JPH0968650A - Projecting lens - Google Patents

Projecting lens

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Publication number
JPH0968650A
JPH0968650A JP7248390A JP24839095A JPH0968650A JP H0968650 A JPH0968650 A JP H0968650A JP 7248390 A JP7248390 A JP 7248390A JP 24839095 A JP24839095 A JP 24839095A JP H0968650 A JPH0968650 A JP H0968650A
Authority
JP
Japan
Prior art keywords
lens
lens group
group
negative
positive
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP7248390A
Other languages
Japanese (ja)
Inventor
Taro Okada
太郎 岡田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nikon Corp
Original Assignee
Nikon Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nikon Corp filed Critical Nikon Corp
Priority to JP7248390A priority Critical patent/JPH0968650A/en
Publication of JPH0968650A publication Critical patent/JPH0968650A/en
Pending legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To provide a projecting lens suitable for use in a liquid crystal projector. SOLUTION: This projecting lens is composed of a first lens group G1 which is arranged on a magnification side across a diaphragm, has at least one of combined lenses formed by joining a positive lens and a negative lens and has negative refracting power as a whole and a second lens group G2 which is arranged on a reduction side across the diaphragm, has at least one of combined lenses formed by joining a positive lens and a negative lens and has positive refracting power as a whole. The projecting lens is constituted to satisfy the conditions 3.0<bf/f, 0.55|f1 f/2 |<0.75 and 2.0<|D/f1 |<2.4 when the distance from the final lens face of the second lens group G2 in the state that the imaging magnification of the first lens group G1 is smallest to the conjugation point on the reduction side is defined bf; the focal length of the entire system is defined as (f), the focal lengths of the first lens group G1 and the second light shielding G2 are defined respectively as f1 and f2 , and the spacing between the principal points of both lens groups G1 , G2 is defined as D.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は投影レンズに関し、特に
液晶表示等の液晶表示体(LCD)、いわゆる液晶ライ
トバルブの画像をスクリーン上に拡大して投影する液晶
プロジェクター用の投影レンズに関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a projection lens, and more particularly to a projection lens for a liquid crystal display (LCD) such as a liquid crystal display, which is a liquid crystal projector for enlarging and projecting an image of a so-called liquid crystal light valve on a screen. is there.

【0002】[0002]

【従来の技術】液晶プロジェクターは、ビデオプロジェ
クターによるCRT像を投影する場合とは異なり、B
(青)・G(緑)・R(赤)の3原色それぞれの液晶ラ
イトバルブの光情報を、1つの投影レンズによってスク
リーンに伝達するものである。そのためにダイクロイッ
クミラー、プリズム等を用いて各色の光路を合成してい
るから、これらのダイクロイックミラー、プリズム等の
配置空間を確保するために、長いバックフォーカスを有
する投影レンズが必要とされる。またダイクロイックミ
ラーに入射・射出する各色の光によって、高コントラス
トの画像が維持される必要があり、このため、主光線の
傾きが数度以下のテレセントリック性の強い投影レンズ
が必要とされている。また、観察するスクリーンの後ろ
から投影するいわゆるリアプロジェクターとして用いる
場合には、装置が小型であり、かつ大画面で明るいこと
も重要である。そのために液晶プロジェクター用の投影
レンズでは、投影距離が短いこと、すなわち広画角でし
かも大口径であることが要求されている。2. Description of the Related Art Unlike a case where a CRT image is projected by a video projector, a liquid crystal projector is
The light information of the liquid crystal light valves for each of the three primary colors (blue), G (green), and R (red) is transmitted to the screen by one projection lens. For that purpose, since the optical paths of the respective colors are combined by using dichroic mirrors, prisms, etc., a projection lens having a long back focus is required in order to secure an arrangement space for these dichroic mirrors, prisms, etc. In addition, it is necessary to maintain a high-contrast image by the light of each color that enters and exits the dichroic mirror. Therefore, a projection lens having a strong telecentricity in which the inclination of the chief ray is several degrees or less is required. When used as a so-called rear projector that projects from behind a screen to be observed, it is important that the device is small and bright on a large screen. Therefore, a projection lens for a liquid crystal projector is required to have a short projection distance, that is, a wide angle of view and a large aperture.

【0003】[0003]

【発明が解決しようとする課題】このような投影レンズ
としては、例えば特開平4−335610号公報に開示
されたものがあるが、同公報に開示された投影レンズを
リアプロジェクターとして使用する場合には、装置の小
型化と薄型化の要求を必ずしも十分に満たすことができ
ず、すなわち更に広画角で大口径の投影レンズが要求さ
れている。また液晶プロジェクターはCRTビデオプロ
ジェクターとは異なり、画面の歪みを電気的に処理する
ことが困難であるため、投影レンズの歪みすなわち歪曲
収差を出来る限り抑える必要がある。したがって本発明
は、画角が70゜程度以上の広画角であり、テレセント
リック性を維持することにより全域にわたって高解像力
を有し、液晶プロジェクターに用いるのに好適な投影レ
ンズを提供することを目的としている。An example of such a projection lens is disclosed in Japanese Patent Laid-Open No. 4-335610. When the projection lens disclosed in the publication is used as a rear projector, Cannot satisfy the requirements for downsizing and thinning of the apparatus, that is, a projection lens having a wider angle of view and a large aperture is required. In addition, unlike a CRT video projector, a liquid crystal projector is difficult to electrically process screen distortion, and therefore it is necessary to suppress distortion of the projection lens, that is, distortion aberration as much as possible. Therefore, an object of the present invention is to provide a projection lens which has a wide field angle of about 70 ° or more, has a high resolution over the entire area by maintaining the telecentricity, and is suitable for use in a liquid crystal projector. I am trying.

【0004】[0004]

【課題を解決するための手段】本発明は上記目的を達成
するためになされたものであり、すなわち、絞りを挟ん
で拡大側に配置され、正レンズと負レンズとの接合より
なる接合レンズを少なくとも1つ有し、全体として負の
屈折力を有する第1レンズ群G1と、絞りを挟んで縮小
側に配置され、正レンズと負レンズとの接合よりなる接
合レンズを少なくとも1つ有し、全体として正の屈折力
を有する第2レンズ群G2とによって構成され、第1レ
ンズ群G1の結像倍率が最も小さい状態における第2レ
ンズ群G2の最終レンズ面から縮小側の共役点までの距
離、すなわちスクリーンが無限遠にあるとした仮想的な
状態におけるバックフォーカスをbfとし、全系の焦点
距離をfとし、第1レンズ群G1と第2レンズ群G2との
焦点距離をそれぞれf1とf2とし、これらの両レンズ群
1,G2の主点間隔をDとしたとき、 (1)3.0<bf/f (2)0.55<|f1/f2|<0.75 (3)2.0<|D/f1|<2.4 なる条件を満足することを特徴とする投影レンズであ
る。The present invention has been made in order to achieve the above-mentioned object, that is, a cemented lens which is arranged on the enlargement side with a diaphragm interposed therebetween and which is composed of a cemented positive lens and a negative lens. It has at least one first lens group G 1 having a negative refracting power as a whole, and at least one cemented lens arranged on the reduction side with a diaphragm interposed between the positive lens and the negative lens. , A second lens group G 2 having a positive refracting power as a whole, and the conjugate of the second lens group G 2 on the reduction side from the final lens surface in the state where the imaging magnification of the first lens group G 1 is the smallest. The distance to the point, that is, the back focus in a virtual state where the screen is at infinity, is bf, the focal length of the entire system is f, and the focus of the first lens group G 1 and the second lens group G 2 Each distance 1 and the f 2, when these main point interval of two lens groups G 1, G 2 and the D, (1) 3.0 <bf / f (2) 0.55 <| f 1 / f 2 | <0.75 (3) 2.0 <| D / f 1 | <2.4 The projection lens is characterized by being satisfied.

【0005】その際、第1レンズ群G1を、該第1レン
ズ群G1における最も大きな空気間隔を隔てて拡大側に
配置され、全体として負の屈折力を有する第1レンズ群
第1部分群G11と、空気間隔を隔てて絞り側に配置さ
れ、正レンズと負レンズとの接合よりなる接合レンズを
少なくとも1つ有し、全体として負の屈折力を有する第
1レンズ群第2部分群G12とを有するように構成し、第
1レンズ群第1部分群G11と第1レンズ群第2部分群G
12との焦点距離をそれぞれf11とf12とし、これらの両
部分群G11,G12の空気間隔をdとしたとき、 (4)1.0<d/f<1.4 (5)0.2<f11/f12<0.4 なる条件を満足するするように形成することができる。At this time, the first lens group G 1 is arranged on the enlargement side with the largest air gap in the first lens group G 1 and has a negative refracting power as a whole. a group G 11, is disposed on the diaphragm side an air space, at least one has a cemented lens consisting of the junction between the positive lens and the negative lens, the second portion first lens group having negative refractive power as a whole configured to have a group G 12, a second subgroup to the first subgroup G 11 first lens group first lens group G
Assuming that the focal lengths of 12 and 12 are f 11 and f 12 , respectively, and the air gap between these two subgroups G 11 and G 12 is d, (4) 1.0 <d / f <1.4 (5) It can be formed so as to satisfy the condition of 0.2 <f 11 / f 12 <0.4.

【0006】[0006]

【作用】以下に各条件式について説明する。本発明の投
影レンズは、長いバックフォーカスを持ち、且つテレセ
ントリック性を維持するために、絞りを挟んで負の屈折
力を持つ第1レンズ群G1と正の屈折力を持つ第2レン
ズ群G2とを有するレトロフォーカスレンズを基本構成
とし、主としてカラー液晶プロジェクション用の投影レ
ンズとして用いることを念頭に置いている。したがって
条件式(1)の下限を越えると、ダイクロイックミラー
等を配置する必要性と、非常に短い撮影距離を達成する
という両条件を満足できなくなる。[Function] Each conditional expression will be described below. The projection lens of the present invention has a long back focus, and in order to maintain telecentricity, the first lens group G 1 having a negative refracting power and the second lens group G having a positive refracting power across the diaphragm. The basic structure is a retrofocus lens having 2 and it is mainly used as a projection lens for color liquid crystal projection. Therefore, if the lower limit of conditional expression (1) is exceeded, it becomes impossible to satisfy both the requirements of disposing a dichroic mirror and the like and achieving an extremely short shooting distance.

【0007】条件式(2)は、レンズ系の大きさとバッ
クフォーカスおよび光学性能を良好に保つための条件で
ある。条件式(2)式の上限を越えると、レトロフォー
カス型の構成が弱くなるので、バックフォーカスを長く
保つのが困難になる。すなわちバックフォーカスをあえ
て長くするためには、第1レンズ群G1と第2レンズ群
2との主点間隔Dを大きくする必要からレンズ長が長
くなり、それに伴って第1レンズ群G1の外径が大きく
なる。また条件式(2)の下限を越えると、第1レンズ
群G1の屈折力が強くなり過ぎて像面湾曲がプラス側に
なるとともに、負の歪曲収差が発生する。Conditional expression (2) is a condition for keeping the size of the lens system, the back focus, and the optical performance favorable. If the upper limit of conditional expression (2) is exceeded, the retrofocus type structure becomes weak, and it becomes difficult to maintain a long back focus. That is, in order to intentionally lengthen the back focus, it is necessary to increase the distance D between the principal points of the first lens group G 1 and the second lens group G 2 , so that the lens length becomes longer, and accordingly the first lens group G 1 The outer diameter of If the lower limit of conditional expression (2) is exceeded, the refracting power of the first lens group G 1 will become too strong, the field curvature will become positive, and negative distortion will occur.

【0008】また、前述のごとくリアプロジェクターと
して用いる場合、装置の小型化すなわち共役長の短い広
画角なレンズが要求されるが、条件式(3)は、レンズ
全体の大型化を防ぎつつ、バックフォーカスを確保する
ための条件である。条件式(3)の上限を越えると、バ
ックフォーカスを確保するには有利であるが、レンズ系
全体の大型化を招き、広画角を得るためにも共役長が大
きくなり、コンパクトな装置を実現できなくなる。また
条件式(3)の下限を越えると、第1レンズ群G1の屈
折力が弱くなって広画角化を実現できなくなる。When used as a rear projector as described above, a compact device, that is, a wide-angle lens with a short conjugate length is required. Conditional expression (3) prevents the overall size of the lens from increasing. This is a condition for securing the back focus. If the upper limit of conditional expression (3) is exceeded, it is advantageous to secure the back focus, but this leads to an increase in the size of the entire lens system, and the conjugation length increases to obtain a wide angle of view. It will not be possible. If the lower limit of conditional expression (3) is exceeded, the refracting power of the first lens group G 1 will be weakened and it will not be possible to achieve a wide angle of view.

【0009】条件式(4)は、長いバックフォーカスを
保ちながらより良い光学性能を得るための条件である。
条件式(4)の下限を越えると、第1レンズ群第1部分
群G11と第1レンズ群第2部分群G12との合成屈折力、
すなわち第1レンズ群G1の屈折力が小さくなるため
に、各部分群G11,G12の屈折力を高めると、特にコマ
収差や歪曲収差に悪影響を及ぼす。また条件式(4)上
限を越えると、レンズ系の大型化を招く。Conditional expression (4) is a condition for obtaining better optical performance while maintaining a long back focus.
If the lower limit of conditional expression (4) is exceeded, the combined refractive power of the first lens group first partial group G 11 and the first lens group second partial group G 12 ,
That is, since the refracting power of the first lens group G 1 becomes small, increasing the refracting power of each of the subgroups G 11 and G 12 adversely affects coma and distortion in particular. If the upper limit of conditional expression (4) is exceeded, the size of the lens system will be increased.

【0010】条件式(5)は、より良い光学性能を得る
ための条件である。条件式(5)の下限を越えると、第
1レンズ群の第2部分群G12に対する第1部分群G11
屈折力が強くなり、コマ収差や歪曲収差が補正しきれな
くなる。また条件式(5)の上限を越えると、第1部分
群G11に対する第2部分群G12の屈折力が強くなり、球
面収差が補正しきれなくなる。Conditional expression (5) is a condition for obtaining better optical performance. If the lower limit of conditional expression (5) is exceeded, the refracting power of the first sub-group G 11 with respect to the second sub-group G 12 of the first lens group will become too strong, and coma and distortion will not be completely corrected. If the upper limit of conditional expression (5) is exceeded, the refracting power of the second partial group G 12 with respect to the first partial group G 11 will become too strong, and spherical aberration will not be completely corrected.

【0011】[0011]

【実施例】本発明の実施例を図面を参照して説明する。
図1は本発明による投影レンズの一実施例のレンズ構成
図を示し、この実施例の投影レンズは、絞りSを挟んで
拡大側(図面下側)に配置された第1レンズ群G1と、
絞りSを挟んで縮小側(図面上側)に配置された第2レ
ンズ群G2とによって構成されている。第1レンズ群G1
は、第1レンズ群G1における最も大きな空気間隔を隔
てて拡大側に配置された第1レンズ群第1部分群G
11と、絞りS側に配置された第1レンズ群第2部分群G
12とによって構成されている。第1レンズ群第1部分群
11と第1レンズ群第2部分群G12は、共に全体として
負の屈折力を有し、したがって第1レンズ群G1もまた
全体として負の屈折力を有する。他方、第2レンズ群G
2は全体として正の屈折力を有する。第1レンズ群第1
部分群G11は5枚のレンズからなる。第1レンズ群第2
部分群G12は4枚のレンズからなり、3枚目の正レンズ
と4枚目の負レンズは接合されている。第2レンズ群G
2は7枚のレンズからなり、1枚目の正レンズと2枚目
の負レンズ、及び5枚目の負レンズと6枚目の正レンズ
は接合されている。An embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows a lens configuration diagram of an embodiment of a projection lens according to the present invention. The projection lens of this embodiment includes a first lens group G 1 arranged on the enlargement side (lower side in the drawing) with a diaphragm S interposed therebetween. ,
The second lens group G 2 is arranged on the reduction side (upper side in the drawing) with the diaphragm S interposed therebetween. First lens group G 1
Is the first lens group G 1 which is arranged on the enlargement side with the largest air gap in the first lens group G 1 .
11 and the first lens group second partial group G disposed on the diaphragm S side
It is composed of 12 and. Both the first lens group first partial group G 11 and the first lens group second partial group G 12 have a negative refractive power as a whole, and therefore the first lens group G 1 also has a negative refractive power as a whole. Have. On the other hand, the second lens group G
2 has a positive refractive power as a whole. 1st lens group 1st
Subgroup G 11 consists of five lenses. First lens group Second
The partial group G 12 is composed of four lenses, and the third positive lens and the fourth negative lens are cemented together. Second lens group G
Reference numeral 2 is composed of seven lenses, and the first positive lens and the second negative lens, and the fifth negative lens and the sixth positive lens are cemented.

【0012】以下の表1に本実施例のレンズ諸元を示
す。表1中、第1カラムは物体側からのレンズ面の番
号、第2カラムはレンズ面の曲率半径r、第3カラムは
レンズ面間隔d、第4カラムはアッベ数ν、第5カラム
は屈折率nのd線(λ=587.6nm)に対する値、
第6カラムはレンズ群番号を表す。また以下の表2に本
実施例の全体諸元と条件式対応値を示す。Table 1 below shows lens specifications of this embodiment. In Table 1, the first column is the lens surface number from the object side, the second column is the radius of curvature r of the lens surface, the third column is the lens surface spacing d, the fourth column is the Abbe number ν, and the fifth column is the refraction. Value for the d-line (λ = 587.6 nm) of the index n,
The sixth column represents the lens group number. Table 2 below shows the overall specifications of this embodiment and the values corresponding to the conditional expressions.

【0013】[0013]

【表1】 r d ν nd 1 567.2338 7.0000 58.50 1.651599 G11 2 126.7724 12.0000 3 352.5119 21.0000 69.98 1.518601 G11 4 10000.0000 0.2000 5 184.7490 6.0000 48.04 1.716999 G11 6 78.2374 17.0000 7 98.5268 11.0000 55.60 1.696800 G11 8 120.7421 7.0000 9 246.7612 5.0000 48.04 1.716999 G11 10 133.6677 55.8000 11 56.5738 5.0000 55.60 1.696800 G12 12 33.3210 7.0000 13 67.2861 25.0000 47.10 1.623741 G12 14 226.7105 9.0000 15 150.5215 8.0000 25.41 1.805182 G12 16 -39.6899 3.5000 46.54 1.805109 G12 17 107.6598 5.0000 18 (絞り) 15.3271 19 -364.7892 14.0000 69.98 1.518601 G2 20 -39.0320 4.0000 40.90 1.796310 G2 21 -420.0000 1.0000 22 -240.0000 15.0000 65.42 1.603001 G2 23 -59.9000 0.1000 24 -135.0000 10.0000 82.52 1.497820 G2 25 -69.0000 0.2000 26 -900.0000 2.5000 25.41 1.805182 G2 27 130.0000 18.0000 82.52 1.497820 G2 28 -95.0000 0.2000 29 362.2370 10.0000 82.52 1.497820 G2 30 -258.1096 bf[Table 1] r d ν n d 1 567.2338 7.0000 58.50 1.651599 G 11 2 126.7724 12.0000 3 352.5119 21.0000 69.98 1.518601 G 11 4 10000.0000 0.2000 5 184.7490 6.0000 48.04 1.716999 G 11 6 78.2374 17.0000 7 98.5268 11.0000 55.60 1.696800 7.0000 11 8 120.7421 246.7612 5.0000 48.04 1.716999 G 11 10 133.6677 55.8000 11 56.5738 5.0000 55.60 1.696800 G 12 12 33.3210 7.0000 13 67.2861 25.0000 47.10 1.623741 G 12 14 226.7105 9.0000 15 150.5215 8.0000 25.41 1.805182 G 12 16 -39.6899 3.5000 46.54 17.8109 5.9 12 ) 15.3271 19 -364.7892 14.0000 69.98 1.518601 G 2 20 -39.0320 4.0000 40.90 1.796310 G 2 21 -420.0000 1.0000 22 -240.0000 15.0000 65.42 1.603001 G 2 23 -59.9000 0.1000 24 -135.0000 10.0000 82.52 1.497820 G 2 25 -69.0000 0.2000 26 -900.0000 2.5000 25.41 1.805182 G 2 27 130.0000 18.0000 82.52 1.497820 G 2 28 -95.0000 0.2000 29 362.2370 10.0000 82.52 1.497820 G 2 30 -258.1096 bf

【0014】[0014]

【表2】[全体諸元] bf: 154.99 f: 47.00 f1: −60.49 f2: 85.35 D: 134.72 d: 55.80 f11:−103.01 f12:−333.97 2ω: 71.48° FNO: 3.3 [条件対応値] (1)bf/f=3.30 (2)|f1/f2|=0.71 (3)|D/f1|=2.2 (4)d/f=1.2 (5)f11/f12=0.3[Table 2] [General Data] bf: 154.99 f: 47.00 f 1: -60.49 f 2: 85.35 D: 134.72 d: 55.80 f 11: -103.01 f 12: -333.97 2ω: 71.48 ° F NO: 3.3 [ condition corresponding values] (1) bf / f = 3.30 (2) | f 1 / f 2 | = 0.71 (3) | D / f 1 | = 2.2 (4) d / f = 1.2 (5) f 11 / f 12 = 0.3

【0015】図2に本実施例の球面収差と非点収差と歪
曲収差を示す。球面収差はd線に対する収差を表し、点
線は正弦条件を表す。非点収差もd線に対する収差を表
し、破線はメリジオナル像面を表し、実線はサジタル像
面を表す。図2中NAは開口数、Yは像高を表す。各収
差図より明らかなように、本実施例では諸収差が良好に
補正されていることが判る。すなわち本実施例では前述
のレンズ系の構成をとり、更に条件式(1)〜(5)を
満足する構成をとることにより、バックフォーカスが十
分に長く、縮小側のテレセントリック性が高く、広画角
で大口径であり、しかも諸収差が良好に補正された投影
レンズを実現している。FIG. 2 shows the spherical aberration, astigmatism and distortion of this embodiment. The spherical aberration represents the aberration with respect to the d line, and the dotted line represents the sine condition. Astigmatism also shows the aberration with respect to d line, a broken line shows a meridional image surface, and a solid line shows a sagittal image surface. In FIG. 2, NA represents the numerical aperture and Y represents the image height. As is clear from each aberration diagram, it is understood that various aberrations are satisfactorily corrected in this example. That is, in this embodiment, by adopting the above-mentioned lens system configuration and further satisfying the conditional expressions (1) to (5), the back focus is sufficiently long, the telecentricity on the reduction side is high, and the wide image is wide. The projection lens has a large diameter at the corners and various aberrations are well corrected.

【0016】[0016]

【発明の効果】以上の如く、本発明によれば液晶プロジ
ェクターに用いるのに好適な投影レンズを得ることがで
きる。As described above, according to the present invention, a projection lens suitable for use in a liquid crystal projector can be obtained.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明の一実施例を示すレンズ構成図FIG. 1 is a lens configuration diagram showing an embodiment of the present invention.

【図2】該実施例の諸収差図FIG. 2 is a diagram showing various aberrations of the example.

【符号の説明】[Explanation of symbols]

1…第1レンズ群 G11…第1レンズ群
第1部分群 G12…第1レンズ群第2部分群 G2…第2レンズ群
S…絞りG 1 ... 1st lens group G 11 ... 1st lens group 1st partial group G 12 ... 1st lens group 2nd partial group G 2 ... 2nd lens group S ... diaphragm

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】絞りを挟んで拡大側に配置され、正レンズ
と負レンズとの接合よりなる接合レンズを少なくとも1
つ有し、全体として負の屈折力を有する第1レンズ群G
1と、前記絞りを挟んで縮小側に配置され、正レンズと
負レンズとの接合よりなる接合レンズを少なくとも1つ
有し、全体として正の屈折力を有する第2レンズ群G2
とによって構成され、 前記第1レンズ群G1の結像倍率が最も小さい状態にお
ける前記第2レンズ群G2の最終レンズ面から前記縮小
側の共役点までの距離をbfとし、全系の焦点距離をf
とし、前記第1レンズ群G1と第2レンズ群G2との焦点
距離をそれぞれf1とf2とし、これらの両レンズ群
1,G2の主点間隔をDとしたとき、 (1)3.0<bf/f (2)0.55<|f1/f2|<0.75 (3)2.0<|D/f1|<2.4 なる条件を満足することを特徴とする投影レンズ。1. At least one cemented lens, which is disposed on the enlargement side with a diaphragm interposed between and consists of a positive lens and a negative lens.
And the first lens group G having a negative refracting power as a whole
1 and a second lens group G 2 which is disposed on the reduction side across the diaphragm and has at least one cemented lens formed by cementing a positive lens and a negative lens, and has a positive refracting power as a whole.
And the distance from the final lens surface of the second lens group G 2 to the conjugate point on the reduction side in the state where the imaging magnification of the first lens group G 1 is the smallest, and bf is the focal point of the entire system. Distance f
When the focal lengths of the first lens group G 1 and the second lens group G 2 are f 1 and f 2 , respectively, and the principal point distance between these two lens groups G 1 and G 2 is D, 1) 3.0 <bf / f ( 2) 0.55 <| f 1 / f 2 | <0.75 (3) 2.0 <| D / f 1 | satisfies the <2.4 condition: Is a projection lens. 【請求項2】前記第1レンズ群G1は、該第1レンズ群
1における最も大きな空気間隔を隔てて前記拡大側に
配置され、全体として負の屈折力を有する第1レンズ群
第1部分群G11と、前記空気間隔を隔てて前記絞り側に
配置され、正レンズと負レンズとの接合よりなる前記接
合レンズを少なくとも1つ有し、全体として負の屈折力
を有する第1レンズ群第2部分群G12とを有し、 前記第1レンズ群第1部分群G11と第1レンズ群第2部
分群G12との焦点距離をそれぞれf11とf12とし、これ
らの両部分群G11,G12の空気間隔をdとしたとき、 (4)1.0<d/f<1.4 (5)0.2<f11/f12<0.4 なる条件を満足することを特徴とする請求項1記載の投
影レンズ。2. The first lens group G 1 is arranged on the enlargement side with the largest air gap in the first lens group G 1 and has a negative refracting power as a whole. a subgroup G 11, said an air space is disposed on the diaphragm side, having the cemented lens consisting of the junction between the positive lens and the negative lens at least one first lens having a negative refractive power as a whole and a group second subgroup G 12, and the focal length of each f 11 and f 12 of the first lens group first subgroup G 11 and the second subgroup G 12 first lens group, both of these When the air gap between the subgroups G 11 and G 12 is d, the condition of (4) 1.0 <d / f <1.4 (5) 0.2 <f 11 / f 12 <0.4 is satisfied. The projection lens according to claim 1, wherein:
JP7248390A 1995-09-01 1995-09-01 Projecting lens Pending JPH0968650A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP7248390A JPH0968650A (en) 1995-09-01 1995-09-01 Projecting lens

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP7248390A JPH0968650A (en) 1995-09-01 1995-09-01 Projecting lens

Publications (1)

Publication Number Publication Date
JPH0968650A true JPH0968650A (en) 1997-03-11

Family

ID=17177401

Family Applications (1)

Application Number Title Priority Date Filing Date
JP7248390A Pending JPH0968650A (en) 1995-09-01 1995-09-01 Projecting lens

Country Status (1)

Country Link
JP (1) JPH0968650A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH1028164A (en) * 1997-03-21 1998-01-27 Sony Corp Telephone device
US6822804B2 (en) 2002-11-27 2004-11-23 Tamron Co., Ltd. Projection lens and liquid crystal projector
JP2005292344A (en) * 2004-03-31 2005-10-20 Nikon Corp Retrofocus lens
CN100458488C (en) * 2006-01-24 2009-02-04 亚洲光学股份有限公司 Fixed focus projection lens
JP2009210748A (en) * 2008-03-04 2009-09-17 Nikon Corp Photographic lens, optical equipment having the photographic lens, and imaging method using the photographic lens

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH1028164A (en) * 1997-03-21 1998-01-27 Sony Corp Telephone device
US6822804B2 (en) 2002-11-27 2004-11-23 Tamron Co., Ltd. Projection lens and liquid crystal projector
JP2005292344A (en) * 2004-03-31 2005-10-20 Nikon Corp Retrofocus lens
CN100458488C (en) * 2006-01-24 2009-02-04 亚洲光学股份有限公司 Fixed focus projection lens
JP2009210748A (en) * 2008-03-04 2009-09-17 Nikon Corp Photographic lens, optical equipment having the photographic lens, and imaging method using the photographic lens

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