DE1120175B - Four-lens afocal attachment system for shortening the focal length of a downstream lens - Google Patents

Description

Four-lens afocal attachment system to shorten the focal length a downstream lens In the main application is one consisting of four lenses afocal attachment system to shorten the focal length of a downstream, z. B. photographic lens placed under protection, the individual lenses one after the other having a collecting, dispersing, dispersing and collecting effect, its first lens is on the object side convex and whose third lens is bent meniscus-shaped towards the object.

This resolution has the advantage that if corrected well, it is a allows relatively small diameter of the front lens, which is not larger than 1.5 times the length needs to be 1, and results in an exit pupil whose Distance from the last lens is greater than 0.6 times the overall length 1, with under the length 1 the distance between the first lens vertex and the last lens vertex of intent is understood.

A particularly advantageous attachment system is obtained if one works for the components selects the values given in the table below.

In the table, the individual lenses are designated with L, with r the radii, with d the thicknesses and air gaps, with ne, na and np the refractive indices for the red hydrogen line (C), for the yellow helium line (d) and for the blue one Hydrogen line (F). Lenses #mmimgsradius curvature vertex distance nn d na r K rd r ,. = + 2.42472 - 1 -h 0.41242: 1 Li d ,. = 0.11950 - 1 1.74728 1.75520 1.77471 r2 = o0 0 d2 = 0 r3 = co 0 Lu d3 = 0.03585-1 1.63506 1.63854 1.64657 r4 = + 0.66398 - 1 + 1.60507: 1 d4 = 0.24283 - 1 re = -f- 3.09680 -1 -I- 0.32291: 1 Liii d, = 0.03585 - 1 1.66495 1.66998 1.68204 rB = -I- 0; 84802-1 + 1.17922: 1 dB = 0.28394 - 1st r7 _ -I- 0.95151 - 1 -f- 1.05097: 1 Liv d7 = 0.28203 - 1 1.46232 1.46450 1.46938 r8 = - 1.36351 - 1 - 0.73340: 1 These values correspond to an example carried out with the telescope magnification 1 '= 0.625. The free opening of the front lens of 1.35 - 1 is sufficient to capture an angle of 75 ° on the object side, and the exit pupil is 0.85 - Z behind the last lens vertex. This system is shown in section in the drawing; It consists of a front dispersing member, the two separately drawn lenses Li and Li of which can also be cemented together, as well as a single standing meniscus Li, which is bent towards the object side, and a further collecting lens LIP.

Claims (1)

PATENT CLAIM: An afocal attachment system consisting of four lenses for shortening the focal length of a downstream lens according to patent application H 38 223 IX / 42b, the individual lenses of which are successively collecting, dispersing, dispersing and collecting, the first lens is convex on the object side and the third lens after the object is bent in the shape of a meniscus, characterized in that its structural elements come so close to the values shown in the table below that every curvature by no more than each vertex distance d deviates by no more than iL 0.2 - 1 and each refractive index n by no more than: 1 - 0.1 from the value given in the table, the refractive indices for the red hydrogen line C with ne, for the yellow helium line d with na and for the blue hydrogen line F with nF, and 1 is the length of the attachment: Radius of curvature curvature vertex distance Lenses 1 nc 1z ,, "F rxrd r1 = -I- 2.42472-1 -I- 0.41242: 1 LI dl = 0.11950 - 1 1.74728 1.75520 1.77471 r2 = 0c 0 dz = 0 r3 = co 0 Lii 4 3 = 0.03585 # 1 1.63506 1.63854 1.64657 r4 = - [- 0.66398 -1 -f- 1; 50607: 1 d4 = 0.24283 # 1 r5 = -I- 3.09680 -1 -I- 0.32291: 1 LIU d5 = 0.03585 1 1.66495 1.66998 1.68204 - r6 = -I- 0.84802 -1 -f- 1.17922: 1 de = 0.28394 - 1 r7 = -f- 0.95151 - 1 + 1.05097: 1 Liv d 7 = 0.28203-1 1.46232 1.46450 1.46938 r8 = - 1.36351 - 1 - 0.73340: 1