DE1109916B - Fast lens with a dispersing front part - Google Patents

Description

Fast lens with a dispersing front part The invention relates to a fast lens, whose dispersing front part can be shifted of the rear main point behind the last surface of the lens is used and from one Positive lens and two meniscus-shaped negative lenses following it. In one greater distance are two positive lenses, preferably one biconvex lens and one meniscus bent towards the object, before and after the iris diaphragm a meniscus with negative refractive power bent towards the object and a biconvex lens arranged.

In order to obtain a bright lens of this type with a good correction of the chromatic aberration, the spherical aberration, coma and distortion and an image field that is leveled for large angles of view and free of astigmatism, the lens is designed according to the invention with the following specified features: The positive lens of the front member has at least 5 times the focal length of the objective, and the first negative lens has a greater v-value than the second negative lens. The two positive lenses in front of the iris diaphragm turn their more curved surfaces towards each other. This is also the case with the negative lens arranged after the iris diaphragm, with an exponent for the nd line above 1.70 and the biconvex lens following it with a refraction exponent for the nd line above 1.62. In addition, the more curved radii of the negative lenses should be greater than 50% of the focal length of the lens, the last air space smaller than 25% of the example 1 Y1 = +645.25 na dl = 32.0 1.7174 29.5 r @ = o0 +289.25 1 1 = 5.0 r4 = +89.04 d2 = 21.0 1.5687 63.1 + 186.75 f- = 32.0 r. _ -f-80.17 d3 = 21.0 1.5822 42.0 r7 = +885.60 1.3 = 106.1 r8 = -155.10 d4 = `4.5 1.5687 63.1 r = + 101.05 14 = 14.0 ds = 37.0 1.5687 63.1 r10 = +250.15 r11 = -I-246.20 15 = 32.0 d = 9.5 1.8052 25.5 r1_ _ +66.15 r1 ;; = +102.94 1 0 = 10.8 r14 = -196.14 d7 = 32.0 1.6779 55.5 Focal length, and the sum of the first three lens thicknesses and the first three air spaces at least twice as large as the lens focal length.

In Fig. 1 and 2 are two embodiments according to one of the Invention trained lens specified in which all the conditions listed above are fulfilled. An objective according to the invention consists of a positive lens 1, two meniscus-shaped negative lenses 2 and 3, a biconvex lens 4, a positive meniscus 5, a meniscus of negative refractive power 6 and a biconvex lens 7. Between the positive meniscus 5 and the meniscus 6 is a schematically illustrated iris diaphragm B.

The figures given in Examples 1 and 2 below relate to an objective 1: 2 f = 100 mm with an angle of view of approximately 65 °. Example 2 na v r1 = +737.70 Y2 00 di = 30.5 1.8052 25.5 = r3 = +359.05 11 = 5'0 r = +91.04 d2 - 21.5 1.5225 59.1 4 12 = 35.7 r5 = + 182.45 r. _ +83.88 d3 = 2 1 , 5 1.6477 33.9 rt = +1161.55 L = 108.0 r $ = -170.10 d4 = 46.0 1.6200 60.3 r9 = +108.12 14 = 9.0 ri0 = +249.10 d5 - 38.0 1.6200 60.3 rii = +371.08 15 = 35.0 r12 = +70.42 d 6 - 8.5 1.8052 25.5 ri3 = +106.10 16 = 9 @ 5 r14 = -174.95 d7 = 31.0 1.6935 53.6

Claims (1)

PATENT CLAIM: A bright lens, the front part of which is used to shift the rear main point behind the last surface of the lens, consisting of a positive lens and two meniscus-shaped negative lenses following it, with two positive lenses at a greater distance in front of the iris diaphragm and one also after the object to bent meniscus of negative refractive power and a biconvex lens, characterized in that the positive lens (1) of the front member has at least 5 times the objective focal length, the first negative lens (2) has a greater v-value than the second negative lens (3), that the two Positive lenses (4) and (5) on the one hand and the negative lens (6) with an exponent for the nd line above 1.70 and the following biconvex lens (7) with an exponent for the lad line above 1.62 on the other hand, their stronger facing each other so that the more curved radii of the negative lenses (2, 3 and 6) are larger than 5011 / o and the last air space l ,, is smaller than 2511 / o of the lens focal length and that the sum of the first three thicknesses (dl, t1 "d;) and the first three air spaces (h, 1z, l3) at least twice as large as the focal length of the lens.