Ophthalmic lenses

US 4,592,630 A
Filed: 02/20/1985
Issued: 06/03/1986
Est. Priority Date: 08/24/1979
Status: Expired due to Term

First Claim

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1. An ophthalmic lens comprising a lens body having:

a principal meridian in a substantially vertical direction and substantially in the center of the lens body;

a far vision viewing zone in the lower portion of the lens body;

a near vision viewing zone in the lower portion of the lens body;

an intermediate vision viewing zone disposed between the upper far vision viewing zone and the lower near vision viewing zone, the refractive power of the lens in the intermediate zone progressively increasing from the upper portion to the lower portion; and

the line of intersection between the refractive surface of the lens body and the plane orthogonal to the principal meridian in the lower portion of the far vision viewing zone being a non-circular curve having a curvature radius decreasing along the line of intersection as the distance from the principal meridian increases, the decreasing rate of the value of the curvature radius decreasing down to zero wherein the surface becomes spherical at the upper portion of the far vision viewing zone and thereafter remains constant;

wherein said far vision viewing zone is horizontally divided into three regions with the center region with the astigmatism within 0.5 diopters and astigmatism being greater than 0.5 diopters in the outer regions to each side of said central region, said central region having the principal meridian substantially passing through the center thereof.

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Abstract

An ophthalmic lens having a far vision viewing zone in the upper region of the lens, a near vision viewing zone in the lower region of the lens, an intermediate vision viewing zone in the region intermediate the far vision zone and the near vision zone and a principal meridian vertically disposed in the center of the lens is provided. The far vision viewing zone is divided horizontally into three regions wherein astigmatism is at least in the central region and increases in the regions on both sides of the center region. The central region is formed so that the principal meridian substantially bisects the central region of the far vision viewing zone.

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10 Claims

1. An ophthalmic lens comprising a lens body having:
- a principal meridian in a substantially vertical direction and substantially in the center of the lens body;
  
  a far vision viewing zone in the lower portion of the lens body;
  
  a near vision viewing zone in the lower portion of the lens body;
  
  an intermediate vision viewing zone disposed between the upper far vision viewing zone and the lower near vision viewing zone, the refractive power of the lens in the intermediate zone progressively increasing from the upper portion to the lower portion; and
  
  the line of intersection between the refractive surface of the lens body and the plane orthogonal to the principal meridian in the lower portion of the far vision viewing zone being a non-circular curve having a curvature radius decreasing along the line of intersection as the distance from the principal meridian increases, the decreasing rate of the value of the curvature radius decreasing down to zero wherein the surface becomes spherical at the upper portion of the far vision viewing zone and thereafter remains constant;
  
  wherein said far vision viewing zone is horizontally divided into three regions with the center region with the astigmatism within 0.5 diopters and astigmatism being greater than 0.5 diopters in the outer regions to each side of said central region, said central region having the principal meridian substantially passing through the center thereof.
- View Dependent Claims (2, 3, 4)
- - 2. The ophthalmic lens of claim 1, wherein the width of the central region of the far vision viewing zone is at least more than 30 mm.
  - 3. The ophthalmic lens of claim 1 or 2, wherein the skew distortion ∂
    - ² f/∂
      
      x∂
      
      y wherein z=f(x,y) and x and y are the distances in the horizontal and vertical directions, respectively, from the geometrical center (the optical center in the far zone) and the origin and z is the distance of the refractive surface of the lens from plane x-y in the side area of the intermediate vision viewing zone is within the range of about 0.0003 to 0.0020 for a lens having one to three-diopter power addition.
  - 4. The ophthalmic lens of claims 1 or 2, wherein the skew distortion ∂
    - ² f/∂
      
      x∂
      
      y wherein z=f(x,y) and x and y are the distances in the horizontal and vertical directions, respectively, from the geometrical center (the optical center in the far zone) and the origin and z is the distance of the refractive surface of the lens from plane x-y in the side regions of the intermediate vision viewing zone is within the range of about 0.0007 to 0.0016 for a lens having a 1 to 2-diopter power addition.

5. An ophthalmic lens comprising a lens body having:
- a principal meridian substantially in the center of the lens body in a vertical direction, a far vision viewing zone in the upper portion of the lens body, a near vision viewing zone in the lower portion of the lens body, and an intermediate vision viewing zone disposed between the upper far vision viewing zone and the lower near vision viewing zone, the refractive power on the surface of the lens body in the intermediate vision viewing zone progressively increases from the upper portion to the lower portion of the intermediate vision viewing zone,the line of intersection between the refractive surface of the lens body and on the plane orthogonal to the principal meridian in the lower portion of the far vision viewing zone being a non-circular curve having a curvature radius decreasing along the line of intersection as the distance from the principal meridian increases, the decreasing rate of the value of the curvature radius decreasing down to zero wherein the surface becomes spherical at the upper portion of the far vision viewing zone and thereafter remains constant;
  
  the line of intersection between the refractive surface of the lens body and a plane orthogonal to the principal meridian in the near vision viewing zone having a curvature radius which increases as the distance from the principal meridian increases and thereafter decreases, the increasing rate of the curvature radius remaining substantially constant except for the region immediately adjacent to the border to said intermediate vision viewing zone;
  
  the line of intersection between the refractive surface of the lens body and a plane orthogonal to the principal meridian in the intermediate vision viewing zone being a non-circular curve having a curvature radius increasing as the distance along the line of intersection from the principal meridian increases, except in the region immediately adjacent to the border between the intermediate vision viewing zone and the far vision viewing zone, the increasing rate of the curvature radius being a maximum in substantially the central portion of the intermediate vision viewing zone; and
  
  the entire length of the principal meridian being umbilical and in the intermediate vision viewing zone the principal meridian having a change of curvature for providing a predetermined power addition which increases generally from the upper far vision viewing zone towards the lower near vision viewing zone.
- View Dependent Claims (6, 7, 8, 9, 10)
- - 6. The ophthalmic lens of claim 5, wherein the skew distortion ∂
    - ² f/∂
      
      x∂
      
      y wherein z=f(x,y) and x and y are the distances in the horizontal and vertical directions, respectively, from the geometrical center (the optical center in the far zone) and the origin and z is the distance of the refractive surface of the lens from plane x-y in the side regions of the intermediate vision viewing zone is between about 0.0003 to 0.0020 when the lens has a power addition from 1 to 3-diopters.
  - 7. The ophthalmic lens of claim 5, wherein the skew distortion ∂
    - ² f/∂
      
      x∂
      
      y wherein z=f(x,y) and x and y are the distances in the horizontal and vertical directions, respectively, from the geometrical center (the optical center in the far zone) and the origin and z is the distance of the refractive surface of the lens from plane x-y in the side region of the intermediate vision viewing zone is between about 0.0007 to 0.0016 for a lens having a power addition of from 1 to 2-diopters.
  - 8. The ophthalmic lens of claim 5, wherein the far vision viewing zone is horizontally divided into three regions, a central region having the principal meridian passing through the central portion thereof and two outer regions, the astigmatism being the smallest in the center region and the astigmatism increasing in the regions on the opposed outer sides of the center region.
  - 9. The ophthalmic lens of claim 8, wherein the astigmatism in the center region of the far vision viewing zone is within 0.5 diopters and the astigmatism in the side regions is greater than 0.5 diopters.
  - 10. The ophthalmic lens of claim 9, wherein the width of the central region of the far vision viewing zone is at least 30 mm.

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Current Assignee
Seiko Epson Corporation (Seiko Group)
Original Assignee
Seiko Epson Corporation (Seiko Group)
Inventors
Okazaki, Sakiho
Primary Examiner(s)
Corbin, John K.
Assistant Examiner(s)
Sugarman, Scott J.

Application Number

US06/702,859
Time in Patent Office

468 Days
Field of Search

351/168-172
US Class Current

351/169
CPC Class Codes

G02C 7/061   Spectacle lenses with progr...

G02C 7/063   Shape of the progressive su...

G02C 7/065   Properties on the principal...

Ophthalmic lenses

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Ophthalmic lenses

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