DE1120236B - Backlash-free, coaxial guidance of cylindrical parts - Google Patents

Description

Backlash-free, coaxial guidance of cylindrical parts The invention relates to a backlash-free, coaxial guidance of cylindrical parts such. B. in mounts for photographic or kinematic lenses for the purpose of distance and focal length adjustment, by means of guide rollers, of which preferably three each Rolls in at least two levels in corresponding openings in the guide cylinder and / or the bearing sleeve are arranged.

When moving optical system elements for the purpose of distance or Focal length adjustment, for example in so-called varifocal lenses via a relatively long path, the exact centric guidance causes difficulties. On the one hand, it must run smoothly, be insensitive to lubrication and temperature, on the other hand results in the slightest deviation from the same optical axis of all System elements lead to a reduction in the imaging performance.

There are already devices with telescopic guidance of cylindrical Share known using guide rollers, with three roles in two Levels of the guide cylinder and the bearing sleeve are mounted, one of which each is resilient and for the purpose of anti-twist protection in a longitudinal groove in the guide cylinder runs. The rollers are here with their axes in bores or slots that run transversely to the guide axis, stored, each in special operations can be produced by drilling or milling and thus a precisely coaxial guidance of the parts cannot be guaranteed.

The invention aims to remedy this deficiency, and is thereby characterized in that the pivot pins of the rollers are in annular grooves of the same axis of rotation Guide cylinder and / or the bearing sleeve are mounted.

As a result, in the case of a cheaper production method, by screwing in the grooves - A particularly precise storage for the roles and thus for each other moving parts achieved, especially with regard to their common axis position an indispensable requirement for optical devices.

The invention is shown in the drawing on the basis of two exemplary embodiments illustrated. 1 shows a longitudinal section with a partial view of a Guide cylinder with an internally mounted displaceable sleeve, FIG. 2 shows a cross section through these parts, Fig. 3 shows a longitudinal section through a device with an externally mounted displaceable sleeve, Fig. 4 is a front view of the same.

In Fig. 1 and 2, a denotes the guide cylinder and b denotes the one in it displaceable bearing sleeve, for example as a carrier for an optical lens element c. Annular grooves d with the same axis of rotation in the bearing sleeve b and corresponding Longitudinal slots e serve to accommodate the guide rollers f with bearing journals f 'in such a way that that preferably three such roles are provided in one plane, according to Fig. 1 in two such storage levels.

For the purpose of self-centering, one of the three rollers f, denoted by f 'in FIGS. 1 and 2, is resiliently mounted, for example by longitudinal slots g and possibly also transverse slots h in the bearing sleeve b. To secure against rotation, the resilient rollers f 'run in a longitudinal groove ä in the guide cylinder a. The bearing sleeve b with the optical member c can thus be adjusted smoothly and maintenance-free within the guide cylinder a without play, exactly on the same axis and secured against rotation in both directions (arrow I in FIG. 1).

The arrangement according to FIGS. 3 and 4 differs from the one described in that an outer tubular part b is to be moved smoothly and without play in both directions on an inner, fixed guide cylinder a according to arrow II. For this purpose, on the one hand, the guide cylinder a has the three rollers f, f 'mounted in one plane, on the other hand, the outer bearing sleeve b carries three further rollers k, one of which, k', is also resilient through a longitudinal slot m and transverse slot n is and runs in a longitudinal groove ä of the guide cylinder a. A groove j with the same axis of rotation in the bearing sleeve b is used to accommodate the rollers k and k '.

As shown in Fig. 3 and 4, the suspension for the rollers f 2 (or k ') z. B. can also be achieved by leaf springs i , which are connected to the respective support body a or b by riveting i.

Claims (1)

PATENT CLAIM: Backlash-free, coaxial guidance of cylindrical parts, e.g. B. in sockets for photographic or cinematographic lenses for the purpose of distance and focal length adjustment, by means of guide rollers, of which preferably three rollers are arranged in at least two levels in corresponding openings of the guide cylinder and / or the bearing sleeve, characterized in that the pivot pin of the Rollers (f, 12 or k, k ') are mounted in annular grooves (d or j) of the same axis of rotation of the guide cylinder ( a) and / or the bearing sleeve (b). Documents considered: German Patent No. 924 721; USA: Patent No. 2,858,172; VEB Carl Zeiß Jena "Design examples from precision device technology", 1955, pp. 49 and 57.