公开(公告)号：US20170371181A1

公开(公告)日：2017-12-28

申请号：US15539716

申请日：2015-12-28

Applicant: Tadashi KAGA ,  Ayumu ITO ,  Kazuma KOZU

Inventor： Tadashi KAGA ,  Ayumu ITO ,  Kazuma KOZU

IPC: G02C7/06 ,  G02B23/12

Abstract: A pair of spectacle lenses for binocular vision. In each of the pair of spectacle lenses for binocular vision, when an inner horizontal direction of each of the spectacle lenses is a direction toward the nose of a user who wears the spectacle lenses, and an outer horizontal direction of each of the spectacle lenses is a direction toward an ear of the user, a portion for viewing an object at finite distance is provided and a shape of a base out prism is formed in the position such that a line of sight of a user viewing an object through the portion is directed to a direction that is different from a direction from the object.

公开(公告)号：US20110199573A1

公开(公告)日：2011-08-18

申请号：US13093239

申请日：2011-04-25

Applicant: Kazuma KOZU

Inventor： Kazuma KOZU

IPC: G02C7/06

CPC classification number: G02C7/061 ,  G02C7/068

Abstract: In a progressive-addition lens having a progressive surface on one side and an aspherical or atoroidal surface on the other side, the lens shape is designed so that a high degree of aberration correction can be carried out on the periphery of the lens and the distance power and addition power of the lens acting on the eye of a wearer substantially correspond to the distance power and addition power measured by a lens meter. A progressive-addition lens includes a progressive surface and an aspherically designed surface formed of an aspherical or atoroidal surface, and the reference point of the aspherically designed surface is located in the vertical direction of the lens below a prism reference point of the progressive surface and above a near design reference point.

Abstract translation: 在一侧具有渐进面和另一侧具有非球面或非波状表面的渐进增透镜中，透镜形状被设计成可以对透镜的周边和距离进行高度的像差校正 作用在佩戴者的眼睛上的透镜的功率和附加力基本上对应于由透镜计测量的距离功率和相加功率。 渐进镜片包括由非球面或非球面表面形成的渐进表面和非球面设计表面，并且非球面设计表面的参考点位于渐进表面的棱镜参考点下方的透镜的垂直方向上， 高于近设计参考点。

公开(公告)号：US20180004010A1

公开(公告)日：2018-01-04

申请号：US15539800

申请日：2015-12-28

Applicant: Tadashi KAGA ,  Ayumu ITO ,  Kazuma KOZU

Inventor： Tadashi KAGA ,  Ayumu ITO ,  Kazuma KOZU

IPC: G02C7/06 ,  G02B27/01

Abstract: A technology concerning a pair of spectacle lenses for binocular vision. In each of the pair of spectacle lenses for binocular vision, when an inner horizontal direction of each of the spectacle lenses is a direction toward the nose of a user who wears the spectacle lenses, and an outer horizontal direction of the spectacle lenses is a direction toward an ear of the user, a portion for viewing an object at finite distance is provided in each of the pair of spectacle lenses for binocular vision and a shape of a base in prism is formed in the position such that a line of sight of a user viewing an object through the portion is directed to a direction that is different from a direction from the object.

公开(公告)号：US20100026954A1

公开(公告)日：2010-02-04

申请号：US12512445

申请日：2009-07-30

Applicant: Kazuma KOZU

Inventor： Kazuma KOZU

IPC: G02C7/06

CPC classification number: G02C7/061 ,  G02C7/068

Abstract: In a progressive-addition lens having a progressive surface on one side and an aspherical or atoroidal surface on the other side, the lens shape is designed so that a high degree of aberration correction can be carried out on the periphery of the lens and the distance power and addition power of the lens acting on the eye of a wearer substantially correspond to the distance power and addition power measured by a lens meter. A progressive-addition lens includes a progressive surface and an aspherically designed surface formed of an aspherical or atoroidal surface, and the reference point of the aspherically designed surface is located in the vertical direction of the lens below a prism reference point of the progressive surface and above a near design reference point.

Abstract translation: 在一侧具有渐进面和另一侧具有非球面或非波状表面的渐进增透镜中，透镜形状被设计成可以对透镜的周边和距离进行高度的像差校正 作用在佩戴者的眼睛上的透镜的功率和附加力基本上对应于由透镜计测量的距离功率和相加功率。 渐进镜片包括由非球面或非球面表面形成的渐进表面和非球面设计表面，并且非球面设计表面的参考点位于渐进表面的棱镜参考点下方的透镜的垂直方向上， 高于近设计参考点。