DD156637A1 - DEVICE FOR CHANGING THE TILT OF A DEVICE - Google Patents

Abstract

Device for changing the inclination of a piece of equipment relative to a base by means of two kreiszylinderfoermiger wedges, are connected by the device part and the base resiliently. It should be ensured a sufficient range of inclination for the Geraeteteil without compulsory forces and lots. In addition, the central space for the arrangement of an optical solder is to be created. For this purpose, at least three segmentfoermige, by the same amounts offset from each other, the entire circumference detecting leaf springs are attached with equal ends on Geraeteteil and at the base.

Description

Title; Device for changing the inclination of a piece of equipment

Field of application of the invention :

The invention relates to a device for changing the inclination of a device part relative to a base by means of two provided between the device part and base circular cylindrical wedges having substantially equal diameter and are rotatable about the same axis, the device part with the base through the interior the wedges is resiliently connected. The invention is particularly suitable as a leveling device for geodesic devices in which a rapid leveling is made possible by opposite rotation of the wedges »

Characteristic of known technical solutions:

In the known devices of this type, the device part is connected to the base via a crown or cross spring, whose attachment points are diametrically opposed to each other on the same component. If there are rigid, unyielding connections at the attachment points, the inclination or leveling range is inevitably small. If the connection of the spring to the same component is rigid and the other flexible, then the inclination or leveling area is increased, but with The sliding link involves an inevitable lot, despite the fact

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small tolerances in angle measurements of medium and high accuracy causes significant, non-systematic error influences. In addition, cross and crown springs hide the axial region of the circular cylindrical wedges, so that, for example, the arrangement of a conventional optical solder on the device part of a geodetic measuring device is prevented ·

Object of the invention: ^:

The invention is intended to avoid the specialized parts of the "known devices for tilting and leveling, to extend their inclination range and to increase the accuracy or reproducibility of the position changes of the device part to the base.

Explanation of the essence of the invention; \. ,

The invention has for its object to design the resilient connection between the device part and the base so that a sufficiently large inclination range for the device part without disturbing constraining forces

"'.' and loose is guaranteed. According to the invention this object is achieved in that offset outside the axial region of the wedges at least three segment-shaped leaf springs by equal amounts, arranged substantially coaxially to the axis of rotation and each with one end to the base and with the other The springs are rigidly connected with their ends to the respective component, so that no lots and thus no erroneous measurement errors from the instrument eil de deficiencies can occur in Yermessungs- and Feinmeßgeräten.

By appropriate dimensions of the segment springs

is it possible to have an optimal torsion-proof connection. :: to reach between the device part and the base. The leaf springs must be coordinated in their length, width and thickness and their number. Particularly favorable conditions for this result in a simultaneously 'large range of inclination, when the leaf springs are each attached with the same ends on the device part or «at the base.

Embodiment;

The invention will be explained in more detail below with reference to the schematic drawing. Show it: :

Fig. 1 is a longitudinal section through the invention

Device and .Fig. 2 is a plan view of the same device,

1.5 in which the device part removed: is.

On a base 1 with a recess 2 provided with a handle 3 circular cylindrical wedge 4 is slidably mounted «, Another kreiszylinder- shaped, provided with a handle 5 wedge 6 is slidably mounted on the wedge 4 with this coaxial with an axis XX and rotatably mounted about this axis. A device part 7 is placed with an annular bearing surface 8 on the wedge 6. As well as the wedge 6 slides on the bearing surface 8 of the device part 7, supports the wedge 4 on an annular bearing surface 9 of the base 1 · The device part 7 has a socket 1O, in which an unillustrated part of the measuring instrument introduced / can. With the base 1 and with the device part 7, three segment-shaped leaf springs 11 are $ 12; 13 tightly bolted with their opposite ends. The leaf springs 11; 12; 13 are arranged substantially coaxial with the axis X-X and in the vicinity of the wedges 4 and 6. They are inside the wedges

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and pull the device part 7 with its sliding surface 8 against the wedge 6, the two wedges 6 and 4 against each other and the wedge 4 against the sliding surface 9 of the base first , _:; · '

In the illustrations of Figures 1 and 2 are provided with the handles 3 and 5 thick parts of the wedges 4 and 6 diametrically opposite each other. Since the wedge angles t # and thicknesses of both wedges are the same, the device part 7 assumes a position parallel to the base 1. If the thick parts of the wedges 4 and 6 lie exactly above one another, the device part 7 is opposite the base 1 at an angle of 2 owns. By turning the wedges 4 and 6 by means of the handles 3 and 5 against each other, the device part 7 can be tilted by any angle lying between 0 ° and 2tf relative to the base.

Claims (3)

_ 5 - Claim for invention ; 1. A device for changing the inclination of a device part relative to a base by means of two provided between the device part and base circular cylindrical wedges having substantially equal diameter and are rotatable about the same axis, wherein the device part to the base by the interior of the wedges resiliently connected is characterized in that outside the axial region of the wedges at least three segment-shaped leaf springs offset substantially at equal angles and are arranged coaxially to the axis of rotation and that the leaf springs are each attached at one end to the base and at the other end. 2. Device according to item 1, characterized in _ _ that the leaf springs are fixed in each case with identical ends on the device part and on the base. 26. 2. 1981
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