DE1280573B - Photographic or cinematographic lens with a larger field of view - Google Patents

Description

Photographic or cinematographic lens with a larger field of view The invention. relates to a larger photographic or cinematographic lens Angle of view performance and with a back focus that is greater than the total focal length of the system.

There are lenses of this performance requirement known in which one three- or four-membered, facing the side of the shorter beam width (= image side) System part collecting total refractive power with a larger air gap a preferably Meniscus-shaped dispersing member is arranged in front. The one on the image side, as a triplet system part built up or triplet variant usually consists of a negative link, the refractive power that collects one or two lenses or lens elements on both sides assigned. Such lenses are intended primarily for so-called "one-eyed" SLR cameras or for installation in standardized, fixed with the camera connected central locks, where additional, mechanically conditioned installation requirements exist.

The system according to the invention with a relative opening of at least 1: 2.8 and a field of view of about 63 ° is aimed at lenses of those Design in which in the image-side system part the mentioned, designed as a single lens The negative element on the objective side has two individual lenses with a collective refractive power and on the Side of the shorter beam length (--- image side) one of two lenses opposite one another Refractive power cemented link - also positive total refractive power - assigned are. This system part has an air gap that is less than 0.3 times the total focal length of the system, made up of two elements with alternating refractive power upstream dispersive effect group, the combination focal length of which is smaller than 1.4 times the total focal length of the system.

In a system of this basic structure, the aim of the invention is to achieve a substantial increase in performance in contrast reproduction by improving the diffraction error and asymmetry error and is characterized by the following construction data Focal ratio 1: 2.8; f '= 100 mm; s' = 106.4 mm. r, = + 140.22 n 'pe d, = 9.26 1.67245. 4471 r2 = -843.10 L 'd2 = 0.28 air gap I r3 = 0o La d3 = 4.21 1.51871 63.96 r4 = +35.17 d4 = 21; 61 air gap r5 = +87.17. L3 d 5 = 7.02 1.62287 60.06 r6 = -550.5l 4b = 0.28 air gap r, _ +44.93 1 # d, = 5.61 1.62287 60.06 r $ _ +80.30 d $ = 8.42 air gap H r9 = +665.16 4 d9 = 7.30 1.62410 36.10 '@, @ + 41.4S d, o --- 8.70 air gap r11 = +959.86 1. @ d11 = 2.81 1.57046 42.57 r12 = +42.13 L, d12 = 16.8a 1.62287 60.06 - r13 = -49.17 _ - _ d = 92.34 The following conditions are met: a) 1 <I ne ne (<1.8 for f '= 1, - r4 b) _ 0.60 f '<f, < _ 080 c) + 0.08 < ne ne <+ 0.20 for f '= i. r12 According to this, the increase in the refractive power on the hollow surface (r4) facing the image-side system part of the object-side action group - an overcorrection of the refractive error and in this sense favors the course of the lower coma rays. The resulting portion of this area of the aperture error in the third order is compensated for by reducing the refractive power of the front - object-side - boundary surface of the Negafi part in the image-side system part such that the absolute focal length (fs) of this element is greater than 60o / f the Total focal length of the system, but less than 80% of the same.The refractive power ratio of the boundary surfaces (r9: r10) on this negative element is chosen so that the condition d) 110 pxg i <__ 1 plo 1 is fulfilled To eliminate the overcorrection of the upper coma rays and to reduce the astigmatism, in the system constructed according to the invention, the eye power of the collecting cement surface in the last link must be increased to between +0.08 and +0.20 compared to known systems of this construction - based on the braking distance 1- lies.

In accordance with the sectional view of the drawing mean r1 to r13 are the radius lengths of the six made up of a total of seven lenses L1 to 4 Members of the system according to the invention, of which the first two to the front Action group V negative total refractive power and the four links on the image side the rear impact group H are composed of positive total refractive power. dl to d12 denote the lens thicknesses and their air gaps. The refractive indices and Ny values of the optical glasses are given for the e-line of the spectrum.

Claims (1)

Claim: A photographic or cinematographic lens with a greater field of view and a focal length that is greater than the total focal length of the system, characterized by the following design data: Opening ratio 1: 2.8; s' = 106.4. r1 = +140.22 ne ve L1 dl = 9.26 1.67245 44.71 "r2 = -843.10 V 'dz = 0.28 air gap r3 = 00 L2 d3 = 4.21 1.5187 1 63.96 r4 = +35.17 d4 = 21.61 air gap r5 = +87.17 13 d5 = 7.02 1.62287 60.06 r6 = -550.51 d6. = 0.28 air gap - r 7 _ +44.93 L4 d 7 = 5.61 1.62287 60.06 r $ _ +80.30 d8 = 8.42 air gap H r9 = + 665, l6 "L5 d9 = 7.30 1.62410 36.10 no = +41.45 "dlo = 8.70 air gap r11 = +959.86 Ls dl, = 2.81 1.57046 42.57 r12 = +42.13, L7 d12 = 16.84 1.62287 60.06 r13 = -4p, 17 --.- "I d = 92.34 Considered publications: Deutsche Auslegesehrift No. 1 04.4 440; German utility model No. 1759 211.