DE398431C - Telephoto lens - Google Patents

Description

Telephoto lens. With telephoto lenses, which consist of a corrected lens, the positive, and a corrected system separated from it by an air space before. Passing a negative focal length, your negative, is the goal with good image sharpness to achieve the greatest possible brightness.

The new lens is designed to meet these requirements for a small number of lens elements. If you look at a final chromatic correction from, the spherical correction alone is already in a perfect degree with three To achieve lens elements, namely with a positive that consists of a diverging lens with a raised outer surface and a subsequent converging lens with a raised surface consists, and one. Negative, which consists of a hollow surface that turns away from the positive simple diverging lens.

Refractive effect and influencing the spherical correction on putty surfaces is therefore excluded; the correction is made exclusively by bordering on air Surfaces (outer surfaces) brought about. In the described type of outer surface sequence if the bundle of rays entering the lens gives each surface its convexity, so that the entrance angles and exit angles of the outermost marginal rays on one very small amount can be kept. This success is due to the two the following characteristics of the new design guaranteed.

i. The radius of the hollow curvature of the positive's diverging lens is greater than the fourth part of the focal length of the positive, and the radius of the raised At the same time, the curvature is at most twice as large as the former wheel.

z. The outer surface of the negative facing the positive is raised. With a relative opening of i: - 3 of the positive, it is possible that the highest The angle of incidence is about 30 °, that of the hollow surface of the diverging lens ides positive occurs while only turning i o ° at the hollow surface of the negative. the The embodiment given below provides evidence of this.

If glasses with a sufficiently large distance of their color dispersion power were available, the objective with only two lenses would also be chromatic correctable, but either the diverging lens or the converging lens must be off a converging crown glass lens and a diffusing flint glass lens cemented are produced, with the two types of glass having the same refraction exponents as possible own.

For a perfect chromatic correction of the telephoto lens, however must in any case be a negative made up of a collecting Ftintglaslens and a dispersing, approximately equally high refractive crown glass lens are composed.

If the parts are completely corrected for themselves, the positive can be used alone as a fast photographic lens, and the negative can be combined with any other photo lens as a positive to form a telephoto lens. Embodiment. Spherically and chromatically corrected telephoto lens with the relative aperture of B. The lens has a lens diameter of 69 and a focal length of Zoo, so its relative aperture is i: 3. The diameter of the negative is 50 and its focal length is 136. The focal length of the telephoto lens is Soo. It is shown in approximately natural size in the picture. The letters in the illustration match those in the numbers. nD or nG! are the refractive indices for the spectral lines xD and G 'of the types of glass used for lenses L, and L, etc. and. ri = 94 is smaller than: z - r $ = 142.

The surface r4 of the negative is raised. Radii thicknesses and distances ri = -1- 94, i0 di = 7.85 rs = - 34505 d2 = 4.70 y 3 = -I- 7 1 05 Zi = 3, 1 5 r4 = -i- 83.1o da = 9.40 y, - + r255.00 l2 = 94., i0 r 6 = -I- 313.65 d4 = 6.30 r7 = - 6 2 , 75 4s ° 4.70. yes = - "65.85 Types of glass. Li = L, = La: nD = 1.6237o nG '= i, 6377 = L2 = L4: nD = 1.6235o nG! = 1.64457.

Claims (3)

PATENT CLAIMS: i. Telephoto lens with variable focal length, the positive of which consists of a diverging lens with the raised surface facing the object and a simple, unequal-sided converging lens facing the object and separated from it by air, and the negative of which turns its hollow surface away from the positive, characterized in that the The radius of the hollow surface of the diverging lens of the positive is greater than the fourth part of its focal length, while the radius of the raised curvature of this diverging lens is at most twice as large as the radius of the hollow surface. 2. Lens according to claim i, characterized in that that the surface of the negative turned towards the positive is raised. 3. Lens according to claim i, characterized in that the divergent lens -des Pas: itivs from a collecting crown glass lens and a divergent Flintglasliaae is cemented.