CN113641006A - Multi-functional lens of subregion of adjustable eye distance - Google Patents
Multi-functional lens of subregion of adjustable eye distance Download PDFInfo
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- CN113641006A CN113641006A CN202110916744.8A CN202110916744A CN113641006A CN 113641006 A CN113641006 A CN 113641006A CN 202110916744 A CN202110916744 A CN 202110916744A CN 113641006 A CN113641006 A CN 113641006A
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- myopia
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- G—PHYSICS
- G02—OPTICS
- G02C—SPECTACLES; SUNGLASSES OR GOGGLES INSOFAR AS THEY HAVE THE SAME FEATURES AS SPECTACLES; CONTACT LENSES
- G02C7/00—Optical parts
- G02C7/02—Lenses; Lens systems ; Methods of designing lenses
- G02C7/06—Lenses; Lens systems ; Methods of designing lenses bifocal; multifocal ; progressive
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- G—PHYSICS
- G02—OPTICS
- G02C—SPECTACLES; SUNGLASSES OR GOGGLES INSOFAR AS THEY HAVE THE SAME FEATURES AS SPECTACLES; CONTACT LENSES
- G02C7/00—Optical parts
- G02C7/02—Lenses; Lens systems ; Methods of designing lenses
- G02C7/06—Lenses; Lens systems ; Methods of designing lenses bifocal; multifocal ; progressive
- G02C7/061—Spectacle lenses with progressively varying focal power
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- Ophthalmology & Optometry (AREA)
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- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
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Abstract
The invention discloses a multifunctional lens with an adjustable eye distance, which comprises a normal visual function area, a transition buffer area, an adjustable eye distance area and an aberration correction area, wherein the transition buffer area and the aberration correction area are arranged between the normal visual function area and the adjustable eye distance area, the aberration correction area is respectively arranged on two sides of the transition buffer area, the normal visual function area accounts for 30-45% of the total lens area, the adjustable eye distance area accounts for 30-45% of the total lens area, and the transition buffer area and the aberration correction area respectively account for 10-20% of the total lens area. The invention can adjust the eye distance, relieve ciliary muscle, prevent myopia and relieve myopia deepening, can prevent myopia of children, can adjust the sitting posture of the children without myopia when using the lens, enables the children to learn in the correct sitting posture, prevents short-distance reading and learning, and can prevent myopia; the sitting posture of the children with myopia can be adjusted to enable the children to study in the correct sitting posture, so that the children can be prevented from reading books at a short distance, ciliary muscles can be relieved, and myopia can be prevented from being deepened.
Description
Technical Field
The invention relates to a multifunctional lens with zones, in particular to a multifunctional lens with zones, and the multifunctional lens with zones can adjust the eye distance.
Background
In daily life, myopia is caused when the eyes are used for too long time, the eyes are too close to each other, and the illumination light is too strong or too weak. When the eyes are used for too long time or too close to each other, the burden of the eyes is increased, muscles inside and outside the eyes are in a tense state for a long time and cannot rest for a long time, and when the eyes look at a far place, the muscles of the eyes cannot relax and are in a spastic state, so that the eyes feel blurred when looking at the far place and finally form the myopia, or the myopia degree is increased under the condition of the myopia. When the eyes are fully relaxed, the sight line is focused at a distance; when looking at a near object, the eye has a ring of muscles (ciliary muscles) to begin to contract, the lens becomes convex, and then the focus of the line of sight is pulled to near, and the formula for calculating the refractive power required for the convex change is D1/distance (m). When an object approaches 0.33 m (one-arm distance, standard near vision distance), the ciliary muscle needs to use conventional strength (force value is 3D), the muscle is slightly sour for one hour continuously, but the muscle is not stiff and spastic, after rest, the muscle can be fully relaxed, and the crystalline lens can also recover the original shape. When the distance is reduced to 0.17m, the force required to be exerted by the ciliary muscle is linearly increased to the force application value of 6D, the load index of the ciliary muscle is increased, the endurance index is reduced, and the spasm is realized in a short time. Scientific studies have shown that a 17cm distance is 1 hour in eye use, which corresponds to a load of 4 hours in 33cm distance in eye use, so that near distance eye use has a great influence on the formation and progression of myopia.
The existing lenses on the market are mainly used for people with myopia, such as functional lenses for inhibiting myopia and hypermetropia of human eyes, but the lenses cannot prevent myopia, and the myopia can not be prevented from being deepened when a user uses the eyes for a long time at a short distance, the lenses cannot correct the distance between the user and the eyes, particularly the distance between the user and a book or a homework when the student learns, and the efficacy of the functional lenses is greatly reduced when the user uses the eyes for a long time at a short distance with incorrect sitting posture.
Prior patent "spectacle lens", application number: 201310628174.8 which teaches an ophthalmic lens that inhibits the progression of myopic eyes by imaging a second refractive power at a location in front of the retina, but the lens of the invention of this patent (application No.: 201310628174.8) does not prevent myopia and does not prevent the progression of myopia when the user is using the eye at near distances for extended periods of time, where the efficacy of such lenses is greatly diminished.
Disclosure of Invention
The purpose of the invention is as follows: the invention aims to provide a multifunctional lens for adjusting eye distance in a partitioned mode, which can relieve ciliary muscles, prevent myopia and relieve myopia deepening.
The technical scheme is as follows: the optical aberration correction device comprises a normal visual function area, a transition buffer area, an eye distance adjusting area and an aberration correction area, wherein the transition buffer area and the aberration correction area are arranged between the normal visual function area and the eye distance adjusting area, and the aberration correction area is respectively arranged on two sides of the transition buffer area.
The normal visual function area provides diopter needed when a far object is observed without myopia and myopia.
The normal visual function area comprises a non-myopia flat lens, a myopia correcting spherical lens, a myopia correcting aspherical lens and a myopia correcting free-form surface lens, and the myopia correcting diopter is 0-8D.
The transition buffer area provides diopter required by changing from the normal visual function area to the eye distance adjusting area, and the diopter change range of the transition buffer area is 0-4D.
The aberration correction area can correct peripheral field aberrations such as astigmatism and distortion.
The eye distance adjusting area enables human eyes to see objects clearly within a distance of 30-35 cm, clear object images cannot be obtained if the distance exceeds the range, the depth of field of the human eyes is 30-35 cm when the lenses are worn by the human eyes, and the distance of the clearest image is 33 +/-0.5 cm.
The diopter of the eye distance adjusting area and the diopter of the transition buffer area are provided by an aspheric surface or a free-form surface.
The inner and outer surfaces of the lens of the eye distance adjusting area and the transition buffer area are both aspheric surfaces or free-form surfaces.
The normal visual function area accounts for 30-45% of the total lens area, the eye distance adjusting area accounts for 30-45% of the total lens area, and the transition buffer area and the aberration correction area respectively account for 10-20% of the total lens area.
The lens is made of materials with refractive indexes of 1.49, 1.56 and 1.56 discoloring, 1.56 blue light resistance and 1.56 blue light resistance discoloring, 1.60 and 1.60 blue light resistance, 1.67 and 1.67 blue light resistance, 1.70 and 1.74 resin and PC or PC blue light resistance.
Has the advantages that: the invention can adjust the eye distance, relieve ciliary muscle, prevent myopia and relieve myopia deepening, can prevent myopia of children, can adjust the sitting posture of the children without myopia when using the lens, enables the children to learn in the correct sitting posture, can effectively prevent short-distance reading and learning, and has the function of preventing myopia; the sitting posture of the children with myopia can be adjusted to enable the children to study in the correct sitting posture, close-distance reading and study can be effectively prevented, and the functions of relaxing ciliary muscles and avoiding deepening myopia are achieved.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
Detailed Description
The invention will be further explained with reference to the drawings.
As shown in fig. 1, the present invention includes a normal visual function area 1, a transition buffer area 2, an eye distance adjusting area 3 and an aberration correction area 4, wherein the transition buffer area 2 and two aberration correction areas 4 are disposed between the normal visual function area 1 and the eye distance adjusting area 3, and the two aberration correction areas 4 are respectively disposed on two sides of the transition buffer area 2. The normal visual function area 1 accounts for 30-45% of the total lens area, the eye distance adjusting area 3 accounts for 30-45% of the total lens area, and the transition buffer area 2 and the aberration correction area 4 respectively account for 10-20% of the total lens area.
The normal visual function area 1 provides diopter required for observing a distant object without myopia and myopia; the transition buffer zone 2 provides the diopter needed for changing from the normal visual function zone 1 to the eye distance zone 3 for adjustment, so as to avoid observation discomfort caused by shape mutation; the eye distance adjusting area 3 provides diopter which can be clearly observed only within a specified distance range and cannot be observed beyond the range; the aberration correction area 4 is used to correct the edge field aberration such as astigmatism, distortion, and the like.
The eye distance area 3 for adjustment enables human eyes to see objects clearly at the position of 30-35 cm, clear object images cannot be obtained when the distance exceeds the range, the depth of field of the human eyes is 30-35 cm when the lenses are worn by the human eyes, and the distance of the clearest image is 33 +/-0.5 cm. Diopter of the eye distance adjusting area 3 and the diopter of the transition buffer area 2 are provided by aspheric surfaces or free-form surfaces, the inner and outer surfaces of the lenses of the eye distance adjusting area 3 and the transition buffer area 2 are both aspheric surfaces or free-form surfaces, and the diopter change range of the transition buffer area 2 is 0-4D.
The normal visual function area 1 comprises a myopia-free plano-mirror, a myopia-correcting spherical mirror, a myopia-correcting aspherical mirror and a myopia-correcting free-form surface mirror, and the myopia-correcting diopter is 0-8D. The lens can be made of materials with refractive indexes of 1.49, 1.56 and 1.56 for color change, 1.56 for blue light resistance and 1.56 for blue light color change, 1.60 and 1.60 for blue light resistance, 1.67 and 1.67 for blue light resistance, 1.70 and 1.74 resin and PC for blue light resistance.
Example 1: the lens of this embodiment is divided into an upper-normal vision function region, a middle-transition buffer region, a lower-accommodation eye distance region, and two-side aberration correction regions, and the distribution shape is as shown in fig. 1, but is not limited to this shape as long as the function division is satisfied. The normal visual function zone accounts for 35% of the total lens area, the accommodation eye distance zone accounts for 35% of the total lens area, the transition buffer zone accounts for 10% of the total lens area, and the aberration correction zone accounts for 20% of the total lens area. The normal visual function area is used for correcting the myopia aspherical mirror, and the myopia correction diopter is 5D. The diopter of the eye distance area for adjustment and the diopter of the transition buffer area are formed by aspheric surfaces, and the diopter change range of the transition buffer area is 0-2D. The eye distance area for adjustment enables human eyes to see objects clearly at the position of 31-34 cm, and the depth of field range is 31-34 cm when the human eyes wear the lens. The lens is made of blue light resistant material with the refractive index of 1.67.
Example 2: the lens of this embodiment is divided into an upper-normal vision function region, a middle-transition buffer region, a lower-accommodation eye distance region, and two-side aberration correction regions, and the distribution shape is as shown in fig. 1, but is not limited to this shape as long as the functional division is satisfied. The normal visual function zone accounts for 30% of the total lens area, the accommodation eye distance zone accounts for 30% of the total lens area, the transition buffer zone accounts for 20% of the total lens area, and the aberration correction zone accounts for 20% of the total lens area. The normal visual function area is used for correcting the myopia aspherical mirror, and the myopia correction diopter is 4D. The diopter of the eye distance area for adjustment and the diopter of the transition buffer area are formed by aspheric surfaces, and the diopter change range of the transition buffer area is 0-4D. The eye distance area for adjustment enables human eyes to see objects clearly at the position of 32-34 cm, and the depth of field range is 32-34 cm when the human eyes wear the lens. The lens is made of resin material with the refractive index of 1.56.
The invention can adjust the eye distance, relieve ciliary muscles, prevent myopia and relieve myopia deepening, when the eye distance adjusting area is used during work and study, the eyes can only clearly observe an object at the position of 30-35 cm, and the sitting posture can be corrected. Meanwhile, the ciliary muscle at the position of 30-35 cm needs to use conventional strength, the muscle can be slightly sour within one hour continuously, but the rigidity and spasm are not caused, after the rest, the muscle can be fully relaxed, and the crystalline lens can also recover the original shape. The lens can prevent myopia of children, and when the lens is used by children with myopia, the sitting posture of the children can be adjusted, so that the children can learn in the correct sitting posture, close-distance reading and learning can be effectively prevented, and the function of preventing myopia is achieved. The lens can also adjust the sitting posture of the myopic child to enable the myopic child to study in the correct sitting posture, can effectively prevent short-distance reading and study, and has the functions of relaxing ciliary muscles and avoiding deepening approximation.
Claims (10)
1. The utility model provides a multi-functional lens of subregion of adjustable eye distance, its characterized in that, including normally look functional area (1), transition buffer (2), adjust with eye distance district (3) and aberration correction district (4), normally look functional area (1) and adjust with eye distance district (3) between be equipped with transition buffer (2) and aberration correction district (4), wherein, the both sides of transition buffer (2) are equipped with aberration correction district (4) respectively.
2. The multifunctional spectacle lens with eye distance adjustment according to claim 1, wherein the eye distance adjustment area (3) enables human eyes to see objects within a distance of 30-35 cm, the depth of field of the lens worn by human eyes is 30-35 cm, and the distance of the clearest image is 33 ± 0.5 cm.
3. The multifunctional lens with zones for adjusting eye distance according to claim 1, wherein the normal vision functional zone (1) comprises a myopia-free flat lens, a myopia-correcting spherical lens, a myopia-correcting aspherical lens and a myopia-correcting free-form surface lens, and the myopia-correcting diopter ranges from 0D to 8D.
4. The multi-functional lens with zones for adjusting eye distance according to claim 1, characterized in that the transition buffer zone (2) provides the diopter needed for the transition from the normal vision function zone (1) to the zone for adjusting eye distance (3), and the diopter variation range of the transition buffer zone is 0-4D.
5. The multifunctional zoned lens with adjustable eye distance according to claim 1, wherein the aberration correction zone (4) is capable of correcting peripheral field aberrations.
6. The multi-functional spectacle lens with adjustable eye distance according to claim 1 or 3, wherein the normal vision function area (1) provides the diopter needed for observing distant objects without myopia and with myopia.
7. The adjustable eye distance zoned multifunctional lens in claim 1, wherein the diopters of the adjustment eye distance zone (3) and the transition buffer zone (2) are provided by an aspheric surface or a free-form surface.
8. The multi-functional lens with zones for adjusting eye distance according to claim 1 or 7, characterized in that the inner and outer lens surfaces of the eye distance zone (3) and the transition buffer zone (2) are aspheric or free-form.
9. The multifunctional zoned lens with adjustable eye distance according to claim 1, wherein the normal vision function zone (1) occupies 30 to 45% of the lens area, the eye distance adjusting zone (3) occupies 30 to 45% of the lens area, and the transition buffer zone (2) and the aberration correction zone (4) each occupy 10 to 20% of the lens area.
10. The multifunctional lens with zones for adjusting eye distance according to claim 9, wherein the lens is made of materials with refractive index of 1.49, 1.56 and 1.56 discolorations, 1.56 blue light resistant and 1.56 blue light resistant discolorations, 1.60 and 1.60 blue light resistant, 1.67 and 1.67 blue light resistant, 1.70 and 1.74 resins and PC or PC blue light resistant.
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CN202110916744.8A CN113641006A (en) | 2021-08-11 | 2021-08-11 | Multi-functional lens of subregion of adjustable eye distance |
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CN202110916744.8A CN113641006A (en) | 2021-08-11 | 2021-08-11 | Multi-functional lens of subregion of adjustable eye distance |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
IT202200001364A1 (en) * | 2022-01-27 | 2023-07-27 | Michele Raguso | "OPTICAL DEVICE FOR THE CORRECTION OF POSTURAL DEFECTS" |
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CN102749723A (en) * | 2012-07-26 | 2012-10-24 | 苏州苏大明世光学有限公司 | Blind zone optimized progressive eye lens and mold thereof |
CN102937750A (en) * | 2012-12-07 | 2013-02-20 | 苏州大学 | Method for designing progressive multi-focus lens |
CN103149701A (en) * | 2013-03-29 | 2013-06-12 | 魏炳松 | Progressive multi-focus lens |
CN103631031A (en) * | 2013-09-30 | 2014-03-12 | 丹阳佰易视光学眼镜有限公司 | Dynamic progressive multi-focal-point lens |
-
2021
- 2021-08-11 CN CN202110916744.8A patent/CN113641006A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102749723A (en) * | 2012-07-26 | 2012-10-24 | 苏州苏大明世光学有限公司 | Blind zone optimized progressive eye lens and mold thereof |
CN102937750A (en) * | 2012-12-07 | 2013-02-20 | 苏州大学 | Method for designing progressive multi-focus lens |
CN103149701A (en) * | 2013-03-29 | 2013-06-12 | 魏炳松 | Progressive multi-focus lens |
CN103631031A (en) * | 2013-09-30 | 2014-03-12 | 丹阳佰易视光学眼镜有限公司 | Dynamic progressive multi-focal-point lens |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
IT202200001364A1 (en) * | 2022-01-27 | 2023-07-27 | Michele Raguso | "OPTICAL DEVICE FOR THE CORRECTION OF POSTURAL DEFECTS" |
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