and the corneal surface 12a, that is, a pressure adjusting function.

FIG. 3 shows a contact lens 3 according to the present invention.
The state where 0 is attached to the cornea 12 is shown. Since the contact lens main body 32 is a large-diameter lens, it substantially covers the short-diameter region (see FIG. 1) of the cornea 12 and may be covered by a part of the eyelid 26 in some cases.

As described above, since the contact lens body 32 is mounted so as to substantially cover the short-diameter region of the cornea 12, even if the eyelid 26 is opened and closed, the lens mounting position hardly moves. As a result, it is possible to wipe out the discomfort caused by mounting the lens, and it is possible to significantly reduce the deterioration of the dynamic visual acuity due to the positional displacement (mounting displacement) after mounting the lens.

When the lens diameter is increased in this way, the inner surface 32a of the lens may adhere to the corneal surface 12a even though it is a hard lens, resulting in oxygen deficiency. Since a plurality of through holes 34 are provided, this functions as an opening for the tear fluid when the eyelid 26 is opened and closed.

As a result, the pressure between the lens inner surface 32a and the corneal surface 12a is adjusted (decompressed) by the lacrimal fluid reflux, and the lacrimal fluid is supplied to supply sufficient oxygen to the corneal surface 12a. Will be supplied. As a result, inflammation of the cornea 12 due to lack of oxygen can be prevented.

In the above-described embodiment, the number of the through holes 34 formed in the contact lens body 32 is three,
Although the case where they are provided on the same circumference is shown, the number and the positions of the through holes 34 are not particularly limited as long as they are portions that do not affect the visual field of the moving body.

Further, although the present invention is applied to the contact lens of the hard lens type in this embodiment, it can be easily understood that the present invention can also be applied to the contact lens of the soft lens type.

[0026]

As described above, in the present invention, the lens diameter of the contact lens body is made substantially the same as the minor axis of the cornea, and a plurality of pressure reducing through holes are formed in this lens body. is there.

According to this, first, by making the lens diameter substantially the same as the minor axis of the cornea, there is a sense of stability after the contact lens is attached to the cornea, and the attachment position becomes substantially fixed even when the eyelid is opened and closed. . As a result, the feeling of wearing the lens is stable, and since the mounting position of the lens with respect to the cornea does not change, the dynamic visual acuity does not decrease. Also, the feeling of wearing is improved by the sense of stability of the wearing position.

Further, since the contact lens body is provided with a plurality of pressure reducing through holes, the tear fluid flows between the inner and outer surfaces of the lens through the through holes, and the tear fluid is constantly supplied to the corneal surface. . As a result, the lack of oxygen in the cornea is eliminated, and inflammation of the cornea can be prevented.

Therefore, the present invention is extremely suitable when applied to a contact lens using a hard lens having high oxygen permeability.

[Brief description of drawings]

FIG. 1 is a plan view showing an embodiment of a contact lens according to the present invention.

FIG. 2 is a partially enlarged view thereof.

FIG. 3 is a diagram showing a relationship with a corneal surface when a contact lens is attached.

FIG. 4 is a partially enlarged cross-sectional view of a contact lens in a mounted state.

FIG. 5 is a diagram showing a structure of an eyeball.

FIG. 6 is a view showing a state in which a conventional contact lens is attached.

[Explanation of symbols]

12 cornea 12a corneal surface 30 contact lenses 32 Contact lens body 32a inner surface 34 (34a to 34c) Through hole for decompression 26 Eyelids

Claims (4)

[Claims] 1. A contact lens body having a large-diameter wide base material whose diameter is selected to be close to the outer diameter of the cornea, and pressure-reducing through holes are provided at a plurality of positions of the contact lens body. A contact lens characterized by being drilled. 2. The contact lens according to claim 1, wherein the pressure-reducing through hole is configured as an opening for tear fluid, and two or more holes are formed on the same circumference of the contact lens body. . 3. The contact lens according to claim 1, wherein the contact lens body is a hard lens, and the lens diameter is selected to be a diameter of 10.0 to 11.0 mm. 4. The diameter of the pressure reducing through hole is 0.1 to 0.3.
The contact lens according to claim 1, wherein the contact lens has a diameter of mm.