JPH0320754Y2 - - Google Patents

Description

[Detailed description of the invention] <Industrial field of application> This invention relates to a holder for measuring the refractive power of contact lenses, and in particular, when measuring the refractive power of soft contact lenses using a lens meter, the holder is suitable for mounting on the eyeball. The present invention relates to a holder for measuring the refractive power of a soft contact lens that can be measured while maintaining the same state as that of the soft contact lens.

<Prior art> When measuring the refractive power of a hard contact lens made of glass using a lens meter, the contact lens must be placed directly on the lens pad 8 of the lens meter 7 (see Figure 4), or 8 and a contact lens holder 10 (see Figure 5:
A concave spherical surface 11 was formed at the tip and a hole for transmitting the light beam was formed on the contact lens), and the contact lens was placed on the concave spherical surface 11 so that the convex surface of the contact lens was aligned with the contact lens for measurement.

The refractive power of soft contact lenses was also measured in a similar manner using a lens meter. However, soft contact lenses
The lens body is made of oxygen-permeable and hydrophilic hydroxyethyl methacrylate (HEMA) or polymethyl methacrylate (PMMA) and is extremely thin, soft, and porous, making it difficult to maintain the correct shape during measurement. It was difficult to accurately measure refractive power. Conventionally, in order to accurately measure the refractive power in a state that contains a moderate amount of water, similar to the state in which it is mounted on an eyeball, the contact lens was quickly placed on the contact lens holder 10 after it had been properly moistened, and then measured. . however,
If the measurement takes a long time, moisture accumulates in the concave portion of the top surface of the soft contact lens (see FIG. 5), making it difficult to accurately measure the refractive power. Furthermore, since moisture constantly falls or evaporates during measurement, the refractive power becomes different from that in the mounted state. In order to solve the above-mentioned inconveniences, a method of measuring soft contact lenses while holding them underwater has been used, but with this method, it is not possible to easily measure refractive power using a regular lens meter. I couldn't do it.

<Problem that the invention attempts to solve> This invention uses a conventional lens meter to
To provide a novel holder for measuring the refractive power of a soft contact lens that can accurately and easily measure the refractive power of the soft contact lens in a state in which it absorbs moisture to an appropriate degree as in the mounted state.

In this invention, a soft contact lens is placed on a light-transmitting support base having a curvature similar to that of the cornea, which is supported by a hemispherical support part with a hole for light transmission in the center of the protrusion. ,
Fill the water reservoir with aqueous solution (or physiological saline) until the edge of the soft contact lens is slightly hidden. As a result, the aqueous solution (or saline) penetrates into the gap between the soft contact lens and the support base by capillary action, and the soft contact lens maintains the same shape and water content as when it is attached to the eyeball. An object of the present invention is to provide a holder for measuring the refractive power of a soft contact lens, which can accurately and easily measure the refractive power of a soft contact lens.

<Means for Solving the Problems> In order to solve the above problems and achieve the purpose, the holder for measuring the refractive power of soft contact lenses according to this invention has a light beam transmitting support that is a hemispherical protrusion. a base, a spherical support part that supports the support base and is provided with a hole for transmitting a luminous flux, a water storage part surrounding the support part that stores an aqueous solution, and also serves as a peripheral wall of the water storage part. It consists of legs.

<Example> Hereinafter, a holder for measuring refractive power of a soft contact lens according to this invention will be described in detail based on the drawings.

Fig. 1 is a perspective view showing the entire holder for measuring the refractive power of a soft contact lens according to this invention, and Fig. 2 shows a soft contact lens placed on the holder for measuring the refractive power of a soft contact lens shown in Fig. 1. FIG. The holder for measuring the refractive power of soft contact lenses is an integrally molded synthetic resin product (excluding the support base part), and consists of a support base 2, a support part 3, a water storage part 4, and a leg part 5. A support portion 3 is provided protrudingly from the center of 4.

The support base 2 is made of light-transmitting synthetic resin (plastic, etc.) or glass, has a curvature (convex surface) similar to the surface (concave surface) that contacts the cornea of the soft contact lens to be tested, and has a refractive power of "0". ”. Further, in this example, a lens having a thickness of 0.3 mm is used.
The support base 2 is made of light-transmitting synthetic resin (plastic, etc.) or glass. Furthermore, the material is not limited to glass or synthetic resin material, and as shown in FIG. 3, it may be a convex ultra-thin metal mesh 24 having a curvature similar to the surface of the test soft contact lens that contacts the cornea. can also be considered.
In actual use, first, the support base 2 is selected which has a curvature corresponding to the curvature of the cornea contact surface (convex surface) of the soft contact lens to be tested.
Thereafter, as shown in FIGS. 2 and 3, the support bases 2 and 2' are aligned with the inner curves of the soft contact lenses 6 and 6' that have been appropriately moistened with water.
to cover. This allows the soft contact lenses 6, 6' to be held in the same shape as when worn on the eyeball. In addition, as shown in Fig. 3, soft contact lenses 6' containing an appropriate amount of water are used.
If it is placed on the ultra-thin metal mesh 24, the mesh will be covered with water, and the refractive index of the water layer will affect it, making it difficult to accurately measure the refractive power of the soft contact lens 6'. Become. Therefore, in order to remove the influence of the water layer, after the soft contact lens 6' is placed on the ultra-thin metal mesh 24, it is necessary to remove excess water from below with gauze or the like. At this time, moisture is removed from the center of the mesh, and moisture accumulates on the contact surface between the ultra-thin metal that makes up the mesh and the soft contact lens. Thereby, the water content of the soft contact lens does not decrease, and the refractive power of the soft contact lens can be accurately measured.

The support part 3 is a hemispherical protrusion protruding from the center of the water storage part 4, and at the center of the tip of the protrusion is a support base 2 made of transparent synthetic resin (plastic, etc.) or glass. A circular hole 21 having an inner diameter slightly narrower than the width of the lens is bored.
Furthermore, a groove 22 for supporting the support base 2 is provided around the upper part of the peripheral wall of the hole 21 . In addition, when the support base 2 is constructed of the above-mentioned convex ultra-thin metal mesh, it is not enough to provide the groove 22 around the circumference (see FIG. 3). Further, inside the support part 3, a gap 23 is formed which widens downward from the hole 21 so that the lens abutment part 8 of the lens meter 7 can be inserted therein (see FIG. 4).

The water storage part 4 is a concave dish part surrounding the support part 3 for storing an aqueous solution (or physiological saline), and has a bottom part 4 extending horizontally from the lower end of the support part 3.
1, and a cylindrical frame portion 4 hanging vertically from the bottom portion 41.
It consists of 2. The upper end of the frame portion 42 is set to be slightly higher than the tip of the support base 2 when the support base 2 is placed on the support portion 3. The water reservoir 4 is filled with an aqueous solution (or physiological saline) to the extent that the edges 61 of the soft contact lenses 6, 6' placed on the support base 2 are covered. As a result, the aqueous solution (or physiological saline) permeates into the gap between the soft contact lenses 6, 6' and the support bases 2, 2' by capillary action, and
Since the soft contact lenses 6, 6' contain an aqueous solution (or physiological saline), deformation due to water evaporation from the soft contact lenses 6, 6' is prevented, and the same hydrated state as when worn on the eyeball is maintained. It can be measured by

The leg portion 5 is a cylindrical frame integrated with the frame portion 42, and is vertically provided below the outer end of the bottom portion 41. Thereby, as shown in FIG. 4, the holder 1 for measuring the refractive power of a soft contact lens can be stably placed on the lens holder 9 of the lens meter 7 for measurement. Therefore, the height of the leg portion 5 is such that the lens rest 8 of the lens meter 7 is lower than the support portion 3.
It is desirable that the material be within the gap 23 without coming into contact with the material.

In this embodiment, the support section 3, water storage section 4, and leg section 5 are integrally molded from synthetic resin.

<Operation> By placing a soft contact lens on a light-transmitting support base supported by a support part and filling the water storage part with an aqueous solution (or physiological saline) to the extent that the edge of the soft contact lens is hidden, capillary action is prevented. Yotsute aqueous solution (or physiological saline)
permeates into the gap between the soft contact lens and the support base, and the soft contact lens always remains hydrated. Therefore, the refractive power can be measured accurately and easily by holding the soft contact lens in the same shape and water absorption state as when it is attached to the eyeball.

Note that when using a support base made of a plastic or glass lens, the refractive index of the lens will have a slight effect, so it is necessary to use a conversion table to correct the refractive index of the lens (support base) to ensure accuracy. Determine the refractive power of soft contact lenses.

<Effects of the invention> Since the holder for measuring the refractive power of soft contact lenses according to this invention has the configuration as detailed above, the soft contact lenses are held in the same shape and water absorption state as when they are attached to the eyeballs, The refractive power of soft contact lenses can be measured accurately and easily.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing the entire holder for measuring the refractive power of a soft contact lens according to this invention, and FIG. 2 is a perspective view showing the holder for measuring the refractive power of a soft contact lens shown in FIG. It is an A-A sectional view when the third
The figure is a cross-sectional view taken along the line A-A when a metal mesh is used as another example of the support base, and FIG. FIG. 5 is a cross-sectional view of a contact lens placed on a contact lens holder. 1, 1': holder for measuring refractive power of soft contact lenses, 2: support base, 21, 21': hole,
22: groove, 23: void, 24: metal mesh,
3, 3': Support part, 4: Water storage part, 41: Bottom part, 4
2: Frame, 5: Leg, 6, 6': Soft contact lens, 7: Lens meter, 8: Lens rest,
9: Lens holder, 10: Contact lens holder, 11: Concave spherical surface.

Claims (1)

[Claims for Utility Model Registration] (1) A support base that is a hemispherical protrusion that transmits a luminous flux; a spherical support that supports the support base and is provided with a hole for transmitting the luminous flux; A holder for measuring refractive power of a soft contact lens, comprising a water storage part surrounding the support part for storing an aqueous solution, and a leg part that also serves as a peripheral wall of the water storage part. (2) In the holder for measuring the refractive power of a soft contact lens as described in item 1 above, the support base has a curvature similar to that of the contact surface of the soft contact lens to the cornea to be tested. Holder for force measurement. (3) The holder for measuring the refractive power of a soft contact lens as described in item 1 above, wherein the support part, the water storage part, and the leg part are integrally molded. . (4) In the holder for measuring the refractive power of a soft contact lens as described in item 1 above, the refractive power of a soft contact lens is characterized in that a gap is provided on the inner surface of the support portion into which a lens abutting portion of a lens meter is inserted. Measurement holder.