DE1547127A1 - Photographic lens with variable focal length - Google Patents

Description

Photographic objective with variable focal length t> The invention relates to a photographic objective with variable i) running distance dh9 a lens system whose magnification factor and focal length can be continuously changed with an unchanged imaging plane.

In known lens systems of this type, the compensation of the aberrations in the S-Lellu ", s with the largest and the smallest, 3range width usually leads to a slight correction of the aberrations in the position with medium focal lengths. The object of the invention is is now in the systems Ochaffung a lens C> in which this disadvantage is eliminated, and a further magnification of the coma in positions in the middle '11a11 Jaa image-U field is prevented. this object is achieved according to claim 1. An embodiment of the invention, -, -, r economic of the drawings t - rläute-rt. Indie shows Ili-. 1 an inventive, sweet Linjensistem in a, 2 - i 'Uc-t'n U # II _ ;. jgehnitt .at (B) and (0) in itellun-e - i with an f of 1009 2u0 or 270 2 is a DarL; utellun-j of the üe3 Lin.; En- systema at iC = 100 am and Pit -, - 3 a graphic representation of the image fire of the - the same lens system at f = 270 cm. in Ag. 1 is the lens group 1 (resulting inner diameter F 1) a collecting lens system with lenses 11, 129 L 3 and 14. ' IJ 1 is a convex lirL-.e with a ti facing the object flat surface, L 2 a biconcave lens, the more curved one Surface facing the object, 1 a biconve. ". E Lin3e, whose more curved surface is turned towards the picture, and 1 one C> 4 Veniscus converging lens, the convex surface of which faces the 0th object is. The group 2 with the resulting within distance .22 is a cer- scattering lens system through its movement of the enlargement zi - »Z> factor is changed and that from the lenses 1 5 'L61 L7 and L 8 consists. 1 5 is a biconvel linaeg that runs on both approximately the ' - real 4 -. rü - mood ,; Has. An i.eniskuz --- jamming lens 1 6 and a biconcave lens 1 7 are more curved with theirs Plakes cemented together. 16 la is a biconcave lens seg Deal stronger, no curved surface is facing the object. The "zrulipe 3 with the resulting focal length F 3 is a composite iaeIndea iin3ensystem, which almost arranged opposite the group 1 is and uus den Lin .--, en Lg. lj " nl L, 1 ordered L 9 is a whose more curved planes dem Facing the object. Zine biconcave lens L 10 and a bicon- vex lens 1 11 are on their more curved 2 surfaces with each other the cemented. The u, * 'x group 4 with the resulting focal length P 4 is a main liiisenairstt3ia "by the movement of which the enlargement is changed, i # s consists of two converging lenses and two diffusing lenses. Of these lenses, 1 12 is a bikanvex lens suction whose more strongly curved surface faces the # -A object # 1 13 a biconcave lens, the more curved surface of which matches the image is true, 1 geni8kus-diversion-slinseg whose strong- t> 14 a Iter area facing the object is $ and 1 15 one biconvex lens, the more strongly curved surface of which gives the image turns-is. By moving groups 2 and 4 at the same time, the Focal length changed. The aperture ratio is 1t4t5. The focal length f can. can be changed between 100 mm and 270 mm. The lens system also fulfills the following conditions: Here fi - the resulting focal length up to the i-th surface, in contrast to the resulting focal lengths Fit P29 23 and F 4 -of the groups mentioned, g ni is the refractive index of the glass of the J-th lens segment and r k is the radius of curvature of the k- th lens surface.

If these conditions are met, an object is obtained with variable focal length, in the dl coma, the spherical Excellent correction of aberrations and other aberrations C> are. 1 result of the conditions and it is possible to prevent the enlargement of the coma of light rays that strike further from the center of the lens at relatively large focal lengths. Furthermore, these conditions contribute to the fact that the spherical aberration is only slightly changed in the entire focal length range. The condition prevents enlargement de; Comas in rays of light that strike closer to the center of the lens.

The conditions prevent an enlargement. Koma4 at relatively '-lt,> in focal length and contribute to the fact that the spherical - deviation,' is excellently corrected.

The following are the data of the lens system shown in FIG. 1 , which fulfills the following conditions: 0 1t495 f = 100 to 270 mm r d 1 1 OQ 4950 1952630/5190 2 -1669077 3900 - 3 - 99.000 1150 196Q562 / 43.9 4 2319100 2900 5 4659000 8950 1i510-33 / 64t1 r d 6 - 899 613 0910 7 969500 4900 1951633/6491 8 1649013 5, ü0 to 101998 9 -3509000 2950 - 1972000/5093 10 3879539 2950 11 -5509000 6900 1974077/2797 12 - 639385 2950 1967000/5197 13 3519918 2g84 14 -2009000 1950 1972000/5093 15 11489125 105900 to 8902 16 - 469500 2984 1964000/6092 17 - 639780 0928 18 -13'i0.000 2913 1960562/4399 19 609960 iogoo 1965160 / 58.5 20 -1029539 13.00 to 1999 21 479000 8900 1965100/5598 22 -317p405 7950 23 -1699000 3900 1974000/2892 24 1019145 jOt68 25 - 279500 2950 1972342 / 38t0 26 - 489 171 0t15 27 2009000 5280 le69895 / 3090 28 -1249236 The sum of the Seidel coefficients of this lens system are as follows For f = 100: LT "= 192 4M si S2 3 5 Total 094580 092356 -0v0508 -0v0333 192230 klür f = 2'10: LT = 195 mm si S2 S 3 IP S 5 Total 0.8206 -0.6116 191050 -0.0891 -395310 LT = position of the inlet opening The Sunmen C.er Seidel coefficients are reversed for f = 1 calculate!. The aberrations of this lens system are in the 2i "-ureii - 2 and 3 shown graphically.,

Claims (1)

Claim: Photographic lens with variable focal length, characterized in that it consists of lens groups 1 to 4 as indicated in the description, and meets the following requirements: C>U> where Fly p29 23 # and F4 are the resulting focal lengths of the lens groups and fi the resulting focal length up to the i-th surface, nj the refraction exponent of the glass of the J-th lens L i and rk the radius of curvature of the k-th lens surface.