DE1083063B - Wide angle lens - Google Patents

Description

Wide-angle lens The invention relates to wide-angle lenses, whose focal length is at least equal to the focal length and thus one of the long ones Back focal distance of the scattering front lens, in particular of a meniscus-shaped lens Shape, have. Depending on the required angle of view and the ratio of the focal length The known systems of this type have different structures for focal length. here it is a lens in which the focal length is only a little, namely up to to 10%, larger than the focal length and in which the length is also in the Order of magnitude of the focal length or back focus. The focal ratio should at least 1: 3.5, preferably 1: 2.8, the angle of view is between 60 and 65 °.

For the construction of the collecting link behind the scattering meniscus many suggestions are known. The lens according to the present invention contains five free-standing lenses in the collecting member, of which those following the meniscus the first three collect, the fourth scatters and the last, facing the short cutting distance, collects again.

The length of the air spaces is decisive for the correction of the coma, which include the preferably biconcave diverging lens, and the thickness of the latter Converging lens. According to the invention, therefore, the length of the air spaces on both sides is the Divergent lens smaller than 7% of the focal length and the thickness of the last convergent lens, which is almost plano-convex, more than 18, but preferably 20% of the focal length. It This includes that the refractive index of the meniscus-shaped converging lens, that of the diverging lens is adjacent on the side of the long back focal length, smaller than 1.65, is preferred is about 1.62; on the other hand, the refractive indices of these are in turn on the side of the long back focus adjacent converging lens, which is the third lens of the total System is, the divergent lens itself and finally the last one, you continue to be on the side of the short focal length adjacent converging lens practically equal to each other and high, namely preferably 1.70, with a deviation of up to 0.02 upwards or downwards.

The first one that follows the front divergent lens is used for flattening the image The converging lens is important, the meniscus-shaped with radii between 1 and 1.4 times the focal length, the thickness of which is at least 10% of the focal length and whose refractive index is the highest of the refractive indices of all lenses in the entire objective, while their Ny value is at the same time the smallest. This corresponds to the negative Front lens has a Ny value because of the correction of the color magnification error, which is over 65, preferably over 69.

In the figure, an example of the lens according to the invention has been shown; its dates are as follows: f '= 100 mm, aperture ratio 1: 2.8 Focal length 104.6 mm Overall length 101.5 mm rh = -I-194.5 dl = 5.9 1.517 / 69.6 r2 = -I- 48.2 h = 21.5 r3 = -I-107.2 d2 = 10.3 1.805 / 25.5 r4 = -I-121 L., = 7.0 r5 = -I-100.8 d3 = 11.6 1.713 / 53.9 r6 = -163 13 = 2.5 r.7 = + 39.8 d4 = 7.45 1.622 / 53.1 r $ = -I- 62.1 14 = 5.62 r0 = -144.4 d5 = 2.5 1.717 / 29.5 r10 =; - 47.2 15 = 6.18 r11 = -I-781 d 6 = 20.5 1.697 / 55.6 r12 = - 51.7

Claims (3)

PATENT CLAIMS: 1. Wide-angle lens with a minimum aperture of 1: 3.5 made of six individual lenses, the focal length of which is up to 10% larger than the focal length and the overall length of which is also of the order of magnitude of the focal length, the front lens of which represents a scattering meniscus on which three The converging lens, a diffusing lens and finally a converging lens follow, characterized in that the air spaces enclosing the diffusing lens are smaller than 7% of the focal length and that the converging lens following this diffusing lens in the direction of the short back focus has a thickness of at least 18% , preferably 20o%, has the focal length, that furthermore the converging lens adjacent to the long back focus has a refractive index of less than 1.65, preferably about 1.62, while the diffusing lens itself, the converging lens and the following it middle of the included three converging lenses all have a refractive index of 1.70 within a deviation of 0.02 n have at the top or bottom. 2. Lens according to claim 1, characterized in that the glass of the negative meniscus-shaped front lens has a Ny value of at least 65, but preferably 69, and that the following The converging lens consists of a glass with the highest refractive index, the Ny value has the smallest amount of all lenses in the objective, this lens being meniscus-shaped is, their radii are between 1 and 1.5 times the focal length of the lens and their thickness is about 10 per cent of the focal length. 3. Lens according to claim 1 and 2, characterized by the following data in any length units, to be understood with ± 10 ° / o tolerance of the surface powers, based on the total refractive power of the lens, with ± 10 ° / o tolerance of the thicknesses and distances, based on the focal length, with ± 0.03 tolerance of the refractive index and ± 0.5 of the Ny values: r1 = + 194.5 d1 = 5.9 1.517 / 69.6 r2 = + 48.2 1i = 21.5 r3 = -f-107.2 d2 = 10.3 1.805 / 25.5 r4 = -f-121 12 = 7.0 r5 = -I-100.8 d3 = 11.6 1.713 / 53.9 r6 = -163 13 = 2.5 r7 = -I- 39.8 d4 = 7.45 1.622 / 53.1 r8 = + 62.1 14 = 5.62 r9 = -144.4 d5 = 2.5 1.717 / 29.5 rio = 'r 47.2 15 = 6.18 rii = -I-781 do = 20.5 1.697 / 55.6 r i2 = - 51.7