DE937311C - Optical system with ring-shaped zones of different refractive power - Google Patents

Description

Optical system with ring-shaped zones of different refractive power object the invention is an optical system, e.g. B. as an attachment in front of photographic lenses, which has ring-shaped zones of different and adjustable refractive power.

Systems are known which are used to achieve soft character effects have annular zones of different refractive power and manufactured in the way that either ring-shaped grooves are ground in lenses or plane-parallel plates or the individual zones are ring-shaped parts of different coaxial spherical surfaces Represent curvature.

So far, they have mostly only been used to achieve artistic soft-focus effects has been measured, but attempts have also been made to increase the depth of field to use, which is to be caused by. That the individual zones in different Focus on objects at a distance in the same plane. These so-called However, soft-focus lenses can also only be produced for a specific effect and have the disadvantage that they are subject to the given conditions in practice can be very different, cannot be adapted. This usually results in unnecessary, very ugly, I seem blurred.

The arrangement according to the invention has the advantage that the effect so coordinated within limits that are completely sufficient for practice can be that the best possible for the respective imaging conditions Ratios can be achieved.

According to the invention, this is achieved in that the optical The system consists of two or more sub-systems designed according to the claims, whose distance from one another is variable. The invention is presented in the drawing is explained using some exemplary embodiments.

Fig. I shows a subsystem of the optical system according to the invention, in which the optically effective surface is divided into several different ring zones in a known manner Refractive power is divided. There are three ring zones with three different ones in the drawing Radii of curvature r1, r2 and r3 shown.

The same subsystem is in Fig. 2 in combination with a second Similar subsystem of negative refractive power is shown. The distance between the two Dividing is changeable. Such a system can be used in front of the usual taking lens be switched on in the beam path.

In this example, the subsystems each have only positive or negative refractive powers. In contrast to this, an optical system is shown in Fig. 3, its subsystems each have zones with partly positive and partly negative refractive power exhibit.

According to a further feature of the invention, the two subsystems designed in such a way that, in the state of closest approximation, it has the refractive power of zero own (see Fig. 5). The production of the subsystems can expediently be carried out by that correspondingly ground lenses 2 are cemented onto plane-parallel plates i.

According to a further feature of the invention, the surfaces are the individual ring zones coordinated so that each zone area is approximately the same Image brightness generated (Fig. Q.).

According to a further feature of the invention, the optical system can also be designed so that the refractive power is the same over the entire system area is great. In order to eliminate astigmatic errors at larger angles of view, dimension the radii of curvature of the refracting surfaces so that their center is approximately in the entrance pupil of the following optical system. lies. The optical one According to the invention, the system can be composed of two or more parts, which can move against each other (see Fig. 6).

Claims (7)

PATENT CLAIMS: i. Optical system with ring-shaped zones of different refractive power, characterized in that it consists of two or more sub-systems which can be displaced relative to one another along the optical axis, in such a way that, by changing the distance, the resulting refractive powers of the individual zones of the overall system by the same or different amounts be changed. 2. Optical system according to Claim i, characterized in that the subsystems are ring zones have different refractive power, which are limited by coaxial spherical surfaces. 3. Optical system according to claims i and 2, characterized in that a or several sub-systems in their zones positive refractive power and the other part Gy stones have negative refractive power. q .. Optical system according to claims i and 2, characterized in that one or more subsystems in a part of the Zones' have positive power and negative power in the other part of the zones. 5. Optical system according to Claims 1, 2 and 3 or q., Characterized in that that the sum of the positive and negative refractive powers belonging to a zone is close to zero. 6. Optical system according to claims 1, 2 and 3 or q., Characterized characterized in that the subsystems consist of lenses or plane-parallel plates, which ring zones of different refractive power are ground in a known manner are. 7. Optical system according to claim i to 6, characterized in that the Sizes of the individual zone areas are coordinated so that each zone area is the same Image brightness generated. B. Optical system according to claim i, consisting of two or several individual lenses, the sum of their refractive power when the lenses are fully approached to each other is zero. G. Optical system according to claims 1 and 8, as an attachment system characterized in that all surfaces of finite curvature have their center of curvature approximately in the center of the Eintrsttsptipille of the following optical system.