DE1847600U - GALILIAN BINOCULARS. - Google Patents

Description

Galileo glass. ! ! The present invention relates to the optical system Galilei- binoculars and significantly improves their image performance, not only with regard to the freedom from aberrations, but also with regard to magnification and angle of view for an essentially given overall length of the glass.

It is known that the magnification of Galilei glasses of the usual type and the achievable field of view size, expressed as an angle or on a Distance transverse to the optical axis measured at a distance of 1000 m, in a relationship to each other given by experience, and that performance Such a glass is only noticeable by considerably more extensive optical means can be increased. The present invention provides such means.

It is known that a Galileo glass of about 3.5 times magnification has a field of view of 200 m by 1000 m or a little more; where the ratio is from lens diameter to overall length about 1: 1.5. To enlarge the field of view, this ratio must be reduced; but then the refractive powers of the lens and to increase the eyepiece so that you can no longer get by with a total of three lenses. The present invention accordingly describes Galileo telescopes of at least 3-fold, preferably about 3.5-fold magnification, their field of view 245 to 275 m to 1000 m, and where the ratio of lens diameter to overall length is below 1: 1.4 and almost reached 1: 1.

This increase was possible because of the positive component of the lens has been split into two lenses, one of which is considered to be free-standing Meniscus is facing the object, the other with a diverging lens Flint glass was cemented.

The refractive index of the converging lenses is at least 1.54, preferably 1.57 and more, while the divergent lens refractive indices not below 1.64, preferably about 1.70. With regard to the correction of chromatic aberration, especially laterally Tufts require the ratio of the Ny values of the two antier putty surfaces The glasses that come together should be measured to at least 1.8, but expediently to more than 2.

With regard to the short overall length and the resulting short length Focal length with a diameter that is comfortable for the eyes, the eyepiece is made up of two lenses, whose refractive index does not play a significant role; it is possible but not necessary make both lenses from the same glass. With regard to the chromatic aberration lengthways the axis, however, requires a low color dispersion, i.e. a high Ny value.

For the correction of the aberrations at the edge of the field of view must the lens adjacent to the eye, taken in absolute terms, has a lower refractive power than who have to stand after the lens; according to the invention, both lenses reverse theirs curved surface from each other, whereby they are preferably bi-concave, in the borderline case plano-concave Have shape.

The following table contains examples of Galileo glasses according to the invention; the figure shows an axial section through example II. Example 1IIIIIIV V VI rl + 23, 4 + 22, 2 + 21, 3 + 23, 2 + 23, 2 + 22, 2 d 5, 2 5.1 5.8 6, 3 6, 3 6, 6 nI / vI 1, 603/60, 7 1, 603/60, 7 1, 589/61, 2 1, 589/61, 2 1, 589/61, 2 1.603 / 60.7 r2- + 121, 3 + 117, 5 + 186, 5 + 200.0 +200, 0 +95, 3 11 0, 3 0.1 0.3 0, 1 0, 1 0, 1 r3 - + 35.6 + 34, 4 + 38, 4 + 41, 2 + 41, 2 + 34, 4 d2 6, 6 6, 3 7, 8 9, 1 9, 1 7.7 n2 / v2 1, 569/63, 1 1, 569/63, 11, 569/63, 1 1.569 / 63.1 1.569 / 63.1 1.569 / 63.1 r4-42, 1-46, 4-24, 4-26, 1-26, 1-46, 4 d3 1, 4 1, 4 1.5 1.4 4 1, 4 n3 / v3 1, 699/30, 1 1.699 / 30.1 1, 648/33, 9 1.648 / 33, 9 1.648 / 33.9 1, 699/30, 1 erg '+ 60, 2 + 56, 3 + 49, 0 + 53, 9 + 53, 9 + 60.1 12 16.5 15.4 13, 3 13.7 13, 7 13, 4 r6-16, 9-16, 4-16.4-16.3-16, 5-15.0 d4 1, 0 1, 0 1, 0 1.0 1.0 0.9 n4 / v4 1, 4870, 0 1, 487/70, 0 1.5174.2 1, 5164, 2 1, 517/4, 2 1.569 / 56, 0 r7 + 19.4 + 25.9 + 25.9 + 54.6 + 35.3 oo 13 1.5 1.8 1.8 1.5 1.5 1.5 rg-50, 4-27, 1-38, 8-89, 7-89, 7-32, 7 d5 1.0 1.0 1.0 1.0 1.0 0.9 n5 / v5 1, 487/70 1, 487/70 1.51'64 ', 2 1.5174 1, 517 / 64.2 1.569 / 56, 0 r9 + 28.6 + 27, 1 +25.9 + 16, 2 + 17, 6 + 19, 3 Lens 1 27.0 27, 0 27, 0 1, 0 31, 0 31.0 Overall length 33.5 32, 1 32, 5 34, 1 34, 1 32, 5 Magnification 3, 40 3, 42 3.43 3.43 3.44 3, 41 Ge r '.. Fe1d at 1000m 245 m 245 m 245 m 265 m 265 m 275 m

Claims (5)

! a en 2 2 r U ch e. -i ------- 2 1. Galilean binoculars made of five lenses, which with a magnification of at least 3 times an image field of at least 240 m 1000 m guaranteed, and in which the ratio of the objective u c diameter to the overall length is at least 1: 1.4, characterized in that the objective consists of a free leniscus lens facing the object and a member cemented to improve the chromatic aberration, and that both converging lenses of the objective have a refractive index above 1.54, preferably 1 , 6o, while the refractive index of the diverging lens of the objective is at least 1.63, preferably up to 1.67, and further characterized by a two-line eyepiece made of concave lenses, which turn their curved surface away from each other, of which the one adjacent to the eye is absolutely weaker Has refractive power, and both biconcave, possibly planoconcave shape. 2. Galileo telescope according to claim 1, characterized in that @eide The positive lenses of the objective consist of the same glass. 3. Galileo glass according to claim 1, characterized in that both The lenses of the eyepiece are made of the same glass. 4. Galileo glass according to claim 1 and 2, characterized in that the ratio of the Ny values of the glasses colliding in the Xitt member at least 1.8, preferably over 2.0. 5. Galileigals according to claim 1 and the following, characterized (lUrch the following data in any units of measurement with: 5 @@ tolerance of the surface powers, with 5-21 tolerance of individual thicknesses or air space lengths, measured on the entire Overall length, with ~ 0.03 of the refractive index and ~ 3 units of the Ny values.