DE318178C - - Google Patents

Description

The foregoing invention is an improvement on the previous Galilean telescopes as a result of which they are supposed to gain field of vision without reducing the clarity of the images and loss of light intensity.

With the standard telescopes gali-

. Leischer design, both the objective and the eyepiece consist of a double or triple cemented lens system. Because

Because of the position of the focal and main points, an enlargement of the field of view can only be achieved by shortening the focal lengths and increasing the lens diameter, which, however, is soon practically limited. Another possibility, which has already been discussed in the literature, to achieve the same purpose without having to reduce the focal length of the individual lenses too far, is to produce an objective or an eyepiece or both together in the manner of a telesystem and to eliminate the image errors in and except for the axis, either separately or together for the entire system.

The invention relates to Galilean telescopes with a chromatically and spherically corrected objective, a simple converging lens and a simple negative eye lens. According to the invention, certain types of glass are to be used in telescopes of this type, namely the bumbling part of the objective and the lens of the eye consist of the heaviest barite crown with a refraction quotient of about 1.612, the negative part of the objective consists of heavy flint with a refraction quotient no of about 1.6489 and the converging lens made of a barite light flint with a refraction quotient riQ of about 1.5694. This is intended to achieve an aperture ratio of ι: 2 for the combination of objective and converging lens.

As an exemplary embodiment, a Galilean telescope with triple is shown in the drawing Shown enlarged.

The lens consists of a biconvex lens made of the heaviest barite-crystal glass and one with it cemented concave-convex lens made of heavy flint glass. The eyepiece is made from two lenses, namely from a meniscus-shaped converging lens with a longer focal length Baryta flint and a meniscus-shaped eye lens with a short negative focal length, made of the same material as the crown glass lens of the objective at a finite distance from each other, and which turn their hollow surfaces to the eye.

The dimensions of this telescope are as follows:

Thicknesses and distances

Radii
T ₁ = + 66.28
H = -39.76
U = - 37.74 r ₄ = + 37-45
h = + 63.56

H = + 51.05
* -, = +10.0

A ₁ = 9 K = 4.5 ^e i = 1.5 ^ 3 = 3.5 H - 3.0

Glass types'
L ₁ L ₂ L _a -Σ-4

tID = I, 6l32 1.6486 1.5694 I, 6l22

n _F - nc = 0.01081 0.01917 0.01017 0.01081 ν = 56.6 33.8 56.0 56.6.

This construction ensures that the negative cut of the eyepiece ratio to the focal length is quite large, so that the eyepiece is very close to the lens

10, and therefore the lenses have smaller diameters despite the large field of view can.

Since it is well known that the Galilean telescope does not depend so precisely on the elimination of the spherical errors, both subsystems are not painstakingly corrected to ensure that there are no spherical aberrations. In contrast, the color correction for C and F, primarily the chromatic magnification difference, was also corrected for freedom from coma, astigmatism and distortion for an apparent field of view of 42 °. There is nothing to prevent a combination of two such systems into a binocular telescope.

Claims (1)

Patent claim: Galilean telescope with chromatically and spherically corrected objective, a simple converging lens and a simple negative eye lens, characterized in that the converging part of the objective and the eye lens are made from the heaviest barite crown with a refraction quotient n _D of about 6ii2, the negative part of the objective from heavy Flint with a refraction quotient Ud of about 1.6489 and the converging lens made of a Baryta light flint with a refraction quotient n _D of about 1.5694. 1 sheet of drawings.