KR100638362B1 - Contact lens and manufacturing method for the same and mold for manufacturing the same - Google Patents

Abstract

A contact lens, a manufacturing method thereof, and a mold for manufacturing the contact lens are provided to calibrate both near-sighted and far-sighted eye sights simultaneously by forming a convex lens portion in a myopia calibration region. A contact lens(20) includes a calibration region(21) and a peripheral region(25) around the calibration region. The calibration region is located at the center of the contact lens and includes a myopia calibration region(22) and a hyperopia calibration region(23). The myopia calibration region is formed to be bent at the center of the contact lens with a predetermined diopter for calibrating a far-sighted eyesight. The hyperopia calibration region is formed at the center of the myopia calibration region. The hyperopia calibration region has a convex lens portion(24) with a predetermined diopter for calibrating a near-sighted eyesight, wherein the convex lens portion is convex toward the inside of the contact lens.

Description

Contact lens and manufacturing method and mold for manufacturing contact lens TECHNICAL FIELD

1 is a side view showing a state in which a conventional contact lens is worn on the eyes.

2 is a perspective view schematically showing a contact lens according to a preferred embodiment of the present invention.

3 is a side view showing a state in which a contact lens is worn on an eye according to a preferred embodiment of the present invention shown in FIG. 2.

4A to 4C are views illustrating a manufacturing process of a contact lens according to a preferred embodiment of the present invention.

5A to 5D are views illustrating a manufacturing process of a contact lens according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

20.Contact Lens 21.

22 ... myopia correction area 23 ... primary correction area

24 ... convex lens part 25 ... peripheral part

26 ... inside 27 ... outside

30 ... Renzo mold 31,41 ... lower mold

32,42 ... Inner lens forming projection 33,43 ... Convex lens forming groove

Top mold 35,45 Lens outer groove

L ... liquid lens raw material S ... solid lens raw material

The present invention relates to a contact lens, and more particularly, to a multifocal contact lens capable of performing near vision correction and far vision correction, and a manufacturing method and a mold for manufacturing a contact lens, which can be manufactured more easily.

As shown in FIG. 1, the contact lens 10 is a small lens attached to the surface of the eye E to correct the vision. The contact lens 10 uses a transparent acrylic resin to match the refractive index of the eye, curvature and size of the cornea. It is made in the form of a thin plate-shaped meniscus lens by grinding or penal method. Contact lenses are used for medical, professional or cosmetic reasons.

Medically, it is used when the vision is not corrected unless it is a contact lens. In other words, it is used in cases of refractive error, myopia, astigmatism, immobility, independence, and irregularities on the surface of the cornea.

It is used professionally when the glasses are cloudy or dangerous, and cosmetically it is used to make a good view of the person who does not want to use the glasses or the bill.

Compared to eyeglasses, contact lenses have no aberration because the optical axis of the eye and the lens always coincide with each other, and there is no difference in the size of the retina due to the difference in refraction on the left and right, so that the object is not visible or distorted. Even if there are irregularities or light turbidity on the surface of the cornea, there are advantages in that the diffuse reflection is lost, the vision is improved, and the wearing of the lens is apparent.

However, the conventional contact lens 10 shown in FIG. 1 has a disadvantage in that it is not applicable to presbyopia caused by deterioration of the function of the ciliary muscle for adjusting the thickness of the lens of the eye E.

Recently, multifocal contact lenses have been developed that can correct myopia, hyperopia, and presbyopia at once by giving two or more vertex refractive powers to the optical unit.

Such a multifocal contact lens is designed as a primitive correction region having a frequency for correcting near vision at the center of the lens, and a myopia correction region having a frequency for correcting far vision at the center of the lens. This frequency design is achieved by cutting / polishing the outer surface of the lens material such that the center of the lens is convex outward using a processing device such as a CNC lathe.

However, such a conventional multifocal contact lens has a problem in that manufacturing time and manufacturing cost not only increase, but also inferior in precision.

The present invention has been made in view of the above, an object of the present invention is to provide a multifocal contact lens that can correct both long-range and near vision at once.

Another object of the present invention is to provide a contact lens manufacturing method and a mold for manufacturing a contact lens that can reduce manufacturing time and manufacturing cost, as well as improve the precision of the contact lens.

The contact lens according to the present invention for achieving the above object has a correction unit for correcting vision, and a peripheral portion coupled around the correction unit, the correction unit, myopia correction having a frequency for correcting the distance vision And a primitive correction area having a frequency for correcting near vision and being provided at the center of the near-field correction area, wherein the primitive correction area includes a convex lens portion that protrudes convexly into the center of the contact lens.

On the other hand, the contact lens manufacturing mold according to the present invention is for manufacturing a contact lens having a near-optical correction region having a frequency for correcting the far vision, and a convex lens portion having a frequency for correcting the near vision. A lower portion having a lens inner surface forming protrusion corresponding to the inner surface of the lens and a convex lens portion forming groove provided in the center portion of the lens inner surface forming protrusion to form the convex lens portion projecting convexly into the contact lens. It includes a mold.

Such a mold for manufacturing a contact lens according to the present invention includes a lens outer surface forming groove corresponding to an outer surface of the contact lens, and is formed in the lower mold such that the lens inner surface forming protrusion is received in the lens outer surface forming groove. It further comprises an upper mold coupled.

On the other hand, the contact lens manufacturing method according to the invention, the step of applying a liquid lens material to the lens outer surface forming groove of the upper mold having a lens outer surface forming groove corresponding to the outer surface of the contact lens, and the contact lens A lower mold having a lens inner surface forming protrusion corresponding to an inner surface of the convex lens portion and a convex lens portion forming groove provided in a central portion of the lens inner surface forming protrusion; Coupling the upper mold to be accommodated in a surface forming groove to fill the liquid lens material between the upper and lower molds, and applying heat to the combined upper and lower molds to fill the space between the upper and lower molds. Curing the liquid lens material and separating the contact lens formed by curing between the upper and lower molds between the upper and lower molds. Includes the steps.

On the other hand, the contact lens manufacturing method according to another embodiment of the present invention, the step of applying a liquid lens material to the forming projection receiving groove of the upper mold having the forming projection receiving groove, and corresponds to the inner surface of the contact lens The lower mold having a convex lens portion forming groove provided in the center portion of the lens inner surface forming protrusion and the convex lens portion is formed so that the lens inner surface forming protrusion is received in the forming protrusion accommodation groove. Bonding the upper mold to fill the liquid lens material between the upper and lower molds, and applying heat to the upper and lower molds bonded to each other to cure the liquid lens material filled between the upper and lower molds. And separating the solid lens material in which the convex lens portion is formed from the upper mold, and separating the high lens separated from the upper mold. Cutting / polishing a lens raw material and forming an exterior surface of the contact lens.

Hereinafter, a contact lens, a manufacturing method thereof, and a mold for manufacturing a contact lens according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

Figure 2 is a perspective view schematically showing a contact lens according to a preferred embodiment of the present invention, Figure 3 is a side view showing a state in which the contact lens according to the preferred embodiment of the present invention shown in Figure 2 is worn on the eyes, 4A to 4C are views illustrating a manufacturing process of a contact lens according to a preferred embodiment of the present invention.

As shown in FIGS. 2 and 3, the contact lens 20 according to the preferred embodiment of the present invention includes a correcting unit 21 for correcting vision and a peripheral portion coupled around the correcting unit 21 ( 25).

The corrector 21 is provided at the center of the contact lens 20, and includes a myopia correction region 22 having a frequency for correcting far vision and a primitive correction region 23 for correcting near vision. . The myopia correction region 22 is bent to have a specific frequency at the center of the contact lens 20, and the primitive correction region 23 is provided at the center of the myopia correction region 22. The primitive correction region 23 has a convex lens portion 24 having a specific frequency for correcting near vision. The convex lens portion 24 protrudes convexly into the lens 20.

When the contact lens 20 having such a configuration is worn on the eye E, as shown in FIG. 3, the peripheral portion 25 is in contact with the surface of the eye E and the convex lens portion 24 is formed of the eye. The pupil (e) is located on the same line as the pupil (e). Therefore, the shape in which bubbles are generated when tears flow into the space between the pupil (e) and the contact lens 20 can be reduced, thereby improving the vision correction effect.

Hereinafter, a mold for manufacturing a contact lens according to a preferred embodiment of the present invention and a method for manufacturing a contact lens using the same will be described.

As shown in FIG. 4A, the mold 30 for manufacturing a contact lens according to an exemplary embodiment of the present invention includes a lower mold 31 having a lens inner surface forming protrusion 32 and a lens outer surface forming groove 35. It includes an upper mold 34 having.

The lens inner surface forming protrusion 32 provided in the lower mold 31 is formed in a substantially hemispherical shape so as to correspond to the inner surface 26 of the contact lens 20 (see FIG. 2). The center portion is provided with a convex lens portion forming groove 33 for forming the convex lens portion 24 provided in the contact lens 20. The convex lens portion forming groove 33 is formed in a shape recessed in a substantially hemispherical shape at the center of the lens inner surface forming protrusion 32, and its diameter or depth is changed according to the set frequency of the convex lens portion 24.

The lens outer surface forming groove 35 provided in the upper mold 34 has a substantially hemispherical shape so as to correspond to the outer surface 27 (see FIG. 2) of the contact lens 20 (see FIG. 2). The lens outer surface forming groove 35 accommodates the lens inner surface forming protrusion 32 of the lower mold 31 when the upper and lower molds 31 are coupled to each other, but between the upper and lower molds 31, a contact lens ( A space corresponding to the shape of 20) may be formed.

The upper mold 34 is made of polypropylene (PP), and the lower mold 31 is made of polypropylene (PP) or poly propylene (PP) and poly ethylene (PE) mixed resin.

In manufacturing the contact lens, first, as shown in FIG. 4A, the liquid lens material L is applied to the lens outer surface forming groove 35 of the upper mold 34.

As shown in FIG. 4B, the lower mold 31 and the upper mold 34 are filled in such a manner that the liquid lens material L is filled in the space formed between the upper mold 34 and the lower mold 31 without gaps. Combine. Thereafter, heat is applied to the upper and lower molds 34 and 31 coupled to each other to cure the liquid lens raw material L filled between the upper and lower molds 34 and 31.

Finally, as shown in FIG. 4C, the upper mold 34 is separated from the lower mold 31, and the contact lens 20 formed by curing the liquid lens material L is separated from the lower mold 31.

As such, the lower mold 31 includes the lens inner surface forming protrusion 32 corresponding to the inner surface 26 of the contact lens 20 and the convex lens portion forming groove 33 corresponding to the convex lens portion 24. ) And the upper mold 34 having the lens outer surface forming groove 35 corresponding to the outer surface 27 of the contact lens 20 can reduce the manufacturing time and manufacturing cost of the contact lens. The precision of a contact lens can be improved.

5A to 5D are views illustrating a contact lens manufacturing method according to another embodiment of the present invention.

The contact lens manufacturing method according to another embodiment of the present invention is different from the manufacturing method according to the above preferred embodiment, and has a lower mold 41 having a lens inner surface forming protrusion 42 and a convex lens portion forming groove 43. ) And an upper mold 44 having a fixed curvature so as to secure a solid lens raw material S having a sufficient thickness.

The specific configuration of the lower mold 41, such as the lens inner surface forming protrusion 42 and the convex lens portion forming groove 43, is the same as the lower mold 31 (see FIG. 4) according to the preferred embodiment.

The upper mold 44 having a fixed curvature 44 has a forming protrusion receiving groove 45 that can accommodate the lens inner surface forming protrusion 42 when coupled to the lower mold 41. The forming protrusion accommodating groove 45 is formed to have a size such that sufficient free space can be formed between the lens inner surface forming protrusion 42 and the upper mold S while the lens inner surface forming protrusion 42 is accommodated.

In manufacturing the contact lens, first, as shown in FIG. 5A, the liquid lens raw material L is applied to the forming projection accommodating groove 45 of the upper mold 44.

And, as shown in Figure 5b, the liquid lens material (L) in the space formed between the upper mold 44 of the fixed curvature provided with the forming projection receiving groove 45 and the lower mold 41 without gaps Coupling to the lower mold 41 to be filled. Thereafter, heat is applied to the lower mold 41 and the upper mold 44 coupled to each other to cure the liquid lens material L filled between the lower mold 41 and the upper mold 44.

When the liquid lens raw material L is cured, as shown in FIG. 5C, the solid lens raw material S having the inner surface 26 and the convex lens portion 24 is separated from the lower mold 41, and finally, FIG. As shown in 5d, a contact lens 20 having a set frequency can be manufactured by cutting the outer surface of the solid lens raw material S having a sufficient thickness using a lathe and a polishing machine P to process the outer surface 27. Can be.

According to the present invention described above, the convex lens portion having the power for correcting the near vision in the center of the near-optical correction region having the power for correcting the far vision is provided in the inward direction of the near-optic correction area, thereby achieving the far-field and near vision. You can correct them all at once.

In addition, according to the present invention, since the convex lens portion for correcting near vision is projected toward the pupil of the eye and positioned on the same line as the pupil, bubbles are generated when tears flow into the space between the pupil and the contact lens. It can reduce the amount of vision correction effect.

According to the present invention, a contact lens may be formed by using a lower mold including a lens inner surface forming protrusion corresponding to the inner surface of the contact lens and a convex lens portion forming groove corresponding to the convex lens portion of the contact lens in manufacturing the contact lens. Manufacturing time and manufacturing cost can be reduced, and the precision of a contact lens can be improved.

The present invention described above is not limited to the configuration and operation as illustrated and described in some embodiments. That is, the present invention is capable of various changes and modifications within the spirit and scope of the appended claims.

Claims (5)

A contact lens having a correcting unit for correcting vision and a peripheral portion coupled around the correcting unit, The corrector includes a myopia correcting region having a frequency for correcting far vision, and a primitive correcting region having a frequency for correcting near vision and being provided at a central portion of the myopia correcting region, wherein the hyperopia correcting region is a contact lens. And a convex lens portion that protrudes convexly into the center portion of the contact lens. In the mold for manufacturing a contact lens for manufacturing a contact lens having a near-optical correction region having a frequency for correcting far vision, and a convex lens portion having a frequency for correcting near vision. A convex lens forming groove provided in the center portion of the contact lens inner surface forming protrusion to form a lens inner surface forming protrusion corresponding to the inner surface of the contact lens and the convex lens portion projecting convexly into the contact lens; Contact mold manufacturing mold comprising a lower mold provided. The method of claim 2, And a lens outer surface forming groove corresponding to the outer surface of the contact lens, and further comprising an upper mold coupled to the lower mold to accommodate the lens inner surface forming protrusion in the lens outer surface forming groove. Mold for making contact lenses. In the manufacturing method of a contact lens having a near-optical correction region having a frequency for correcting far vision, and a convex lens portion having a frequency for correcting near vision, Applying a liquid lens material to the lens outer surface forming groove of the upper mold having a lens outer surface forming groove corresponding to the outer surface of the contact lens; The lens inner surface forming protrusion has a lower mold having a lens inner surface forming protrusion corresponding to the inner surface of the contact lens and the convex lens portion and having a convex lens portion forming groove provided in the center of the lens inner surface forming protrusion. Coupling with the upper mold to be accommodated in the lens outer surface forming groove to fill the liquid lens material between the upper and lower molds; Curing the liquid lens material filled between the upper and lower molds by applying heat to the combined upper and lower molds; And separating the contact lens formed by curing between the upper and lower molds between the upper and lower molds. In the manufacturing method of a contact lens having a near-optical correction region having a frequency for correcting far vision, and a convex lens portion having a frequency for correcting near vision, Applying a liquid lens material to the forming protrusion receiving groove of the upper mold having the forming protrusion receiving groove; The lens inner surface forming protrusion has a lower mold having a lens inner surface forming protrusion corresponding to the inner surface of the contact lens and the convex lens portion and having a convex lens portion forming groove provided in the center of the lens inner surface forming protrusion. Combining with the upper mold to be accommodated in the forming protrusion receiving groove to fill the liquid lens material between the upper and lower molds; Curing the liquid lens material filled between the upper and lower molds by applying heat to the upper and lower molds bonded to each other; Separating the solid lens material formed with the convex lens portion from the upper mold; And cutting / polishing the solid lens material separated from the upper mold to form an outer surface of the contact lens.

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