DE882344C - Vertical axis system, especially for precision instruments - Google Patents

Description

The invention relates to a vertical axis system, in particular for Precision instruments, e.g. B; for optical, geodetic and similar devices, where there is a need for the highest precision of the axle bearings to achieve a backlash-free run the standing axis arrives. In order to be able to set this backlash-free running of the axis, arrangements have already been proposed in which the bearing bushing Cylindrical vertical axis based on the three-point principle, only at three points on the circumference their races leads and one guide point, z. B. Guide jaw, vertical is provided adjustable to the bearing bush axis. The actuation -this adjustable The guide part has so far been carried out by arranged perpendicular to the bearing bush axis; by the bearing bush penetrating means, z. B. Spindles. etc.

In many. In some cases, the structural design of the devices leaves that one Arrangement not or only with considerable effort, creates for these cases the present invention remedy.

The invention consists in the fact that the initially designated type as an adjustable guide part for setting the backlash-free Axis run a supported on a wedge-shaped axial longitudinal groove of the bearing bush Guide bar. Serves, which is arranged displaceably in this groove. To a To ensure completely free adjustment of the vertical axis is in further training .The invention made the arrangement so that the guide bar over a bilious Surface is supported on the keyway. The adjustment .the guide bar can, for example by a mother who takes them along. take place; which trained on a threaded Approach of the bearing bush running, with means for locking the mother after done Setting are provided.

The drawing illustrates an exemplary embodiment in FIGS the invention.

With i, the cylindrical vertical axis is one in its details Theodolites, not shown, are designated with 2 the axis receiving this Bearing bush. The latter is recessed on its races so that both the upper as well as the lower race, similar to a three-point bearing, the axis at two i2o ° leads away from each other. The third, symmetrical to the two other running points arranged guide point is by a guide bar-3 which slides in a wedge-shaped axial groove 4. and find out about one bilious surface approach 5 is supported on this. If you adjust the guide rail in the height, it changes its distance to the standing axis at the same time. As a result of the bilious Support point, the two running points 6 and 7 nestle evenly on the vertical axis at. Adjusting the height of the guide rail and thus the distance to the axis takes place by means of a nut 8; in which the guide rail with an approach g engages. The nut runs on the threaded extension part i6. By means of well-known Funds can be provided for securing the mother's position. In the Device manufacturing can thus ensure the final fitting of the axle into the bearing bush and thus the setting of a backlash-free run with the lowest possible oil film by simply adjusting the nut 8.

Claims (1)

PATENT CLAIMS: i. Vertical axis vision system with adjustable bearing play, especially for precision instruments, in which the bearing bushing is the cylindrical Vertical axis based on the principle of three-point support only at three points on its circumference Races leads, one guide point adjustable perpendicular to the bearing bush axis is, characterized in that an adjustable guide part is on one wedge-shaped axial longitudinal groove of the bearing bush supporting and displaceable in this Guide bar is used. Ä. Vertical axis system according to claim F, characterized in that that .the guide bar extends over a bilious surface. the keyway. 3. Vertical axis system according to claim i and 2, characterized in that the displacement the guide bar in the keyway through a nut that drives it, which runs on a threaded neck of the bearing bush.