| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | Design method and the method of manufacturing the diffraction multifocal of the lens of the eye | JP28659988 | 1988-11-10 | JP2991719B2 | 1999-12-20 | AREN ERU KOOEN |
| 202 | Method of manufacturing a multifocal phase plate | JP28659788 | 1988-11-10 | JP2899296B2 | 1999-06-02 | AREN ERU KOOEN |
| 203 | Target acquisition telescope | JP51718496 | 1995-10-26 | JPH10510369A | 1998-10-06 | イイシャイ ネツエル |
| (57)【要約】 二重焦点観察を行うようになっている望遠鏡装置において:視野を観察する光学装置と、該光学装置を含み、かつこれを支持するハウジングであって、前記光学装置が、前記ハウジングの片側に位置し、第1光軸を有する対物レンズと、前記ハウジングの反対側に位置し、第2光軸を有する接眼レンズを含むハウジングと、前記第1光軸を、前記第2光軸に対して傾斜させ、目標およびその拡大像を同時に観察し得るようになった装置と、目標捕捉装置を有する望遠鏡装置。 | ||||||
| 204 | Progressive multifocal spectacle lenses | JP30249587 | 1987-11-30 | JP2756670B2 | 1998-05-25 | SHIRAYANAGI MORYASU |
| 205 | JPH07508359A - | JP50237794 | 1993-06-07 | JPH07508359A | 1995-09-14 | |
| 206 | Multifocal point diffraction lens | JP33558693 | 1993-12-28 | JPH07198909A | 1995-08-01 | TATEIANA KOSOBAADO; JIYOUZEFU KEDOMI; ISURAERU GUROSUINGAA |
| PURPOSE: To provide a multifocal point lens in which a light to each focal point, that is, light intensity to each diffraction sequence can be arbitrarily controlled uniformly or non-uniformly. CONSTITUTION: In a three focal point diffraction lens 20 which receives an incident light having a central wavelength λ, and limits three focal points, plural optical high positions and optical low positions are provided on the diffraction surface. Then, a difference between the highest optical high position and the lowest optical low position is substantially different from λ/2, and at least 20% of the incident light of the lens 20 can reach each focal point. COPYRIGHT: (C)1995,JPO | ||||||
| 207 | Gas-permeable hard contact lens and its manufacture | JP8423691 | 1991-04-16 | JPH04225314A | 1992-08-14 | MIKAERU HARORUDO FURIIMAN; UIRIAMU II MEIYAAZU |
| PURPOSE: To provide a method which adapts the gas-permeable hard contact lens to a treated person and the gas-permeable hard contact lens which suitably matches the treated person. CONSTITUTION: The method which adapts the gas-permeable hard contact lens to a prescription is provided and the method consists of respective steps. Namely, (1) an optical correction degree which has a different BCOR value is supplied to a group of the same lenses and 2) an adequate BCOR value is decided while the treated person wears the lens; and (3) optical correction based upon the prescription of correction needed for the treated person is determined and (4) a lens is formed which has the same shape and wearing characteristics with the tested lens and is adjusted to the prescription of the degree of the correction obtained from the basic degree given with diffracting power. Consequently, the treated person can obtain the lens which has a satisfactory BCOR value and conforms with the prescription. COPYRIGHT: (C)1992,JPO | ||||||
| 208 | Multi-focus optical device | JP28659888 | 1988-11-10 | JPH0255314A | 1990-02-23 | AREN ERU KOOEN |
| PURPOSE: To provide a two-focus contact lens with improved comfortableness by specifying the spacing and depth of phase zones in an annular concentric shape and a zone profile. CONSTITUTION: The contact lens CL is composed of a front surface AS and a rear surface PS the a diffraction facet (echelette) E and an edge N are provided on the rear surface PS. The annular concentric zones are with a spacing practically proportional to n<1/2> (n) is a zone order} and the depth of the facet is turned to be less than λ/2 (where λ is a design wavelength). Then, the profile of the zone is turned not to a conventional simple parabolic shape but to the profile shifted from a parabola calculated from a prescribed arithmetic formula. As a result, foreign matter collecting is reduced, the comfortableness is improved and the contact lens for turning yellow color to two focuses is obtained. | ||||||
| 209 | Multifocal refractive ophthlmological lens | JP8134589 | 1989-03-31 | JPH0228615A | 1990-01-30 | MAIKURU JIYON SHINPUSON; JIYON ANDORIYUU FUSEI |
| PURPOSE: To attain multifocal action by forming at least a part of light power by diffraction, forming a lens which has one central zone and plural diffraction zones including plural concentric annular zones and specifying the radius of the central zone and the radius of the innermost part of the annular zones. CONSTITUTION: The multifocal ophthalmological lens 10 having the light power has the light power which is at least partly formed by diffraction. The lens has the one circular central zone 12 and the plural concentric annular zones 14 to 20. The radius of the central zone 12 is r x0 and the radius of the first annular zone 14 is r 1. In such a case, r 1 2-r 0 2 is set so as not to be equal to r 0 2. Namely, the central zone 12 of the ophthalmological lens formed by utilizing a phase zone plate is not required to have the same area as the area of the other zones and, therefore, the central zone 12 is formed smaller than the other zones so as to assure the adequate multifocal action. As a result, the execution of the multifocal action of the lens is made possible by using the bands of a sufficient quantity even when the pupil hole is shrunk. COPYRIGHT: (C)1990,JPO | ||||||
| 210 | Multiple contour diffracting lens | JP12464389 | 1989-05-19 | JPH0219822A | 1990-01-23 | DOMINITSUKU BOODO; PIEERU SHIYABUERU; DENI JIYUWAIOO; JIYAN DABUURI |
| PURPOSE: To attain near view and far view respectively by providing a diffracting component, which has various phase contours, with at least two concentric areas. CONSTITUTION: At least, two concentric areas 110 and 120 which have various phase contours are provided so as to cause diffraction of various degrees. The diffracting component is formed of a phase hologram by adjusting a relief or index. Further, the diffraction of a lens 10 and the concentric areas 110 and 120 are accompanied by a refracting element determined by the size and shape of the lens 100, and the refracting component is formed by the difference in radius of curvature between two main surfaces 130 and 140 of the lens. Namely, A diffracting efficiency ratio is obtained for far view and near view and varies as a function of a pupil diameter. Consequently, the new view with high illuminance and intermediate-distance and far view with low illuminance are possible. COPYRIGHT: (C)1990,JPO | ||||||
| 211 | JPH0158487B2 - | JP3425785 | 1985-02-22 | JPH0158487B2 | 1989-12-12 | MAIKERU HARORUDO FURIIMAN |
| 212 | Improvement in lens for ophthalmology | JP3425785 | 1985-02-22 | JPS60203913A | 1985-10-15 | FREEMAN MICHAEL HAROLD |
| 213 | 多焦点レンズ | JP2018536338 | 2016-09-29 | JP2018531435A | 2018-10-25 | ルックス,キルステン; プランク,ニコーレ; ブレズナ,ウォルフガング; ドラゴスティノフ,ニコラウス |
| 本発明は、屈折焦点(Fr)と回折構造(5)とを有する多焦点レンズに関し、この構造はレンズ(1)の半径方向(r)で、半径の2乗(r2)についてプロットした場合に、周期的なプロファイル(6,7,8,9)を有し、 プロファイル(6,7,8,9)は、それぞれの結合個所(10,11,12,13)で微分不可能な、互いに接する4つの区域(6,7,8,9)を周期ごとに有し、第1の区域(9)が単調減少するとともに他の3つの区域(6,7,8)が単調増加し、または第1の区域(9)が単調増加するとともに他の3つの区域(6,7,8)が単調減少し、他の区域のうち第1の区域(9)に接していない区域(7)はそれ以外の両方の他の区域(6,8)よりも大きい傾斜を有する。 |
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| 214 | 回折多焦点レンズおよび回折多焦点レンズの製造方法 | JP2016508883 | 2014-08-08 | JP6412556B2 | 2018-10-24 | 安藤 一郎; 小林 敦 |
| 215 | 電気的に調整可能な出力およびアライメントを有するレンズ | JP2015533749 | 2013-09-30 | JP6359016B2 | 2018-07-18 | ヤディン、ヨアフ; アロン、アレックス; ハダッド、ヤリーフ |
| 216 | フェールセーフ電気活性レンズ及びフェールセーフ電気活性レンズの光学材料を選択するための方法 | JP2015524510 | 2013-08-09 | JP6117924B2 | 2017-04-19 | クラーク ロジャー; ハドック ジョシュア エヌ |
| 217 | 老眼補正のための改良された眼科用レンズ | JP2016558658 | 2015-03-19 | JP2017509024A | 2017-03-30 | アダム、ムシーロク; ボルフガング、ベッケン; ヘルムート、アルトハイマー; グレゴール、エッサー; エッダ、ベーナー |
| 本発明は、老眼補正のための眼科用レンズ、及び、老眼補正のための眼科用レンズを最適化して製造するための方法に関する。老眼補正のための前記眼科用レンズは、少なくとも1つの回折構造を備え、該回折構造は、レンズの回折力に寄与する回折構造の少なくとも1つの回折次数の回折効率が眼科用レンズ上の視点にしたがって変化する可変回折効率の少なくとも1つの領域(12)を有する。 | ||||||
| 218 | 回折型3焦点レンズ | JP2011550292 | 2010-02-12 | JP6042067B2 | 2016-12-14 | シュヴィーゲルリング ジェイムズ ティー |
| 219 | 可変焦点レンズの制御装置、可変焦点レンズの制御方法、および電子メガネ | JP2013549076 | 2012-11-05 | JP6008873B2 | 2016-10-19 | 町田 佐土子; 曽根 浩二 |
| 220 | 多焦点レンズ | JP2013506626 | 2011-04-26 | JP5964289B2 | 2016-08-03 | ヴェルナー フィアラ; マリオ ゲルラッハ |
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